CN210532570U

CN210532570U - Air optimization system

Info

Publication number: CN210532570U
Application number: CN201921352934.6U
Authority: CN
Inventors: 嵇境华
Original assignee: Yanbian Keyuan New Energy Technology Co ltd
Current assignee: Qingdao Puxing Zhengdao Air Disinfection Co ltd
Priority date: 2019-08-20
Filing date: 2019-08-20
Publication date: 2020-05-15
Anticipated expiration: 2029-08-20

Abstract

An air optimization system belongs to the technical field of air purification and comprises a case, a purification module group, a fan assembly and a main control board. The utility model discloses a fan's operation produces the negative pressure and inhales pending air and send into the aluminium core of purifying element. The purification element ionizes and oxidizes harmful gases through a high-voltage electric field generated in the aluminum core, so that carbon dioxide, water and other harmless substances are generated. Meanwhile, the electrostatic field achieves the effect of optimizing air through electrostatic dust collection, and the most suitable air environment is optimized at the lowest cost. Simultaneously the utility model discloses still can produce negative oxygen ion in the course of the work, can get rid of the large grain size particulate matter in the air, further play the effect of optimizing the air. The utility model discloses optimization to the air is compound, can not lead to inefficacy secondary pollution even because of filter element's quality problems.

Description

Air optimization system

Technical Field

The utility model belongs to the technical field of air purification, especially, involve an air optimization system.

Background

The air purifier mainly comprises a mechanical filter screen type, an electrostatic electret filter screen type, high-voltage electrostatic dust collection and the like.

Mechanical filtration generally captures particles primarily by 4 means: direct interception, inertial collision, Brown diffusion mechanism, screening effect, good effect of collecting fine particles but large wind resistance, and in order to obtain high purification efficiency, the resistance of the filter screen is large, and the filter screen needs to be compact, so that the service life is reduced, and the filter screen needs to be replaced regularly. Conventional mechanical filtration is only effective at removing particles above 10 microns, and when the particles are in the 5 micron, 2 micron or even sub-micron range, efficient mechanical filtration systems become expensive and wind resistance increases significantly.

The electrostatic precipitator can filter dust, smoke and bacteria smaller than cells, and prevent diseases such as lung diseases, lung cancer, liver cancer and the like. The most harmful to the human body in air is dust less than 2.5 microns, because it can penetrate cells and enter the blood.

High-voltage electrostatic dust collection is a dust collection method in which gas is ionized by a high-voltage electrostatic field to electrically adsorb dust particles onto an electrode. The particle is charged by loading high voltage before passing through the filter element, so that the particles are easily adsorbed on the filter element under the action of electricity, and the air quantity and the fine particles can be ensured.

Although the principle of the modes is different, the modes belong to a filter screen type air purifier. The filter element filters dust in air, so that filter holes are easy to block, the filter element is not replaced timely, the sterilization effect is not achieved, and secondary pollution to the air is easy to cause.

Therefore, there is a need in the art for a new solution to solve this problem.

SUMMERY OF THE UTILITY MODEL

The utility model discloses the technical problem that will solve is: the air optimization system solves the technical problems that the traditional air purifier needs to use a filtering component and is easy to generate secondary pollution.

An air optimization system comprises a case, a purification module group, a fan assembly and a main control board, wherein an air outlet is formed in the upper part of the side wall of the case, an air inlet hole is formed in the lower part of the side wall of the case, and the purification module group and the main control board are fixedly installed in the case; the fan assembly is arranged at the air outlet; the main control board is provided with a power supply module, a wireless communication module and a data processing module; the purification module group is arranged between a passage formed by the air inlet and the air outlet, the purification module group and the fan assembly are respectively connected with the main control board, and the purification module group comprises a plurality of purification modules which are arranged in the same direction and a high-pressure bag connected with the purification modules; the purification module comprises a plurality of purification elements which are arranged in the same direction and connected in parallel; the purifying element is of a cylindrical structure, and an electrode wire is fixedly arranged in the purifying element along the central axis; one end of the electrode wire is connected with an output line of the high-voltage package, and the other end of the electrode wire is connected with a zero line of the high-voltage package.

