WO2020259575A1 - Indoor ecological health promoting system - Google Patents

Abstract

An indoor ecological health promoting system comprises an air inlet module communicated with an indoor space; an air return module communicated with the indoor space; and a circulation drive and heat recovery module (9) communicated with the air inlet module and used to draw outdoor air into the air inlet module via a pipeline and provide a driving force to an air flow in the air inlet module, the circulation drive and heat recovery module also being communicated with the air return module, drawing indoor air into the air return module, and providing a driving force to an air flow in the air return module. The air inlet module comprises an air purification module and a first sterilization module (14), the air purification module and the first sterilization module (14) are communicated, and the air purification module is located in front of the first sterilization module (14) in an air inlet direction. The circulation drive and heat recovery module (9) is communicated with an outdoor environment. The system solves the problem in the prior art in which indoor air becomes contaminated when a filter in a fresh air system has been in use without being replaced for a long time.

Description

Indoor ecological health care system Technical field

The invention belongs to the field of indoor air purification and environmental health equipment, and specifically relates to an indoor ecological health care system.

Background technique

In recent years, the pollution of particulate matter in the atmosphere has become more and more serious, especially PM2.5. PM2.5 is the particulate matter in the air with a diameter of less than 2.5 microns. PM2.5 can be inhaled by humans and enter the human alveoli, and reach various organs through the human blood circulation system. , Causing harm to human health. At the same time, in the application of indoor air-conditioning, harmful gases and life pollutants generated indoors cannot be reasonably purified, diluted, and replaced. Indoor ecological health and environmental protection and energy conservation have become the focus of general attention of HVAC engineers and users.

The existing fresh air system only has one or two functions such as air purification, dehumidification, and indoor and outdoor circulation switching. For example, the patent document with the announcement number CN109631222A discloses a whole-house ecological intelligent health system, which is characterized by: Residential house, which is used for people to live; aerodynamic module, which is used to input the outdoor air of the residence into the living room through the air inlet duct, and on the other hand, discharge the indoor exhaust gas from the living room through the exhaust duct. The aerodynamic module and the outdoor The air contact is provided with an air inlet and an air outlet; the electromagnetic field energy module is used to generate magnetic field energy waves to act on the 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; air temperature adjustment The module is used to adjust the air temperature, the output end of the electromagnetic field energy module is connected to the input end of the air temperature adjustment module; and the air distribution module is used to distribute the air output by the air temperature adjustment module to all parts of the living room, and the air temperature The output end of the regulating module is connected to the input end of the air distribution module through the air supply pipe. The solution uses multiple modules to switch indoor and outdoor air circulation, air purification, and electromagnetic wave formation. However, the filter module in this solution is not replaced in time after long-term use, and the performance of the filter in the filter module gradually decreases. After long-term use, Viruses and bacteria growing on the surface of the filter will penetrate the filter into the room like an avalanche, polluting the indoor air a second time.

Summary of the invention

The purpose of the present invention is to provide an indoor ecological health care system to solve the problem that the filter in the fresh air system of the prior art is not replaced in time after long-term use, which causes the secondary pollution of indoor air.

In order to achieve the above objectives, the basic solution of the present invention provides an indoor ecological health care system, including:

Air intake module, which is connected to the room;

The return air module, which is connected to the room;

Circulation power and heat recovery module, which is connected with the air inlet module, used to suck outdoor air into the air inlet module through the pipe and provide power for air circulation in the air inlet module, on the other hand it is connected with the return air module , Suck indoor air into the return air module and provide power for air circulation in the return air module;

The air intake module includes an air purification module and a first disinfection and sterilization module. The air purification module is connected to the first disinfection and sterilization module. The air purification module is located in front of the first disinfection and sterilization module in the air inlet direction. The circulation power and heat recovery The module is connected to the outdoors.

The principle of this basic scheme is: outdoor air can be sucked into the air inlet module from the outside under the action of the circulating power and heat recovery module and enter the room, and indoor air can enter the return air model under the action of the circulating power and heat recovery module group. The air enters the room after being acted by the air inlet module, and at the same time, the indoor air is acted on by the return air module.

In addition, the air entering the air inlet module first passes through the air purification module and then the sterilization device, preventing bacteria in the air purification module from entering the room and causing secondary pollution to the room.

The beneficial effects of this basic scheme are as follows: 1. The device is powered by the circulating power and heat recovery module so that air can enter the air inlet module from the outside and into the room, and at the same time can be powered by the ring power module to make air enter the return air module and Being used by the return air module, using the same power unit saves installation space.

2. The device is equipped with a first disinfection and sterilization module after the air purification module, so that bacteria that have passed through or accumulated on the air purification module can be inactivated by the first disinfection and sterilization module, and prevent bacteria from entering the room. At the same time, it is avoided to replace the air purification module only because of excessive bacteria when the air purification module does not fail, thereby saving the use cost.

3. The circulating power and heat recovery module makes the air circulate between the air inlet module and the return air module, so that the indoor air is sterilized by multiple cycles, which reduces the pollution of the air purification module by bacteria in the air, and further Extend the service life of the air purification module.

Description of the drawings

Figure 1 is a schematic diagram of the air flow in the present invention;

Figure 2 is a schematic diagram of the installation structure of the present invention;

Figure 3 is a view from the direction A in Figure 2;

4 is a schematic diagram of the structure of the internal and external circulation switching module in the present invention;

Figure 5 is a cross-sectional view in the direction of B-B in Figure 4;

6 is a schematic diagram of the structure of the discharge cell in Embodiment 2;

Figure 7 is a cross-sectional view in the direction of C-C in Figure 6;

8 is a schematic diagram of the three-dimensional structure of the purification unit in Embodiment 2;

Figure 9 is a front view of the purification unit in Embodiment 2;

Figure 10 is a cross-sectional view in the direction D-D in Figure 9;

Figure 11 is a schematic diagram of the assembly of embodiment 3;

12 is a schematic diagram of the structure of the purification unit in Embodiment 3;

13 is a schematic diagram of the structure of the energy module in Embodiment 3;

14 is a schematic diagram of the structure of the magnetic core in Embodiment 3;

15 is a schematic diagram of the structure of the magnet group in Embodiment 3;

16 is a schematic diagram of the structure of the diversion frame in Embodiment 3;

17 is a schematic diagram of the structure of the reflector in Embodiment 3;

18 is a schematic diagram of the structure of the reflective strip in Embodiment 3;

19 is a schematic diagram of the structure of the packaging strip in Embodiment 3;

20 is a partial enlarged schematic diagram of the reflector in Embodiment 3;

21 is a schematic diagram of the overall assembly structure in Embodiment 4;

22 is a schematic diagram of the structure of the filter element in embodiment 4;

23 is a schematic diagram of the assembly structure of the magnet assembly in Embodiment 4;

24 is a schematic diagram of the assembly of the medium-sized magnet group and the guide rod in Embodiment 4;

25 is a schematic diagram of the structure of the magnet group in Embodiment 4;

FIG. 26 is a schematic diagram of the structure of the housing in Embodiment 4;

Figure 27 is a schematic diagram of the structure of the upper fixing plate of the present invention;

Fig. 28 is a schematic diagram of the structure of the lower fixing plate of the present invention.

