CN112880090B - Environment-friendly purification type oxygen-generating fresh air system - Google Patents

Abstract

The invention relates to the technical field of fresh air generating systems, and discloses an environment-friendly purification type fresh air generating system which comprises an oxygen generator, at least one internal machine, an oxygen supply pipeline and a control panel, wherein the control panel is respectively in signal communication connection with the oxygen generator and the internal machine; the oxygen generator is arranged outdoors, the indoor unit is arranged indoors, and the control panel is used for monitoring the air quality and controlling the oxygen generator and the indoor unit. The user can know the indoor air quality in real time through the control panel, when oxygen needs to be supplemented, the oxygen generator is started, the oxygen generator transmits oxygen to the indoor unit through the oxygen supply pipeline, and the indoor unit discharges the oxygen to the indoor unit; control panel is based on monitoring data, and when oxygen content exceeded the default, the automatic shutdown oxygen suppliment avoided the waste of resource, realized intellectuality, reduced the manual control, greatly improved user's experience and felt.

Description

Environment-friendly purification type oxygen-generating fresh air system

Technical Field

The invention relates to the technical field of oxygen generation fresh air systems, in particular to an environment-friendly purification type oxygen generation fresh air system.

Background

Along with the improvement of living standard of people, the requirement of people on indoor air environment is relatively improved, and the indoor air quality plays a vital role in maintaining human health.

At present, in order to improve indoor air, an air purifier is adopted to purify the indoor air, and a purifying and filtering material of the air purifier is a consumable product and needs to be replaced after being used for a period of time, so that the resource waste is serious.

Or the adopter inhales air from the outside, filters and purifies the air, pressurizes the air indoors at the same time, and discharges the dirty air indoors through the door and window gaps; additional energy consumption is required to treat the outdoor air intake to maintain the indoor air temperature constant.

Among the prior art, air purifier lacks and monitors air quality, easily causes the wasting of resources or the quality is not conform to and presets the standard, lacks intelligent control.

Disclosure of Invention

The invention aims to provide an environment-friendly purification type oxygen-generating fresh air system, and aims to solve the problem that air purification is lack of intelligent control in the prior art.

The invention is realized in this way, the fresh air system of oxygen generation of environmental protection and purification type, including oxygenerator, at least one indoor unit, oxygen supply pipeline and control panel, the said control panel presents the signal communication with said oxygenerator and said indoor unit separately and connects, the said oxygenerator is used for separating the oxygen in the atmosphere, both ends of the said oxygen supply pipeline connect said oxygenerator and said indoor unit separately, the said indoor unit has air outlets, the said indoor unit outputs oxygen to the indoor through the said air outlet; the oxygen generator is arranged outdoors, the indoor unit is arranged indoors, and the control panel is used for monitoring air quality and controlling the oxygen generator and the indoor unit.

Further, the control panel is mounted on an indoor wall; the control panel comprises a control part, a plurality of keys and a display screen, the display screen displays the oxygen content in the room, a control program is preset in the control part, the control part is respectively and electrically connected with the keys and the display screen, and the keys are used for controlling the oxygen generator and the indoor unit.

Further, the control panel comprises a control shell, a main detector and a main absorber, the display screen, the keys, the main detector and the main absorber are respectively installed on the control shell, and the main detector is electrically connected with the control element; the control shell is provided with a main detection cavity, the interior of the suction chamber of the main aspirator is controlled to the main detection cavity, and the main detector is positioned in the main detection cavity.

Further, the control panel comprises a movable shell, and the movable shell and the control shell are arranged in a buckling or separating mode; the movable shell is provided with an auxiliary detector, an auxiliary sucker and a transmission part, the auxiliary detector and the auxiliary sucker are respectively and electrically connected with the transmission part, the control shell is provided with an auxiliary detection cavity, the auxiliary sucker is controlled to the auxiliary detection cavity in a suction chamber, and the auxiliary detector is positioned in the auxiliary detection cavity; the transmission piece and the control piece are in signal transmission arrangement.

Further, the oxygen suppliment pipeline includes trunk line and a plurality of minute pipeline, each the minute pipeline with each the internal unit is the one-to-one and arranges, the one end of minute pipeline with the internal unit is to be connected and the intercommunication arranges, the other end of minute pipeline with the inner of trunk line is to be connected and the intercommunication arranges, the outer end of trunk line with the oxygenerator is to be connected and the intercommunication arranges.

