CN110756022A

CN110756022A - Fresh air self-purification system in intelligent vehicle

Info

Publication number: CN110756022A
Application number: CN201910898234.5A
Authority: CN
Inventors: 武绍根; 邓伟华
Original assignee: Shenzhen Yun Rui Zhi Lian Technology Co Ltd
Current assignee: Shenzhen Yun Rui Zhi Lian Technology Co Ltd
Priority date: 2019-09-23
Filing date: 2019-09-23
Publication date: 2020-02-07
Anticipated expiration: 2039-09-23
Also published as: CN110756022B

Abstract

The invention discloses a fresh air self-purification system in an intelligent vehicle, which comprises a front filter screen layer, a first insulating partition plate, a discharge electrode, a second insulating partition plate and a rear filter screen layer which are sequentially arranged from an air inlet to an air outlet, wherein a first nest is arranged between the first insulating partition plate and the second insulating partition plate and consists of two wavy metal steel sheets which are oppositely arranged and connected at a trough position to form a quasi-circular space, a plurality of round holes are formed at a crest position, and the discharge electrode is cylindrical and is positioned in the quasi-circular space, so that the blockage to air flow can be reduced, and the air can be rapidly purified without dead angles in the internal structure of the fresh air self-purification system; meanwhile, the air quality is graded by adopting a grading purification principle, the electrification condition between the discharge electrode and the first electric nest, the second electric nest or the third electric nest is controlled according to the grading condition, so that the actual purification time and efficiency of the air to be purified in a high-voltage electric field are controlled, the purification effect is improved, accurate dust removal is realized, energy consumption can be saved, the system can be communicated with terminal equipment, a user can conveniently master the air quality in the vehicle in real time, and the quick and convenient user experience is achieved.

Description

Fresh air self-purification system in intelligent vehicle

Technical Field

The invention belongs to the field of in-vehicle air purification, and relates to an intelligent automatic purification system in a new windmill.

Background

With the continuous improvement of the living standard of people, the people increasingly depend on cars and other vehicles in daily travel, and because the vehicles stay in the cars for longer and longer time, the influence of the air quality of the riding space in the cars on the health of people is gradually paid attention to. Air purification equipment in fresh air vehicles is widely applied as equipment for purifying air, improving air quality and further improving the traveling environment of people.

The method for removing the particulate matters in the air mainly comprises filtration, ionization and the like, and the purification mode of the existing air purifier mainly comprises a mechanical filter screen type, an electrostatic electret filter screen type, high-voltage electrostatic dust collection, negative ions, plasma and the like. Because the filter screen type technology can only block harmful substances, and has the problems of short service life of consumables, secondary pollution caused by abandoned filter elements and the like; the electric field charging type processor has more parts for obstructing air, and the purification requirement of 360 degrees without dead angles is difficult to meet.

In recent years, an electrical nest type air purification technology has the advantages of no need of replacing a filter element, rapidness and high efficiency, but in the prior art, an electrical nest type air purification system is mostly of a structure that a discharge electrode, a partition plate and a plate-shaped electrical nest are sequentially arranged, and as the types of pollution sources in air in a vehicle are more, the sizes of particles are different, the conventional electrical nest type air purification system also has the problem of poor purification effect on part of pollutants, and has the defect of high electric energy consumption in order to pursue high purification effect on a sheet surface.

Meanwhile, the air purifier in the vehicle on the market cannot monitor the air quality, cannot know the air purification result, is lack of interaction between people and the vehicle, and is poor in use effect.

Therefore, it is necessary to design a new intelligent fresh air self-purification system in the vehicle to solve the above technical problems.

Disclosure of Invention

Aiming at the problems in the background technology, the invention provides the intelligent fresh air self-purification system in the vehicle, which has high purification density, can purify air at 360 degrees without dead angles and can realize classified purification according to the air quality, the two sides of the system are transparent, so that the air convection is smooth without resistance, the energy consumption of working electric energy is low, no noise is generated, the time and the efficiency of air purification can be prolonged and improved by control and regulation, the purification effect is three times that of the traditional purifier, meanwhile, the consumable material does not need to be replaced regularly, and the practical life can be as long as 6-8 years.