29 is a schematic diagram of the structure of the negative ion air supply device in Embodiment 5;

Figure 30 is a top view of the mounting bracket in Embodiment 5;

31 is a schematic diagram of the structure of the negative ion emitting head assembly in Embodiment 6;

32 is a cross-sectional view of the sleeve structure that can be used to install the negative ion emitter in Embodiment 6.

Detailed ways

The present invention will be further described in detail below through specific embodiments:

The reference signs in the drawings of the specification include: three-way pipe 1, first air valve 2, second air valve 3, air supply port 4, air return port 5, internal and external circulation switching module 6, fresh air port 7, third air valve 8 , Cycle power and heat recovery module 9, first output port 10, first input port 11, second input port 12, second output port 13, first disinfection and sterilization module 14, second disinfection and sterilization module 15, magnetic field Energy module 16, air dehumidification module 17, first air distribution box 18, negative oxygen ion module 19, second air distribution box 20, switching housing 21, second filter assembly 22, first filter assembly 23, conductive rod 24, Tubular metal receiving electrode 25, metal emitter 26, discharge gap 27, insulator 28, first electrode plate 29, second electrode plate 30, negative electrode plate screw 31, vent 32, energy box 33, tuyere flange 34, wiring terminal 35. Energy photoelectric module 36, energy module assembly 37, flasher 38, guide frame 39, air flow channel 40, fixing frame 41, guide rod 42, permanent magnet 43, gasket 44, guide frame 45, through slot 46, The reflector 47, the lamp tube 48, the reflector 49, the bending part 50, the packaging strip 51, the "L"-shaped notch structure 52, the upper groove 53, the lower groove 54, the air deflector 55, the mounting frame 56, the magnetic filter 57, Upper cover 58, lower cover 59, magnetic sleeve 60, fixing frame 61, permanent magnet group 62, annular groove 63, upper fixing disc 64, lower fixing disc 65, guide rod 66, permanent magnet 67, gasket 68, inner Fixing ring 334, outer fixing ring 335, fixing rod 336, through hole 337, mounting ring 338, protrusion 339, reinforcing rod 400, fixing hole 401, packaging cap 402, air connection pipe 69, air outlet structure 70, nozzle 71 , Warped edge 72, air duct connection 73, negative ion generator 74, negative ion emitter 75, partition bracket 76, ceiling partition 77, mounting bracket 78, superior arc retaining ring 79, end support 80, middle support 81, Fastening insulation 82, foam insulation cotton sleeve 83, compression molded foam tube 84, butt joint 85.

Example 1: An indoor ecological health care system in this scheme, as shown in Figure 1, Figure 2 and Figure 3, includes an air inlet module, a return air module, a circulating power and heat recovery module 9 and an internal and external cycle switch Module 6. The cyclic power and heat recovery module 9 includes a power shell, and a negative pressure device is installed in the power shell. The negative pressure device in this embodiment is a double-inlet forward inclined outer rotor centrifugal fan, and a plate heat exchanger is also 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 located in the double-inlet forward-tilted outer rotor centrifugal The input end of the fan, the first output port 10 and the second output port 13 are respectively located at the two output ends of the double-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 opening 7, a return air opening 5 and a supply air opening 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 outlet 7, and the second filter screen assembly 22 is installed at the air supply outlet 4. As shown in Figure 2, the air supply port 4 is connected to the first input port 11, the fresh air port 7 is connected to the outside through a pipe, the return air port 5 is connected with a tee pipe 1, and the remaining ends of the tee pipe 1 are connected to the first output port 10. Connected to the outdoors. The first air valve 2 is installed at the end of the tee pipe 1 that communicates with the outdoors, the second air valve 3 is installed at the end of the tee pipe 1 close to the air return port 5, the third air valve 8 is installed at the fresh air port 7, and the second output The port 13 is in communication with the air inlet module, and the second input port 12 is in communication with the return air module.

As shown in FIG. 3, the air inlet module includes a first disinfection and sterilization module 14 and a negative oxygen ion module 19, and the circulation power is connected with the heat recovery module 9, the first disinfection and sterilization module 14 and the negative oxygen ion module 19 in sequence. The first sterilization module 14 includes a first sterilization housing in which a plasma generator is installed, the first sterilization housing has a first sterilization outlet and a first sterilization inlet, and the first sterilization inlet is connected to the The second output port 13 is in communication, and the first sterilization outlet is in communication with a first air distribution box 18.

The first air distribution box 18 has a plurality of air outlets, the air outlets are connected with air outlet ducts, and the outlets of the air outlet ducts are evenly densely distributed on the ceiling of the house. A negative oxygen ion module 19 is installed at the outlet of the air outlet pipe, and the negative oxygen ion module 19 is a negative oxygen ion generator.

As shown in FIG. 3, the return air module includes a second disinfection and sterilization module 15 and an air dehumidification module 17, and the circulating power is connected to the heat recovery module 9, the second disinfection and sterilization module 15, and the air dehumidification module 17 in sequence. The second sterilization module 15 is the same sterilization module as the first sterilization module 14. The second sterilization module 15 includes a second sterilization housing, and the second sterilization housing has a second sterilization outlet and a second sterilization outlet. The sterilization inlet and the second sterilization outlet communicate with the second input port 12.

The air dehumidification module 17 includes a dehumidification housing, which has a dehumidification outlet and a dehumidification inlet, and the dehumidification outlet is in communication with the second sterilization inlet. A dehumidifier is installed in the dehumidification shell. A second air distribution box 20 is connected to the dehumidification inlet. The second air distribution box 20 includes a plurality of air inlets. The air inlets are connected with air inlet ducts. The inlets of the air inlet ducts are distributed at the corners of the ground. The evenly dense air outlets on the roof and the air inlets at the corners of the ground form an excellent circulation aerodynamic layout, so that the clean air with negative oxygen ions fills the room and forms an effective circulation.

As shown in Figure 1, Figure 2 and Figure 3, the working process is: closing the first air valve 2 and the third air valve 8 and opening the second air valve 3 to enter the indoor circulation mode. Under the action of the circulating power and heat recovery module 9, the indoor air is sucked into the return air module, then enters the return air outlet 5 of the inner and outer circulation switching module 6, and then enters from the air outlet 4 through the second filter assembly 22 The air inlet module, the air enters the room after the action of the air inlet module. Then it is sucked into the return air module to form an internal circulation.

By opening the first air valve 2 and the third air valve 8 and closing the second air valve 3, the outdoor circulation mode is entered. Under the action of the circulating power and heat recovery module 9, the outdoor air enters the internal and external circulation switching module 6 from the fresh air outlet 7 After the first filter screen assembly 23 and the second filter screen assembly 22, under the action of the circulating power and heat recovery module 9, enter the air inlet module from the air outlet 4 and then enter the room. The indoor air is sucked into the return air module under the action of the circulating power and heat recovery module 9, and then discharged to the outdoors from the end of the tee pipe 1 close to the outdoors. The air comes from the outdoors and is discharged to the outdoors after the action of the air inlet module and the return air module, forming an external circulation.