Further, the oxygen generator comprises an air suction pipe, an oxygen conveying pipe, an exhaust pipe and a treatment cavity, wherein the air suction pipe is used for extracting external air, the oxygen conveying pipe is used for conveying oxygen to the oxygen supply pipeline, and the exhaust pipe is used for discharging waste gas; the treatment cavity is respectively communicated with the air suction pipe, the oxygen delivery pipe and the exhaust pipe; the oxygen delivery pipe is connected and communicated with the oxygen supply pipeline; the treatment cavity is provided with an inlet and an outlet, the air suction pipe is communicated with the treatment cavity through the inlet, and the oxygen delivery pipe is communicated with the treatment cavity through the outlet; the treatment chamber has first water conservancy diversion passageway, second water conservancy diversion passageway and joins the chamber, the inner of first water conservancy diversion passageway with the import is the intercommunication and arranges, the outer end of first water conservancy diversion passageway with it is the intercommunication and arranges to join the chamber, the inner of second water conservancy diversion passageway with the import is the intercommunication and arranges, the outer end of second water conservancy diversion passageway with it is the intercommunication and arranges to join the chamber, join the chamber with the export is the intercommunication and arranges.

Further, the environment-friendly purification type oxygen-generating fresh air system comprises a waste gas recovery device, and the waste gas recovery device is arranged outdoors; the exhaust pipe is connected and communicated with the waste gas recovery device; the waste gas recovery device comprises a freezing box, a pressurizer, a primary pipe and a secondary pipe, wherein the primary pipe is connected and communicated with the secondary pipe, the exhaust pipe is connected and communicated with the primary pipe, the pressurizer is used for pressurizing gas in the primary pipe, and the freezing box is used for cooling the gas in the secondary pipe.

Further, the indoor unit comprises an inner shell, a purification structure, an ion generator, an air supply structure and an inner tube, wherein the purification structure and the ion generator are respectively arranged inside the inner shell, two ends of the inner tube are respectively connected with the inner shell and the oxygen supply pipeline, the inner shell forms the air outlet, the ion generator is used for outputting negative ions, and the purification structure is used for filtering; oxygen supply pipeline carries oxygen process purification structure with ion generator, through the air outlet is carried to indoor.

Further, the inner unit comprises an air quality detector and an inner control board, the air quality detector is arranged on the inner shell, the air quality detector is electrically connected with the inner control board, and the air quality detector is used for detecting the indoor air quality; the oxygen generator comprises an outer control plate, the outer control plate is used for controlling the oxygen delivery degree, and the inner control plate and the outer control plate are in signal connection arrangement.

Furthermore, the environment-friendly purification type oxygen-generating fresh air system comprises a plurality of internal machines and a mover, wherein the internal machines are respectively arranged in different rooms, and the oxygen supply pipelines respectively convey oxygen to the different internal machines; the mover comprises a moving body, moving wheels and a moving pipe, wherein the moving wheels are used for promoting the moving body to be in moving arrangement, two ends of the moving pipe are respectively connected with the moving body and the inner machine, the moving pipe is in extending or contracting arrangement, the moving body is provided with a moving head, the outer end of the moving head forms a moving opening, the moving head is in a direction from inside to outside, and the caliber of the moving head is gradually increased; oxygen in the internal machine is conveyed to the moving main body through the moving pipe and conveyed to the indoor through the moving head.

Compared with the prior art, when the environment-friendly purification type fresh air generating system is used, a user can know the indoor air quality in real time through the control panel, based on the current situation, the control panel can control the oxygen generator and the indoor unit, when oxygen needs to be supplemented, the oxygen generator is started, the oxygen generator separates oxygen in the atmosphere and transmits the oxygen to the indoor unit through the oxygen supply pipeline, and the indoor unit discharges the oxygen to the indoor space after being filtered, so that the indoor oxygen content is enhanced; moreover, the control panel automatically stops oxygen supply of the oxygen generator when the indoor oxygen content exceeds a preset value based on the monitoring data; like this, when guaranteeing indoor air quality, avoid the waste of resource to, realize the intellectuality, reduce artificially to control, greatly improve user's experience and feel.

