CN108507057A - A kind of room air exchange system - Google Patents

Abstract

The present invention relates to a kind of room air exchange systems, including fresh air system, air circulation purification system and control system；Fresh air system includes mounted on outdoor purifying fresh air ventilator；Air circulation purification system includes the cycle air inlet being sequentially communicated, electrostatic filter, UV ultraviolet lamp, anion generator, fan coil and recycles air port；Air circulation purification system further includes that setting perfume fumigator indoors, dehumidifying humidification integrated device, anionic textiles instrument and sensor group, sensor group include temperature sensor, humidity sensor and CO₂Concentration sensor；Purifying fresh air ventilator, electrostatic filter, UV ultraviolet lamp, anion generator and fan coil are electrically connected with control system.The present invention can effectively remove suspended particles in room object, decompose hazardous compound, and long-term dynamics stability contorting indoor air quality provides good indoor air quality；The selection for providing three kinds of operational modes, can simulate different scenes, bring better experience.

Description

An indoor air exchange system

technical field

The invention relates to the technical field of air purification, in particular to an indoor air exchange system.

Background technique

At present, the problem of ambient air quality, especially the problem of indoor air quality, has become the focus of society, and the demand for high-quality indoor air by the general public has increased significantly. In order to improve indoor air conditions, two methods are currently used in the market: 1) using air purifiers, the disadvantages are: limited range of action, easy to produce secondary pollution, and the internal circulation of air cannot solve the problem of excessive carbon dioxide concentration; 2) The disadvantages of the fresh air system using purified fresh air ventilators are: the current mainstream fresh air systems on the market follow the purification concepts in the medical and industrial fields, and send fresh air through sub-high efficiency filters to dilute indoor air, relying on outdoor air and being affected by The external environmental pollution fluctuates greatly, and it is impossible to form a benign indoor self-purification system.

Contents of the invention

Aiming at the deficiencies of the prior art, the present invention provides an indoor air exchange system, which can solve the problem of improving indoor air quality.

The technical solution of the present invention is: an indoor air exchange system, characterized in that it includes a fresh air system, an air circulation purification system and a control system;

The fresh air system includes a purifying fresh air ventilator installed outdoors;

The air circulation purification system includes a circulation air inlet, an electrostatic filter, a UV ultraviolet lamp, an anion generator, a fan coil unit and a circulation air outlet connected in sequence, the circulation air inlet communicates with the electrostatic filter through the first pipeline, and the fan coil unit The second pipeline communicates with the circulating air outlet; the electrostatic filter, UV ultraviolet lamp, negative ion generator and fan coil are all arranged outdoors or indoors, and the circulating air inlet and circulating air outlet are arranged indoors; the air circulation purification system also It includes an aroma diffuser, an integrated dehumidification and humidification device, an anion detector and a sensor group arranged indoors, and the sensor group includes a temperature sensor, a humidity sensor and a _CO2 concentration sensor;

The control system pre-stores a plurality of mode control files for controlling the working status of the fan coil unit, the integrated dehumidification and humidification device, the fresh air purifier, the negative ion generator, the UV ultraviolet lamp and the aroma diffuser;

The control system compares the data uploaded by the temperature sensor with the temperature preset range value in each mode control file, and controls the working state of the fan coil unit according to the comparison result;

The control system compares the data uploaded by the humidity sensor with the humidity preset range value in each mode control file, and controls the working state of the integrated dehumidification and humidification device according to the comparison result;

The control system compares the data uploaded by the _CO2 concentration sensor with the _CO2 concentration preset range value in each mode control file, and controls the working state of the purifying fresh air ventilator according to the comparison result;

The control system compares the data uploaded by the negative ion detector with the negative ion concentration preset range value in each mode control file, and controls the working state of the negative ion generator according to the comparison result;

The control system controls the working state of the UV ultraviolet lamp according to each mode control file;

The control system controls the working state of the aroma diffuser according to each mode control file.

Further, the control system performs linkage control on the fan coil unit, the integrated dehumidification and humidification device, the purifying fresh air ventilator, the negative ion generator, the UV ultraviolet lamp and the aroma diffuser according to each mode control file.