Both the inner circulation and the outer circulation are processed by the first disinfection and sterilization module 14 and the second disinfection and sterilization module 15. After the internally circulating air is processed by the first disinfection and sterilization module 14 and the second disinfection and sterilization module 15, bacteria are prevented from accumulating on the filter and at the same time, bacteria are prevented from entering the room. In addition, it is avoided that the air purification module is replaced only because of excessive bacteria when the air purification module does not fail, thereby saving the use cost. The circulating power and heat recovery module 9 makes the air circulate between the air inlet module and the return air module, so that the indoor air is sterilized by multiple cycles, which reduces the pollution of the air purification module by bacteria in the air, and further extends The service life of the air purification module is improved.

It is worth mentioning that the second disinfection and sterilization module 15 also disinfects and sterilizes the air discharged outside, which has a positive effect on the improvement of air quality in cities with poor outdoor air quality, conforms to the low-carbon, environmentally friendly and green concept, and is popularized. Meaning.

When the air enters the room through the negative oxygen generator of the air intake module, the negative oxygen generator makes the air contain negative oxygen ions, and the negative oxygen ions have health care and physical therapy effects. In addition, negative oxygen ions can also play a role in gathering large particles of dust in the air, and can assist the purification system to quickly purify indoor air such as PM2.5 and other fine particles. Furthermore, because the indoor air has a certain amount of negative oxygen ions, that is, a negative charge, it can make the filter of the purification system easier to filter, thereby extending the life of the filter of the purification system.

The air dehumidification module 17 is arranged to dehumidify indoor air during the air circulation process. In addition, the dry and clean air is transported through the air disinfection and sterilization module, which prevents the high-humidity air from damaging the core components of the disinfection and sterilization module, accelerating its oxidation, and even electric creepage.

The setting of the air purification module avoids the accumulation of dirty substances on the air dehumidification module 17 to form bacteria and viruses, and avoids dust sticking in the heat exchanger, which affects the cold and heat exchange efficiency of the system. In addition, it also protects the centrifugal fan motor in the circulating power and heat recovery module 9.

The air purification module and the disinfection and sterilization module work together to make the air free of pollutants, thereby making the air clean. The clean air prevents pollutants from affecting the emission of negative oxygen ions, reduces the number of negative oxygen ions, and at the same time prevents ozone from damaging the negative oxygen ion generator. That is, this system guarantees the quality and quantity of negative oxygen ions in the room to the greatest extent.

Embodiment 2: On the basis of Embodiment 1, the plasma generator includes two purification units, and the purification unit includes several discharge units. As shown in FIG. 6 and FIG. 7, the discharge unit includes a tubular metal receiving electrode 25 and a metal emitter electrode 26, and both the tubular metal receiving electrode 25 and the metal emitter electrode 26 are made of metal conductive materials. The tubular metal receiving electrode 25 is a negative electrode, the metal emitter 26 is a positive electrode, the tubular metal receiving electrode 25 is a circular tube, and the metal emitter 26 is a disc shape. The metal emitter 26 has a diameter of 70 mm and the edge is in the shape of a knife edge, and the thickness of the knife edge is 1 mm.

As shown in FIGS. 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. The conductive rod 24 is located at the center line of the tubular metal receiving pole 25. A connecting hole is machined in the center of the metal emitter 26, and the metal emitter 26 is sleeved on the conductive rod 24 through the connecting hole. Several short sleeves and two long sleeves are installed on the conductive rod 24. The short sleeves are located between the two metal emitters 26. The distance between the metal emitters 26 is 70mm. The distance is within the range of the metal emitters 26. The discharge effect is better. A discharge gap 27 is formed between the metal emitter 26 and the inner wall of the tubular metal receiving electrode 25 along the radial direction of the tubular metal receiving electrode 25, and the width of the discharge gap 27 is 7 mm. The long shaft sleeve is located at both ends of the conductive rod 24 and abuts against the outermost metal emitter 26. The two ends of the conductive rod 24 are screw-shaped. The two ends of the conductive rod 24 are threadedly connected with abutting parts. The long bushing is made by tightening the abutting parts. The metal emitter 26 is pressed tightly to fix the metal emitter 26 on the conductive rod 24.

As shown in Figs. 8 and 9, a first electrode plate 29 is installed at both ends of the tubular metal receiving electrode 25, and the first electrode plate 29 is a negative electrode plate. A positioning ring is integrally formed on the first pole plate 29, the tubular metal receiving pole 25 is clamped into the positioning ring, and the two first pole plates 29 are fixedly connected by the negative plate screw 31, so that the tubular metal receiving pole 25 is clamped between the two Between the first plate 29. The first electrode plate 29 is integrally formed with a vent hole 32 corresponding to the position of the end of the tubular metal receiving pole 25, and the vent hole 32 is concentric with the tubular metal receiving pole 25.

As shown in FIGS. 8 and 10, two ends of the conductive rod 24 extend out of the tubular metal receiving pole 25, and the two ends of the conductive rod 24 are fixedly connected with the second pole plate 30 by abutting members. The second electrode plate 30 is a positive electrode plate. An insulator 28 is installed between the first electrode plate 29 and the second electrode plate 30. Both ends of the insulator 28 are machined with internal threaded holes. The insulator 28 passes through the internal threaded holes and connects to the first electrodes on both sides. The plate 29 and the second electrode plate 30 are threadedly connected. This structure enables the conductive rod 24 to be fixed in the tubular metal receiving pole 25, and at the same time, the insulator 28 is fixed between the first pole plate 29 and the second pole plate 30. Both the first electrode plate 29 and the second electrode plate 30 are made of metal conductive materials, and the metal conductive electron transfer effect is excellent and the material is easy to obtain.

When the air passes through the ionic air purifier in this solution, an electric field is generated between the metal emitter 26 and the inner wall of the tubular metal receiving electrode 25. Because the metal emitter 26 has a knife edge in the circumferential direction and is disc-shaped, the tubular metal receiving electrode 25 It has a circular tube shape, and the metal emitter 26 and the tubular metal receiver 25 are arranged coaxially. The electric field formed by the metal emitter 26 on the tubular metal receiving electrode 25 is uniform and is in a closed loop around the metal emitter 26. Therefore, the air passing between the metal emitter 26 and the inner wall of the tubular metal receiving electrode 25 can be affected by the electric field, avoiding that the air existing in the prior art is not affected by the electric field. The problem of "escape" in between.

After the air with a flow velocity enters the tubular metal receiving electrode 25, the air is ionized to generate plasma under the action of the annular electric field. Because the electric field is larger, more plasma can be generated and diffused in the tubular metal receiving electrode 25. Due to the uniform and regular ring electric field strength, there is no arcing or flashing in the whole process, avoiding ozone generation, and regular discharge is safer.

