CN110631147A

CN110631147A - Negative oxygen machine and indoor healthy air system

Info

Publication number: CN110631147A
Application number: CN201911057151.XA
Authority: CN
Inventors: 张仁祥; 许加元
Original assignee: Zhejiang Yidong Environmental Technology Co Ltd
Current assignee: Zhejiang Yidong Environmental Technology Co Ltd
Priority date: 2018-10-25
Filing date: 2019-10-24
Publication date: 2019-12-31

Abstract

The invention discloses an oxygen anion generator, comprising: the remote controller comprises a remote controller, a shell, a power supply inlet end, an AC-DC power supply module connected with the power supply inlet end, a control circuit board, a remote control receiver and a power line which are connected with the AC-DC power supply module, a signal line connected with the control circuit board, a high-power high-energy negative oxygen ion generator connected with the signal line and the power line, a surface array type gold needle emitter connected with the high-power high-energy negative oxygen ion generator and an emitting window arranged on the shell. The negative oxygen machine and the indoor healthy air system comprising the negative oxygen machine can ensure the air qualityThe index reaches the international and domestic PM2.5 limit value requirement, the quality index of the fresh air reaches the negative oxygen ion concentration of 1000-³The index requirement is that the healthy survival requirement that each person needs to take 130 hundred million negative oxygen ions every day is realized.

Description

Negative oxygen machine and indoor healthy air system

Technical Field

The invention relates to the technical field of air purification and medical care, in particular to an oxygen anion generator and an indoor healthy air system.

Background

China is in a global haze and PM2.5 pollution zone centered at 30 degrees north latitude, and belongs to a serious pollution area. The existing passive filtration dust removal air purification mode technology and most of the air purifiers thereof are useless in the aspect of serious air pollution, and have the defects of low efficiency, slow speed, incomplete dust removal, energy consumption and time consumption, and are useless for fine particles which are less than PM2.5 and harmful to health. Noise and secondary pollution can form a more serious hazard. The air quality index of the processing result can not reach the international and domestic PM2.5 limit value requirement, and the fresh air quality index can not reach the negative oxygen ion concentration of 1000-³The index requirements further fail to realize the healthy survival requirement that each person needs to take 130 hundred million negative oxygen ions every day.

In recent years, so-called fresh air systems have been proposed in which outdoor air and indoor air are exchanged manually, that is, the outdoor air is fed into a room through a blower by using a filter material as a filter, and the indoor air is discharged to the outside through a suction fan, so that the indoor air is purified and a so-called "fresh air" is obtained. The effect is not acceptable by years of practice. The reason is that: china is concentrated in human habitation, and almost most of environments have serious indoor or outdoor pollution. That is to say, outdoor pollution is not better than indoor pollution, and the result of indoor and outdoor forced circulation makes the pollution flow, and the fresh air system does not have more capacity of disposing of the pollution. In cities, dozens of high buildings stand, the upper exhaust pollutes the lower floor, so that residents on lower floors are more seriously polluted by human pollution, and the exhaust on the floors basically passes through the inner corridor in the high buildings and is polluted downwards. Therefore, the internal and external ventilation mode of the fresh air system is not only a mode which seriously harms the health of other people but also is not good, and is a mode which circularly moves pollution and enlarges the pollution range. In other words, many schemes of the fresh air system require a user to change the house building structure or bury pipelines, so that the power consumption of hundreds of kilowatts and thousands of kilowatts is consumed, and the noise is difficult to avoid.

In addition, the systems and the modes can not improve the air freshness, the negative air ions are fewer and fewer, the number of the negative air ions is increased without measures, and the negative air ions are not preferable in areas with serious haze pollution, and only psychologically enable people to feel that good outdoor air is replaced indoors.

Disclosure of Invention

The invention aims to provide an oxygen anion generator and an indoor healthy air system, which can ensure that the air quality index reaches the international and domestic PM2.5 limit value requirement, and the fresh air quality index reaches the concentration of the negative oxygen ions of 1000-³The index requirement is that the healthy survival requirement that each person needs to take 130 hundred million negative oxygen ions every day is realized.

In order to achieve the purpose, the invention provides the following scheme:

an oxygen anion generator comprising: the remote controller comprises a shell, a power supply inlet end, an AC-DC power supply module connected with the power supply inlet end, a control circuit board, a remote control receiver and a power line which are connected with the AC-DC power supply module, a signal line connected with the control circuit board, a high-power high-energy negative oxygen ion generator connected with the signal line and the power line, a surface array type gold needle emitter connected with the high-power high-energy negative oxygen ion generator and an emitting window arranged on the shell;

the power supply inlet end is connected with a mains supply, the AC-DC power supply module processes the mains supply and outputs direct current for the whole machine; the remote control receiver is connected with the control circuit board, receives a starting-up signal sent by the remote controller and sends the starting-up signal to the control circuit board, the control circuit board controls the high-power high-energy negative oxygen ion generator to be started to output cosine resonance type driving voltage according to the starting-up signal, the high-power negative oxygen ions are emitted through the surface array type gold needle emitter, and the negative oxygen ions are sent out of the machine through the emission window.

Optionally, the oxygen supply device comprises a ceiling-mounted oxygen anion generator, a mobile desktop oxygen anion generator and a floor type oxygen anion generator.