The purifying element comprises a circular tube, an upper end cover, a lower end cover and an electrode wire, the electrode wire is a metal wire which is folded in half and twisted and wound mutually, the electrode wire is located on a central axis of the circular tube, the folded end of the electrode wire is fixedly connected with one end of the circular tube through the lower end cover, the folded end of the electrode wire is an air outlet end of the purifying element, a wire outlet end of the electrode wire is fixedly connected with the other end of the circular tube through the upper end cover, and the wire outlet end of the electrode wire is an air inlet end of the purifying.

The fan assembly comprises a fan and a fan cover; the fan is fixedly arranged in the case and is positioned on one side of the air outlet; the fan cover is fixedly arranged outside the air outlet.

The arrangement mode of the purification elements in the purification module is as follows: a purification element is arranged in the middle, and the purification element is fixed around the periphery of the purification element.

The purification module further comprises a fixed support, a high-voltage silica gel wire I, a high-voltage silica gel wire II and a plug spring; the fixed brackets are fixedly arranged at two ends of the purifying element; one end of the high-voltage silica gel line II is fixedly connected with a folded end electrode wire of the purification element arranged in the middle, and the other end of the high-voltage silica gel line II is used as a zero line and is fixedly connected with the plug spring; one end of the high-pressure silica gel line I is simultaneously twisted with the wire outlet ends of the plurality of purification elements connected in parallel into a strand and is fixedly connected with the thermoplastic tube through the bare copper tube, and the other end of the high-pressure silica gel line I is fixedly connected with the output line of the high-pressure bag.

The purification module comprises seven purification elements, wherein one purification element is arranged in the middle, and six purification elements are fixed around the periphery of the middle purification element.

The purification module group also comprises a power socket, a cold pressing terminal, a panel and a power supply mounting plate; the power supply mounting plate is fixedly provided with a high-voltage pack and an inserting piece connected with an inserting spring, and the power supply mounting plate is provided with a power supply wire fixing claw; the panel is fixedly connected with the power supply mounting plate, a power supply socket is fixedly mounted at the upper part of the panel, and the panel is provided with a fixed claw of the purification module; the purification module is fixedly connected with the panel through the fixed grab; the cold pressing terminal is fixedly connected with a power line of the high-voltage pack through a wire and is connected with an insertion piece of the power socket in an inserting mode.

The main control board is also provided with a human body sensor interface, a smoke alarm interface and a temperature and humidity alarm interface.

The wireless communication module is respectively in wireless communication connection with the external current detection alarm, the combustible gas sensor, the toxic gas sensor and the temperature alarm.

And a filter screen is arranged between the air outlet and the purification module group.

Through the above design scheme, the utility model discloses following beneficial effect can be brought:

the utility model discloses a running of quick-witted incasement fan produces the negative pressure and inhales pending air and send into the pipe aluminium core of purifying element. The purification element ionizes and oxidizes harmful gases through a high-voltage electric field generated in the aluminum core, so that carbon dioxide, water and other harmless substances are generated. Meanwhile, the electrostatic field achieves the effect of optimizing air through electrostatic dust collection, and the most suitable air environment is optimized at the lowest cost.

Simultaneously, the utility model can also generate negative oxygen ions in the working process. The negative ions with small particle size can not only easily remove particles with large particle size in the air, but also have a settling removal effect of one hundred percent on the particles floating dust which is less than 0.01 and is difficult to remove industrially, and can further play a role in optimizing the air.

The utility model discloses the air optimization system of production is compound to the optimization of air, is the multi-angle, is not simple filtration and trades the wind, can not lead to inefficacy secondary pollution even because of filter element's quality problems.

Drawings

The invention is further described with reference to the following drawings and detailed description:

fig. 1 is a schematic structural diagram of the air optimization system of the present invention.

Fig. 2 is the utility model relates to an air optimization system looks sideways at the schematic structure diagram.

