CN210624761U - Indoor ecological health-care system - Google Patents

Abstract

The utility model belongs to the field of indoor air purification equipment, and particularly discloses an indoor ecological health-care system, an air inlet module, which is communicated with the indoor space; the air return module is communicated with the indoor space; the circulating power and heat recovery module is communicated with the air inlet module and is used for sucking outdoor air into the air inlet module through a pipeline and providing power for air circulation in the air inlet module, and on the other hand, the circulating power and heat recovery module is communicated with the air return module and is used for sucking indoor air into the air return module and providing power for air circulation in the air return module; the air inlet module comprises an air purification module and a first disinfection and sterilization module, the air purification module is communicated with the first disinfection and sterilization module, and the air purification module is positioned in front of the first disinfection and sterilization module in the air inlet direction, and the circulating power and heat recovery module are communicated with the outside. The system solves the problem that the filter screen in the fresh air system in the prior art is not replaced in time after being used for a long time, so that indoor air is polluted. Meanwhile, the health function of the system is obviously improved by utilizing the magnetic field energy module.

Description

Indoor ecological health-care system

Technical Field

The utility model belongs to indoor air purification, the healthy equipment field of environmental protection, concretely relates to indoor ecological health system.

Background

In recent years, particulate matter in the atmosphere is increasingly polluted, particularly PM2.5, wherein PM2.5 is particulate matter with the diameter smaller than 2.5 micrometers in the air, and PM2.5 can be inhaled by a person, enters alveoli of a human body, reaches various organs through a blood circulation system of the human body, and causes harm to the health of the human body. Meanwhile, the application of the indoor air conditioner can not reasonably purify, dilute and replace harmful gases and living pollutants generated indoors. Indoor ecological health and environmental protection and energy conservation become the focus of general attention of heating and ventilation engineers and users.

The existing fresh air system only has one or two functions of air purification, dehumidification, indoor and outdoor circulation switching and the like, for example, a patent document with a publication number of CN109631222A discloses a whole-house ecological intelligent health system, which is characterized by comprising: a residential house for human occupancy; the air power module is used for inputting air outside the living room into the living room through an air inlet pipeline, on the other hand, waste gas in the living room is exhausted out of the living room through an air outlet pipeline, and an air inlet and an air outlet are formed in the contact position of the air power module and outdoor air; the electromagnetic field energy module is used for generating magnetic field energy waves to act on air passing through the electromagnetic field energy module, and the output end of the aerodynamic module is connected to the input end of the electromagnetic field energy module; the air temperature adjusting module is used for adjusting the air temperature, and the output end of the electromagnetic field energy module is connected to the input end of the air temperature adjusting module; and the air distribution module is used for distributing the air output by the air temperature adjusting module to all parts in the living room, and the output end of the air temperature adjusting module is connected to the input end of the air distribution module through an air supply pipeline. This scheme has realized functions such as indoor outer air cycle's switching, air purification, formation electromagnetic wave through a plurality of modules, but the filter module in this scheme uses not in time to change for a long time, and the filter screen performance in the filter module progressively attenuates, and after long-term the use, the virus bacterium that breeds above the filter screen can the penetrating filter screen that the avalanche is the same get into indoor, secondary pollution room air.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide an indoor ecological health system to filter screen in the fresh air system of solving prior art uses not in time to change for a long time, causes the indoor air by secondary pollution's problem.

In order to achieve the above object, the basic scheme of the utility model provides an indoor ecological health preserving system, include:

the air inlet module is communicated with the indoor space;

the air return module is communicated with the indoor space;

the circulating power and heat recovery module is communicated with the air inlet module and is used for sucking outdoor air into the air inlet module through a pipeline and providing power for air circulation in the air inlet module, and on the other hand, the circulating power and heat recovery module is communicated with the air return module and is used for sucking indoor air into the air return module and providing power for air circulation in the air return module;

the air inlet module comprises an air purification module and a first disinfection and sterilization module, the air purification module is communicated with the first disinfection and sterilization module, and the air purification module is positioned in front of the first disinfection and sterilization module in the air inlet direction, and the circulating power and heat recovery module are communicated with the outside.

The principle of the basic scheme is as follows: outdoor air can be from outdoor suction air inlet module and get into indoorly under the effect of circulation power and heat recovery module, and indoor air can get into the return air module under the effect of circulation power and heat recovery module. Make the air reentrant indoor after the air inlet module effect, make indoor air again can be acted on by the return air module simultaneously.

In addition, air entering the air inlet module passes through the air purification module and then passes through the sterilization device, so that bacteria in the air purification module are prevented from entering the room, and secondary pollution is caused to the room.

The beneficial effect of this basic scheme lies in: 1. this device provides power by circulation power and heat recovery module and makes the air can follow outdoor entering air inlet module and get into indoorly, can provide power by ring power module simultaneously and make the air get into the return air module and by the effect of return air module, use same power device to practice thrift installation space.

2. This device sets up first disinfection and isolation module after air purification module, makes through air purification module or the bacterium of piling up on air purification module can be by the inactivation of first disinfection and isolation module, has prevented that the bacterium from getting into indoorly. Meanwhile, the air purification module is prevented from being replaced only because of excessive bacteria when the air purification module is not invalid, and therefore the use cost is saved.

3. Circulation power and heat recovery module make the air form the circulation between air inlet module and return air module, make indoor air by many times circulation sterilization, have alleviateed the pollution of the bacterium in the air to the air purification module, have further prolonged the life of air purification module.

Drawings

FIG. 1 is a schematic view of the air flow direction in the present invention;

fig. 2 is a schematic view of the installation structure of the present invention;

FIG. 3 is a view in the direction A of FIG. 2;

fig. 4 is a schematic structural diagram of the middle and inner circulation switching module of the present invention;

FIG. 5 is a cross-sectional view taken along line B-B of FIG. 4;

FIG. 6 is a schematic structural view of a discharge unit in embodiment 2;

FIG. 7 is a cross-sectional view taken along line C-C of FIG. 6;

FIG. 8 is a schematic three-dimensional structure of a purification unit according to example 2;

FIG. 9 is a front view of the purification unit in example 2;

FIG. 10 is a cross-sectional view taken in the direction D-D of FIG. 9;

FIG. 11 is an assembly view of embodiment 3;

FIG. 12 is a schematic view of the constitution of a purification unit in example 3;

FIG. 13 is a schematic structural diagram of an energy module in example 3;

FIG. 14 is a schematic view showing the structure of a magnetic core according to example 3;

FIG. 15 is a schematic view showing the structure of a magnet assembly according to embodiment 3;

FIG. 16 is a schematic structural view of a flow guide frame in embodiment 3;

FIG. 17 is a schematic view showing the structure of a reflection plate in embodiment 3;

FIG. 18 is a schematic view showing a structure of a reflection bar in example 3;

fig. 19 is a schematic structural view of a package strip in example 3;

FIG. 20 is a partially enlarged view showing a reflection plate in example 3;

FIG. 21 is a schematic view of an overall assembling structure in embodiment 4;

FIG. 22 is a schematic view of the construction of a cartridge according to example 4;

FIG. 23 is a schematic view showing an assembled structure of a magnet assembly according to embodiment 4;

FIG. 24 is a schematic view showing an assembly of a medium sized magnet assembly and a guide bar according to embodiment 4;

FIG. 25 is a schematic view showing the structure of a magnet assembly according to embodiment 4;

FIG. 26 is a schematic structural view of a case in embodiment 4;

fig. 27 is a schematic structural view of the upper fixing tray of the present invention;

fig. 28 is a schematic structural view of the lower fixing tray of the present invention.