Optionally, the ceiling-mounted oxygen anion generator further comprises a mounting box, a convection cooling fan and a special partition plate;

the control circuit board, the power supply incoming line end and the AC-DC power supply module are all arranged in the hoisting box; the hoisting box is fixed on the roof;

the convection heat radiation fan is connected with the signal line and the power line, and the remote controller controls the convection heat radiation fan to run and stop;

the special partition plate separates the convection cooling fan from the surface array type gold needle emitter;

the shell is a water-drop-shaped shell, the emission window is arranged at the bottom of the water-drop-shaped shell, and an air inlet and an air outlet are arranged on the side surface of the water-drop-shaped shell; the power cord is the hoist and mount bearing cable conductor, hoist and mount bearing cable conductor will the water droplet shape shell with hoist and mount box is connected.

Optionally, the mobile desktop oxygen anion generator further comprises an operation display panel, a wind wheel, an ultraviolet lamp, a photocatalyst system, a motor and a carbon-aldehyde filter screen;

the operation display panel is connected with the control circuit board;

the motor is connected with the power line, the signal line and the wind wheel, and the motor controls the wind wheel to rotate;

the shell comprises a front panel, a rear cover plate and a base; the emission window comprises a front emission window and an upper emission window; the front emission window is arranged on the front panel; the upper emission window and the operation display panel jointly form a top cover of the shell; the operation display panel is connected with the top of the front panel; the upper emission window is connected with the top of the rear cover plate;

the planar array type gold needle emitter comprises a front planar array type gold needle emitter and an upper array type gold needle emitter; the front surface array type gold needle emitter emits negative oxygen ions to the outside of the machine through the front surface emission window; the array type gold needle emitter emits negative oxygen ions to the outside of the machine through the upper emission window;

the ultraviolet lamp, the photocatalyst system and the carbon-aldehyde filter screen purify air flowing in the machine.

Optionally, the floor type negative oxygen machine further comprises an operation display panel, an air outlet, an air inlet, a cylindrical composite filter screen, an ultraviolet lamp, a wind wheel, a motor and a sensor;

the operation display panel is connected with the control circuit board;

the shell is a cylindrical shell which comprises a floor type base; the air inlet is arranged on the side surface of the cylindrical shell, and the air outlet and the operation display panel are arranged on the top surface of the cylindrical shell; the number of the emission windows is 3, the emission windows are respectively arranged corresponding to the 3 surface array type gold needle emitters, the 3 emission windows are all arranged on the front side of the cylindrical shell, and the 3 surface array type gold needle emitters emit negative oxygen ions to the outside of the machine through the 3 emission windows;

the ultraviolet lamp and the cylindrical composite filter screen purify air flowing in the machine.

An indoor healthy air system comprises the negative oxygen machine, an indoor and outdoor air isolation and exchange unit and an indoor air balancing device;

the indoor and outdoor air isolating and exchanging unit comprises a room door and window and a ventilation auxiliary window; the room door and window can realize the isolation of indoor and outdoor air pollution, and the ventilation auxiliary window can exchange indoor and outdoor air on the basis of isolating a large amount of outdoor pollutants from entering the room;

the negative oxygen machine emits high-energy negative oxygen ions to the indoor space, the high-energy negative oxygen ions have the characteristics of high energy and negative charge, bacteria and viruses in the indoor space are killed, and part of organic harmful gas is degraded to reach the standard of fresh air;

the indoor air balancing equipment comprises a fan, an air conditioner and a fan or a wind wheel of the negative oxygen machine; the indoor air balancing apparatus performs indoor air circulation.

Optionally, the system further comprises indoor environment quality monitoring equipment, wherein the indoor environment quality monitoring equipment comprises a mobile hanging type PM2.5 tester and a portable negative oxygen ion concentration tester; the mobile suspension type PM2.5 tester monitors whether the indoor fine particle removal degree reaches a preset or selected international and domestic standard; the portable negative oxygen ion concentration tester monitors the freshness of the indoor negative oxygen ion concentration or the negative oxygen ion concentration of the health-care treatment area.

Optionally, the ventilation auxiliary window comprises a window screen mesh, a fixed rib grid, PP cotton and cotton gauze; two sides of the PP cotton are respectively coated with a layer of the cotton gauze, and the outer side of each layer of the cotton gauze is respectively coated with a layer of the window screen; the outer side of each layer of the screen window net is respectively coated with one layer of the fixed rib grids; the area of the ventilation auxiliary window is less than 1 square meter.

Optionally, the number of the oxygen anion generators is 1 or more; each single room is provided with one ceiling-mounted oxygen anion generator, and the main movable room or the sleeping room is provided with more than one mobile desktop oxygen anion generator or the floor type oxygen anion generator.

Optionally, the indoor air balancing device further comprises a humidifier for increasing the humidity of the indoor air.