In order to realize intelligent purification, the technical scheme provided by the invention is as follows:

a fresh air self-purification system in an intelligent vehicle comprises a front filter screen layer, a first insulating partition plate, a discharge electrode, a second insulating partition plate and a rear filter screen layer which are sequentially arranged from an air inlet to an air outlet, wherein a first nest is arranged between the first insulating partition plate and the second insulating partition plate and consists of two wavy metal steel sheets which are oppositely arranged and connected at a wave trough position to form a similar circular space, a plurality of round holes are formed at a wave crest position, and the discharge electrode is cylindrical and is positioned in the similar circular space;

a plurality of through holes are formed in the first insulating partition plate and the second insulating partition plate, and the through holes correspond to the round holes one by one;

a plurality of support lugs are formed on the discharge electrode, and extend into the through holes of the first insulating partition plate and the second insulating partition plate;

the discharge electrode and the first nest are both electrically connected to a high-voltage power supply unit, and the high-voltage power supply unit is used for supplying voltage to the discharge electrode and the first nest so as to form a high-voltage electric field between the discharge electrode and the first nest;

a frame plate is arranged between the front filter screen layer and the rear filter screen layer, the front filter screen layer, the rear filter screen layer and the frame plate form a closed space, and the discharge electrode, the insulating partition plate and the cell are all positioned in the closed space.

Furthermore, the front filter screen layer is arranged at the air inlet, the rear filter screen layer is arranged at the air outlet, the front filter screen layer and the rear filter screen layer are honeycomb filter screens, and the inner wall of the frame plate is provided with a sound absorption material.

Further, the high-voltage power supply unit comprises a rectifying circuit, an oscillating circuit, a high-voltage circuit and a high-voltage discharging circuit which are closely connected, wherein the rectifying power supply is connected with the vehicle-mounted direct-current power supply.

Furthermore, a tip part is formed on the support lug and is symmetrical in sawtooth shape.

The system further comprises a second electric nest and a third electric nest, wherein the second electric nest and the third electric nest are both composed of two wavy metal steel sheets, the two metal steel sheets are opposite and connected at the wave trough position to form a similar circular space, a plurality of round holes are formed at the wave crest position, the second electric nest is arranged outside the first electric nest at intervals, the length of each wave is about 2 times that of each wave of the first electric nest, the third electric nest is arranged outside the second electric nest at intervals, the length of each wave is about 2 times that of the second electric nest, the second electric nest and the third electric nest are also electrically connected to the high-voltage power supply unit, and the first electric nest, the second electric nest and the third electric nest are in a parallel connection structure in an electrical connection circuit.

The system further comprises a controller and an air quality sensor, wherein the air quality sensor is used for acquiring an air quality signal at the air inlet side and an air quality signal at the air outlet side and transmitting the air quality signals to the controller through a communication module, the controller is used for carrying out air quality classification according to the air quality signal at the air inlet side and sending out a control command to control the electrifying condition among the discharge electrode and the first nest, the second nest or the third nest, the electrifying condition is determined by the grade of the air quality, and when the air quality is poor, the discharge electrode and the first nest are electrified; when the air quality is poor, the discharge electrode is electrified with the first electric nest and the second electric nest; and when the air quality is extremely poor, the discharge electrode is electrified with the first electric nest, the second electric nest and the third electric nest.

Furthermore, the controller judges the air quality before or after purification according to the air quality signal of the air inlet side or the air quality signal of the air outlet side, and uploads the judgment result to the terminal equipment, so that a user can manually control the power-on and power-off conditions of the direct-current power supply according to the prompt of the terminal equipment.

Further, the terminal device may be a mobile phone or a computer with a preset wechat applet installed therein.