Drawings

FIG. 1 is a schematic perspective view of an environment-friendly purification type oxygen-generating fresh air system provided by the present invention;

FIG. 2 is a schematic perspective view of an oxygen generator of the environmental protection purification type fresh air oxygen generation system provided by the invention;

FIG. 3 is a schematic plan view of a treatment chamber of an oxygen generator of the environment-friendly purification type oxygen-generating fresh air system provided by the invention;

FIG. 4 is a schematic perspective view of an internal unit of the environmental-friendly purification type oxygen-generating fresh air system provided by the invention;

FIG. 5 is a schematic top view of an internal machine of the environmental-friendly purification type oxygen-generating fresh air system provided by the invention;

FIG. 6 is a schematic sectional view of part A of the environment-friendly purification type oxygen-generating fresh air system provided by the present invention;

FIG. 7 is a schematic perspective view of an oxygen supply pipeline of the environmental protection purification type oxygen generation fresh air system provided by the invention;

FIG. 8 is a schematic plan view of a pipe frame of the environmental-friendly purification type oxygen-generating fresh air system provided by the invention;

FIG. 9 is a schematic front view of a control panel of the environmental-friendly purification type oxygen-generating fresh air system provided by the invention;

FIG. 10 is a schematic sectional view of a control housing of a control panel of the environmental-friendly purification type oxygen-generating fresh air system provided by the invention;

fig. 11 is a schematic sectional view of a mobile casing of a control panel of the environmental-friendly purification type oxygen-generating fresh air system provided by the invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is described in further detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

The following describes the implementation of the present invention in detail with reference to specific embodiments.

The same or similar reference numerals in the drawings of the present embodiment correspond to the same or similar components; in the description of the present invention, it should be understood that if there is an orientation or positional relationship indicated by the terms "upper", "lower", "left", "right", etc. based on the orientation or positional relationship shown in the drawings, it is only for convenience of describing the present invention and simplifying the description, but it is not intended to indicate or imply that the referred device or element must have a specific orientation, be constructed in a specific orientation, and be operated, and therefore, the terms describing the positional relationship in the drawings are only used for illustrative purposes and are not to be construed as limiting the present patent, and the specific meaning of the terms may be understood by those skilled in the art according to specific circumstances.

Referring to fig. 1-11, preferred embodiments of the present invention are shown.

The environment-friendly purification type fresh air generating system comprises an oxygen generator 1, at least one indoor unit 2, an oxygen supply pipeline 4 and a control panel 3, wherein the control panel 3 is respectively in signal communication connection with the oxygen generator 1 and the indoor unit 2, the oxygen generator 1 is used for separating oxygen in the atmosphere, two ends of the oxygen supply pipeline 4 are respectively connected with the oxygen generator 1 and the indoor unit 2, the indoor unit 2 is provided with an air outlet 22, and the indoor unit 2 outputs oxygen to the indoor through the air outlet 22; the oxygen generator 1 is arranged outdoors, the indoor unit 2 is arranged indoors, and the control panel 3 is used for monitoring the air quality and controlling the oxygen generator 1 and the indoor unit 2.

When the environment-friendly purification type oxygen-generating fresh air system is used, a user can know the indoor air quality in real time through the control panel 3, based on the current situation, the oxygen generator 1 and the indoor unit 2 can be controlled through the control panel 3, when oxygen needs to be supplemented, the oxygen generator 1 is started, the oxygen generator 1 separates oxygen in the atmosphere and conveys the oxygen to the indoor unit 2 through the oxygen supply pipeline 4, and the indoor unit 2 discharges the oxygen to the indoor space after being filtered, so that the indoor oxygen content is enhanced; moreover, the control panel 3 automatically stops the oxygen supply of the oxygen generator 1 when the indoor oxygen content exceeds a preset value based on the monitoring data; like this, when guaranteeing indoor air quality, avoid the waste of resource to, realize the intellectuality, reduce artificially to control, greatly improve user's experience and feel.

The control panel 3 is installed on the indoor wall; the control panel 3 comprises a control element, a plurality of keys 33 and a display screen 32, the display screen 32 displays the indoor oxygen content, the control element is preset with a control program, the control element is respectively and electrically connected with the keys 33 and the display screen 32, and the oxygen generator 1 and the indoor unit 2 are controlled through the keys 33; therefore, the user can know the indoor oxygen content through the control panel 3, and further control the oxygen generator 1 and the internal machine 2, so as to realize the control and regulation of oxygen supply.