FIG. 29 is a schematic view of a negative ion blower according to embodiment 5;

FIG. 30 is a top view of a mounting bracket according to embodiment 5;

FIG. 31 is a schematic view showing the structure of a negative ion emitting head assembly according to embodiment 6;

FIG. 32 is a sectional view showing a structure of a sleeve which can be used for mounting a negative ion emitting head in embodiment 6.

Detailed Description

The present invention will be described in further detail with reference to the following embodiments:

reference numerals in the drawings of the specification include: the three-way pipe comprises a three-way pipe 1, a first air valve 2, a second air valve 3, an air supply outlet 4, an air return outlet 5, an internal and external circulation switching module 6, a fresh air outlet 7, a third air valve 8, a circulation power and heat recovery module 9, a first output port 10, a first input port 11, a second input port 12, a second output port 13, a first disinfection and sterilization module 14, a second disinfection and sterilization module 15, a magnetic field energy module 16, an air dehumidification module 17, a first air division box 18, a negative oxygen ion module 19, a second air division box 20, a switching shell 21, a second filter screen assembly 22, a first filter screen assembly 23, a conducting rod 24, a tubular metal receiving electrode 25, a metal emitting electrode 26, a discharge gap 27, an insulator 28, a first polar plate 29, a second polar plate 30, a negative polar plate screw 31, a vent hole 32, an energy cabinet 33, an air inlet flange 34, a connecting terminal 35, an energy photoelectric module 36, an energy module 37, The flashlight comprises a flasher 38, a flow guide frame 39, an air flow channel 40, a fixing frame 41, a guide rod 42, a permanent magnet 43, a gasket 44, a flow guide frame 45, a through groove 46, a reflecting plate 47, a lamp tube 48, a reflecting strip 49, a bending part 50, a packaging strip 51, an L-shaped notch structure 52, an upper groove 53, a lower groove 54, a flow guide cover 55, a mounting frame 56, a magnetic filter element 57, an upper cover body 58, a lower cover body 59, a magnetic sleeve 60, a fixing frame 61, a permanent magnet group 62, an annular groove 63, an upper fixing disc 64, a lower fixing disc 65, a guide rod 66, a permanent magnet 67, a gasket 68, an inner fixing ring 334, an outer fixing ring 335, a fixing rod 336, a through hole 337, a mounting ring 338, a protrusion 339, a reinforcing rod 400, a fixing hole 401, a packaging cap 402, an air receiving pipe 69, an air outlet structure 70, a pipe opening 71, a raised edge 72, an air pipe connecting, A major arc snap ring 79, an end supporting leg 80, a middle supporting leg 81, a fastening insulating part 82, a foaming insulating cotton sleeve 83, a compression molding foam pipe 84 and a butt joint 85.

Example 1: an indoor ecological health system in this scheme, as shown in fig. 1, fig. 2 and fig. 3, including air inlet module, return air module, circulation power and heat recovery module 9 and inside and outside circulation switch module 6. The circulating power and heat recovery module 9 comprises a power shell, negative pressure equipment is installed in the power shell, the negative pressure equipment of the embodiment is a double-air-inlet forward-inclined outer rotor centrifugal fan, and a plate heat exchanger is further installed in the power shell. The power shell is provided with a first input port 11, a second input port 12, a first output port 10 and a second output port 13, the first input port 11 and the second input port 12 are positioned at the input end of the double-air-inlet forward-inclined outer rotor centrifugal fan, and the first output port 10 and the second output port 13 are respectively positioned at the two output ends of the double-air-inlet forward-inclined outer rotor centrifugal fan.

As shown in fig. 4, the internal and external circulation switching module 6 includes a switching housing 21, and the switching housing 21 is provided with a fresh air inlet 7, a return air inlet 5 and a supply air outlet 4. As shown in fig. 5, the purification module includes a first filter screen assembly 23 and a second filter screen assembly 22, the first filter screen assembly 23 is installed at the fresh air inlet 7, and the second filter screen assembly 22 is installed at the supply air outlet 4. As shown in figure 2, the air supply opening 4 is communicated with a first input opening 11, the fresh air opening 7 is communicated with the outdoor through a pipeline, the air return opening 5 is communicated with a three-way pipe 1, and the remaining two ends of the three-way pipe 1 are respectively communicated with a first output opening 10 and the outdoor. A first air valve 2 is installed at one end of the three-way pipe 1 communicated with the outdoor, a second air valve 3 is installed at one end of the three-way pipe 1 close to the air return opening 5, a third air valve 8 is installed at the position of the fresh air opening 7, a second output opening 13 is communicated with the air inlet module, and a second input opening 12 is communicated with the air return module.

As shown in fig. 3, the air intake module includes a first disinfection and sterilization module 14 and a negative oxygen ion module 19, and the circulating power and heat recovery module 9, the first disinfection and sterilization module 14 and the negative oxygen ion module 19 are sequentially communicated. The first disinfection and sterilization module 14 comprises a first disinfection housing, a plasma generation device is installed in the first disinfection housing, the first disinfection housing is provided with a first disinfection outlet and a first disinfection inlet, the first disinfection inlet is communicated with the second output port 13, and the first disinfection outlet is communicated with a first air dividing box 18.

The first air dividing box 18 is provided with a plurality of air outlets which are communicated with air outlet pipelines, and the outlets of the air outlet pipelines are uniformly and densely distributed on the ceiling of the house. An outlet of the air outlet pipeline is provided with a negative oxygen ion module 19, and the negative oxygen ion module 19 is a negative oxygen ion generator.

As shown in fig. 3, the air return module includes a second disinfection and sterilization module 15 and an air dehumidification module 17, and the circulating power is sequentially communicated with the heat recovery module 9, the second disinfection and sterilization module 15 and the air dehumidification module 17. The second sterilization module 15 is the same sterilization module as the first sterilization module 14, and the second sterilization module 15 includes a second sterilization housing having a second sterilization outlet and a second sterilization inlet, the second sterilization outlet being communicated with the second input port 12.

The air dehumidification module 17 comprises a dehumidification housing having a dehumidification outlet and a dehumidification inlet, the dehumidification outlet being in communication with the second sterilization inlet. A dehumidifier is arranged in the dehumidifying shell. The dehumidification inlet is communicated with a second air dividing box 20, the second air dividing box 20 comprises a plurality of air inlets, air inlet pipelines are communicated with the air inlets, and inlets of the air inlet pipelines are distributed at corners of the ground. The air outlets uniformly and densely distributed on the roof and the air inlets distributed at the corners of the ground form excellent circulating pneumatic layout, so that clean air with negative oxygen ions is filled in a room and forms effective circulation.

As shown in fig. 1, 2 and 3, the working process is as follows: and (3) opening the second air valve 3 by closing the first air valve 2 and the third air valve 8, and entering an indoor circulation mode. Under the effect of circulating power and heat recovery module 9, indoor air is inhaled the return air module, then gets into the return air inlet 5 of inside and outside circulation switching module 6, and the filtration of passing through second filter screen subassembly 22 gets into the air inlet module from supply-air outlet 4, and the air gets into indoor after the effect of air inlet module. Then the air is sucked into the air return module to form internal circulation.