According to the specific embodiment provided by the invention, the invention discloses the following technical effects: the invention discloses an oxygen anion machine, comprising: the remote controller comprises a shell, a power supply inlet end, an AC-DC power supply module connected with the power supply inlet end, a control circuit board, a remote control receiver and a power line which are connected with the AC-DC power supply module, a signal line connected with the control circuit board, a high-power high-energy negative oxygen ion generator connected with the signal line and the power line, a surface array type gold needle emitter connected with the high-power high-energy negative oxygen ion generator and an emitting window arranged on the shell; the power supply inlet end is connected with a mains supply, the AC-DC power supply module processes the mains supply and outputs direct current for the whole machine; the remote control receiver is connected with the control circuit boardThe remote control receiver receives a starting-up signal sent by the remote controller and sends the starting-up signal to the control circuit board, the control circuit board controls the high-power high-energy negative oxygen ion generator to be started to output cosine resonance type driving voltage according to the starting-up signal, the surface array type gold needle transmitter transmits high-energy negative oxygen ions, and the negative oxygen ions are sent out to the outside of the machine through the transmitting window. The negative oxygen machine and the indoor healthy air system comprising the negative oxygen machine can ensure that the air quality index reaches the international and domestic PM2.5 limit value requirement, and the fresh air quality index reaches the negative oxygen ion concentration of 1000-plus-one 1500ions/cm³The index requirement is that the healthy survival requirement that each person needs to take 130 hundred million negative oxygen ions every day is realized.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings needed to be used in the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art to obtain other drawings without inventive exercise.

FIG. 1 is a cross-sectional view of an embodiment of a ceiling-mounted oxygen anion generator of the present invention;

FIG. 2 is a cross-sectional view of an embodiment of the mobile desktop oxygen anion generator of the present invention;

FIG. 3 is a perspective view of an embodiment of the mobile desktop oxygen anion generator of the present invention;

FIG. 4 is a rear view of an embodiment of the mobile desktop oxygen anion generator of the present invention;

FIG. 5 is a right side view of an embodiment of the mobile desktop oxygen anion generator of the present invention;

FIG. 6 is a cross-sectional view of an embodiment of the floor-standing oxygen anion generator of the present invention;

FIG. 7 is a front view of an embodiment of the floor-standing oxygen anion generator of the present invention;

FIG. 8 is a schematic structural diagram of an embodiment of an indoor healthy air system according to the present invention;

fig. 9 is a structure view of a ventilation sub-window of an embodiment of the indoor healthy air system of the invention.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

In order to make the aforementioned objects, features and advantages of the present invention comprehensible, embodiments accompanied with figures are described in detail below.

Example 1:

FIG. 1 is a sectional view of an embodiment of the ceiling-mounted oxygen anion generator of the present invention. Referring to fig. 1, the ceiling-mounted oxygen anion generator comprises: the remote control device comprises a remote controller (not shown in the figure), a shell 101, a power supply inlet end 102, an AC-DC power supply module 103 connected with the power supply inlet end 102, a control circuit board 104, a remote control receiver 105 and a power line 106 connected with the AC-DC power supply module 103, a signal line 107 connected with the control circuit board 104, a high-power high-energy negative oxygen ion generator 108 connected with the signal line 107 and the power line 106, a surface-array gold needle emitter 109 connected with the high-power high-energy negative oxygen ion generator 108 and an emitting window 110 arranged on the shell 101;

the power supply inlet end 102 is connected with a mains supply, and the AC-DC power supply module 103 processes the mains supply and outputs direct current for the whole machine; the remote control receiver 105 is connected with the control circuit board 104, the remote control receiver 105 receives a starting signal sent by the remote controller and sends the starting signal to the control circuit board 104, the control circuit board 104 controls the high-power high-energy negative oxygen ion generator 108 to be started to output cosine resonance type driving voltage according to the starting signal, high-energy negative oxygen ions are emitted through the surface array type gold needle emitter 109, and the negative oxygen ions are sent out of the machine through the emission window 110.

The ceiling-mounted oxygen anion generator also comprises a hanging box 111, a convection cooling fan 112 and a special clapboard 113; the control circuit board 104, the power inlet terminal 102 and the AC-DC power module 103 are all disposed in the hanging box 111; the hoisting box 111 is fixed on the roof; the control circuit board 104 and the remote control receiver 105 in the hanging box 111 are programmed to control various working states of the machine; the hoisting box 111 is provided with an LED lamp for displaying the working state and the running stop of the machine; the remote control receiver 105 is manipulated by a user holding a remote controller; the convection fan 112 is connected to the signal line 107 and the power line 106, and the remote controller controls the convection fan 112 to operate and stop; the special partition 113 separates the convection cooling fan 112 from the area array type gold needle emitter 109; the shell 101 is a drop-shaped shell, the emission window 110 is arranged at the bottom of the drop-shaped shell, and an air inlet and an air outlet (not shown in the figure) are arranged on the side surface of the drop-shaped shell; the power line 106 is a hoisting bearing cable, the water drop-shaped shell and the hoisting box 111 are connected by the hoisting bearing cable, and the weight of the general suspension part of the ceiling-mounted oxygen anion generator is 1-1.5 kg. The hanging box 111 outputs control signals and power, and the control signals and the power are transmitted to the high-power high-energy negative oxygen ion generator 108 in the water drop-shaped shell through the signal wire 107 and the hanging bearing cable, so that the high-power high-energy negative oxygen ion generator works to generate driving voltage, and the surface array type gold needle emitter 109 emits negative oxygen ions which are released to the space outside the aircraft through the emission window 110. The high-power high-energy negative oxygen ion generator 108 and the actual working state of the convection cooling fan 112 are additionally arranged in the shell and controlled by a remote control command.