The control panel 3 comprises a control shell 31, a main detector 36 and a main absorber 35, the display screen 32, the keys 33, the main detector 36 and the main absorber 35 are respectively arranged on the control shell 31, and the main detector 36 is electrically connected with the control element; the control shell 31 has a main detection cavity, the suction chamber of the main sucker 35 is controlled to the main detection cavity, and the main detector 36 is positioned in the main detection cavity; thus, based on the control program, the main aspirator 35 is intermittently controlled to start to suck the indoor air into the main detection cavity, the main detector 36 detects the indoor air to measure the oxygen content, if the oxygen content reaches the preset value, the oxygen generator 1 is automatically controlled to stop working to avoid the waste of resources, and if the oxygen content does not reach the preset value, the oxygen generator 1 is automatically controlled to start to automatically continuously supply oxygen.

The control panel 3 comprises a plurality of floors, different floors being installed on the walls of different rooms; the bottom plate and the control shell 31 are arranged in an adsorption mode, installation of the control shell 31 is achieved, and installation of the control shell 31 at different positions is achieved.

The control panel 3 is provided with a wireless module, and the control part is in wireless signal transmission with the inner control board and the outer control board respectively through the wireless module.

The control panel 3 comprises a movable shell 34, and the movable shell 34 and the control shell 31 are arranged in a buckling or separating manner; the movable shell 34 is provided with an auxiliary detector 38, an auxiliary sucker 37 and a transmission part, the auxiliary detector 38 and the auxiliary sucker 37 are respectively arranged in electrical connection with the transmission part, the control shell 31 is provided with an auxiliary detection cavity, the auxiliary sucker 37 is controlled in the suction chamber to the auxiliary detection cavity, and the auxiliary detector 38 is positioned in the auxiliary detection cavity; the transmission piece and the control piece are in signal transmission arrangement.

Like this, when control casing 31 is fixed arrangement, when control casing 31 can't shift at will, through removing casing 34, realize the shift of position, for example when the user carries out the conversion in regions such as bedroom, room, know the air content in different places at any time to and monitor the air condition in different regions at any time, adjust at any time and control the work of oxygenerator 1 and interior unit 2.

The movable shell 34 is provided with a movable support, the movable support comprises a first swinging plate and a second swinging plate, the first swinging plate and the second swinging plate are correspondingly arranged, the upper end of the first swinging plate is hinged with the movable shell 34, the lower end of the first swinging plate is movably arranged, the upper end of the second swinging plate is hinged with the movable shell 34, and the lower end of the second swinging plate is movably arranged; when the movable shell is used, the first swinging plate and the second swinging plate are swung, the lower end of the first swinging plate and the lower end of the second swinging plate are arranged in parallel and level, and the movable shell 34 is supported through the first swinging plate and the second swinging plate, so that the movable shell 34 is arranged in a suspended mode.

The bottom of the movable shell 34 forms a suction port, and the suction port is exposed through the first swinging plate and the second swinging plate, so that the auxiliary suction device 37 can conveniently suck indoor air to the auxiliary detection cavity, the auxiliary detector 38 can detect the air, different areas can be satisfied for air detection, and the work of the oxygen generator 1 and the internal unit 2 can be adjusted and controlled at any time.

The movable shell 34 is provided with a sealing plate for opening or closing the suction port, and the sealing plate is clamped on the movable shell 34 and opens the suction port when detection is needed.

The oxygen supply pipeline 4 comprises a main pipeline 41 and a plurality of branch pipelines 42, each branch pipeline 42 is arranged corresponding to each indoor unit 2 one by one, one end of each branch pipeline 42 is connected and communicated with each indoor unit 2, the other end of each branch pipeline 42 is connected and communicated with the inner end of the main pipeline 41, and the outer end of the main pipeline 41 is connected and communicated with the oxygen generator 1; thus, the oxygen generator 1 supplies oxygen through the main pipe 41 and then respectively delivers the oxygen to each internal unit 2 through each branch pipe 42, thereby realizing oxygen supply in different rooms.

In addition, it is arranged that, by the cooperation of the main pipe 41 and the plurality of branch pipes 42; the conveying path is simplified, and the oxygen is convenient to convey; meanwhile, the layout of the oxygen supply pipeline 4 is convenient.