At the same time, because the width of the discharge gap 27 is 7mm, the passage in the tubular metal receiving pole 25 becomes narrower, which produces a venturi effect, which makes the air flow area suddenly narrow and suddenly open, making the air flow do Irregular movement. At the same time, the channel is narrowed to generate a low pressure, and the air in the tubular metal receiving electrode 25 is attracted to the metal emitter 26 at the narrowed part of the channel, so that the air and plasma passing through the tubular metal receiving electrode 25 are more fully contacted. Moreover, the outer periphery of the metal emitter 26 and the tubular metal receiver 25 at the narrowed channel form a closed electric field, so that the energy of the pollutant molecules in the air is greater than the binding energy of the molecular bond energy, thereby breaking the chemical bonds of the pollutant molecules. , It is directly decomposed into elemental atoms or harmless gas molecules composed of single atoms, which improves the air purification quality.

In addition, because the annular electric field is formed in the narrowing of the channel, the Coulomb force is generated when the electric field is formed, which intensifies the Brownian motion of the air molecules in the place, and further makes the pollutants in the air come into full contact with the plasma, thereby making the air purification more sufficient. Further improve the air purification quality.

Furthermore, the multiple metal emitters 26 produce multiple venturi effects, so that when the air passes through the tubular metal receiving electrode 25, it repeatedly crosses the narrowed part of the channel to form a swirling flow and present a surge state, which further enhances the brown of the air. The movement allows the pollutants in the air to better collide with the low-temperature plasma, thereby making the air purification more fully and further improving the air purification quality.

Embodiment 3: On the basis of embodiment 1, as shown in Figures 11-20, a magnetic field energy module 16 is added to the air intake module, and the magnetic field energy module 16 is connected to the first disinfection and sterilization module 14 and the negative oxygen ion module Between 19. The magnetic field energy module 16 includes an energy cabinet 33 having an energy outlet and an energy inlet, the energy inlet is connected with the first sterilization outlet, and the energy outlet is connected with the first air distribution box 18.

A purification unit is installed in the energy cabinet 33. The purification unit includes an energy photoelectric module 36, an energy module assembly 37, and a flasher 38. The energy module assembly 37 includes a deflector 39 on which a plurality of The air flow channel 40 is provided with magnetic filter elements; each filter element includes a magnetic sleeve and a permanent magnet group arranged in the magnetic sleeve, and the permanent magnet group is fixed by a fixing frame 41; the outer surface of the permanent magnet group is coated with Nanocomposite material layer with magnetic semiconductor function; the energy photoelectric module 36 includes two flow guide frames 45 symmetrically integrated and arranged on both sides of the flow guide frame 39, and the bottom of each flow guide frame 45 is provided with a plurality of through slots 46 , The inner bottom of the guide frame 45 is provided with a reflective component, the reflective component includes a reflective plate 47, the edge ring of the reflective plate 47 is provided with a lamp tube 48, and the flasher 38 supplies power to the lamp tube 48. After the lamp tube 48 is charged, the beam shines on the reflection On the plate 47, the reflective plate 47 reflects the light into the space on the guide frame 39. The arrangement of the magnetic sleeve and the permanent magnet group in the present invention makes the space of the entire air flow channel 40 to be equipped with a strong magnetic field curtain magnetic field; the outer surface of the permanent magnet group is coated with a nanocomposite material layer with a magnetic semiconductor function, and the flasher 38 provides the lamp tube 48 power supply, the light of the lamp 48 is reflected on the reflector 47 through the reflector 47 in the airflow channel 40, and the light irradiates the nanocomposite material layer with magnetic semiconductor function on the surface of the permanent magnet group, and the nanocomposite material with magnetic semiconductor function The layer generates a changing photocurrent under the action of light, the photocurrent forms a changing electric field, and the changing electric field interacts with the magnetic field to form an electromagnetic field, which achieves the purpose of enhancing the electromagnetic field generated by the nanocomposite material layer under the action of light.

When the air enters the electromagnetic field space from the chassis, the electromagnetic field interacts with all the electrons, particles, water molecules and other substances moving in the air flow to be magnetized, so as to eliminate harmful odors in the air and keep the magnetized air continuously It is transmitted to the required space (such as a room), so that the entire space (room) is covered with weak electromagnetic fields. These weak electromagnetic fields simultaneously magnetize other substances in the space, such as people, the weak electromagnetic fields in the space and the organisms in the human body. When electromagnetic fields, metal elements, proteins, fats, and water molecules interact, they form friction and resonance, and generate slight heat energy, so as to balance the space environment, human cells and biological electromagnetic fields, and regulate the nervous system. The invention uses a nano composite material layer with a magnetic semiconductor function and a strong magnetic field to carry out air purification treatment and perform physical therapy on the human body and regulate the nervous system; the air quality after the treatment is excellent, colorless, tasteless, odorless, and non-infectious.

Wherein, the magnet group includes a guide rod 42 and a plurality of permanent magnets 43 arranged in series on the guide rod 42. The magnetic poles of adjacent permanent magnets 43 are identical and opposite, and spacers 44 are arranged between the magnets; the adjacent permanent magnets 43 have the same The magnetic poles are arranged opposite to each other; the nanocomposite material layer with magnetic semiconductor function is coated on the outer surface of the permanent magnet 43 and the gasket 44. The relative magnetic poles of the adjacent permanent magnets 43 are of the same nature, so that the magnetic force of the permanent magnets 43 generates a repulsive force to form a columnar moving magnetic field. The columnar moving magnetic field interacts with the magnetic field in the magnet sleeve to increase the intensity of the magnetic field. Then the nanocomposite material layer with magnetic semiconductor function is irradiated with light to generate an electromagnetic field, so that the electromagnetic field in the air flow channel 40 is stronger, the magnetization effect is better, and the harmful odor in the air is eliminated. The two ends of the guide rod 42 are fixed to the fixing frame 41 and then installed in the magnetic sleeve. The fixing frame 41 is composed of a ring-shaped emission structure formed by a fixing ring and a plurality of fixing rods. The fixing frame 41 fixes the magnet and stabilizes the magnet. magnetic field.

Furthermore, the magnetic sleeve is provided with a nanocomposite material layer with a magnetic semiconductor function, so that the magnetization effect of the harmful odor of the air holes is the best. The nanocomposite material layer with magnetic semiconductor function described in the present application is preferably a nanocomposite material composed of nano-scale "magnetic rice", tourmaline powder, anion powder, medical stone powder, single-layer graphene, germanium powder, and silicon micropowder materials. Floor.

This "magnetic rice" material is made of various metal oxides and caustic soda (sodium hydroxide NaOH) under the electric heating effect, after multiple chemical reactions, various nano-scale oxides are separated and produced; He salt (sodium chloride NaCl) is magnetized under the action of a weak electromagnetic field to produce a variety of magnetic oxides with special functions of magnetic field---"magnetic rice" materials. This composite material uses the existing "magnetic field" of the "magnetic meter" and the interaction between the nanometer magnetosphere and the environment. After composite magnetization, it has self-absorption and self-release semiconductor functions with electromagnetic characteristics. It can continuously interact with the surrounding electrons, photons, spatial magnetic fields, and material magnetic fields, and conduct each other under the effect of the nano-magnetosphere, thereby effectively maintaining the balance of the "magnetic field" in the specific space environment.