Fig. 3 is a schematic structural diagram of a purifying element in an air optimizing system according to the present invention.

Fig. 4 is a schematic structural diagram of an upper end cap in the air optimization system of the present invention.

Fig. 5 is a schematic side view of the upper end cap of the air optimization system of the present invention.

Fig. 6 is a schematic structural diagram of a purification module group in an embodiment of the air optimization system of the present invention.

Fig. 7 is a schematic top view of a purification module group according to an embodiment of the present invention.

Fig. 8 is a schematic structural diagram of a purification module in an embodiment of the air optimization system of the present invention.

Fig. 9 is a schematic side view of a purification module in an embodiment of the air optimization system of the present invention.

Fig. 10 is a schematic structural diagram of a fixing bracket according to an embodiment of the present invention.

Fig. 11 is a schematic side view of a fixing bracket according to an embodiment of the present invention.

Fig. 12 is a schematic structural diagram of a chassis in an embodiment of the air optimization system of the present invention.

Fig. 13 is a schematic bottom view of a chassis according to an embodiment of the present invention.

Fig. 14 is a schematic structural diagram of a push cap according to an embodiment of the present invention.

Fig. 15 is a schematic cross-sectional view of a push cap in an embodiment of an air optimization system of the present invention.

Fig. 16 is a schematic structural diagram of a bottom plate in an embodiment of the air optimization system of the present invention.

Fig. 17 is a schematic structural diagram of a power supply mounting plate in an embodiment of the air optimization system of the present invention.

Fig. 18 is a schematic structural diagram of a panel in an embodiment of the air optimization system of the present invention.

In the figure, 1-a case, 2-a purification module group, 3-a fan assembly, 4-a main control board, 101-an air outlet, 102-an air inlet, 103-a door panel, 104-a protection switch, 201-a purification module, 202-a high-voltage bag, 203-a power socket, 204-a cold-pressed terminal, 205-a panel, 206-a power mounting board, 2011-a fixed support, 2012-a purification element, 2013-a high-voltage silica gel line I, 2014-a high-voltage silica gel line II, 2015-a plug spring, 20121-a circular tube, 20122-an upper end cover, 20123-a lower end cover, 20124-an electrode wire, 20125-a pressing cap, 20126-a cylinder, 20127-a U-shaped groove and 20128-a rib plate are arranged.

Detailed Description

The utility model provides an air optimization system is a system based on compound electric purification technique, the utility model discloses a dust removal optimal design can be simplified into air optimization system circulation system and optimization system two parts. Wherein the circulating system generates negative pressure through the operation of the blower in the cabinet 1 to suck the air to be treated into the cleaning element 2012. The optimization system ionizes and oxidizes harmful gas through a high-voltage electric field generated in the purification element 2012, so that harmless substances such as carbon dioxide and water are generated. Meanwhile, the electrostatic field achieves the effect of optimizing air through electrostatic dust collection.

Example (b):

as shown in the figure, the air optimization system comprises a cuboid case 1, a purification module group 2, a fan assembly 3 installed at an air outlet and a main control board 4 installed in the case 1, wherein a main power socket is installed on the side wall of the case 1. The main power socket is connected with the main control board 4. The main control board 4 is provided with a power module, a wireless communication module and a data processing module. The purification module group 2 is arranged in the chassis 1 in a herringbone manner and is tightly matched with all support fittings in the chassis 1. The air to be purified enters through the air inlet holes 102 at the lower part and the bottom of the case 1 and circulates to the air outlet through the purification module group 2. A filter screen is arranged between the air inlet 102 and the purification module group 2.

The bottom of the case 1 is provided with feet. One side of the case 1 is provided with a door plate 103, a door lock hook is arranged on the door plate 103, the door plate 103 is arranged in a hook type, the disassembly is convenient, and a sealing rubber strip is further arranged on the door plate 103. A protection switch 104 is arranged between the door panel 103 and the case 1, and the main control panel 4 is in an open circuit state when the door panel 103 is opened. And a fan in the fan assembly 3 adopts a double-head centrifugal fan.