The branch duct 42 is provided with a branch gate for opening or closing the branch duct 42 so that a user can select different rooms for oxygen supply.

The oxygen supply pipeline 4 comprises a plurality of pipe frames 43, and each pipe frame 43 is arranged in sequence; the main pipeline 41 penetrates through the pipe racks 43, the pipe racks 43 support the main pipeline 41, and the main pipeline 41 is arranged in a suspended mode; the branch pipelines 42 penetrate through the pipe frames 43, the pipe frames 43 support the branch pipelines 42, and the branch pipelines 42 are arranged in a suspended mode; the pipe frame 43 includes a locking portion for locking the main pipe 41 or the branch pipe 42; the layout of the main duct 41 and the branch ducts 42 is facilitated.

The lower part of the pipe frame 43 is provided with a pipeline wheel 432 and a locking plate 431, the oxygen supply pipeline 4, the locking plate 431 and the pipeline wheel 432 are sequentially and correspondingly arranged from top to bottom, and the locking plate 431 is abutted against the locking pipeline wheel 432; thus, the position of the pipe frame 43 is convenient to adjust, and the layout of the main pipeline 41 and the branch pipelines 42 is convenient; in addition, gravity is applied to the locking plate 431 by the self weight of the main pipeline 41 and the branch pipeline 42, so that the locking plate 431 locks the pipeline wheel 432, the pipeline wheel 432 is limited to move, and the position of the pipe frame 43 is fixed.

The oxygen generator 1 comprises an air suction pipe, an oxygen delivery pipe, an exhaust pipe and a treatment cavity, wherein the air suction pipe is used for extracting external air, the oxygen delivery pipe is used for delivering oxygen to an oxygen supply pipeline 4, and the exhaust pipe is used for discharging waste gas; the treatment cavity is respectively communicated with the air suction pipe, the oxygen delivery pipe and the exhaust pipe; the oxygen delivery pipe is connected and communicated with the oxygen supply pipeline 4; the treatment cavity is provided with an inlet 11 and an outlet 12, the air suction pipe is communicated with the treatment cavity through the inlet 11, and the oxygen delivery pipe is communicated with the treatment cavity through the outlet 12; the air suction and the oxygen separation are realized, and the oxygen is conveyed to the room.

The treatment cavity is provided with a first guide channel 13, a second guide channel 14 and a converging cavity 15, the inner end of the first guide channel 13 is communicated with the inlet 11, the outer end of the first guide channel 13 is communicated with the converging cavity 15, the inner end of the second guide channel 14 is communicated with the inlet 11, the outer end of the second guide channel 14 is communicated with the converging cavity 15, and the converging cavity 15 is communicated with the outlet 12; like this, when carrying out the air admission process chamber, shunt earlier through first water conservancy diversion passageway 13 and second water conservancy diversion passageway 14, increase delivery path is converging to converging chamber 15, and the air current offsets each other, plays the cushioning effect, helps gentle air current, makes the air current more smooth-going.

The first flow guide channel 13 and the second flow guide channel 14 are arranged correspondingly, the first flow guide channel 13 is arranged in an arched arc shape along the direction departing from the second flow guide channel 14, and the second flow guide channel 14 is arranged in an arched arc shape along the direction departing from the first flow guide channel 13; thus, the flow through the first guide passage 13 is increased, and the flow through the second guide passage 14 is increased, and at the same time, the arrangement helps to buffer the air flow, so that the air flow is conveyed more smoothly.

The flow of the merging chamber 15 increases gradually in the direction away from the first flow guide channel 13; in this way, the merging chamber 15 has enough space to facilitate the air flow delivery of the first guide passage 13 and the second guide passage 14.

A first bus plate 16 and a second bus plate 17 are arranged inside the converging cavity 15, the first bus plate 16 and the first flow guide channel 13 are arranged correspondingly, the inner end of the first bus plate 16 is fixedly arranged, the outer end of the first bus plate 16 extends in an arc shape towards the first flow guide channel 13, the second bus plate 17 and the second flow guide channel 14 are arranged correspondingly, the inner end of the second bus plate 17 is fixedly arranged, and the outer end of the second bus plate 17 extends in an arc shape towards the second flow guide channel 14; a bus duct is formed between the first bus plate 16 and the second bus plate 17, and is arranged in communication with the outlet 12.