Further, the mode control file is preset with the following three mode control scenarios:

Mode 1: Indoor temperature 27-30°C, humidity 35-50%, CO ₂ concentration 0.055-0.07%, the number of UV lamps is fully turned on, negative ion concentration 2000-5000pc/cm ³ , aroma diffuser is turned on for 5 seconds every 30 minutes;

Mode 2: Indoor temperature 21-23°C, humidity 65-80%, CO ₂ concentration 0.04-0.055%, half of the number of UV lamps turned on, negative ion concentration 5000-8000pc/cm ³ , aroma diffuser turned on for 5 seconds every 60 minutes;

Mode 3: Indoor temperature 24-26°C, humidity 50-65%, CO ₂ concentration 0.025-0.04%, UV light off, negative ion concentration 8000-12000pc/cm ³ , aroma diffuser on for 10 seconds every 30 minutes.

Further, the control system to control the working state of the fan coil unit is specifically: when the temperature sensor detects that the indoor temperature is lower than the minimum value of the preset range value of each mode control file, the control system controls the fan coil unit Heating; if the indoor temperature is greater than the maximum value of the preset range value of each mode control file, the control system controls the fan coil unit to cool; if the indoor temperature is within the preset range value of each mode control file, the fan coil unit keeps the current operation state.

Further, the control system to control the working state of the dehumidification and humidification integrated device is specifically: when the humidity sensor detects that the indoor humidity is less than the minimum value of the preset range value of each mode control file, the control system controls the dehumidification and humidification. The integrated device performs humidification; if the indoor humidity is greater than the maximum value of the preset range value of each mode control file, the control system controls the dehumidification and humidification integrated device to perform dehumidification; if the indoor humidity is within the preset range value of each mode control file, the dehumidification and humidification integrated device The device stops working.

Further, the control system to control the working state of the purifying fresh air ventilator is specifically: when the CO ₂ concentration sensor detects that the indoor CO ₂ concentration is less than the minimum value of the preset range value of each mode control file, the control system Control the purifying fresh air ventilator to run at the minimum power; if the indoor CO ₂ concentration is greater than the maximum value of the preset range value of each mode control file, the purifying fresh air ventilator runs at the maximum power; if the indoor CO ₂ concentration is in each mode control Within the preset range value of the file, the purifying fresh air ventilator operates at medium power.

Further, the control system to control the working state of the negative ion generator is specifically: when the negative ion detector detects that the indoor negative ion concentration is less than the minimum value of the preset range value of each mode control file, the control system controls the negative ion generator Open; when the indoor negative ion concentration is greater than the maximum value of the preset range value of each mode control file, the control negative ion generator is turned off; if the indoor negative ion concentration is within the preset range value of each mode control file, the control system does not execute any negative ion generator. operation, the negative ion generator remains in the current operating state.

Further, the purifying fresh air ventilator is provided with an air inlet passage and an exhaust vent passage which are not connected to each other, one side of the purifying fresh air ventilator is provided with an air inlet and an exhaust outlet, and the other side of the purifying fresh air ventilator is There is a fresh air outlet and an exhaust air inlet, the air inlet and the fresh air outlet are connected through the air inlet channel, the exhaust air inlet and the exhaust air outlet are connected through the exhaust air channel; the fresh air outlet and the exhaust air inlet are set indoors, and the air inlet and the exhaust air outlet are connected Set outdoors.

Further, the electrostatic filter is an electrostatic filter made of electret electrostatic synthetic fiber filter material.

The beneficial effects of the present invention are: the present invention can effectively remove indoor suspended particles, decompose harmful compounds, and control indoor air quality dynamically and stably for a long time, so that the content of indoor CO ₂ , particulate matter and harmful chemical substances can be maintained at a stable value, and the cleanliness level of indoor air can be improved. Keep at 100,000 to 10,000 levels; at the same time, by providing the choice of three operating modes, different scenarios can be simulated, giving people different air quality requirements and bringing a better experience.