Purification module group 2 and main control board 4 adopt the mode of plug connection, and purification module group 2 can wholly pull down at clean in-process, the simple operation. The purification module group 2 has a rectangular structure body, and the purification module group 2 comprises a purification module 201, a high-voltage pack 202, a power socket 203, a cold-pressing terminal 204, a panel 205 and a power supply mounting plate 206. The purification module 201 is installed in the main body, the purification module 201 is installed on the panel 205 in a two-row transverse parallel mode, the panel 205 is arranged on the upper portion and the lower portion of the main body, and the power supply installation plates 206 are matched with the two ends of the main body. The last mounting hole that is provided with installation high-pressure package 202 of power mounting panel 206 and fixed the inserted sheet of grabbing, the fixed plug 2015 of grabbing and connecting of power cord, power mounting panel 206 is connected with high-pressure silica gel line I2013 and high-pressure package 202 and strengthens with rivet integral connection. The high-voltage silica gel line I2013 is a red line. The panel 205 is fixedly connected with the power supply mounting plate 206, the upper part of the panel 205 is provided with a power supply socket mounting hole, the power supply socket 203 is fixedly mounted through the mounting hole, and the panel 205 is provided with a fixed claw of the purification module 201; the cold pressing terminal 204 is fixedly connected with a power line of the high voltage pack 202, and the other end of the cold pressing terminal 204 is inserted into an insertion piece of the power socket 203; the red power line and the black zero line of the high-voltage package 202 are respectively and fixedly connected with the cold-pressing terminal 204.

Purification module 201 include fixed bolster 2011, purification component 2012, high-pressure silica gel line I2013, high-pressure silica gel line II 2014 and insert spring 2015. The purification module 201 is composed of a plurality of purification elements 2012 arranged in a group, wherein the purification elements 2012 are seven in one group, one purification element 2012 is arranged in the middle, and the other six purification elements 2012 are arranged in a circular surrounding type at the periphery, and the layout is an optimal choice. The connections of the cleaning elements 2012 in the cleaning module group 2 are all parallel circuits, and the cleaning elements 2012 in each cleaning module 201 can operate independently. The high voltage silicone wire ii 2014 is twisted around any one of the electrode wires 20124 at the air outlet end of the purification element 2012 and is screwed tightly to serve as the zero wire of the purification module 201. The prepared purification element 2012 is orderly sleeved in two plastic fixed brackets 2011 which are oppositely arranged, two sides of the wide part at two ends of the fixed brackets 2011 are separated and extend towards two sides, and the fixed brackets 2011 are matched with the prisms on the upper end cover 20122 and the lower end cover 20123 to be fixed by screws and nuts. The purification element 2012 with the high-pressure silica gel line II 2014 kinking is placed in the middle position, and the high-pressure silica gel line II 2014 is fixedly connected with the inserting spring 2015 and then inserted into the inserting sheet of the power supply mounting plate 206.

The electrode wires 20124 at one end of the end cover 20122 on the purifying element 2012 in the same purifying module 201 are combined together and screwed into a strand which is fixedly fastened with the high-pressure silica gel wire I2013 by a bare copper tube and a thermoplastic tube. The other end of the high-voltage silica gel line I2013 passes through a hole in the upper portion of the fixing frame and is located on the same side as the high-voltage silica gel line I2013. Two red high-voltage silica gel lines I2013 of two sets of purification modules 201 are screwed together and connected with female terminals, white high-voltage lines on the high-voltage bag 202 are connected with male terminals, and the two male and female terminals are pressed by a crimping pliers. The purification element 2012 includes: a tube 20121, an upper end cap 20122, a lower end cap 20123, an electrode wire 20124, and a push cap 20125.