Through opening first blast gate 2 and third blast gate 8, close second blast gate 3, get into outdoor circulation mode, under circulation power and heat recovery module 9's effect, outdoor air gets into inside and outside circulation switching module 6 from new trend mouth 7, after the effect through first filter screen subassembly 23 and second filter screen subassembly 22, gets into indoor after the air inlet module effect is got into from supply-air outlet 4 under circulation power and heat recovery module 9's effect. And the indoor air is sucked into the air return module under the action of the circulating power and heat recovery module 9 and then is discharged to the outside from one end of the three-way pipe 1 close to the outside. The air comes from the open air, discharges to the open air behind air inlet module and the effect of return air module, forms the extrinsic cycle.

Both the inner and outer circulation are processed through the first and second sterilization modules 14 and 15. After the air of inner loop is handled through first disinfection and isolation module 14 and second disinfection and isolation module 15, prevented that the bacterium from piling up on the filter screen, also prevented simultaneously that the bacterium from getting into indoor. In addition, the air purification module is prevented from being replaced only due to excessive bacteria when the air purification module is not invalid, and therefore the use cost is saved. Circulation power and heat recovery module 9 make the air form the circulation between air inlet module and return air module, make indoor air by many times circulation sterilization, lightened the pollution of bacterium in the air to the air purification module, further prolonged the life of air purification module.

It is worth mentioning that the second disinfection and sterilization module 15 enables the discharged outdoor air to be disinfected and sterilized, has a positive effect on the improvement of the air quality of the city with poor outdoor air quality, accords with the low-carbon environment-friendly concept, and has significance in popularization and use.

When air enters the room through the air inlet module negative oxygen generator, the negative oxygen generator enables the air to contain negative oxygen ions, and the negative oxygen ions have a health care and physical therapy effect. In addition, the negative oxygen ions can also play a role in gathering large-particle dust in the air, and can assist the purification system to rapidly purify indoor air such as fine particulate matters like PM 2.5. Moreover, because the indoor air has certain negative oxygen ions, namely negative charges, the filter screen of the purification system can be more easily filtered, and the service life of the filter screen of the purification system is prolonged.

The air dehumidifying module 17 is provided to dehumidify indoor air during air circulation. In addition, dry and clean air is conveyed to pass through the air disinfection and sterilization module, so that the phenomena that the core components of the disinfection and sterilization module are damaged by high-humidity air, the oxidation of the core components is accelerated, and even electric creepage and the like are caused are avoided.

The setting of air purification module has avoided piling up on the air dehumidification module 17 that the foul substance forms the bacterium virus, has avoided gluing the dust in the heat exchanger, influences the cold and hot exchange efficiency of system. In addition, the centrifugal fan motor in the circulating power and heat recovery module 9 is also protected.

The air purification module and the disinfection and sterilization module are combined to ensure that the air does not contain pollutants, thereby cleaning the air. The clean air avoids pollutants from influencing the emission of negative oxygen ions, reduces the quantity of the negative oxygen ions, and simultaneously avoids generating ozone to damage a negative oxygen ion generator. Namely, the system ensures the quality and quantity of indoor negative oxygen ions to the maximum extent.

Example 2: on the basis of embodiment 1, the plasma generating device comprises two purifying units, and each purifying unit comprises a plurality of discharging units. As shown in fig. 6 and 7, the discharge cell includes a tubular metal receiver 25 and a metal emitter 26, both the tubular metal receiver 25 and the metal emitter 26 being made of a metal conductive material. The tubular metal receiving electrode 25 is a negative electrode, the metal emitting electrode 26 is a positive electrode, the tubular metal receiving electrode 25 is a circular tube, and the metal emitting electrode 26 is in a disc shape. The diameter of the metal emitting electrode 26 is 70mm, the edge is in a blade shape, and the thickness of the blade edge of the blade is 1 mm.

As shown in fig. 6 and 7, a conductive rod 24 is installed in the tubular metal receiving pole 25, the conductive rod 24 is made of a metal material, and the conductive rod 24 is located at the center line of the tubular metal receiving pole 25. A connecting hole is processed in the center of the metal emitter 26, and the metal emitter 26 is sleeved on the conducting rod 24 through the connecting hole. The conducting rod 24 is sleeved with a plurality of short shaft sleeves and two long shaft sleeves, the short shaft sleeves are positioned between every two metal emitting electrodes 26, the distance between the metal emitting electrodes 26 is 70mm, and the metal emitting electrodes 26 in the distance range have good discharging effect. Between the metal emitter 26 and the inner wall of the tubular metal receiver 25, there is a discharge gap 27 along the radial direction of the tubular metal receiver 25, and the width of the discharge gap 27 is 7 mm. The long shaft sleeves are located at two ends of the conducting rod 24 and abut against the metal emitting electrode 26 on the outermost side, two ends of the conducting rod 24 are in a screw rod shape, abutting pieces are connected to two ends of the conducting rod 24 through threads, the long shaft sleeves abut against the metal emitting electrode 26 through screwing the abutting pieces, and therefore the metal emitting electrode 26 is fixed on the conducting rod 24.

As shown in fig. 8 and 9, the tubular metal receiving electrode 25 has first electrode plates 29 mounted at both ends thereof, and the first electrode plates 29 are negative electrode plates. The first polar plates 29 are integrally formed with positioning rings, the tubular metal receiving electrode 25 is clamped into the positioning rings, and the two first polar plates 29 are fixedly connected through the negative plate screw 31, so that the tubular metal receiving electrode 25 is clamped between the two first polar plates 29. The first plate 29 is integrally formed with a vent hole 32 corresponding to the end of the tubular metal receiver 25, the vent hole 32 being concentric with the tubular metal receiver 25.

As shown in fig. 8 and 10, the conductive rod 24 has two ends extending out of the tubular metal receiving pole 25, and the second pole plate 30 is fixedly connected to the two ends of the conductive rod 24 through the abutting member. The second plate 30 is a positive plate, the insulator 28 is mounted between the first plate 29 and the second plate 30, the insulator 28 has female screw holes formed at both ends thereof, and the insulator 28 is screwed with the first plate 29 and the second plate 30 at both sides through the female screw holes. This configuration allows the conductive rod 24 to be secured within the tubular metal receiver 25 while securing the insulator 28 between the first plate 29 and the second plate 30. The first plate 29 and the second plate 30 are made of metal conductive material, which has excellent electron migration effect and easy material selection.

When air passes through the ion air purifier, an electric field is generated between the metal emitting electrode 26 and the inner wall of the tubular metal receiving electrode 25, the metal emitting electrode 26 is circumferentially provided with a cutting edge and is disc-shaped, the tubular metal receiving electrode 25 is in a circular tube shape, and the metal emitting electrode 26 and the tubular metal receiving electrode 25 are arranged on the same axial lead. The electric field formed by the metal emitter 26 at the tubular metal receiver 25 is uniform and in the shape of a closed loop around the metal emitter 26. Therefore, air can be influenced by the electric field when passing through the space between the metal emitting electrode 26 and the inner wall of the tubular metal receiving electrode 25, and the problem that the air is not influenced by the electric field and escapes from the space between the metal emitting electrode 26 and the inner wall of the tubular metal receiving electrode 25 in the prior art is solved.

After entering the tubular metal receiving electrode 25, the air with flow velocity is ionized to generate plasma under the action of the annular electric field, and more plasma can be generated to diffuse in the tubular metal receiving electrode 25 due to the larger electric field range. Because the electric field intensity of the ring shape is uniform and regular, the whole process has no arc discharge phenomenon and gravel flash phenomenon, the generation of ozone is avoided, and the regular discharge is safer.