Description of drawings

Fig. 1 is a structural representation of the present invention;

In the figure, 1-air inlet, 2-air inlet channel, 3-purified fresh air ventilator, 4-first pipe, 5-electrostatic filter, 6-UV ultraviolet lamp, 7-negative ion generator, 8-fan disk Pipe, 9-second pipe, 10-circulation air outlet, 11-circulation air inlet, 12-fresh air outlet, 13-exhaust air inlet, 14-exhaust air channel, 15-exhaust air outlet, 16-aroma diffuser, 17- Dehumidification and humidification integrated device, 18-control system.

Detailed ways

Below, in conjunction with accompanying drawing and specific embodiment, the present invention is described further:

As shown in Figure 1, a kind of indoor air exchange system, comprises fresh air system, air circulation purification system and control system 18, described fresh air system and air circulation purification system are all electrically connected with control system 18, and control system 18 can control fresh air System and air circulation purification system opening and closing;

The fresh air system includes a purified fresh air ventilator 3 installed outdoors, and an air inlet passage 2 and an exhaust passage 14 that are not connected to each other and are arranged on the purified fresh wind ventilator 3, and one side of the purified fresh wind ventilator 3 An air inlet 1 and an exhaust air outlet 15 are provided, and the other side of the purified fresh air ventilator 3 is provided with a fresh air outlet 12 and an exhaust air inlet 13, the air inlet 1 and the fresh air outlet 12 are connected through the air inlet channel 2, and the exhaust air inlet 13 It communicates with the exhaust outlet 15 through the exhaust passage 14;

When setting and using in detail, the fresh air outlet 12 and the exhaust air inlet 13 are arranged indoors, and the air inlet 1 and the exhaust air outlet 15 are both arranged outdoors, and the outdoor fresh air is sucked by the air inlet 1, passed through the air inlet channel 2, and finally passed through the air inlet 1. The fresh air outlet 12 is sent into the room, and the indoor exhaust air is inhaled by the exhaust air inlet 13, passed through the exhaust air channel 14, and finally discharged to the outside by the exhaust air outlet 15 to realize air circulation, so as to ensure that there is fresh air in the room at all times;

In this embodiment, the fresh air outlet 12 is located above the exhaust air inlet 13. More specifically, the fresh air outlet 12 is arranged at the top of the room, and the exhaust air inlet 13 is arranged at the bottom of the room, so that fresh air enters the indoor top through the fresh air outlet 12, and the dirty air Descend to the bottom of the room and be removed by the exhaust air outlet 15, and the distance between the fresh air outlet 12 and the exhaust air inlet 13 is large enough to ensure a large indoor air circulation range, and the distance between the air inlet 1 and the exhaust air outlet 15 is also large. Large enough to ensure that the discharged dirty air will not enter the room through the purified fresh air ventilator 3 again.

In this embodiment, the purified fresh air ventilator 3 is a variable frequency fan, and has at least three working powers, including maximum power, minimum power and medium power.

The air circulation purification system comprises a circulation air inlet 11, an electrostatic filter 5, a UV ultraviolet lamp 6, an anion generator 7, a fan coil unit 8 and a circulation air outlet 10 connected in sequence, and the circulation air inlet 11 passes through the first pipeline 4 and The electrostatic filter 5 is connected, and the fan coil unit 8 is connected to the circulating air outlet 10 through the second pipe 9;

The electrostatic filter 5, the UV ultraviolet lamp 6, the anion generator 7 and the fan coil unit 8 are all arranged outdoors or indoors, and the circulating air inlet 11 and the circulating air outlet 10 are arranged indoors;

During specific use, preferably electrostatic filter 5, UV ultraviolet lamp 6, negative ion generator 7 and fan coil unit 8 are all arranged in the indoor ceiling space (not shown in the figure), and circulation air inlet 11 and circulation air outlet 10 is arranged on the indoor suspended ceiling (not shown in the figure).

The purification fresh air ventilator 3, the electrostatic filter 5, the UV ultraviolet lamp 6, the anion generator 7 and the fan coil unit 8 are all electrically connected with the control system 18, and the control system 18 is used to control the purification fresh air ventilator 3. The working status of electrostatic filter 5, UV ultraviolet lamp 6, negative ion generator 7 and fan coil unit 8.