The upper end cover 20122 and the lower end cover 20123 are consistent in structure, and the inner part of the upper end cover 20122 and the lower end cover 20123 are both composed of a plurality of rib plates 20128 and a column 20126 which is connected with the rib plates 20128 and provided with a U-shaped groove 20127; the length of the column 20126 with the U-shaped groove 20127 is larger than the height of the connecting part of the column 20127 and the rib plate 20128, so that the U-shaped groove 20127 forms small bosses relative to the rib plate 20128 at the upper part and the lower part of the inner side of the upper end cover 20122 or the lower end cover 20123; the small boss is tightly matched with the pressing cap 20125 to fix the electrode wire 20124; the outer parts of the upper end cover 20122 and the lower end cover 20123 are both of a polygon prism structure on one side and a cylinder structure on the other side; meanwhile, the upper end cover 20122 and the lower end cover 20123 have insulation and flame retardance. The upper end cover 20122 is used as an air inlet for air, and suction force is generated under the action of a matching element to enable the air to enter the upper end cover 20122; meanwhile, the high-voltage package 202 drives the purifying element 2012 to generate a strong electric field between the two electrodes, and the air passing through the circular tube 20121 is discharged out of the opening of the lower end cap 20123 under the action of a series of composite electric purification. One end of the upper end cover 20122 of the purifying element 2012, namely the end connected with the high-pressure silica gel line I2013, is an air inlet, and the other end is an air outlet.

The interior of the upper end cover 20122 and the lower end cover 20123 is formed by a triangular frame formed by three rib plates 20128, the structure is optimal, and the using effect on ventilation and stability is optimal. The barrel height of the upper end cover 20122 and the barrel height of the lower end cover 20123 outside the round pipe 20121 are both more than 5 mm.

The electrode wire 20124 passes through the inner side of the U-shaped groove 20127, and the U-shaped groove 20127 plays a role in guiding and fixing the electrode wire 20124.

The round tube 20121 is cylindrical in structure, has a smooth inner wall without dents on the outer wall, is conductive, and is a metal tube such as an aluminum tube as an external electrode. In consideration of the difficulty of manufacturing and the purification efficiency, the length of the round tube 20121 is 20mm to 300mm, and the inner diameter is 5mm to 60 mm.

The electrode wire 20124 is a stainless steel wire with conductivity, the electrode wire 20124 penetrates through a gap with a U-shaped groove 20127 in the lower end cover 20123 after being folded in half, and the part of the electrode wire 20124 connected with the lower end cover 20123 is insulated. The electrode wire 20124 is located in the center of the circular tube 20121, the upper end cover 20122 or the lower end cover 20123 is pressed tightly through the pressing cap 20125, the circular tube 20121 is kept still, the upper end cover 20122 or the lower end cover 20123 is rotated for a plurality of circles, and the two folded electrode wires 20124 are twisted and tightened mutually.

The electrode wire 20124 with an insulation part is sleeved in the lower end cover 20123 and is consistent with the neutral position of the U-shaped groove 20127 of the upper end cover 20122. The diameter of the electrode wire 20124 is smaller than 1mm, the purification efficiency of the electrode wire with the diameter larger than 1mm can be sharply reduced, the energy consumption can be greatly increased, and the cost can be sharply increased. The diameter of the electrode wire is typically selected to be greater than or equal to 0.02mm for ease of production.

The pressing cap 20125 is in a cylindrical structure and is tightly matched with a cylinder 20126 provided with a U-shaped groove 20127, and the pressing cap 20125 is insulating.

The red wires of the first and second high-voltage packs 202 in the purification module group 2 are connected with the red wires of the power supply wires arranged on the power supply mounting plate 206, are sleeved in the bare copper pipe, and are pressed by a wire pressing pliers and thermoplastic sleeves are formed. The red wires of the third and fourth high voltage packages 202 are connected to the power supply line in the same manner, and the fifth high voltage package 202 is separately connected. The black wire connection of the high voltage package 202 is as above, with thermoplastic sleeves and the same connection to the opposite wire. The red and black wires of the power supply on both sides are twisted together with the same color and inserted into the cold-pressed terminal 204 for fixation.