Meanwhile, since the width of the discharge gap 27 is 7mm, the passage in the tubular metal receiver 25 becomes narrower, thereby generating a venturi effect, and further the air flow area becomes narrower and wider suddenly, so that the air flow makes irregular movement. Meanwhile, the passage is narrowed to generate low pressure, air in the tubular metal receiving electrode 25 is adsorbed to the metal emitting electrode 26 towards the narrowed position of the passage, the air passing through the tubular metal receiving electrode 25 is in more full contact with plasma, an annular closed electric field is formed by the periphery of the metal emitting electrode 26 at the narrowed position of the passage and the tubular metal receiving electrode 25, and when the energy obtained by pollutant molecules in the air is larger than the binding energy of molecular bond energy of the pollutant molecules, the chemical bonds of the pollutant molecules are broken, and the pollutant molecules are directly decomposed into simple substance atoms or harmless gas molecules formed by single atoms, so that the purification quality of the air is improved.

In addition, because the annular electric field is formed at the narrowed position of the channel, coulomb force is generated when the electric field is formed, so that the Brownian motion of air molecules at the position is intensified, further pollutants in the air are fully contacted with plasma, further the air is fully purified, and the air purification quality is further improved.

Moreover, a plurality of metal emitting electrodes 26 generate a plurality of venturi tube effects, so that when air passes through the tubular metal receiving electrode 25, the narrow part of the channel is repeatedly crossed to form a rotational flow, and the rotational flow is in a surging state, thereby further enhancing the Brownian motion of the air, enabling pollutants in the air to collide with low-temperature plasma better, further enabling the air to be more fully purified, and further improving the purification quality of the air.

Example 3: on the basis of embodiment 1, as shown in fig. 11-20, a magnetic field energy module 16 is added in the air intake module, and the magnetic field energy module 16 is communicated between the first disinfection and sterilization module 14 and the negative oxygen ion module 19. The magnetic field energy module 16 comprises an energy housing 33, the energy housing 33 having an energy inlet and an energy outlet, the energy inlet being in communication with the first sterilization outlet and the energy outlet being in communication with the first air dividing box 18.

A purification unit is installed in the energy cabinet 33, the purification unit comprises an energy photoelectric module 36, an energy module assembly 37 and a flasher 38, the energy module assembly 37 comprises a flow guide frame 39, a plurality of air flow channels 40 are integrated on the flow guide frame 39, and magnetic filter elements are arranged in the air flow channels 40; each filter element comprises a magnetic sleeve and a permanent magnet group arranged in the magnetic sleeve, and the permanent magnet group is fixed through a fixing frame 41; the outer surface of the permanent magnet group is coated with a nano composite material layer with a magnetic semiconductor function; the energy photoelectric module 36 comprises two diversion frames 45 symmetrically integrated on two sides of the diversion frame 39, a plurality of through grooves 46 are formed in the bottom of each diversion frame 45, a reflection assembly is arranged at the inner bottom of each diversion frame 45 and comprises a reflection plate 47, a lamp tube 48 is arranged around the edge of each reflection plate 47, the flashers 38 supply power to the lamp tube 48, the lamp tube 48 irradiates the reflection plate 47 with light after being electrified, and the reflection plate 47 reflects the light to the space on the diversion frame 39. The arrangement of the middle magnetic sleeve and the permanent magnet group of the utility model ensures that the space of the strong magnetic field curtain magnetic field is distributed in the space of the whole air flow channel 40; the outer surface of the permanent magnet group is coated with a nano composite material layer with a magnetic semiconductor function, the flasher 38 supplies power to the lamp tube 48, the illumination of the lamp tube 48 is reflected in the air flow channel 40 through the reflecting plate 47 on the reflecting plate 47, the light irradiates the nano composite material layer with the magnetic semiconductor function on the outer surface of the permanent magnet group, the nano composite material layer with the magnetic semiconductor function generates a changed photocurrent under the action of the illumination, the photocurrent forms a changed electric field, the changed electric field and the magnetic field interact to form an electromagnetic field, and the purpose of enhancing the nano composite material layer to generate the electromagnetic field is achieved under the action of the light.

When air enters the electromagnetic field space from the case, the electromagnetic field interacts with all electrons, particles, water molecules and other substances moving in the air flow to be magnetized, so that harmful odor in the air is eliminated, the magnetized air is continuously transmitted into a required space (such as a room), the whole space (room) is full of weak electromagnetic fields, the weak electromagnetic fields simultaneously magnetize other substances in the space (such as people), friction and resonance are formed when the weak electromagnetic fields in the space interact with the biological electromagnetic field, metal elements, proteins, fat and water molecules in a human body, and slight heat energy is generated, so that the effects of balancing the space environment, the biological electromagnetic field and human cells and regulating the nervous system are achieved. The utility model utilizes the nanometer composite material layer with the magnetic semiconductor function and the strong magnetic field to purify the air and carry out physical therapy and nervous system regulation on the human body; the treated air has good quality, and is colorless, odorless, and free of infectious germs.

The magnet group comprises a guide rod 42 and a plurality of permanent magnets 43 which are serially arranged on the guide rod 42, the magnetic poles of the adjacent permanent magnets 43 are opposite in the same polarity, and a gasket 44 is arranged between the magnets; the same magnetic poles of the adjacent permanent magnets 43 are arranged oppositely; the nanocomposite layer having the function of the magnetic semiconductor is coated on the outer surfaces of the permanent magnet 43 and the shim 44. The opposite magnetic poles of the adjacent permanent magnets 43 are of the same polarity, so that the magnetic force of the permanent magnets 43 generates repulsive force to form a magnetic field in columnar motion, and the magnetic field in the columnar motion interacts with the magnetic field in the magnetic sleeve to enhance the strength of the magnetic field. Then the nano composite material layer with the function of the magnetic semiconductor is irradiated by light to generate an electromagnetic field, so that the intensity of the electromagnetic field in the airflow channel 40 is stronger, the magnetization effect is better, and the effect of eliminating the harmful odor in the air is better. The two ends of the guide rod 42 are fixed with the fixing frame 41 and then are installed in the magnetic sleeve, the fixing frame 41 is composed of an annular emitting structure formed by a fixing ring and a plurality of fixing rods, and the fixing frame 41 plays a role in fixing the magnet and stabilizing the magnetic field.

Furthermore, the magnetic sleeve is internally provided with a nano composite material layer with the function of a magnetic semiconductor, so that the air hole has the best magnetizing effect on bad odor. The nano composite material layer with the magnetic semiconductor function is preferably a nano composite material layer consisting of nano magnetic particles, tourmaline powder, anion powder, medical stone powder, single-layer graphene, germanite powder and silica micropowder materials.

The magnetic rice material is prepared by adopting various metal oxides and caustic soda (sodium hydroxide NaOH) to carry out chemical reaction for many times under the electrothermal effect, and then various different nano-scale oxides are separated and generated; the nanometer oxide and salt (NaCl) are magnetized under the action of weak electromagnetic field, so that various magnetic oxides with special function of magnetic field-magnetic rice material can be made up. The composite material utilizes the interaction of the existing magnetic field of the magnetic rice and the magnetic field of the nano-scale magnetic layer ring and the environment, has the semiconductor functions of self absorption and self release with the electromagnetic property after composite magnetization, can continuously interact with electrons, photons, space magnetic fields and substance magnetic fields moving around, and conducts with each other under the effect of the nano-scale magnetic layer ring, thereby effectively maintaining the balance of the magnetic field of the specific space environment.