The circulating air inlet 11 sucks the air in the room and sends it into the electrostatic filter 5 through the first pipe 4, and the electrostatic filter 5 made of electret electrostatic synthetic fiber filter material absorbs the indoor PM2.5 and above Particles are filtered out; the air filtered by the electrostatic filter 5 flows to the UV ultraviolet lamp 6 for sterilization. There are several UV ultraviolet lamps 6, and the specific number is set according to the actual situation. Different ultraviolet wavelengths have different sterilization effects. For example, ultraviolet rays with a wavelength of 254nm can destroy and change the DNA (deoxyribonucleic acid) structure of microorganisms through irradiation, so that the bacteria can die immediately or cannot reproduce offspring to achieve the purpose of sterilization. ₂ becomes O ₃ (ozone), which has a strong oxidation effect and can effectively kill bacteria;

The air sterilized by the UV lamp 6 flows to the negative ion generator 7, and the negative ion generator 7 generates a certain amount of negative ions. After the negative ions are captured by the oxygen molecules in the air, negative air ions are generated. The negative air ions have the functions of dust removal and sterilization. function, so that the negative ion generator 7 has the effect of purifying the air;

The air treated by the negative ion generator 7 is sent to the fan coil unit 8, which can cool or heat the air, and the fan coil unit 8 sends the air into the room through the circulation outlet 10, so that the indoor air can be circulated through the air. The purification system forms indoor air circulation.

In this embodiment, the circulating air inlet 11 is close to the fresh air outlet 12, so that the air that has been initially treated by the purified fresh air ventilator 3 enters the air circulation purification system as soon as possible for related processing, so that most of it passes through the purified fresh air ventilator 3 The air introduced is processed by the air circulation and purification system to ensure that the indoor air is in a high-quality state; the distance between the circulation air outlet 10 and the circulation air inlet 11 or the fresh air outlet 12 is large enough to ensure the high-quality air after being treated by the air circulation and purification system. The range in which the air circulates in the room is large enough.

Further, the air circulation and purification system also includes an aroma diffuser 16, an integrated dehumidification and humidification device 17, an anion detector (not shown in the figure) and a sensor group (not shown in the figure) arranged indoors, and they are all connected with the set The control system 18 in the room is electrically connected. Of course, the control system 18 can be installed in different positions indoors or outdoors according to the actual situation. Ventilator 3, electrostatic filter 5, UV ultraviolet light 6, anion generator 7 and fan coil unit 8 working state; Described sensor group comprises temperature sensor, humidity sensor and CO _{Concentration} sensor, sensor group can be according to actual situation Set up a plurality of, and rationally distribute in different indoor positions, so that the data measured is more accurate, temperature sensor, humidity sensor, CO _{Concentration} sensor and negative ion detector upload the data measured respectively to control system 18, control The system 18 compares the measured data with the preset data to control the aroma diffuser 16, the dehumidification and humidification integrated device 17, the fresh air purifier 3, the electrostatic filter 5, the UV ultraviolet lamp 6, the negative ion generator 7 and the The working state of the fan coil unit 8.

The working state here, specifically, includes that the control system 18 can control the opening of the purifying fresh air ventilator 3, and the operating power and closing, controlling the opening frequency and opening duration of the aroma diffuser 16 and closing, and controlling the integrated dehumidification and humidification device 17. Turn on humidification, turn on dehumidification and turn off, control the turn on and turn off of the electrostatic filter 5, control the turn on and turn off of the UV ultraviolet lamp 6, control the turn on and off of the anion generator 7, control the turn on and turn on of the fan coil unit 8 for heating and turn on Refrigerate and close.

Three situations are defined for the aroma diffuser 16: low concentration requirement: turn on for 5 seconds every 60 minutes; medium concentration requirement: turn on for 5 seconds every 30 minutes; high concentration requirement: turn on for 10 seconds every 30 minutes.