The ceiling-mounted negative oxygen generator releases a large amount of high-energy negative oxygen ions (with high yield) to the space outside the generator through the emission window during working according to the technical principle of high-energy negative oxygen ion particle flowReleasing high-energy negative oxygen ion particle flow, and the concentration of negative oxygen ions 30 cm away from the emission window is higher than 10⁷ions/cm³The negative oxygen ions with small particle size are more than 70 percent, the negative oxygen ions are modulated by physiological cosine waves, and the average particle energy is more than 200 electron volts; the anion yield is more than 9 multiplied by 10¹⁰An ions/s. needle (an ions/s. needle is the number of negative ions generated per needle per second, and an ions/s. needle is an ions/second needle); the emitting needle array of the surface array type gold needle emitter uses the earth as the anode to implement monopole multi-filament surface emission, so that negative oxygen ions are emitted to the indoor space without dead angles; ceiling-mounted negative oxygen machine can realize that there is not dead angle disinfection of outer space to disinfect and remove the haze, makes the room air thoroughly administered, drops PM2.5 to zero to release a large amount of high-quality negative oxygen ions to the space, make the air fresh, satisfy demands such as health preserving, recuperation. The machine has lower cost, at least one room is usually arranged at the center of the room, at least one room is arranged in every 50 square meters according to the indoor area, and the installation position is positioned at the center of the space or close to the position where people frequently move. The ceiling-mounted negative oxygen generator is usually operated by a simple infrared remote controller, negative oxygen ions continuously work after the generator is started, and the convection heat radiation fan sets working modes as required, for example, one of the modes is that the convection heat radiation fan is started by default when the generator is started, the generator stops working after 1 hour, and the remote controller can randomly control the convection heat radiation fan to run and stop at any time. The ceiling-mounted oxygen anion generator has the characteristics of simplicity, reliability, no harmful by-products and low manufacturing cost.

Example 2:

FIG. 2 is a cross-sectional view of an embodiment of the mobile desktop oxygen anion generator of the present invention; fig. 3, 4 and 5 are a perspective view, a rear view and a right side view of the mobile desktop oxygen anion generator according to the embodiment of the invention. Referring to fig. 2, 3, 4 and 5, the mobile desktop oxygen anion generator includes: the remote control device comprises a remote controller (not shown in the figure), a shell 201, a power supply inlet end (not shown in the figure), an AC-DC power supply module (not shown in the figure) connected with the power supply inlet end, a control circuit board 202, a remote control receiver (not shown in the figure) and a power line (not shown in the figure) connected with the AC-DC power supply module, a signal line (not shown in the figure) connected with the control circuit board 202, a high-power high-energy negative oxygen ion generator 203 connected with the signal line and the power line, a planar array type gold needle emitter connected with the high-power high-energy negative oxygen ion generator 203 and an emitting window 204 arranged on the shell 201;

the power supply inlet end is connected with a mains supply, the AC-DC power supply module processes the mains supply and outputs direct current for the whole machine; the remote control receiver is connected with the control circuit board 202, receives a starting signal sent by the remote controller and sends the starting signal to the control circuit board 202, the control circuit board 202 controls the high-power high-energy negative oxygen ion generator 203 to start and output cosine resonance type driving voltage according to the starting signal, high-power negative oxygen ions are emitted through the surface array type gold needle emitter, and the negative oxygen ions are sent out of the machine through the emission window 204.

The mobile desktop oxygen anion generator also comprises an operation display panel 205, a wind wheel 206, an ultraviolet lamp 207, a photocatalyst system 208, a motor 209 and a carbon aldehyde filter screen 210; the operation display panel 205 is connected with the control circuit board 202; the motor 209 is connected with the power line, the signal line and the wind wheel 206, and the motor 209 controls the wind wheel 206 to rotate; the shell 201 comprises a front panel 201-1, a rear cover plate 201-2 and a base 201-3; the emission window 204 comprises a front emission window 204-1 and an upper emission window 204-2; the front emission window 204-1 is disposed on the front panel 201-1; the upper emission window 204-2 and the operation display panel 205 together constitute a top cover of the housing 201; the operation display panel 205 is connected with the top of the front panel 201-1; the upper emission window 204-2 is connected with the top of the rear cover plate 201-2; the planar array type gold needle transmitter comprises a front planar array type gold needle transmitter 211 and an upper array type gold needle transmitter 212; the front surface array type gold needle emitter 211 emits negative oxygen ions to the outside of the machine through the front surface emission window 204-1; the upper array type gold needle emitter 212 emits negative oxygen ions to the outside of the machine through the upper emission window 204-2; the ultraviolet lamp 207, the photocatalyst system 208 and the carbon-aldehyde filter screen 210 purify air flowing in the machine.

The working principle and the components of the mobile desktop oxygen anion generator are similar to those of the ceiling-mounted oxygen anion generator. However, the function and performance of the mobile desktop oxygen anion generator are more important for people to use for health care, health preservation and disease treatment, so that the mobile desktop oxygen anion generator has higher negative ion yield and higher negative oxygen ion energy, and has the characteristics of physiological cosine modulation frequency and selectable negative ion high energy, and the concentration of the negative oxygen ions in the optimal treatment interval can meet any medical needs. In addition, some humanized operation functions such as mode, timing, air volume, icon display, WiFi function and the like are added and are arranged at important places such as main activities of personnel or family living rooms. The main functions are as follows: the air strengthening optimization of important places in rooms and main activities or working places of people is realized, and the air strengthening optimization is used for purposeful activities such as disease treatment, rehabilitation, health preservation and the like of the people. Its main performance is higher than that of ceiling-mounted oxygen-negative machine, and it has the functions of health-care, preventing and curing diseases. Multiple devices can be configured according to the structural layout of the living room.