The added nano tourmaline powder can carry electric charge when being heated to form pyroelectric effect, generate weak electromagnetic field effect in the material, generate electric ions for a long time, and permanently release air negative ions and far infrared rays beneficial to human. The addition of nano-scale negative ion powder with pyroelectricity and piezoelectricity can cause potential difference between components under the condition of temperature and pressure change, and the static electricity is as high as one million electron volts, so that air is ionized, and hit electrons are attached to adjacent water and oxygen molecules and converted into air negative ions, namely negative oxygen ions. The added nanometer medical stone powder has strong electrostatic attraction and can emit far infrared rays, and the far infrared rays have the effects of regulating the central nervous system of the brain, accelerating blood circulation, improving the microcirculation condition of brain tissues, ensuring that brain cells obtain sufficient oxygen and nutrition supply, promoting metabolism, changing the unbalance condition of cerebral cortex, deepening the inhibition process and playing the roles of calming and sleeping. The nano single-layer graphene powder with electric and thermal conductivity is added to increase the electric, thermal and semiconductor characteristics of the nanocomposite. Nanoscale silicon powder having semiconductor properties is added to increase the resistivity and semiconductor properties between the above nanocomposites. The nano germanium stone powder is added to increase the emissivity of far infrared rays and improve the optimal absorption frequency and wavelength of a human body, and after the germanium stone powder and the magnetic rice are combined, the far infrared rays with magnetic field energy can generate resonance effect with human cells to form thermal reaction, so that the microvascular expansion is realized, the blood circulation of the human body is promoted, and the fatigue is relieved.

The materials are compounded to form a semiconductor with the functions of self absorption and release, and a weak magnetic field and an electric field which have the characteristics of magnetic field and magnetic field, are stably acted with a space electromagnetic field, electron interaction emission and a human body are utilized, and interact with a biological weak electromagnetic field in the human body to generate friction and resonance, so that heat energy is generated in tissue cells of organisms; meanwhile, the electromagnetic field and the tissue cells of the human body are continuously balanced to form a nano-scale magnetic layer ring, a normal cell magnetic layer ring and a pathological change cell magnetic layer ring are generated, magnetic field isolation is formed, and the connection between the pathological change cells and the normal cells of the human body tissue is blocked.

Further, the reflecting plate 47 is formed by splicing a plurality of reflecting strips 49, the reflecting plate 47 is formed by splicing the reflecting strips 49 to form a double-layer slotted plate, and the upper and lower slots 54 of the double-layer slotted plate are arranged in a staggered manner. The two ends of the reflection strip 49 are respectively provided with a splicing structure, and the splicing structure comprises bending parts 50 which are staggered up and down and are arranged in opposite directions. Two ends of the reflection plate 47 are packaged by a packaging strip 51, two ends of the packaging strip 51 are provided with packaging blocks in a bending manner, and the packaging blocks are L-shaped notch structures 52 matched with the bending parts 50 of the assembly structure. During assembly, adjacent reflective strips are relatively assembled, and after the bent parts 50 which are arranged in a staggered and reverse manner are assembled, the reflective plate forms a double-layer groove-shaped plate consisting of an upper groove 53 and a lower groove 54, and the upper groove 53 and the lower groove 54 are arranged in a staggered manner; the reflecting plate 47 is encapsulated by the encapsulating plates at the two ends, and the L-shaped notch structure 52 of the encapsulating block is butted with the bending part 50 of the reflecting strip 49. The double-layer groove type plate formed by the upper groove 53 and the lower groove 54, and the upper groove 53 and the lower groove 54 are arranged in a staggered mode to form the light reflecting plate, so that the light reflecting effect is achieved, and air entering is not affected. The length of the through groove 46 at the bottom of the flow guiding frame 45 is less than the length of the upper groove 53 and the lower groove 54, and the through groove 46 is vertically staggered with the upper groove 53 and the lower groove 54; the light-shading effect is achieved while air entering is not influenced.

Further, one end of the flash 38 extends outside the energy cabinet 33 as a connection terminal 35, and the connection terminal 35 is used for supplying power to the lamp tube 48 by an external power source.

Further, a tuyere flange 34 is arranged on the energy cabinet 33. The case can be a rectangular shell, and the case is provided with an air port flange 34, so that the case is convenient to mount, compact in appearance structure and simple and elegant. Air enters the photovoltaic energy module assembly 37 from an air opening of the energy cabinet 33, then enters the flow guide frame 39 from the through groove 46, the upper groove 53 and the lower groove 54 on the flow guide frame 45, then enters the air flow channel 40, enters the electromagnetic field, is magnetized, then is sent out from the through groove 46, the upper groove 53 and the lower groove 54 on the other flow guide frame 45, and finally is discharged into an indoor space from an air outlet; the utility model discloses utilize nanocomposite layer, the strong magnetic field that has the function of magnetism semiconductor to carry out air purification and handle. The magnetized air is continuously transmitted into a required space (such as a room), so that the whole space (room) is full of weak electromagnetic fields, the weak electromagnetic fields magnetize other substances in the space, such as people, simultaneously, friction and resonance are formed when the weak electromagnetic fields in the space interact with the biological electromagnetic fields, metal elements, proteins, fat and water molecules in the human body, and slight heat energy is generated, so that the effects of balancing the space environment, the biological electromagnetic fields of human body cells and the human body and regulating the nervous system are achieved. Carrying out physical therapy on a human body and regulating a nervous system; the treated air has good quality, and is colorless, odorless, and free of infectious germs.

Example 4: on the basis of the embodiment 1, as shown in fig. 21 to 28, a magnetic field energy module is added to the air intake module, and the magnetic field energy module is communicated between the first disinfection and sterilization module and the negative oxygen ion module. The magnetic field energy module comprises a guide cover 55, wherein an energy outlet and an energy inlet are formed in the guide cover 55, the energy inlet is communicated with the first sterilization outlet, and the energy outlet is communicated with the first air dividing box.

A magnetic field purification unit is installed in the air guide sleeve 55, the magnetic field purification unit comprises a magnetic filter element 57, the magnetic filter element 57 comprises a magnetic sleeve 60 and at least one group of permanent magnet 67 groups 62 arranged in the magnetic sleeve 60, a plurality of annular grooves 63 are formed in the magnetic sleeve 60 in the annular direction, and the permanent magnet 67 groups 62 are fixed through a fixing frame 61; the outer surfaces of the permanent magnet 67 groups 62 are coated with nano composite material layers with magnetic semiconductor functions. The arrangement of the middle magnetic sleeve 60 and the permanent magnet 67 group 62 of the utility model ensures that the magnetic field space of the strong magnetic field curtain is arranged in the space of the inner cavity of the whole air guide sleeve 55; the outer surface of the permanent magnet 67 group 62 is coated with a nano composite material layer with a magnetic semiconductor function, the composite material generates current when receiving heat radiation or pressure to form an electromagnetic field, and substances such as electrons, particles, water molecules and the like in the air are subjected to plasma through superposition of the magnetic field of the permanent magnet 67 group 62 to form substances with negative electrons, such as negative oxygen ions and the like. When air enters the magnetic field space from the air guide sleeve 55, the electromagnetic field interacts with all electrons, particles, water molecules and other substances moving in the air flow to be magnetized, so that harmful odor in the air is eliminated, the magnetized air is continuously conveyed into a required space (such as a room), the whole space (room) is filled with weak electromagnetic fields, the weak electromagnetic fields simultaneously magnetize other substances in the space (such as people), and the weak electromagnetic fields in the space interact with the biological electromagnetic field, metal elements, proteins, fat and water molecules in the human body to generate friction and resonance heat energy, so that the effects of balancing the space environment, human body cells and the biological electromagnetic field to regulate the nervous system are achieved, and physical therapy and nervous system regulation are performed on the human body. The utility model utilizes the nanometer composite material layer with the magnetic semiconductor function and the strong magnetic field to purify the air and carry out physical therapy on the human body; the treated air has good quality, and is colorless, odorless, and free of infectious germs. The annular groove 63 cuts off the magnetic field.