In specific use, the control system 18 can be controlled according to personal preferences or actual environmental needs. There are three modes to choose from for control, and each mode has different parameters:

Mode 1: Indoor temperature 27-30°C, humidity 35-50%, CO ₂ concentration 0.055-0.07%, 6 UV lamps fully turned on, negative ion concentration 2000-5000pc/cm ³ , aroma diffuser 16 for medium concentration requirements;

Mode 2: indoor temperature 21-23°C, humidity 65-80%, CO ₂ concentration 0.04-0.055%, half of the number of UV lamps turned on, negative ion concentration 5000-8000pc/cm ³ , aroma diffuser 16 for low concentration requirements;

Mode 3: Indoor temperature 24-26°C, humidity 50-65%, CO ₂ concentration 0.025-0.04%, all UV lamps off, negative ion concentration 8000-12000pc/cm ³ , aroma diffuser 16 is high concentration requirement;

The control system 18 pre-stores a plurality of mode control files for controlling the working states of the fan coil unit 8, the integrated dehumidification and humidification device 17, the fresh air purifier 3, the negative ion generator 7, the UV ultraviolet lamp 6 and the aroma diffuser 16 .

In the case of selecting operation mode 1, the control system 18 controls the working status of the components according to the control file of mode 1: all UV ultraviolet lamps 6 are all turned on, and when the temperature sensor detects that the indoor temperature is less than 27°C, the control system 18 controls the fan panel The pipe 8 is used for heating. If the indoor temperature is greater than 30°C, the control system 18 controls the fan coil unit 8 to cool down. If the indoor temperature is in the range of 27-30°C, the fan coil unit 8 remains in the current operating state; when the humidity sensor detects that the indoor If the humidity is less than 35%, the control system 18 controls the integrated dehumidification and humidification device 17 to turn on; if the indoor humidity is greater than 50%, the control system 18 controls the integrated dehumidification and humidification device 17 to turn off; if the indoor humidity is in the range of 35-50%, the integrated dehumidification and humidification device 17 stop working; according to the CO ₂ concentration sensor detects whether the indoor CO ₂ concentration is in the range of 0.055-0.07%, the control system 18 controls the purifying fresh air ventilator 3 to operate with different powers, if the indoor CO ₂ concentration is greater than 0.07%, then The control system 18 controls the purifying fresh air ventilator 3 to operate at the maximum power. If the indoor _CO2 concentration is less than 0.055%, the purifying fresh air ventilator 3 operates at the minimum power. If the indoor _CO2 concentration is in the range of 0.055-0.07%, purify the fresh air The ventilator 3 operates at a medium power, where the medium power refers to the power between the maximum power and the minimum power of the fresh air ventilator 3; when the negative ion detector detects that the indoor negative ion concentration is less than 2000pc/cm ³ , the control system 18 Control the negative ion generator 7 to open, the indoor negative ion concentration is greater than 5000pc/ ^cm3 , control the negative ion generator 7 to close, if the indoor negative ion concentration is in the range of 2000-5000pc/ ^cm3 , then the control system 18 does not perform any operation on the negative ion generator 7 , the negative ion generator 7 still retains the current operating state.

The operation control methods of Mode 2 and Mode 3 are similar to Mode 1, and the specific control process will not be described in detail; by selecting Mode 1, Mode 2 and Mode 3, different feelings can be simulated in different scenarios. Mode 1 simulates The scene of going out to the beach gives people the feeling of strong sunlight, humidity and high temperature. Mode 2 simulates the scene of a waterfall, which has the effect of humid air and significant negative oxygen ions. Mode 3 simulates a forest scene, which has the effect of fresh air and pleasant smell.

In this embodiment, the control system 18 performs linkage control on the fan coil unit 8, the integrated dehumidification and humidification device 17, the fresh air ventilator 3, the negative ion generator 7, the UV ultraviolet lamp 6, and the aroma diffuser 16. The so-called linkage control is Refers to, for example, in mode 1, the control system 18 simultaneously controls the working states of the fan coil unit 8, the integrated dehumidification and humidification device 17, the fresh air purifier 3, the anion generator 7, the UV lamp 6 and the aroma diffuser 16, so that the indoor temperature , humidity, _CO2 concentration, negative ion concentration and aromatherapy degree are within the preset range values of mode 1, so as to ensure that mode 1 can simulate the scene of the seaside beach, giving people the feeling of strong sunlight, humidity and high temperature; in mode 2 and mode 3 In the same way, the control system 18 also performs linkage control on all the above-mentioned components.