The mobile desktop oxygen anion generator is provided with an upper emission window and a front emission window. The upper emission window outputs high-energy negative oxygen ions, the lower wind wheel supplies air, and the wind wheel can be used for air circulation to push indoor air to be balanced, so that the indoor air freshness degree is similar. The front emission window is used for the windless or breeze high-energy negative oxygen ion emission. The gold needle emitting array of the front-surface array gold needle emitter has larger area and more emitting arrays, can emit high-yield, high-concentration and cosine resonance type negative oxygen ions, and is used for health care, health preservation, rehabilitation and disease treatment. The region 0.3-1 m away from the emission window is the optimal disease treatment region, and can be used for treating common diseases such as respiratory diseases, hypertension, diabetes, nervous and blood system diseases, etc., wherein five major difficult and complicated diseases such as tumor, etc. are treated in the region, and the concentration in the treatment region needs to be adjusted to (1-2) × 10⁷ions/cm³Within the range. The internal circuit structure and working principle of the mobile table type negative oxygen machine are basically the same as those of a ceiling-mounted type negative oxygen machine, a power line, a control circuit board, a high-power high-energy negative oxygen ion generator and the like are arranged in the mobile table type negative oxygen machine, various required direct-current voltages are provided for the whole machine through the internal power line, and the control circuit board storesThe machine work control program commands to meet various control requirements of users and command the machine to work. The high-power high-energy negative oxygen ion generator outputs cosine resonance type driving voltage, and massive high-energy negative oxygen ions are emitted to the outside of the machine through the gold needle emission array of the front surface array type gold needle emitter and the gold needle emission array of the upper array type gold needle emitter. The machine is provided with a turbine rotor delivering an air flow from the top for circulating indoor air. The mobile desktop oxygen anion generator generally adopts a touch control or infrared remote control operation machine, when the control is carried out through touch, the control button is arranged on the operation display panel, the control button is only needed to be selected through touch to realize various controls of the mobile desktop oxygen anion generator, and as the emission window of the mobile desktop oxygen anion generator is lower off the ground, the mobile desktop oxygen anion generator is placed on a table top with the height above the ground exceeding 50 cm to ensure the use effect.

Example 3:

FIG. 6 is a cross-sectional view of an embodiment of the floor-standing oxygen anion generator of the present invention; fig. 7 is a front view of the floor type negative oxygen machine of the embodiment of the invention. Referring to fig. 6 and 7, the floor type negative oxygen machine includes: the remote control device comprises a remote controller (not shown in the figure), a shell 301, a power supply inlet end (not shown in the figure), an AC-DC power supply module (not shown in the figure) connected with the power supply inlet end, a control circuit board 302, a remote control receiver (not shown in the figure) and a power line (not shown in the figure) connected with the AC-DC power supply module, a signal line (not shown in the figure) connected with the control circuit board 302, a high-power high-energy negative oxygen ion generator 303 connected with the signal line and the power line, a planar array type gold needle emitter 304 connected with the high-power high-energy negative oxygen ion generator 303 and an emitting window 305 arranged on the shell 301;

the power supply inlet end is connected with a mains supply, the AC-DC power supply module processes the mains supply and outputs direct current for the whole machine; the remote control receiver is connected with the control circuit board 302, receives a starting signal sent by the remote controller and sends the starting signal to the control circuit board 302, the control circuit board 302 controls the high-power high-energy negative oxygen ion generator 303 to start and output a cosine resonance type driving voltage according to the starting signal, the high-power negative oxygen ions are emitted through the surface array type gold needle emitter 304, and the negative oxygen ions are sent out of the machine through the emission window 305.

The floor type negative oxygen machine also comprises an operation display panel 306, an air outlet 307, an air inlet 308, a cylindrical composite filter screen 309, an ultraviolet lamp 310, a wind wheel 311, a motor 312 and a sensor 313; the operation display panel 306 is connected with the control circuit board 302; the motor 312 is connected with the power line, the signal line and the wind wheel 311, and the motor 312 controls the wind wheel 311 to rotate; the housing 301 is a cylindrical housing, which includes a floor-standing base 314; the air inlet 308 is arranged on the side surface of the cylindrical shell, and the air outlet 307 and the operation display panel 306 are arranged on the top surface of the cylindrical shell; the number of the emission windows 305 is 3, the emission windows 305 are respectively arranged corresponding to the 3 surface array type gold needle emitters 304, the 3 emission windows 305 are all arranged on the front surface of the cylindrical shell, and the 3 surface array type gold needle emitters 304 emit negative oxygen ions to the outside of the machine through the 3 emission windows 305; the ultraviolet lamp 310 and the cylindrical composite filter screen 309 purify air flowing in the machine.