Adding nano-level tourmaline powder (tourmaline) can be charged when heated to form a pyroelectric effect, generate a weak electromagnetic field in the material, and can generate electric ions for a long time, and permanently release beneficial air Negative ions and far infrared rays. The addition of pyroelectric and piezoelectric nano-level anion powder can cause a potential difference between the components under the condition of temperature and pressure changes, and the static electricity can reach one million electron volts, thereby ionizing the air and hitting the electrons. Attaches to neighboring water and oxygen molecules and converts it into negative air ions, that is, negative oxygen ions. Add nano-grade medical stone powder with strong electrostatic attraction and far-infrared emission. Far-infrared rays can regulate the central nervous system of the brain, accelerate blood circulation, improve the microcirculation of brain tissue, and make brain cells get sufficient oxygen. And nutrition supply, promote metabolism, change the imbalance of the cerebral cortex, deepen the inhibition process, and play a calming and sleeping effect. Adding nano-scale single-layer graphene powder with electrical and thermal conductivity to increase the electrical conductivity, thermal conductivity, and semiconductor properties of the above nanocomposite materials. Adding nano-scale silicon powder with semiconductor characteristics to increase the resistivity and semiconductor characteristics between the above nanocomposite materials. Add nano-grade germanium stone powder to increase the far-infrared emissivity and improve the human body’s best absorption frequency and wavelength. The combination of germanium stone powder and "magnetic rice" produces far-infrared rays with "magnetic field" energy that can resonate with human cells. , To form a thermal response, expand the capillaries, promote blood circulation in the body, and relieve fatigue.

The above materials are compounded to form a semiconductor with autonomous absorption and release functions. The use of the "magnetic meter" characteristics and the electromagnetic field in space, electron interaction and emission and the weak magnetic field and electric field of the human body are stable, and interact with the weak biological electromagnetic field in the human body. It acts to generate friction and resonance to generate heat in biological tissue cells; at the same time, it constantly balances the electromagnetic field and the tissue cells of the human body to form a nano-scale magnetosphere, producing normal cell magnetosphere and diseased cell magnetosphere, forming magnetic field isolation, Block the connection between diseased cells and normal cells in human tissues.

Further, the reflecting plate 47 is formed by splicing a plurality of reflecting strips 49, the reflecting plate 47 is spliced by reflecting strips 49 to form a double-layer grooved plate, and the upper and lower grooves 54 of the double-layer grooved plate are arranged in a staggered manner. The two ends of the reflective strip 49 are respectively provided with a splicing structure, and the splicing structure includes a bent portion 50 that is offset up and down and arranged in reverse. The two ends of the reflector 47 are encapsulated by a packaging strip 51, and both ends of the packaging strip 51 are bent with packaging blocks, and the packaging blocks have an "L"-shaped notch structure that matches the bending part 50 of the assembly structure 52. When assembling, the adjacent reflective strips are assembled relative to each other, and the staggered and reversely arranged bending parts 50 are spliced to form a double-layer grooved plate composed of upper groove 53 and lower groove 54 and upper groove 53 and lower groove 54 Displacement arrangement; the packaging plates at both ends encapsulate the reflector 47, and the “L”-shaped notch structure 52 of the packaging block is butted with the bent portion 50 of the reflector 49. The reflective plate formed by the double-layer grooved plate composed of the upper groove 53 and the lower groove 54 and the upper groove 53 and the lower groove 54 are arranged in a staggered manner, not only plays a role of reflecting light, but also does not affect air entry. The length of the through groove 46 at the bottom of the flow guide frame 45 is less than the length of the upper groove 53 and the lower groove 54 and the through groove 46 is alternately arranged vertically with the upper groove 53 and the lower groove 54; it has a light-shielding effect while not affecting the air entry.

Further, one end of the flasher 38 extends outside the energy box 33 as a connection terminal 35, and the connection terminal 35 is used for external power supply to supply power to the lamp tube 48.

Further, a tuyere flange 34 is provided on the energy box 33. The case may be a rectangular case, and an air outlet flange 34 is opened on the case, which is convenient for installation, and has a compact and simple appearance. The air enters the photoelectric energy module assembly 37 from the air outlet of the energy box 33, enters the air deflector 39 from the through slot 46, upper groove 53, and lower groove 54 on the air deflector frame 45, and then enters the airflow channel 40 into the electromagnetic field. The air is magnetized. After being sent out from the through groove 46, upper groove 53, and lower groove 54 on the other deflector frame 45, it is finally discharged into the indoor space from the air outlet; the present invention uses a nanocomposite material layer with magnetic semiconductor function and a strong magnetic field for air purification deal with. The magnetized air is continuously transmitted to the required space (such as a room), so that the entire space (room) is filled with weak electromagnetic fields. These weak electromagnetic fields simultaneously magnetize other substances in the space, such as people, and other substances in the space. When the weak electromagnetic field interacts with the biological electromagnetic field, metal elements, protein, fat, and water molecules in the human body, friction and resonance are formed, and slight heat energy is generated, so as to balance the space environment, human cells and the biological electromagnetic field of the human body, and regulate the nervous system. effect. Perform physical therapy on the human body and regulate the nervous system; the processed air is of good quality, colorless, tasteless, odorless, and non-infectious.

Embodiment 4: On the basis of Embodiment 1, as shown in Figures 21-28, a magnetic field energy module is added to the air intake module, and the magnetic field energy module is connected between the first disinfection and sterilization module and the negative oxygen ion module. The magnetic field energy module includes a flow deflector 55, which has an energy outlet and an energy inlet, the energy inlet communicates with the first sterilization outlet, and the energy outlet communicates with the first air distribution box.

A magnetic field purification unit is installed in the flow deflector 55. The magnetic field purification unit includes a magnetic filter core 57, which includes a magnetic sleeve 60, and at least one set of permanent magnets 67 sets 62 placed in the magnetic sleeve 60. A plurality of annular grooves 63 are formed in the inner ring of the sleeve 60, and the 67 groups 62 of permanent magnets are fixed by the fixing frame 61; the outer surfaces of the 67 groups 62 of the permanent magnets are coated with a nanocomposite material layer with a magnetic semiconductor function. In the present invention, the arrangement of the magnetic sleeve 60 and the permanent magnet 67 group 62 makes the space of the entire inner cavity of the deflector 55 arrange a magnetic field space with a strong magnetic field; the outer surface of the permanent magnet 67 group 62 is coated with nanometers with magnetic semiconductor function. The composite material layer, when the composite material is subjected to heat radiation or pressure, an electric current is generated to form an electromagnetic field. Through the superposition of the magnetic field of the 67 groups and 62 of the permanent magnets, the electrons, particles, water molecules and other substances in the air become plasma, forming a belt Materials with negative electrons, such as negative oxygen ions. When the air enters the magnetic field space from the deflector 55, the electromagnetic field interacts with all the electrons, particles, water molecules and other substances moving in the air flow to be magnetized, so as to eliminate harmful odors in the air and magnetize it. The air is continuously transmitted to the required space (such as a room), so that the entire space (room) is filled with weak electromagnetic fields. These weak electromagnetic fields simultaneously magnetize other substances in the space, such as people. The weak electromagnetic fields in the space and the human body The interaction of biological electromagnetic fields, metal elements, proteins, fats, and water molecules generates friction and resonance heat energy, so as to balance the space environment, human cells and biological electromagnetic fields to regulate the nervous system, perform physical therapy and regulate the nervous system of the human body. The invention uses a nano composite material layer with magnetic semiconductor function and a strong magnetic field to carry out air purification treatment and physical treatment of the human body; the treated air is of good quality, colorless, tasteless, odorless, and non-infectious. The annular groove 63 cuts off the magnetic field.