Like this, the air current that first water conservancy diversion passageway 13 and second water conservancy diversion passageway 14 got into plays the vortex effect under first cylinder manifold 16 and second cylinder manifold 17's effect, joins at the passageway that converges again, helps buffering the air current, makes air current transport more smooth-going.

The environment-friendly purification type oxygen-generating fresh air system comprises a waste gas recovery device, and the waste gas recovery device is arranged outdoors; the exhaust pipe is connected and communicated with the waste gas recovery device; the waste gas recovery device comprises a freezing box, a pressurizer, a primary pipe and a secondary pipe, wherein the primary pipe is connected and communicated with the secondary pipe, the exhaust pipe is connected and communicated with the primary pipe, the pressurizer is used for pressurizing gas in the primary pipe, and the freezing box is used for cooling the gas in the secondary pipe; after oxygen in the air is separated, most of the residual gas is nitrogen, and the nitrogen is treated and utilized through a waste gas recovery device.

The indoor unit 2 comprises an inner shell 21, a purification structure 23, an ion generator, an air supply structure and an inner tube, wherein the purification structure 23 and the ion generator are respectively arranged inside the inner shell 21, two ends of the inner tube are respectively connected with the inner shell 21 and the oxygen supply pipeline 4, the inner shell 21 forms an air outlet 22, the ion generator is used for outputting negative ions, and the purification structure 23 is used for filtering; the oxygen supply pipeline 4 conveys oxygen to the room through the purification structure 23 and the ion generator and the air outlet 22; like this, under purification structure 23's effect, filter oxygen, improve the clean effect of carrying to indoor oxygen, under ion generator's effect, output anion realizes ozone output, disinfects to the indoor environment.

The indoor unit 2 comprises an air quality detector and an inner control board, the air quality detector is arranged on the inner shell 21 and is electrically connected with the inner control board, and the air quality detector is used for detecting the indoor air quality; the oxygen generator 1 comprises an outer control plate, the outer control plate is used for controlling the oxygen delivery degree, and the inner control plate and the outer control plate are arranged in signal connection; and realizing the transmission of data.

The control panel 3, the inner machine 2 and the oxygen generator 1 can realize signal transmission through Wi-Fi signals, or a ZigBee module, a Bluetooth module or an infrared module to realize signal transmission.

The purification structure 23 comprises any one or combination of a primary filter screen, a metal filter screen, a porous fiber filter screen, an IFD filter module, an HEPA filter screen, an electrostatic dust removal module, an antibacterial sterilization filter screen, a photocatalyst filter screen, a cold catalyst filter screen and an active carbon filter screen; the purification of oxygen is realized.

The ion generator is arranged at the air outlet 22 of the inner machine 2, negative ions or plasma manufactured by the ion generator are diffused indoors more quickly by means of the exhaust force of the air outlet 22, indoor air is enabled to be provided with sufficient quantity of ions, beneficial effects are achieved for human bodies, harm caused by overhigh content of indoor local negative ions or plasma is avoided, and resources are saved.

The environment-friendly purification type oxygen-generating fresh air system comprises a plurality of inner machines 2 and a mover, wherein each inner machine 2 is respectively arranged in each different room, and an oxygen supply pipeline 4 is used for respectively conveying oxygen to the different inner machines 2; realize different rooms and supply oxygen, satisfy different oxygen suppliment demands.

The mover comprises a moving body, moving wheels and a moving pipe, wherein the moving wheels are used for promoting the moving body to be in moving arrangement, two ends of the moving pipe are respectively connected with the moving body and the inner machine 2, the moving pipe is in extending or contracting arrangement, the moving body is provided with a moving head, a moving opening is formed at the outer end of the moving head, the moving head is in the direction from inside to outside, and the caliber of the moving head is gradually increased; the oxygen in the inner machine 2 is transported to the moving body through the moving pipe and is transported to the indoor through the moving head.

Therefore, when oxygen is conveyed, oxygen is conveyed from different indoor positions through the movement of the movable main body, and oxygen diffusion is facilitated.

For example, when a person is not in a bedroom, oxygen can be supplied at will, when the person is in the bedroom, the oxygen supply position is close to the person through movement of the movable main body, and due to the fact that the person breathes out carbon dioxide, the content of oxygen around the person is low, and the arrangement is convenient for fast supplying oxygen to the periphery of the person.