The principle, the functional structure, the device, the circuit and the performance index of the floor type negative oxygen machine are similar to those of the mobile desk type negative oxygen machine, and the floor type negative oxygen machine is larger in size, is arranged on the ground and is inconvenient to move easily. The function and the configuration application of the air purifier are equivalent to those of a mobile table type oxygen anion generator, and the air purifier is also used as main indoor air treatment and optimization equipment. The floor machine is large in size, a part of filter screen, ultraviolet rays and a photocatalyst system are added, the air purification functions of formaldehyde, benzene, organic harmful gas, bacteria and viruses and the like are enhanced, and the floor type negative oxygen machine is generally fixed for use, is placed in main indoor activity places for use, and is arranged in important places such as main personnel activity places or family living rooms. The main functions are as follows: the air strengthening optimization of important places in rooms and main activities or working places of people is realized, and the air strengthening optimization is used for purposeful activities such as disease treatment, rehabilitation, health preservation and the like of the people. Its main performance is higher than that of ceiling-mounted oxygen-negative machine, and it has the functions of health-care, preventing and curing diseases. Multiple devices can be configured according to the structural layout of the living room.

Fig. 8 is a schematic structural view of an indoor healthy air system according to an embodiment of the present invention. Referring to fig. 8, the indoor healthy air system comprises the ceiling-mounted oxygen anion machine 401 and/or the mobile desktop oxygen anion machine 402 and/or the floor-type oxygen anion machine (not shown in the figure), an indoor and outdoor air isolation and exchange unit and an indoor air equalization device;

the indoor and outdoor air isolating and exchanging unit comprises a room door window 403 and a ventilation auxiliary window 404; the room door and window 403 realizes the isolation of indoor and outdoor air pollution, and the auxiliary ventilation window 404 performs indoor and outdoor air exchange on the basis of isolating a large amount of outdoor pollutants from entering the room; the main equipment of the indoor and outdoor air isolation and exchange unit is a room door and window 403, and when a user uses a room, the room door and window 403 is normally closed. The area of the indoor and outdoor direct air channel is allowed to be controlled within 5% of the area of the outer wall associated with outdoor air, the condition is poor and is not more than 10%, because the larger the area of the indoor and outdoor direct air channel is, the higher the proportion percentage is, the more outdoor pollution enters the room, the lower the quality parameters of the air which can be achieved by the system can be, or the standard reaching time of the room can be prolonged, and the capacity of configuring air treatment optimization equipment needs to be improved when the preset requirement is met. The normally open secondary ventilation window 404 is arranged, the area of the secondary window is recommended to be controlled within 1 square meter, and when the requirement is met, the secondary window is as small as possible. The indoor and outdoor air isolation and exchange unit uses a room door window 403 or a ventilation auxiliary window 404 to isolate the indoor space and the outdoor space of a family room, so as to prevent outdoor pollution from entering the room in large quantity and prevent the indoor pollution from overflowing to the outdoor polluted environment to harm other people. If necessary, the ventilation is carried out by adopting short time intervals on a daily basis, or by using a ventilation auxiliary window to isolate ventilation. The air exchange between the inside and outside of the room can be carried out in a short time by using the existing air conditioner and ventilator.

The ceiling-mounted negative oxygen generator 401 and the mobile desktop negative oxygen generator 402 emit high-energy negative oxygen ions to the indoor space, the high-energy negative oxygen ions have the characteristics of high energy and negative charge, bacteria and viruses in the indoor space are killed, and part of organic harmful gas is degraded to reach the standard of fresh air(ii) a When the ceiling-mounted negative oxygen generator works, a large amount of high-energy negative oxygen ions are emitted to the space, dust particles in the space are captured by actively impacting outside the generator, and the dust particles are settled on the ground, so that the indoor PM2.5 index reaches the standard. Meanwhile, the high-energy negative oxygen ions use the characteristics of high energy and negative charge to kill bacteria and viruses in the indoor space, degrade partial organic harmful gases such as formaldehyde and benzene, and eliminate odor and peculiar smell. Meanwhile, negative oxygen ions in the clean space are increased continuously, and the standard of fresh air is achieved. The negative oxygen machine is used as the key core part of an indoor healthy air system and is mainly used for treating the indoor air of a family house so that the indoor air reaches the national and international standards of human living environment. Namely: indexes such as indoor PM2.5 and the like meet the national standard (less than 30 mu g/m)³) And international standards (less than 10. mu.g/m)³). The average concentration of negative ions in the air is higher than 1500ions/cm³The recuperation area is higher than 5 × 10⁶ions/cm³. The negative oxygen machine can remove indoor pollutants, so that indoor air meets the requirements of healthy respiration and health care, indoor pollutants are not discharged outdoors, indoor pollution can be treated through various channels outside the treatment room without stopping, and the balance point between outdoor invasion pollution and indoor pollution removal is achieved, and the balance point is the indoor air quality requirement value. Meanwhile, in the important or main indoor activity areas, the mobile table type or floor type high-energy negative oxygen machine is configured, so that the space high-energy negative oxygen ions in the working and activity (or rest) places of the personnel are greatly increased, the concentration of the high-energy negative oxygen ions in the places reaches the medical level, and the places become the areas for physical therapy, health preservation and disease treatment.

The indoor air balancing device comprises a fan (not shown in the figure), an air conditioner 405 and a fan or a wind wheel of the negative oxygen machine; the indoor air balancing apparatus performs indoor air circulation. The indoor air-balancing apparatus further includes a humidifier (not shown in the drawings) for increasing the humidity of the indoor air.