The black output power line on the high-voltage bag 202 is connected with the power supply mounting plate 206 by a plug spring 2015, the male terminal of the white output power line on the high-voltage bag 202 is inserted into the female terminal of the purification module 201, and the zero line plug spring 2015 of the purification module 201 is inserted into the plug-in piece of the power supply mounting plate 206. And so on.

All wires of the panel 205 are laid out horizontally, and the fixing claws are fixed by rivets on the inner sides of the circular arcs. The cold-pressed terminals 204 of the red and black power lines are inserted into two blades of the power socket 203, respectively, and the power socket 203 is fixed to the panel 205 by a nut. One side of the assembled purification module group 2 connected with the high-voltage silica gel line I2013 is an air inlet, and the other side is an air outlet. The other side hole opposite to the upper side hole into which the red high-pressure silica gel line I2013 is inserted is filled with neutral building gel, so that the working efficiency of the purification module 201 is improved.

The main control board 4 adopts an ATMEGA64L main chip, and the main control board 4 is also provided with a human body sensor interface, a smoke alarm interface and a temperature and humidity alarm interface. The human body sensor and the smoke alarm are arranged on the case 1. The temperature and humidity alarm is arranged at the accessory of the air inlet hole 102.

The wireless communication module is respectively in wireless communication connection with the external current detection alarm, the combustible gas sensor, the toxic gas sensor and the temperature alarm. Current detection alarm, combustible gas sensor, toxic gas sensor and temperature alarm all install on the wall of use places such as factory building, and the installation is that position and interval set for by oneself according to the place needs. The use of each sensor makes the utility model discloses it is more intelligent, humanized, be convenient for to the safety precaution and the management of large-scale place environment more.

The utility model discloses a purification mechanism of action:

one of the mechanisms of purification is polarization and adsorption. When air passes through the space between the coaxial electrodes, particulate matters in the air, including PM10 and PM2.5, of which the particle size is less than or equal to 60um can be polarized and adsorbed onto the electrodes with opposite polarities, so that the adsorption and filtration functions of particles are realized;

the second mechanism of purification is electrochemical. The high-voltage electric field between the electrodes has strong electrochemical action, and can decompose and reduce complex compound molecules in the air to form simpler compounds, wherein the main products are carbon dioxide, water and a small amount of nitrogen oxide. The effect can effectively remove benzene, aldehyde, alcohol and hydrocarbon substances in the air and remove peculiar smell;

the third mechanism of cleaning action, low temperature plasma. The low-temperature plasma is in a physical form similar to flame in popular terms, has strong decomposition and reduction effects on complex compounds, and has the effect similar to the above;

the fourth purification mechanism is the oxidation and reduction of negative oxygen ions. Oxygen is converted into negative oxygen ions through a high-voltage electric field, and harmful substances in the air are removed by utilizing the strong oxidation and reduction effects of the negative oxygen ions;

the fifth mechanism of purification is the inactivation of interelectrode radiation. Strong ionizing radiation exists between the high-voltage electrodes, and viruses and bacteria can be irradiated by the strong ionizing radiation when passing through the high-voltage electrodes and lose activity.

The above description is only a preferred embodiment of the present invention, and is not intended to limit the present invention in any way, and all simple modifications, equivalent changes and modifications made by the technical spirit of the present invention to the above embodiments are within the scope of the present invention.

Claims

1. An air optimization system, characterized by: the air purifier comprises a case (1), a purification module group (2), a fan assembly (3) and a main control board (4), wherein an air outlet (101) is formed in the upper part of the side wall of the case (1), an air inlet hole (102) is formed in the lower part of the side wall of the case (1), and the purification module group (2) and the main control board (4) are fixedly installed in the case (1); the fan assembly (3) is arranged at the air outlet (101); the main control board (4) is provided with a power supply module, a wireless communication module and a data processing module; the purification module group (2) is arranged between a passage formed by the air inlet hole (102) and the air outlet (101), the purification module group (2) and the fan assembly (3) are respectively connected with the main control board (4), and the purification module group (2) comprises a plurality of purification modules (201) which are arranged in the same direction and a high-voltage bag (202) connected with the purification modules (201); the purification module (201) comprises a plurality of purification elements (2012) arranged in the same direction and connected in parallel; the purification element (2012) is of a cylindrical structure, and an electrode wire (20124) is fixedly arranged in the purification element along a central axis; one end of the electrode wire (20124) is connected with an output line of the high-voltage package (202), and the other end of the electrode wire (20124) is connected with a zero line of the high-voltage package (202).