The permanent magnet 67 group 62 comprises a guide rod 66 and a plurality of permanent magnets 67 which are serially arranged on the guide rod 66, the magnetic poles of the adjacent permanent magnets 67 are oppositely arranged in the same polarity, and a gasket 68 is arranged between the adjacent permanent magnets 67; the two ends of the guide rod 66 are fixed with the fixed frame 61 and then are arranged in the magnetic sleeve 60. The opposite magnetic poles of the adjacent permanent magnets 67 are of the same polarity, so that the magnetic force of the permanent magnets 67 generates repulsive force to form a magnetic field in columnar motion, and the magnetic field in the columnar motion interacts with the magnetic field in the magnetic sleeve 60 to enhance the strength of the magnetic field. And then the nano composite material layer with the function of the magnetic semiconductor is used for generating an electromagnetic field, so that the intensity of the electromagnetic field in the inner cavity of the air guide cover 55 is stronger, the magnetization effect is better, and the effect of eliminating the harmful odor in the air is better.

The fixed frame 61 is composed of two fixed disks which are coaxially arranged up and down, and the permanent magnet 67 group 62 is positioned between the two fixed disks through a guide rod 66; the two fixed disks are an upper fixed disk 64 and a lower fixed disk 65 respectively, and the upper fixed disk 64 and the lower fixed disk 65 are of annular emitting structures formed by an inner fixed ring 334, an outer fixed ring 335 and a plurality of fixed rods 336. The inner fixing rings 334 and the outer fixing rings 335 of the upper fixing disk 64 and the lower fixing disk 65 are coaxially arranged, and the diameter of the inner fixing ring 334 is smaller than that of the outer fixing ring 335. The outer fixing ring 335 of the upper fixing plate 64 is provided with a through hole 337 for the guide rod 66 to pass through at a position connected with the fixing rod 336, the outer fixing ring 335 of the lower fixing plate 65 is provided with a fixing hole 401 at a position connected with the fixing rod 336, an opening of the fixing hole 401 at a side opposite to the permanent magnet group 62 extends with a packaging protrusion 339, and the packaging protrusion 339 and the fixing hole 401 form a blind hole. An installation ring 338 installed with the magnetic sleeve 60 extends outside the outer fixing ring 335 of the lower fixing disk 65, and a reinforcing rod 400 is arranged between the installation ring 338 and the outer fixing ring 335 of the lower fixing disk 65. The diameter of the inner retaining ring 334 matches the outer diameter of the guide rod 66. The permanent magnets 67 are arranged in groups 62, one group is arranged between the inner fixing rings 334 of the upper fixing disc 64 and the lower fixing disc 65 through the guide rod 66, one end of the guide rod 66 penetrates through the inner fixing ring 334 of the upper fixing disc 64 and is connected through a nut, and the other end of the guide rod 66 penetrates through the inner fixing ring 334 of the lower fixing disc 65 and is sealed and fixed through the sealing cap 402. The other groups 62 of permanent magnets 67 are fixed between the through holes 337 and the fixing holes 401 at the intersections of the fixing bars 336 of the upper fixing plate 64 and the lower fixing plate 65 and the outer fixing ring 335, respectively.

The air guide sleeve 55 is formed by splicing an upper cover body 58 and a lower cover body 59. An installation frame 56 is arranged in a port of the upper cover body 58, and the installation frame 56 is matched with an upper fixed disk 64 on the fixed frame 61 for installation.

Furthermore, a nano composite material layer having a magnetic semiconductor function is provided in the magnetic sleeve 60. So as to optimize the magnetizing effect of the bad smell in the air. The nano composite material layer with the magnetic semiconductor function is preferably a nano composite material layer consisting of nano magnetic rice, tourmaline powder, anion powder, medical stone powder, single-layer graphene, germanite powder and silica micropowder materials.

The magnetic rice material is prepared by adopting various metal oxides and caustic soda (sodium hydroxide NaOH) to carry out chemical reaction for many times under the electrothermal effect, and then various different nano-scale oxides are separated and generated; the nanometer oxide and salt (NaCl) are magnetized under the action of weak electromagnetic field, so that various magnetic oxides with special function of magnetic field-magnetic rice material can be made up. The composite material utilizes the interaction of the existing magnetic field of the magnetic rice and the magnetic field of the nano-scale magnetic layer ring and the environment, has the semiconductor functions of self absorption and self release with the electromagnetic property after composite magnetization, interacts with electrons, photons, a space magnetic field and a substance magnetic field which move around, and conducts mutually under the effect of the nano-scale magnetic layer ring, thereby effectively maintaining the balance of the magnetic field of the specific space environment.

The added nano tourmaline powder can carry electric charge when being heated to form pyroelectric effect, generate weak electromagnetic field effect in the material, generate electric ions for a long time, and permanently release air negative ions and far infrared rays beneficial to human. The addition of nano-scale negative ion powder with pyroelectricity and piezoelectricity can cause potential difference between components under the condition of temperature and pressure change, the static electricity is up to 100 ten thousand electron volts, thus air is ionized, and hit electrons are attached to adjacent water and oxygen molecules and converted into air negative ions, namely negative oxygen ions. The added nanometer medical stone powder has strong electrostatic attraction and can emit far infrared rays, and the far infrared rays have the effects of regulating the central nervous system of the brain, accelerating blood circulation, improving the microcirculation condition of brain tissues, ensuring that brain cells obtain sufficient oxygen and nutrition supply, promoting metabolism, changing the unbalance condition of cerebral cortex, deepening the inhibition process and playing the roles of calming and sleeping. The nano single-layer graphene powder with electric and thermal conductivity is added to increase the electric, thermal and semiconductor characteristics of the nanocomposite. Nanoscale silicon powder having semiconductor properties is added to increase the resistivity and semiconductor properties between the above nanocomposites. The nano germanium stone powder is added to increase the emissivity of far infrared rays and improve the optimal absorption frequency and wavelength of a human body, and after the germanium stone powder and the magnetic rice are combined, the far infrared rays with magnetic field energy can generate resonance effect with human cells to form thermal reaction, so that the microvascular expansion is realized, the blood circulation of the human body is promoted, and the fatigue is relieved.

The materials are compounded to form a semiconductor with the functions of self absorption and release, and a weak magnetic field and an electric field which have the characteristics of magnetic field and magnetic field, are stably acted with a space electromagnetic field, electron interaction emission and a human body are utilized, and interact with a biological weak electromagnetic field in the human body to generate friction and resonance, so that heat energy is generated in tissue cells of organisms; meanwhile, the electromagnetic field and the tissue cells of the human body are continuously balanced to form a nano-scale magnetic layer ring, a normal cell magnetic layer ring and a pathological change cell magnetic layer ring are generated, magnetic field isolation is formed, and the connection between the pathological change cells and the normal cells of the human body tissue is blocked.