The indoor healthy air system also comprises indoor environment quality monitoring equipment, wherein the indoor environment quality monitoring equipment comprises a mobile hanging type PM2.5 tester 406 and a portable negative oxygen ion concentration tester (not shown in the figure); the mobile suspension type PM2.5 tester 406 monitors whether the indoor fine particle removal degree reaches a preset or selected international and domestic standard; the mobile suspended PM2.5 tester 406 is a mobile small-sized testing device, and is used for testing the PM2.5 real-time values of the main or important areas of the living room in the whole process. The portable negative oxygen ion concentration tester monitors the freshness of the indoor negative oxygen ion concentration or the negative oxygen ion concentration of the health-care treatment area.

Fig. 9 is a structure view of a ventilation sub-window of an embodiment of the indoor healthy air system of the invention. The ventilation screen cloth of the ventilation auxiliary window can be made of cotton gauze, PP cotton, a screen window net and other convenient purchased materials, and can be fixed on the auxiliary window by rigid plastics or wood frames and the like, so that the ventilation property is required to be good, large particles, sand dust and the like can be prevented from entering a room, the auxiliary window can be replaced by a curtain or a multilayer screen window according to local conditions, but the effect of preventing outdoor pollution from entering the room in a large amount is achieved, and otherwise the air quality index which can be achieved by the system is influenced. The thickness and the number of layers of the air-permeable auxiliary window are not specified, and the requirements can be met according to the density of the filter cloth holes. Referring to fig. 9, the secondary ventilation window 404 comprises a window screen 501, a fixing rib grid 502, PP cotton 503 and cotton gauze 504; two sides of the PP cotton 503 are respectively coated with a layer of the cotton gauze 504, and the outer side of each layer of the cotton gauze 504 is respectively coated with a layer of the window screen 501; the outer side of each layer of the window screen 501 is respectively coated with one layer of the fixed rib grids 502; the secondary louver 404 is less than 1 square meter in area.

The indoor healthy air system adopts the ceiling-mounted negative oxygen machine and/or the mobile desktop negative oxygen machine and/or the floor type negative oxygen machine produced according to the high-energy negative oxygen ion particle flow technology as environmental air treatment and optimization equipment, realizes rapid and thorough haze removal, disinfection and sterilization outside the indoor unit, enables the indoor air to reach high-standard cleanness and freshness degree, and realizes that the PM2.5 is 30 microgram/m higher than the national standard PM2.5³The standard or international PM2.5 is 10 mug/m³The standard of (2). A high-power high-energy negative oxygen ion generator in the negative oxygen machine sends cosine resonance type driving voltage to a surface array type gold needle emitter through a human body physiological cosine wave generator, a modulator and an accelerating circuit, and high-energy negative oxygen ions are emitted through the surface array type gold needle emitter. Indoor installation removes suspension type PM2.5 tester whole dayThe air fresh degree is far over 1000-1500iong/cm through monitoring³And (5) realizing the negative oxygen ion environment required by health care and health preservation. The number of the adopted oxygen negatives is 1 or more; generally, each single room is provided with one ceiling-mounted oxygen anion generator, and more than one mobile desktop oxygen anion generator or floor-type oxygen anion generators are arranged in main movable rooms or sleeping rooms. The configuration quantity and the position of the negative oxygen machines are determined according to the local environmental pollution degree, the indoor room structure and the area size, the PM2.5 limit value (national standard or international standard) required to be reached, the air negative oxygen ion concentration required value (fresh standard or health care treatment standard) and the index reached within 30 minutes, so that the machines are calculated and configured. Generally, 1 ceiling-mounted oxygen anion generator can be arranged in one room (below 30 square meters), and 1-2 mobile table type or floor type oxygen anion generators can be arranged in one household. And places such as large-area or large-scale meeting rooms, theaters and the like can be configured according to the actual environment and air quality requirements.

The indoor and outdoor air isolating and exchanging units are born by the existing doors and windows of the room. When people live in the house, all doors and windows are closed, and the isolation of air pollution inside and outside the room is realized. The necessary windows, which must be opened for a long time, require the manufacture of secondary windows made of a breathable material such as cotton gauze or cotton cloth to isolate a large amount of outdoor pollutants from entering the room. The indoor air and the outdoor air need to be forcibly exchanged, and the door and the window are allowed to be opened and closed 1 to 10 minutes at a time 1 to 6 times a day. The air conditioner is allowed to exchange indoor air and outdoor air, and the air conditioner is suitable for small air volume and short time. Because most of the doors and windows of the rooms are not absolutely closed, the indoor and outdoor air isolation and exchange system is mainly carried out by the existing doors and windows of the rooms, and the equipment cost of a user is not increased.

The indoor air balancing equipment does not need to be additionally arranged, and a user adopts the indoor air balancing equipment according to the geographical position and the objective actual environmental condition. When necessary, the existing small desk fan of the family can be used for carrying out indoor air circulation at a proper position on the desk surface through a breeze baffle, or an air conditioner is used for carrying out indoor air circulation. If not necessary, it is not necessary to use it. Without the above arrangement, the indoor air circulation can be performed by using the fan of the negative oxygen machine. In air-dry areas such as desert and northern areas in China, humidifiers (with some types of oxygen-negative machines) are properly added indoors to improve air humidity, and people's habitation is suitable. The part of equipment is the existing equipment in most families, and the use cost of a user is not increased newly.