Furthermore, the system also comprises an anion generator which comprises an emitting head, wherein the emitting head is arranged at the air outlet and used for outputting anion wind.

Due to the adoption of the technical scheme, the invention has the following beneficial effects:

1. the fresh air self-purification system in the intelligent vehicle utilizes a high-voltage electric field formed by a discharge electrode and an electric nest to quickly remove toxic and harmful gases, living viruses, bacteria, PM2.5, formaldehyde and the like in the air, avoids consumable items such as filter element replacement and the like, wherein the electric nest comprises two wavy metal steel sheets which are oppositely arranged and connected at a trough position to form a quasi-circular space, a plurality of round holes are formed at a crest position, the discharge electrode is cylindrical and is positioned in the quasi-circular space, so that the blockage to air flow can be reduced, the internal structure of the fresh air self-purification system is free of dead angles, and the purpose of quickly purifying air is realized by 360 degrees;

2. the air quality is classified creatively by adopting a classification purification principle, and the electrification condition between the discharge electrode and the first electric nest, the second electric nest or the third electric nest is controlled according to the classification condition, so that the actual purification time and efficiency of the air to be purified in the high-voltage electric field are controlled, the purification effect is improved, accurate dust removal is realized, and energy consumption can be saved.

3. This new trend is from clean system can communicate with terminal equipment, can carry out air data collection and demonstration through the little letter applet through intelligent detection module, and the user of being convenient for masters the interior air quality of car in real time to reach swift convenient user experience.

Drawings

Fig. 1 is an exploded view of the fresh air self-purification system of the present invention.

Fig. 2 is a schematic structural diagram of an electric nest.

Detailed Description

The present invention will now be described and illustrated in greater detail with reference to the accompanying drawings and examples, wherein the embodiments described are only some, but not all embodiments of the invention. Other embodiments, which can be obtained by those skilled in the art without inventive effort based on the embodiments of the present invention, are within the scope of the present invention.

An intelligent fresh air self-purification system in a vehicle comprises a front filter screen layer 8, a first insulating partition plate 2-1, a discharge electrode 1, a second insulating partition plate 2-2 and a rear filter screen layer 9 which are sequentially arranged from an air inlet to an air outlet, wherein a first nest 3-1 is arranged between the first insulating partition plate 2-1 and the second insulating partition plate 2-2, the first nest 3-1 is composed of two wavy metal steel sheets, the two metal steel sheets are opposite and connected at the wave trough position to form a similar circular space, a plurality of round holes 4 are arranged at the wave crest position, the discharge electrode 1 is cylindrical, and are positioned in the quasi-circular spaces which are distributed in an array form, thus reducing the blockage to the air flow, the front and the back of the electric nest are more permeable, and the aim of comprehensively purifying air is fulfilled by high-voltage discharge in the fresh air self-purification system;

a plurality of through holes 5 are formed in the first insulating partition plate and the second insulating partition plate, and the through holes 5 correspond to the round holes 4 one by one;

a plurality of support lugs 6 are formed on the discharge electrode 1, and the support lugs 6 extend into the through holes 5 of the first insulating partition plate 2-1 and the second insulating partition plate 2-2;

the discharge electrode 1 and the first electrode nest 3-1 are both electrically connected to a high-voltage power supply unit 7, and the high-voltage power supply unit 7 is used for supplying voltage to the discharge electrode 1 and the first electrode nest 3-1 so as to form a high-voltage electric field between the discharge electrode 1 and the first electrode nest 3-1;

in order to integrate equipment in a box body to be arranged in a vehicle in an invisible manner, a frame plate 13 is arranged between a front filter screen layer 8 and a rear filter screen layer 9, the front filter screen layer 8, the rear filter screen layer 9 and the frame plate 13 form a closed space, a discharge electrode 1, an insulating partition plate and a first electrode nest 3-1 are all positioned in the closed space, when the automobile air purifier is used on a vehicle, consumable materials such as a filter element do not need to be replaced, purified air is sent out from an air outlet, the automobile air purifier has the advantages of being fast and effective in cleaning, managing the quality of air in the vehicle and eliminating peculiar smell in the vehicle, the limitation of a fan and a filter screen in the prior art is eliminated, and the effect of managing all corners in the vehicle is realized.