Example 5: on the basis of embodiment 1, as shown in fig. 29 and 30, the negative oxygen ion module 19 includes an air receiving pipe 69, an air outlet structure 70, an air pipe connecting part 73, a negative ion generator 74 and a negative ion emitting head 75; one end of the air receiving pipe 69 is communicated with the air outlet, one end of the air pipe connecting part 73 is communicated with the other end of the air receiving pipe 69, and the other end of the air pipe connecting part 73 is connected with the air outlet structure 70; the air outlet structure 70 comprises a pipe orifice 71 with a diameter gradually increasing along the air outlet direction, the pipe orifice 71 can penetrate through an opening on a ceiling partition plate 77, and the edge of the pipe orifice 71 is bent outwards to form a raised edge 72; the negative ion generator 74 is connected to a negative ion emitting head 75, and the negative ion emitting head 75 is disposed at the center of the inside of the pipe orifice 71 along the air outlet direction.

In addition, still include the setting and be in the baffle support 76 of tuber pipe connecting portion 73 outside, baffle support 76 can with stick up limit 72 cooperation and carry ceiling baffle 77, at least one in baffle support 76 and the air-out structure 70 with tuber pipe connecting portion 73 adopts detachable connection.

The detachable connection mode can be a threaded connection or a snap connection and the like. The negative ion generator 74 may be disposed in a mounting box (no box is available) connected to the air duct connection part 73, and may be mounted outside the air duct connection part 73. The baffle bracket 76 and the raised edge 72 are used for positioning the negative ion air supply device on the ceiling baffle 77, and the baffle bracket 76 can be further fixed on the ceiling baffle 77 after positioning. In order to solve the problem of installing the air supply device on ceiling partition boards 77 with different thicknesses, the detachable connection mode is preferably a threaded connection, and the air supply device can be adaptively adjusted according to the different thicknesses of the ceiling partition boards 77 through the threaded connection, so that the air supply device is convenient to install.

In this scheme, air-supply line, tuber pipe connecting portion 73, air-out structure 70 form the air supply passageway, and baffle support 76 can cooperate mouth of pipe 71 to stick up limit 72 and fix a position this structure on ceiling baffle 77, so not only conveniently fixes a position when the installation, and mouth of pipe 71 sticks up limit 72 and conventional furred ceiling can form a whole, lets the part at ceiling baffle 77 opening part more pleasing to the eye. Because the anion forms the straight line state of giving off that the sphere distributes on the emitter, in this scheme the anion emitter 75 is installed at the inside positive center of mouth of pipe 71, compares with comparatively random mounted position among the prior art, receives the influence of wind by the emission point at wind gap center and can become more even lower fan diffusion type, can show the emission efficiency who improves the anion, makes indoor anion concentration more even. The anion emission head 75 in the prior art usually has a certain offset relative to the central axis, and is affected by the deflexion of an unequal electrostatic field, and the emission effect of the anions is often poor under the action of wind.

As a further optimized scheme, the height of the emission end of the negative ion emission head 75 is positioned at the opening of the ceiling partition plate 77 and is slightly higher than the lowest position of the pipe orifice 71. That is, the line connecting the emission end with the lowest position of the nozzle 71 cannot directly extend to the ceiling, so that the direct negative influence on the ceiling caused by the spherical emission of negative ions can be better controlled, and the electrostatic interference on the ceiling is minimized. This is particularly necessary for the ultra-concentrated anion emission head 75.

In addition, the transmitting head is preferably directly opposite to the unobstructed space, and cannot be too much out, otherwise, the transmitting head has great influence on the periphery, because of spherical emission, the transmitting head is slightly restrained by the influence of a point on the transverse direction, but the transmitting head cannot transmit the space below by the restraint, so the position of the transmitting end in the scheme is matched with the position of the transmitting head (in the center of the pipe orifice 71), and the transmitting head is the most reasonable and most efficient mounting structure.

As a further optimized scheme, as shown in fig. 30, the inner side of the air pipe connecting portion 73 is provided with a mounting bracket 78 for mounting the negative ion emitter head 75, the mounting bracket 78 includes a major arc snap ring 79 for fixing the negative ion emitter head 75, the center of the major arc snap ring 79 is located on the central axis of the air pipe connecting portion 73, and the major arc snap ring 79 is connected with the inner wall of the air pipe connecting portion 73 through at least two support legs. Specifically, the legs are three and uniformly arranged along the circumference, the two ends of the opening of the major arc snap ring 79 are respectively connected with one end leg 80, and the middle part of the major arc snap ring 79 is connected with a middle leg 81. In order to make the connection more firm and not influence the stability of air current, the stabilizer blade can vertically set up along the wind direction on the tuber pipe connecting portion 73 inner wall, and the length of connecting in tuber pipe connecting portion 73 inner wall one side is greater than and connects one side (can be trapezoidal or triangle-shaped etc.) of major arc snap ring 79.

In order to prevent the negative ion emitting head 75 from being blocked or touched by any component, the negative ion emitting head 75 needs to be suspended and fixed at the center of the inner side of the nozzle 71. In the scheme, the negative ion emission head 75 can be simply and conveniently arranged at the center of the inner side of the pipe orifice 71 by arranging the major arc clamping ring 79 coaxial with the air pipe connecting part 73. By providing the mounting bracket 78, the mounting and fixing of the anion emission head 75 can be more stable without affecting the stability of the airflow.

Example 6: on the basis of embodiment 1, as shown in fig. 31 and 32, the negative oxygen ion system comprises a negative ion emitting head 75 and a fastening insulator 82 arranged outside the negative ion emitting head 75, and a socket is further arranged outside the fastening insulator 82; the socket joint piece comprises an inner layer and an outer layer, wherein the inner layer is a foaming insulation cotton sleeve 83 with the inner diameter slightly smaller than the outer diameter of the fastening insulation piece 82, and the outer layer is a compression molding foam pipe 84 arranged on the outer side of the foaming insulation cotton sleeve 83. The fastening insulator 82 is a housing of the negative ion emitter 75, and the socket covers the abutment 85.

Because the foaming insulating cotton has certain elasticity, the socket joint piece can help the transmitting head to be taken down from the mounting structure easily, and can also effectively prevent falling or deviation due to the action force of natural gravity and wind. Further, in order to solve the problems that the foamed cotton insulator 28 is easy to absorb dust and weak in voltage resistance due to the fact that the foamed cotton insulator has a plurality of hole structures, the scheme is that the compression-molded foamed cotton layer is arranged on the outer side of the foamed insulating cotton layer to form a double-layer sleeve structure, a tighter insulating layer is formed, dust can be prevented from entering the double-layer sleeve structure, and the voltage resistance is effectively improved. In addition, because turbulence is difficult to avoid at the air port, sundries with fine hair structures such as indoor floating hair cotton wool and the like are easily adhered to the butt joint 85 to form a point discharge effect and cause micro-structure discharge noise; to address this problem, the outer layer of the socket is formed of a compression molded foam tube 84, which prevents unnecessary noise and ozone generation due to partial point discharge during long-term operation.

The sleeve for mounting the anion emission head 75 comprises an inner layer and an outer layer, wherein the inner layer is a foam insulation cotton sleeve 83 with the inner diameter slightly smaller than the outer diameter of the shell of the anion emission head 75, and the outer layer is a compression-molded foam cotton pipe 84 arranged outside the foam insulation cotton sleeve 83.