The indoor healthy air system disclosed by the invention has the advantages that all users can exchange high-quality healthy living and working environments with minimum cost, the users can enjoy fresh air environments completely conforming to the health standards, and the indoor healthy air system can realize rehabilitation, health preservation and life prolonging. The system can realize that the PM2.5 in the application space is less than 10 mu g/m³The concentration of negative oxygen ions is far higher than 1000 to 1500ions/cm³(ii) a level of (d); the environment can meet the survival requirement that each person who needs the survival of human beings intakes 130 hundred million negative oxygen ions every day. The indoor and outdoor air isolation and exchange unit and the indoor air balancing equipment are all taken from the existing equipment in the family room, the setting requirements of the system are easily met, and the user does not need to purchase the system again, so the cost is greatly saved and the burden of the user is lightened by implementing the system. The new indoor air environment of being used for of user administers and optimizes, monitoring facilities, mainly has: ceiling-mounted oxygen anion machines, mobile desktop or floor type oxygen anion machines, and mobile suspended PM2.5 testers. The healthy air system can really realize the fresh air quality of the household environment, and the concentration of negative oxygen ions reaches the national and international fresh air standards; the environmental PM2.5 full-day detection value is superior to national and international limit standards. The system is suitable for all (unless special requirements) indoor environments such as families, office places, hospitals, schools, hotels, military facilities (such as ships, submarines, underground facilities and the like), office sites and the like. In addition, the system is energy-saving, when the system works uninterruptedly all day long, each negative oxygen machine generally consumes less than 10 watts under the condition that the circulating fan is switched off, one family estimates that the power consumption is within 30-100 watts, and the system does not have noise when working and cannot influence users.

The embodiments in the present description are described in a progressive manner, each embodiment focuses on differences from other embodiments, and the same and similar parts among the embodiments are referred to each other.

The principles and embodiments of the present invention have been described herein using specific examples, which are provided only to assist understanding of the system and its core concepts; meanwhile, for a person skilled in the art, according to the idea of the present invention, the specific embodiments and the application range may be changed. In view of the above, the present disclosure should not be construed as limiting the invention.

Claims

1. An oxygen anion generator, comprising: the remote controller comprises a shell, a power supply inlet end, an AC-DC power supply module connected with the power supply inlet end, a control circuit board, a remote control receiver and a power line which are connected with the AC-DC power supply module, a signal line connected with the control circuit board, a high-power high-energy negative oxygen ion generator connected with the signal line and the power line, a surface array type gold needle emitter connected with the high-power high-energy negative oxygen ion generator and an emitting window arranged on the shell;

2. The negative oxygen machine of claim 1, comprising a ceiling-mounted negative oxygen machine, a mobile desktop negative oxygen machine and a floor-type negative oxygen machine.

3. The oxygen anion generator of claim 2, wherein the ceiling-mounted oxygen anion generator further comprises a hanging box, a convection heat-dissipation fan and a special partition plate;

4. The oxygen anion generator of claim 2, wherein the mobile desktop oxygen anion generator further comprises an operation display panel, a wind wheel, an ultraviolet lamp, a photocatalyst system, a motor, a carbon-aldehyde filter screen;

the operation display panel is connected with the control circuit board;

5. The negative oxygen machine of claim 2, wherein the floor-standing negative oxygen machine further comprises an operation display panel, an air outlet, an air inlet, a cylindrical composite filter screen, an ultraviolet lamp, a wind wheel, a motor and a sensor;

the operation display panel is connected with the control circuit board;

6. An indoor healthy air system, comprising the negative oxygen machine of any one of claims 1 to 5, an indoor and outdoor air isolating and exchanging unit and an indoor air equalizing device;

7. The indoor healthy air system according to claim 6, further comprising an indoor environmental quality monitoring device, the indoor environmental quality monitoring device including a mobile hanging PM2.5 tester and a portable negative oxygen ion concentration tester; the mobile suspension type PM2.5 tester monitors whether the indoor fine particle removal degree reaches a preset or selected international and domestic standard; the portable negative oxygen ion concentration tester monitors the freshness of the indoor negative oxygen ion concentration or the negative oxygen ion concentration of the health-care treatment area.

8. The indoor healthy air system according to claim 6, wherein the sub-vent includes a window screen mesh, a fixing rib grid, PP cotton, cotton gauze; two sides of the PP cotton are respectively coated with a layer of the cotton gauze, and the outer side of each layer of the cotton gauze is respectively coated with a layer of the window screen; the outer side of each layer of the screen window net is respectively coated with one layer of the fixed rib grids; the area of the ventilation auxiliary window is less than 1 square meter.

9. The indoor healthy air system according to claim 6, wherein the number of the negative oxygen machines is 1 or more; each single room is provided with one ceiling-mounted oxygen anion generator, and the main movable room or the sleeping room is provided with more than one mobile desktop oxygen anion generator or the floor type oxygen anion generator.

10. The indoor healthy air system according to claim 6, wherein the indoor air equalization apparatus further comprises a humidifier increasing the indoor air humidity.