Wherein, the permanent magnet 67 group 62 includes a guide rod 66 and a plurality of permanent magnets 67 arranged in series on the guide rod 66. The magnetic poles of the adjacent permanent magnets 67 are arranged opposite to each other with the same polarity, and a spacer 68 is provided between the adjacent permanent magnets 67. ; The two ends of the guide rod 66 are fixed with the fixing frame 61 and then installed in the magnetic sleeve 60. The relative magnetic poles of adjacent permanent magnets 67 are of the same nature, so that the magnetic force of the permanent magnets 67 generates a repulsive force to form a columnar moving magnetic field. The columnar moving magnetic field interacts with the magnetic field in the magnet sleeve 60 to increase the intensity of the magnetic field. Then, the electromagnetic field is generated by the nanocomposite material layer with magnetic semiconductor function, so that the electromagnetic field intensity of the inner cavity of the air guide 55 is stronger, the magnetization effect is better, and the harmful odor in the air is eliminated.

The fixing frame 61 is composed of two fixing discs arranged coaxially up and down. The permanent magnet 67 group 62 is located between the two fixing discs through the guide rod 66; the two fixing discs are the upper fixing disc 64 and the lower fixing disc 65, respectively. Both the disk 64 and the lower fixed disk 65 are formed by an inner fixed ring 334, an outer fixed ring 335, and a plurality of fixed rods 336 in a ring-shaped emission structure. The upper fixing disc 64, the inner fixing ring 334 of the lower fixing disc 65 and the outer fixing ring 335 are all coaxially arranged, and the diameter of the inner fixing ring 334 is smaller than the diameter of the outer fixing ring 335. The position where the outer fixing ring 335 of the upper fixing plate 64 is connected to the fixing rod 336 is provided with a through hole 337 through which the guide rod 66 passes, and the position where the outer fixing ring 335 of the lower fixing plate 65 is connected to the fixing rod 336 is opened. The fixing hole 401 has a packaging protrusion 339 extending from the opening on the side of the fixing hole 401 opposite to the permanent magnet 67 group 62. The packaging protrusion 339 and the fixing hole 401 form a blind hole. The outer fixing ring 335 of the lower fixing disc 65 is extended with a mounting ring 338 for mounting with the magnetic sleeve 60, and a reinforcing rod 400 is provided between the fixing ring 338 and the outer fixing ring 335 of the lower fixing disc 65. The diameter of the inner fixing ring 334 matches the outer diameter of the guide rod 66. The 67 sets of permanent magnets 62 are multiple sets, one of which is installed between the upper fixing disc 64 and the inner fixing ring 334 of the lower fixing disc 65 through a guide rod 66, and one end of the guide rod 66 passes through the inner fixing ring of the upper fixing disc 64 334 is connected by a screw cap, and the other end of the guide rod 66 passes through the inner fixing ring 334 of the lower fixing plate 65 and is sealed and fixed by a packaging cap 402. The other sets of permanent magnets 67 and 62 are respectively fixed between the through hole 337 and the fixing hole 401 at the intersection of the upper fixing disc 64 and the fixing rod 336 of the lower fixing disc 65 and the outer fixing ring 335.

The air deflector 55 is formed by splicing two parts, which are an upper cover 58 and a lower cover 59 respectively. A mounting frame 56 is provided in the port of the upper cover 58, and the mounting frame 56 is installed in cooperation with the upper fixing plate 64 on the fixing frame 61.

Furthermore, the magnetic sleeve 60 is provided with a nanocomposite material layer with a magnetic semiconductor function. The magnetization effect of harmful odor in the air is the best. The nano-composite material layer with magnetic semiconductor function described in this application is preferably a nano-composite composed of nano-scale "magnetic rice", tourmaline powder, anion powder, medical stone powder, single-layer graphene, germanium powder, and silicon micropowder materials. Material layer.

This "magnetic rice" material is made of various metal oxides and caustic soda (sodium hydroxide NaOH) under the electric heating effect, after multiple chemical reactions, various nano-scale oxides are separated and produced; He salt (sodium chloride NaCl) is magnetized under the action of a weak electromagnetic field to produce a variety of magnetic oxides with special functions of magnetic field---"magnetic rice" materials. This composite material uses the existing "magnetic field" of the "magnetic meter" and the interaction between the nanometer magnetosphere and the environment. After composite magnetization, it has self-absorption and self-release semiconductor functions with electromagnetic characteristics. It interacts with the surrounding electrons, photons, spatial magnetic fields, and material magnetic fields, and conducts each other under the effect of the nano-magnetosphere, thus effectively maintaining the balance of the "magnetic field" in the specific space environment.

Adding nano-level tourmaline powder (tourmaline) can be charged when heated to form a pyroelectric effect, produce a weak electromagnetic field in the material, and can generate electric ions for a long time, and permanently release beneficial air Negative ions and far infrared rays. The addition of pyroelectric and piezoelectric nano-level anion powder can cause a potential difference between the components under the condition of temperature and pressure changes, and the static electricity can reach 1 million electron volts, thereby ionizing the air and attaching the hit electrons To the neighboring water and oxygen molecules and transform it into negative air ions, that is, negative oxygen ions. Add nano-grade medical stone powder with strong electrostatic attraction and far-infrared emission. Far-infrared rays can regulate the central nervous system of the brain, accelerate blood circulation, improve the microcirculation of brain tissue, and make brain cells get sufficient oxygen. And nutrition supply, promote metabolism, change the imbalance of the cerebral cortex, deepen the inhibition process, and play a calming and sleeping effect. Adding nano-scale single-layer graphene powder with electrical and thermal conductivity to increase the electrical conductivity, thermal conductivity, and semiconductor properties of the above nanocomposite materials. Adding nano-scale silicon powder with semiconductor characteristics to increase the resistivity and semiconductor characteristics between the above nanocomposite materials. Add nano-grade germanium powder to increase the far-infrared emissivity and improve the human body’s best absorption frequency and wavelength. The combination of germanium powder and "magnetic rice" produces far-infrared rays with "magnetic field" energy that can resonate with human cells. , To form a thermal response, expand the capillaries, promote blood circulation in the human body, and relieve fatigue.

The above materials are compounded to form a semiconductor with autonomous absorption and release functions. The use of the "magnetic meter" characteristics and the electromagnetic field in space, electron interaction and emission and the weak magnetic field and electric field of the human body are stable, and interact with the weak biological electromagnetic field in the human body. It acts to generate friction and resonance to generate heat in biological tissue cells; at the same time, it constantly balances the electromagnetic field and the tissue cells of the human body to form a nano-scale magnetosphere, producing normal cell magnetosphere and diseased cell magnetosphere, forming magnetic field isolation, Block the connection between diseased cells and normal cells in human tissues.