Further, the front filter screen layer 8 is arranged at the air inlet, the rear filter screen layer 9 is arranged at the air outlet, the front filter screen layer 8 and the rear filter screen layer 9 are honeycomb filter screens, and the inner wall of the frame plate is provided with a sound absorption material.

Further, the high voltage power supply unit 7 includes a rectifying circuit, an oscillating circuit, a high voltage circuit and a high voltage discharging circuit which are closely connected, wherein the rectifying power supply is connected to the vehicle-mounted direct current power supply.

Furthermore, a tip part is formed on the support lug 6, and the shape of the tip part is symmetrical sawtooth.

Further, the system also comprises a second electric nest 3-2 and a third electric nest 3-3, the second electric nest 3-2 and the third electric nest 3-3 are identical in shape to the first electric nest 3-1 and are both of an undulating structure, the second electric nest 3-2 is arranged outside the first electric nest 3-1 at intervals, each undulating shape has a length about 2 times of each undulating shape of the first electric nest 3-1, the third electric nest 3-3 is arranged outside the second electric nest 3-2 at intervals, each undulating shape has a length about 2 times of the second electric nest 3-2, the second electric nest 3-2 and the third electric nest 3-3 are also electrically connected to the high voltage power supply unit 7, the first electric nest 3-1, the second electric nest 3-2 and the third electric nest 3-3 are in a parallel connection structure in an electrical connection circuit, the high-voltage power supply unit 7 is used for supplying voltage to the discharge electrode 1 and the battery cell 3, so that a high-voltage electric field is formed between the discharge electrode 1 and the battery cell 3.

Further, the system further comprises a controller 10 and an air quality sensor 11, wherein the air quality sensor 11 is used for acquiring an air quality signal at the air inlet side and an air quality signal at the air outlet side and transmitting the air quality signals to the controller 10 through a communication module, the controller 10 performs air quality classification according to the air quality signal at the air inlet side and sends out a control instruction to control the electrifying condition between the discharge electrode 1 and the first nest 3-1, the second nest 3-2 or the third nest 3-3, the electrifying condition is determined by the grade of the air quality, and when the air quality is poor, the discharge electrode 1 and the first nest 3-1 are electrified; when the air quality is poor, the discharge electrode 1 is electrified with the first nest 3-1 and the second nest 3-2; when the air quality is extremely poor, the discharge electrode 1 is electrified with the first electric nest 3-1, the second electric nest 3-2 and the third electric nest 3-3.

Further, the controller 10 determines the air quality before or after purification according to the air quality signal at the air inlet side or the air quality signal at the air outlet side, and uploads the determination result to the terminal device, so that the user can manually control the power-on and power-off conditions of the dc power supply according to the prompt of the terminal device.

Further, terminal equipment can be the cell-phone or the computer that install and predetermine little letter applet, through increasing intelligent communication module, forms the integration work, and intelligent communication module possesses pronunciation, detection and data transmission function, directly uses little letter applet can carry out air data collection through intelligent air quality sensor to reach swift convenient user experience.

Further, this system still includes anion generator 12, anion generator 12 includes an emission head, the emission head is established the air outlet for drive emission head transmission anion, output anion wind, thereby high-efficient quick virus killing, disinfect, air-purifying.