As before, this sleeve pipe passes through inlayer foaming insulation cotton sleeve pipe 83 and outer compression molding foam sleeve pipe constitution bilayer structure, enables anion emission head 75's installation on the one hand more firm, and on the other hand can also effectively prevent that the free electron of butt joint 85 department from spilling over, improves withstand voltage's ability.

Example 7: on the basis of embodiment 1, still include intelligent control system, intelligent control system includes controller, a plurality of sensor, and the sensor includes PM2.5 sensor, PM10 sensor, TVOC sensor, carbon dioxide sensor, temperature sensor and humidity transducer. The sensor is arranged indoors, the controller comprises a data processing module, the data processing module is a single chip microcomputer, and the sensor is in signal connection with the data processing module. The first air valve 2, the second air valve 3 and the third air valve 8 are all electric control valves, and the first air valve 2, the second air valve 3 and the third air valve 8 are in signal connection with the data processing module. The sensor converts the detection information into an electric signal and transmits the electric signal to the data processing module, and the data processing module converts the signal transmitted by the sensor into a numerical value and compares the numerical value with a preset value in the data processing module to judge the quality of the air. When the indoor air is better, the data processing module controls to close the first air valve 2 and the third air valve 8 and open the second air valve 3 for internal circulation. When the indoor air quality is poor, the data processing module controls to open the first air valve 2 and the third air valve 8 and close the second air valve 3 for external circulation.

In addition, in the circulating power and heat recovery module 9, an electric control box of the double-air-inlet forward-inclined outer rotor centrifugal fan is in signal connection with the data processing module, so that the rotating speed of the centrifugal fan can be reduced when the indoor air quality is good, and the use cost is saved.

Example 8: on the basis of embodiment 7, in order to acquire local air quality from the internet, the controller further includes:

the positioning module is used for acquiring real-time positioning information and sending the real-time positioning information to the data processing module;

the first outdoor air quality acquisition module is used for acquiring outdoor air quality data of the area from the Internet according to the positioning information and sending the outdoor air quality data to the data processing module;

since the air quality published by the internet is generally in the unit of a city, the controller may further include an outdoor air quality monitoring module for monitoring the outdoor air quality in real time and transmitting the outdoor air quality data to the data processing module.

Correspondingly, the controller also comprises an outdoor air quality second acquisition module which is used for acquiring real-time outdoor air quality data from the outdoor air quality monitoring module and sending the real-time outdoor air quality data to the data processing module.

Example 9: on the basis of embodiment 8, for more intelligent, improve user experience, let the user open indoor attitude health preserving system at any time, this controller still includes remote monitoring module, and remote monitoring module includes remote control terminal and server, data processing module and server data connection, and data processing module can pass through modes such as RS485, WIFI with data and transmit to the server. The remote control terminal is in data connection with the server to acquire server data. The remote control terminal can be a mobile phone WeChat, a WEB webpage, an upper computer, a mobile phone APP and the like, and is communicated with the data processing module through the server to realize indoor remote monitoring, equipment linkage and intelligent control.

It is obvious to a person skilled in the art that the invention is not restricted to details of the above-described exemplary embodiments, but that it can be implemented in other specific forms without departing from the spirit or essential characteristics of the invention. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Furthermore, it should be understood that although the present description is described in terms of embodiments, not every embodiment includes only a single embodiment, and those skilled in the art should take the description as a whole, and the embodiments in each embodiment may be combined as appropriate to form other embodiments that those skilled in the art can understand.

Claims (10)

1. An indoor ecological health-care system is characterized in that: comprises that

The air inlet module is communicated with the indoor space;

the air return module is communicated with the indoor space;

the circulating power and heat recovery module is communicated with the air inlet module and is used for sucking outdoor air into the air inlet module through a pipeline and providing power for air circulation in the air inlet module, and on the other hand, the circulating power and heat recovery module is communicated with the air return module and is used for sucking indoor air into the air return module and providing power for air circulation in the air return module;

the air inlet module comprises an air purification module and a first disinfection and sterilization module, the air purification module is communicated with the first disinfection and sterilization module, and the air purification module is positioned in front of the first disinfection and sterilization module in the air inlet direction, and the circulating power and heat recovery module are communicated with the outside.

2. The indoor ecological health preserving system of claim 1, wherein: still include inside and outside circulation switching module, inside and outside circulation switching module and circulation power and heat recovery module intercommunication, inside and outside circulation switching module and outdoor intercommunication, purification module installs in switching the casing, installs the blast gate that the interior circulation of control switched the interior air flow direction of mould in the inside and outside circulation switching mould.

3. The indoor ecological health preserving system of claim 1, wherein: the return air module comprises a second disinfection and sterilization module.

4. The indoor ecological health preserving system of claim 3, wherein: the air inlet module further comprises a negative oxygen ion module, and the circulating power and heat recovery module, the first disinfection and sterilization module and the negative oxygen ion module are sequentially communicated.

5. An indoor ecological health preserving system according to claim 1 or 4, wherein: the return air module still includes the air dehumidification module, and circulating power communicates in proper order with heat recovery module, second disinfection and isolation module, air dehumidification module.

6. The indoor ecological health preserving system of claim 5, wherein: still include magnetic field energy module, magnetic field energy module communicates between first disinfection and sterilization module and negative oxygen ion module, and the intercommunication has a plurality of air outlets on the magnetic field energy module, and the air outlet distributes in roof ceiling, and negative oxygen ion module installs on the air outlet, and the intercommunication has a plurality of air intakes on the air dehumidification module, and the air intake sets up in indoor ground.

7. The indoor ecological health preserving system of claim 4, wherein: the first disinfection and sterilization module is communicated with a plurality of air outlets, the air outlets are distributed on a roof ceiling, the negative oxygen ion module is installed on the air outlets, the air dehumidification module is communicated with a plurality of air inlets, and the air inlets are formed in the indoor ground.

8. The indoor ecological health preserving system of claim 2, wherein: the internal and external circulation switching module comprises a switching shell, a fresh air inlet, a return air inlet and an air supply outlet are arranged on the switching shell, the purification module comprises a first filter screen assembly and a second filter screen assembly, the first filter screen assembly is arranged at the fresh air inlet, and the second filter screen assembly is arranged at the air supply outlet; the circulating power and heat recovery module is provided with a first input port, a second input port, a first output port and a second output port, the air supply port is communicated with the first input port, the fresh air port is communicated with the outside through a pipeline, the return air port is communicated with a three-way pipe, the remaining two ends of the three-way pipe are respectively communicated with the first output port and the outside, a first air valve is installed at one end of the three-way pipe communicated with the outside, a second air valve is installed at one end, close to the return air port, of the three-way pipe, a third air valve is installed at the position of the fresh air port, the second output port is communicated with the air inlet module.

9. The indoor ecological health preserving system of claim 8, wherein: the air quality detection device is characterized by further comprising a controller, the controller comprises a data processing module and a plurality of sensors for detecting air quality, the sensors are in signal connection with the data processing module, the first air valve, the second air valve and the third air valve are electric control valves, and the first air valve, the second air valve and the third air valve are in signal connection with the data processing module.

10. The indoor ecological health preserving system of claim 9, wherein: the controller also comprises a remote monitoring module, the remote monitoring module comprises a remote control terminal and a server, the data processing module is in data connection with the server, and the remote control terminal is in data connection with the server.

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