Embodiment 5: On the basis of Embodiment 1, as shown in Figure 29 and Figure 30, the negative oxygen ion module 19 includes an air connection pipe 69, an air outlet structure 70, an air pipe connection part 73, an anion generator 74 and an ion emission Head 75; one end of the wind pipe 69 is connected to the air outlet, one end of the wind pipe connecting portion 73 is connected to the other end of the wind pipe 69, and the other end of the wind pipe connecting portion 73 is connected to the air outlet structure 70; the air outlet structure 70 includes an edge outlet A nozzle 71 with a gradually increasing diameter in the wind direction, the nozzle 71 can pass through the opening on the ceiling partition 77, and the edge of the nozzle 71 is bent outward to form a warped edge 72; the negative ion generator 74 and the negative ion The emitting head 75 is connected, and the negative ion emitting head 75 is arranged in the center of the nozzle 71 along the wind direction.

In addition, it also includes a partition bracket 76 arranged on the outside of the air duct connection portion 73, the partition bracket 76 can cooperate with the warped edge 72 to clamp the ceiling partition 77, the partition bracket 76 and the air outlet At least one of the structures 70 is detachably connected to the air pipe connecting portion 73.

The detachable connection can be threaded connection or snap connection. The negative ion generator 74 may be arranged in an installation box connected to the air pipe connection portion 73 (without a box), and may be installed outside the air pipe connection portion 73. The partition bracket 76 and the warped edge 72 are used for positioning the negative ion air blowing device on the ceiling partition 77, and the partition bracket 76 can be further fixed on the ceiling partition 77 after positioning. In order to solve the problem of installing the air supply device on ceiling partitions 77 with different thicknesses, the detachable connection method is preferably threaded connection. Through threaded connection, it can be adjusted adaptively according to the different thickness of ceiling partitions 77. It is convenient to install the air supply device.

In this solution, the air inlet pipe, the air pipe connection portion 73, and the air outlet structure 70 form an air supply channel, and the partition bracket 76 can cooperate with the nozzle 71 warped edge 72 to position the structure on the ceiling partition 77, which is not only in installation It is convenient for positioning, and the warped edge 72 of the nozzle 71 and the conventional ceiling can form a whole, so that the part at the opening of the ceiling partition 77 is more beautiful. Since the negative ions in the emitting head form a linear emission state of spherical emission, the negative ion emitting head 75 in this solution is installed in the center of the nozzle 71. Compared with the more random installation position in the prior art, the center of the tuyere The emission point will become a more uniform downward fan diffusion type under the influence of wind, which can significantly improve the emission efficiency of negative ions and make the indoor negative ion concentration more uniform. The negative ion emission head 75 provided in the prior art usually has a certain offset relative to the central axis, and is affected by the deflection of the non-uniform electrostatic field. Under the action of wind, the emission effect of negative ions is often not good.

As a further optimization solution, the height of the emission end of the negative ion emission head 75 is located at the opening of the ceiling partition 77 and slightly higher than the lowest position of the nozzle 71. That is, the connection between the transmitting end and the lowest position of the nozzle 71 cannot extend directly to the ceiling, so that the direct negative impact on the ceiling caused by the spherical emission of negative ions can be better controlled, and the electrostatic interference on the ceiling is reduced to lowest. Especially for the super-concentration negative ion emitting head 75, this setting is particularly necessary.

In addition, it’s best to directly face the unobstructed space with the launching head, and it should not come out too much, otherwise it will have a great impact on the surroundings. Because of the spherical emission, it is slightly constrained by the influence of the point on the lateral direction, but it cannot affect the bottom The space is constrained to launch, so the position of the launching end in this solution matches the location of the launching head (in the middle of the nozzle 71), which is the most reasonable and efficient installation structure.

As a further optimized solution, as shown in FIG. 30, a mounting bracket 78 for mounting the negative ion emitting head 75 is provided inside the air duct connecting portion 73, and the mounting bracket 78 includes a mounting bracket 78 for fixing the negative ion emitting head 75 The superior arc snap ring 79, the center of the superior arc snap ring 79 is on the central axis of the air pipe connecting portion 73, the superior arc snap ring 79 and the inner wall of the air pipe connecting portion 73 pass through at least two legs connection. In particular, there are three supporting legs and they are evenly arranged along the circumference, the two ends of the opening of the superior arc snap ring 79 are each connected to an end leg 80, and the middle of the superior arc snap ring 79 is connected to the middle leg 81. In order to make the connection more stable and not affect the stability of the airflow, the feet may be longitudinally arranged on the inner wall of the air pipe connecting portion 73 along the wind direction, and the length of the side connected to the inner wall of the air pipe connecting portion 73 is greater than that of the connecting portion. One side of the arc snap ring 79 (it can be trapezoidal or triangular).

In order to prevent the negative ion emitting head 75 from being blocked or hit by any components, the negative ion emitting head 75 needs to be suspended and fixed in the center of the inner side of the nozzle 71. In this solution, by providing a superior arc snap ring 79 coaxial with the air pipe connecting portion 73, the negative ion emitting head 75 can be easily installed in the center of the inner side of the nozzle 71. By setting the mounting bracket 78, the negative ion emitting head 75 can be installed and fixed more stably without affecting the stability of the airflow.

Embodiment 6: On the basis of Embodiment 1, as shown in Figures 31 and 32, the negative oxygen ion system includes a negative ion emitting head 75 and a fastening insulator 82 arranged outside the negative ion emitting head 75. The outer side of the fastening insulator 82 is also provided with a sleeve; the sleeve includes an inner and an outer layer, the inner layer is a foamed insulating cotton sleeve 83 with an inner diameter slightly smaller than the outer diameter of the fastening insulator 82, and the outer layer It is a compression molded foam tube 84 arranged on the outside of the foam insulating cotton sleeve 83. The fastening insulator 82 is the shell of the negative ion emitting head 75, and the socket part wraps the butt joint 85.

Due to the elasticity of the foamed insulating cotton, the sleeve can not only help the launching head to be easily removed from the installation structure, but also can effectively prevent the natural gravity and wind from falling or shifting. Furthermore, in order to solve the problems of easy dust absorption and weak voltage withstand capability caused by the foamed cotton insulator 28 due to its many hole structure, this solution is provided with a compression molded foam layer outside the foamed insulating cotton layer to form a double layer The bushing structure forms a tighter insulating layer, which not only prevents dust from entering, but also effectively improves the voltage withstand capability. In addition, because it is difficult to avoid turbulence at the tuyere, the floating hair cotton and other fine hair structure debris in the room are easy to adhere to the butt joint 85 to form a tip discharge effect and cause micro-structure discharge noise; to address this problem, the outer layer of the socket Compression-molded foam tube 84 is used, which can avoid unnecessary noise and ozone generated by partial tip discharge during long-term work.

The casing for installing the negative ion emitting head 75 includes an inner and an outer layer. The inner layer is a foamed insulating cotton sleeve 83 whose inner diameter is slightly smaller than the outer diameter of the casing of the negative ion emitting head 75. The outer layer is set on the foamed insulating cotton sleeve. Compression molded foam tube 84 outside tube 83.