2. An air optimization system according to claim 1, wherein: the purifying element (2012) comprises a round tube (20121), an upper end cover (20122), a lower end cover (20123) and an electrode wire (20124), the electrode wire (20124) is formed by folding and twisting a metal wire, the electrode wire (20124) is located on a central axis of the round tube (20121), the folded end of the electrode wire (20124) is fixedly connected with one end of the round tube (20121) through the lower end cover (20123), the folded end of the electrode wire (20124) is an air outlet end of the purifying element (2012), an outlet end of the electrode wire (20124) is fixedly connected with the other end of the round tube (20121) through the upper end cover (20122), and the outlet end of the electrode wire (20124) is an air inlet end of the purifying element (2012).

3. An air optimization system according to claim 1, wherein: the fan assembly (3) comprises a fan and a fan cover; the fan is fixedly arranged in the case (1) and is positioned on one side of the air outlet (101); the fan cover is fixedly arranged outside the air outlet (101).

4. An air optimization system according to claim 1, wherein: the arrangement mode of the purification elements (2012) in the purification module (201) is as follows: a cleaning element (2012) is arranged in the middle, and the cleaning element (2012) is fixed around the cleaning element (2012).

5. An air optimization system according to claim 4, wherein: the purification module (201) further comprises a fixed support (2011), a high-pressure silica gel line I (2013), a high-pressure silica gel line II (2014) and an inserting spring (2015); the fixed brackets (2011) are fixedly arranged at two ends of the purification element (2012); one end of the high-voltage silica gel line II (2014) is fixedly connected with a folded end electrode line (20124) of the purification element (2012) arranged in the middle, and the other end of the high-voltage silica gel line II (2014) is fixedly connected with the plug spring (2015) as a zero line; one end of the high-pressure silica gel line I (2013) is simultaneously twisted with the wire outlet ends of the plurality of purification elements (2012) which are connected in parallel into a strand and is fixedly connected with the thermoplastic tube through a bare copper tube, and the other end of the high-pressure silica gel line I (2013) is fixedly connected with the output line of the high-pressure bag (202).

6. An air optimization system according to claim 1, wherein: the purification module (201) comprises seven purification elements (2012), wherein one purification element (2012) is arranged in the middle, and six purification elements (2012) are fixed around the periphery of the middle purification element (2012).

7. An air optimization system according to claim 1, wherein: the purification module group (2) further comprises a power socket (203), a cold pressing terminal (204), a panel (205) and a power supply mounting plate (206); the power supply mounting plate (206) is fixedly provided with a high-voltage bag (202) and an inserting piece connected with an inserting spring (2015), and the power supply mounting plate (206) is provided with a power supply line fixing claw; the panel (205) is fixedly connected with the power supply mounting plate (206), the upper part of the panel (205) is fixedly provided with a power supply socket (203), and the panel (205) is provided with a fixed claw of the purification module (201); the purification module (201) is fixedly connected with the panel (205) through a fixed claw; the cold pressing terminal (204) is fixedly connected with a power line of the high voltage pack (202) through a lead, and the cold pressing terminal (204) is inserted into an insertion piece of the power socket (203).

8. An air optimization system according to claim 1, wherein: the main control board (4) is also provided with a human body sensor interface, a smoke alarm interface and a temperature and humidity alarm interface.

9. An air optimization system according to claim 1, wherein: the wireless communication module is respectively in wireless communication connection with the external current detection alarm, the combustible gas sensor, the toxic gas sensor and the temperature alarm.

10. An air optimization system according to claim 1, wherein: and a filter screen is arranged between the air outlet (101) and the purification module group (2).