The mover comprises a refrigerating device, the refrigerating device comprises a semiconductor refrigerating piece, and the cooling or heating of the air flow is realized through the semiconductor refrigerating piece; meet different oxygen supply requirements.

The semiconductor refrigerating sheet is provided with a heat absorption surface and a heat dissipation surface, and heat conduction is carried out with the outside through the heat absorption surface and the heat dissipation surface of the semiconductor refrigerating sheet; the moving body is provided with a supply port through which oxygen is supplied; the heat absorbing surface or the heat radiating surface is arranged corresponding to the supply port; therefore, when hot air flow needs to be supplied, the heat dissipation surface and the supply port are arranged correspondingly, and heat is carried when oxygen is supplied, so that the indoor temperature is improved, and the indoor temperature is prevented from being reduced due to oxygen supply; when the cold air flow needs to be supplied, the heat absorption surface and the supply port are arranged correspondingly, and when the oxygen is supplied, the heat absorption surface absorbs the heat of the oxygen, so that the temperature is reduced when the oxygen is supplied, and the overhigh indoor temperature is avoided.

The working principle of the semiconductor refrigerating sheet is as follows: when a current passes through a thermocouple pair formed by connecting an N-type semiconductor material and a P-type semiconductor material, heat transfer can be generated between the two ends, and the heat can be transferred from one end to the other end, so that temperature difference is generated to form a cold end and a hot end; that is, when current passes through, one side of the semiconductor refrigeration piece absorbs heat, and the other side of the semiconductor refrigeration piece dissipates heat.

The mover comprises a rotator, and the semiconductor refrigerating sheet is turned over through the rotator.

The semiconductor refrigeration pieces are transversely arranged, when the semiconductor refrigeration pieces need to be turned over, the semiconductor refrigeration pieces swing longitudinally, pass through the rotator, rotate in the direction, and finally swing transversely; the semiconductor refrigerating sheet is turned over and switched.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention, and any modifications, equivalents and improvements made within the spirit and principle of the present invention are intended to be included within the scope of the present invention.

Claims (8)

1. The environment-friendly purification type fresh air generating system is characterized by comprising an oxygen generator, at least one indoor unit, an oxygen supply pipeline and a control panel, wherein the control panel is respectively in signal communication connection with the oxygen generator and the indoor unit, the oxygen generator is used for separating oxygen in the atmosphere, two ends of the oxygen supply pipeline are respectively connected with the oxygen generator and the indoor unit, the indoor unit is provided with an air outlet, and the indoor unit outputs oxygen to the indoor through the air outlet; the control panel is used for monitoring air quality and controlling the oxygen generator and the indoor unit; the control panel comprises a control shell, a main detector and a main absorber, wherein a display screen, a key and the main detector and the main absorber are respectively arranged on the control shell, and the main detector is electrically connected with the control element; the control shell is provided with a main detection cavity, the suction chamber of the main sucker is controlled to the main detection cavity, and the main detector is positioned in the main detection cavity; the oxygen generator comprises an air suction pipe, an oxygen delivery pipe, an exhaust pipe and a treatment cavity, wherein the air suction pipe is used for extracting external air, the oxygen delivery pipe is used for delivering oxygen to the oxygen supply pipeline, and the exhaust pipe is used for exhausting waste gas; the treatment cavity is respectively communicated with the air suction pipe, the oxygen delivery pipe and the exhaust pipe; the oxygen delivery pipe is connected and communicated with the oxygen supply pipeline; the treatment cavity is provided with an inlet and an outlet, the air suction pipe is communicated with the treatment cavity through the inlet, and the oxygen delivery pipe is communicated with the treatment cavity through the outlet; the treatment cavity is provided with a first flow guide channel, a second flow guide channel and a converging cavity, the inner end of the first flow guide channel is communicated with the inlet, the outer end of the first flow guide channel is communicated with the converging cavity, the inner end of the second flow guide channel is communicated with the inlet, the outer end of the second flow guide channel is communicated with the converging cavity, the converging cavity is communicated with the outlet, the first flow guide channel and the second flow guide channel are correspondingly arranged, the first flow guide channel is arranged in an arched arc shape along the direction deviating from the second flow guide channel, and the second flow guide channel is arranged in an arched arc shape along the direction deviating from the first flow guide channel; a first collecting plate and a second collecting plate are arranged inside the converging cavity, the first collecting plate and the first flow guide channel are arranged correspondingly, the inner end of the first collecting plate is fixedly arranged, the outer end of the first collecting plate extends in an arc shape towards the first flow guide channel, the second collecting plate and the second flow guide channel are arranged correspondingly, the inner end of the second collecting plate is fixedly arranged, and the outer end of the second collecting plate extends in an arc shape towards the second flow guide channel; and a confluence channel is formed between the first confluence plate and the second confluence plate, and the confluence channel is communicated with the outlet.