When the intelligent vehicle air purifier is used specifically, air to be treated passes through a fresh air self-purification system in an intelligent vehicle, an air quality sensor in the system carries out air quality acquisition, an air quality signal is sent to a controller through a communication module to carry out air quality classification, the discharge electrode 1 is controlled to selectively discharge the mesh-shaped wave-shaped nest 3 according to the air quality classification condition, so that the purification duration and the purification efficiency of the air to be treated in a high-voltage electric field are controlled, pollutant particles are crushed, removed or adsorbed under the action of the high-voltage electric field, then negative ion wind is generated through a negative ion generator arranged at an air outlet, an asymmetric plasma electric field is formed through high-voltage and high-frequency pulse discharge, a large number of plasmas in the air are impacted step by step, a series of physical and chemical reactions of an 'avalanche effect' type are generated, and toxic and harmful gases and living viruses are treated, Bacteria and the like are quickly degraded, so that the disinfectant has high efficiency, sterilization, peculiar smell removal, smoke elimination and dust removal, and no toxic substances are generated.

The present invention is not limited to the above embodiments, and any modifications, equivalent replacements, improvements, etc. within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims

1. The utility model provides a new trend self-purification system in intelligent car which characterized in that: the device comprises a front filter screen layer, a first insulating partition plate, a discharge electrode, a second insulating partition plate and a rear filter screen layer which are sequentially arranged from an air inlet to an air outlet, wherein a first electric nest is arranged between the first insulating partition plate and the second insulating partition plate, the first electric nest is composed of two wavy metal steel sheets, the two metal steel sheets are oppositely arranged and connected at a wave trough position to form a similar circular space, a plurality of round holes are formed at a wave crest position, and the discharge electrode is cylindrical and is positioned in the similar circular space;

2. The system of claim 1, wherein: the support lug is provided with a tip part which is symmetrical and sawtooth-shaped.

3. The system of claim 1, wherein: the high-voltage power supply unit comprises a rectifying circuit, an oscillating circuit, a high-voltage circuit and a high-voltage discharging circuit which are closely connected, wherein the rectifying power supply is connected with a vehicle-mounted direct-current power supply.

4. The system of claim 3, wherein: the system further comprises a second electric nest and a third electric nest, wherein the second electric nest and the third electric nest are both composed of two wavy metal steel sheets, the two metal steel sheets are opposite and connected at a trough position to form a similar circular space, a plurality of round holes are formed at a crest position, the second electric nest is arranged outside the first electric nest at intervals, the length of each wave is about 2 times that of each wave of the first electric nest, the third electric nest is arranged outside the second electric nest at intervals, the length of each wave is about 2 times that of the second electric nest, the second electric nest and the third electric nest are also electrically connected to the high-voltage power supply unit, and the first electric nest, the second electric nest and the third electric nest are in a parallel connection structure in an electrical connection circuit.

5. The system of claim 4, wherein: the system also comprises a controller and an air quality sensor, wherein the air quality sensor is used for acquiring an air quality signal at the air inlet side and an air quality signal at the air outlet side and transmitting the air quality signals to the controller through a communication module, the controller is used for carrying out air quality classification according to the air quality signal at the air inlet side and sending out a control command to control the electrifying condition among the discharge electrode and the first nest, the second nest or the third nest, the electrifying condition is determined by the grade of the air quality, and when the air quality is poor, the discharge electrode is electrified with the first nest; when the air quality is poor, the discharge electrode is electrified with the first electric nest and the second electric nest; and when the air quality is extremely poor, the discharge electrode is electrified with the first electric nest, the second electric nest and the third electric nest.

6. The system of claim 5, wherein: the controller judges the air quality before or after purification according to the air quality signal of the air inlet side or the air quality signal of the air outlet side, and uploads the judgment result to the terminal equipment, and a user can manually control the power-on and power-off conditions of the direct-current power supply according to the prompt of the terminal equipment.

7. The system of claim 6, wherein: the terminal equipment can be a mobile phone or a computer provided with a preset WeChat applet.

8. The system of claims 1-7, wherein: the system also comprises an anion generator which comprises an emitting head, wherein the emitting head is arranged at the air outlet and used for outputting anion wind.

9. The system according to claims 1-8, wherein: the front filter screen layer is arranged at the air inlet, the rear filter screen layer is arranged at the air outlet, and sound-absorbing materials are arranged on the inner walls of the frame plates of the front filter screen layer and the rear filter screen layer.