As mentioned above, this casing is composed of an inner foam insulating cotton casing 83 and an outer laminated plastic foam casing to form a double-layer structure. On the one hand, it can make the installation of the negative ion emitter 75 more stable, and on the other hand it can be effective. Prevent the free electrons at the junction 85 from overflowing and improve the withstand voltage capability.

Example 7: On the basis of Example 1, it also includes an intelligent control system. The intelligent control mechanism system includes a controller and several sensors. The sensors include PM2.5 sensors, PM10 sensors, TVOC sensors, carbon dioxide sensors, temperature sensors, and humidity sensors. . The sensor is arranged in the room, the controller includes a data processing module, the data processing module is a single-chip microcomputer, and the sensor is signal connected with the data processing module. The first air valve 2, the second air valve 3 and the third air valve 8 are all electronically controlled valves, and the first air valve 2, the second air valve 3 and the third air valve 8 are signally connected to the data processing module. The sensor converts the detection information into an electrical signal and sends it to the data processing module. The data processing module converts the signal sent by the sensor into a value, and compares it with the preset value in the data processing module to judge the air quality. When the indoor air is good, the data processing module controls to close the first air valve 2 and the third air valve 8, and opens 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 cyclic power and heat recovery module 9, the electric control box of the double-inlet forward-inclined outer rotor centrifugal fan is connected to the data processing module. When the indoor air quality is good, the speed of the centrifugal fan can be reduced, saving the use cost. .

Embodiment 8: Based on Embodiment 7, in order to obtain local air quality from the Internet, the controller further includes:

The positioning module is used to obtain real-time positioning information and send it to the data processing module;

The first outdoor air quality acquisition module is used to acquire outdoor air quality data of the area from the Internet according to the positioning information and send it to the data processing module;

Since the air quality published on the Internet is usually based on a city, the controller may also include an outdoor air quality monitoring module for real-time monitoring of outdoor air quality and sending outdoor air quality data to the data processing module.

Correspondingly, the controller further includes a second outdoor air quality acquisition module, configured to acquire real-time outdoor air quality data from the outdoor air quality monitoring module and send it to the data processing module.

Embodiment 9: On the basis of embodiment 8, in order to be more intelligent and improve user experience, so that users can turn on the indoor health care system at any time, the controller also includes a remote monitoring module, which includes a remote control terminal and a server, The data processing module is connected to the server for data, and the data processing module can transmit data to the server through RS485, WIFI, etc. The remote control terminal is connected with the server data to obtain the server data. The remote control terminal can be mobile phone WeChat, WEB webpage, host computer, mobile phone APP, etc., communicate with the data processing module through the server to realize indoor remote monitoring, equipment linkage and intelligent control.

For those skilled in the art, it is obvious that the present invention is not limited to the details of the above exemplary embodiments, and the present invention can be implemented in other specific forms without departing from the spirit or basic characteristics of the present invention. Therefore, from any point of view, the embodiments should be regarded as exemplary and non-limiting. The scope of the present invention is defined by the appended claims rather than the above description, and therefore it is intended to fall within the claims. All changes within the meaning and scope of the equivalent elements of are included in the present invention. Any reference signs in the claims should not be regarded as limiting the claims involved.

In addition, it should be understood that although this specification is described in accordance with the embodiments, not every embodiment only contains an independent technical solution. Those skilled in the art should consider the specification as a whole, and the technical solutions in each embodiment may also be appropriately The combination forms other embodiments that can be understood by those skilled in the art.

Claims (10)

An indoor ecological health care system, which is characterized in that: Air intake module, which is connected to the room; The return air module, which is connected to the room; Circulation power and heat recovery module, which is connected with the air inlet module, used to suck outdoor air into the air inlet module through the pipe and provide power for air circulation in the air inlet module, on the other hand it is connected with the return air module , Suck indoor air into the return air module and provide power for air circulation in the return air module; The air intake module includes an air purification module and a first disinfection and sterilization module. The air purification module is connected to the first disinfection and sterilization module. The air purification module is located in front of the first disinfection and sterilization module in the air inlet direction. The circulation power and heat recovery The module is connected to the outdoors. The indoor ecological health care system according to claim 1, characterized in that it further comprises an inner and outer circulation switching module, the inner and outer circulation switching module is connected with the circulation power and heat recovery module, the inner and outer circulation switching module is connected with the outdoor, and the purification module is installed In the switching shell, the inner and outer circulation switching mold is equipped with a damper that controls the air flow direction in the inner and outer circulation switching mold. The indoor ecological health care system according to claim 1, wherein the return air module includes a second disinfection and sterilization module. The indoor ecological health care system according to claim 3, characterized in that: the air inlet module further comprises a negative oxygen ion module, a circulating power and heat recovery module, a first disinfection and sterilization module, and a negative oxygen ion module Connect sequentially. The indoor ecological health care system according to claim 1 or 4, wherein the return air module further comprises an air dehumidification module, a circulating power and heat recovery module, a second disinfection and sterilization module, and an air dehumidification module Connect sequentially. The indoor ecological health care system according to claim 5, further comprising a magnetic field energy module, the magnetic field energy module is connected between the first disinfection and sterilization module and the negative oxygen ion module, and the magnetic field energy module is connected with Several air outlets are distributed on the ceiling of the roof, the negative oxygen ion module is installed on the air outlet, and the air dehumidification module is connected with several air inlets, and the air inlet is set on the indoor floor. The indoor ecological health care system according to claim 5, wherein a plurality of air outlets are connected to the first sterilization module, the air outlets are distributed on the roof ceiling, and the negative oxygen ion module is installed on the air outlet, Several air inlets are connected to the air dehumidification module, and the air inlets are arranged on the indoor floor. The indoor ecological health care system according to claim 5, wherein the internal and external circulation switching module includes a switching shell, and the switching shell is provided with a fresh air outlet, a return air outlet and a supply air outlet, and the purification module It includes a first filter screen assembly and a second filter screen assembly. The first filter screen assembly is installed at the fresh air outlet, and the second filter screen assembly is installed at the air supply outlet; the circulating power and heat recovery module has a first input port and a second input The first output port and the second output port, the air supply port is connected with the first input port, the new air port is connected to the outside through a pipe, the return air port is connected with a three-way pipe, and the remaining ends of the three-way pipe are connected to the first output port and Outdoor connection, the first air valve is installed at one end of the tee pipe that communicates with the outdoors, the second air valve is installed at the end of the tee pipe close to the air return port, the third air valve is installed at the new air port, and the second output port is connected to the air inlet The module is connected, and the second input port is connected with the return air module. The indoor ecological health care system according to claim 8, characterized in that it further comprises a controller, the controller includes a data processing module and a number of sensors for detecting air quality, the sensor is signally connected to the data processing module, and the first air valve , The second air valve and the third air valve are electronically controlled valves, and the first air valve, the second air valve and the third air valve are signal connected with the data processing module. The indoor ecological health care system according to claim 9, wherein the controller further includes a remote monitoring module, the remote monitoring module includes a remote control terminal and a server, the data processing module is connected to the server for data, and the remote control terminal Data connection with the server.

Images