2. The system of claim 1, wherein the control panel is mounted on a wall of the room; the control panel comprises a control part, a plurality of keys and a display screen, the display screen displays the oxygen content in the room, a control program is preset in the control part, the control part is respectively and electrically connected with the keys and the display screen, and the keys are used for controlling the oxygen generator and the indoor unit.

3. The system of claim 1, wherein the control panel comprises a movable housing, the movable housing and the control housing being arranged in a snap-fit or separate manner; the movable shell is provided with an auxiliary detector, an auxiliary sucker and a transmission part, the auxiliary detector and the auxiliary sucker are respectively and electrically connected with the transmission part, the control shell is provided with an auxiliary detection cavity, the auxiliary sucker is controlled in the suction chamber to the auxiliary detection cavity, and the auxiliary detector is positioned in the auxiliary detection cavity; the transmission piece and the control piece are in signal transmission arrangement.

4. The system according to any one of claims 1 to 3, wherein the oxygen supply pipeline comprises a main pipeline and a plurality of branch pipelines, each branch pipeline is arranged in one-to-one correspondence with each internal machine, one end of each branch pipeline is connected and communicated with the internal machine, the other end of each branch pipeline is connected and communicated with the inner end of the main pipeline, and the outer end of the main pipeline is connected and communicated with the oxygen generator.

5. The environmental-friendly purified oxygen-generating fresh air system as set forth in claim 1, which comprises an exhaust gas recovery device installed outdoors; the exhaust pipe is connected and communicated with the waste gas recovery device; the waste gas recovery device comprises a freezing box, a pressurizer, a primary pipe and a secondary pipe, wherein the primary pipe is connected and communicated with the secondary pipe, the exhaust pipe is connected and communicated with the primary pipe, the pressurizer is used for pressurizing gas in the primary pipe, and the freezing box is used for cooling the gas in the secondary pipe.

6. The environment-friendly purification type oxygen-generating fresh air system as claimed in any one of claims 1 to 3, wherein the inner unit comprises an inner casing, a purification structure, an ion generator, an air supply structure and an inner pipe, wherein the purification structure and the ion generator are respectively arranged inside the inner casing, two ends of the inner pipe are respectively connected with the inner casing and the oxygen supply pipeline, the inner casing forms the air outlet, the ion generator is used for outputting negative ions, and the purification structure is used for filtering; oxygen supply pipeline carries oxygen process purification structure with ion generator, through the air outlet is carried to indoor.

7. The system of claim 6, wherein the indoor unit comprises an air quality detector and an inner control panel, the air quality detector is disposed on the inner housing, the air quality detector is electrically connected to the inner control panel, and the air quality detector is used for detecting indoor air quality; the oxygen generator comprises an outer control plate, the outer control plate is used for controlling the oxygen delivery degree, and the inner control plate and the outer control plate are in signal connection arrangement.

8. The environment-friendly purifying oxygen-generating fresh air system as claimed in claim 6, comprising a plurality of internal machines and a mover, wherein each internal machine is respectively arranged in different rooms, and the oxygen supply pipeline respectively supplies oxygen to different internal machines; the mover comprises a moving body, moving wheels and a moving pipe, wherein the moving wheels are used for promoting the moving body to be in moving arrangement, two ends of the moving pipe are respectively connected with the moving body and the inner machine, the moving pipe is in extending or contracting arrangement, the moving body is provided with a moving head, the outer end of the moving head forms a moving opening, the moving head is in a direction from inside to outside, and the caliber of the moving head is gradually increased; oxygen in the internal machine is conveyed to the moving main body through the moving pipe and conveyed to the indoor through the moving head.

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