In this implementation, the integrated dehumidification and humidification device 17 is an integrated dehumidification and humidification device 17 with an atomization and humidification function, and specifically, an ultrasonic atomization method can be used.

For those skilled in the art, various other corresponding changes and modifications can be made according to the technical solutions and ideas described above, and all these changes and modifications should fall within the protection scope of the claims of the present invention.

Claims (9)

1. A kind of indoor air exchange system, is characterized in that: comprise fresh air system, air circulation purification system and control system; The fresh air system includes a purifying fresh air ventilator installed outdoors; The air circulation purification system includes a circulation air inlet, an electrostatic filter, a UV ultraviolet lamp, an anion generator, a fan coil unit and a circulation air outlet connected in sequence, the circulation air inlet communicates with the electrostatic filter through the first pipeline, and the fan coil unit It communicates with the circulating air outlet through the second pipeline; the electrostatic filter, UV ultraviolet lamp, negative ion generator and fan coil are all arranged outdoors, and the circulating air inlet and circulating air outlet are arranged indoors; the air circulation purification system also includes setting Indoor aroma diffuser, dehumidification and humidification integrated device, negative ion detector and sensor group, said sensor group includes temperature sensor, humidity sensor and CO _{concentration} sensor; The control system pre-stores a plurality of mode control files for controlling the working status of the fan coil unit, the integrated dehumidification and humidification device, the fresh air purifier, the negative ion generator, the UV ultraviolet lamp and the aroma diffuser; The control system compares the data uploaded by the temperature sensor with the temperature preset range value of each mode control file, and controls the working state of the fan coil unit according to the comparison result; The control system compares the data uploaded by the humidity sensor with the humidity preset range value of each mode control file, and controls the working state of the dehumidification and humidification integrated device according to the comparison result; The control system compares the data uploaded by the _CO2 concentration sensor with the _CO2 concentration preset range value of each mode control file, and controls the working state of the purifying fresh air ventilator according to the comparison result; The control system compares the data uploaded by the negative ion detector with the negative ion concentration preset range value of each mode control file, and controls the working state of the negative ion generator according to the comparison result; The control system controls the working state of the UV ultraviolet lamp according to each mode control file; The control system controls the working state of the aroma diffuser according to each mode control file. 2. The indoor air exchange system according to claim 1, characterized in that: the control system controls the fan coil unit, dehumidification and humidification integrated device, purification fresh air ventilator, negative ion generator, UV ultraviolet lamp according to each mode control file Linkage control with aroma diffuser. 3. The indoor air exchange system according to claim 1, wherein the mode control file is preset with the following three mode control scenarios: Mode 1: Indoor temperature 27-30°C, humidity 35-50%, CO ₂ concentration 0.055-0.07%, the number of UV lamps is fully turned on, negative ion concentration 2000-5000pc/cm ³ , aroma diffuser is turned on for 5 seconds every 30 minutes; Mode 2: Indoor temperature 21-23°C, humidity 65-80%, CO ₂ concentration 0.04-0.055%, half of the number of UV lamps turned on, negative ion concentration 5000-8000pc/cm ³ , aroma diffuser turned on for 5 seconds every 60 minutes; Mode 3: Indoor temperature 24-26°C, humidity 50-65%, CO ₂ concentration 0.025-0.04%, UV light off, negative ion concentration 8000-12000pc/cm ³ , aroma diffuser on for 10 seconds every 30 minutes. 4. The indoor air exchange system according to claim 3, characterized in that: the control system controls the working state of the fan coil unit specifically: when the temperature sensor detects that the indoor temperature is lower than the preset range value of each mode control file When the minimum value is reached, the control system controls the fan coil for heating; if the indoor temperature is greater than the maximum value of the preset range value of each mode control file, the control system controls the fan coil for cooling; if the indoor temperature is in each mode Within the preset range value of the control file, the fan coil unit remains in the current operating state. 5. The indoor air exchange system according to claim 3, characterized in that: the control system controls the working state of the integrated dehumidification and humidification device as follows: when the humidity sensor detects that the indoor humidity is less than the preset range value of each mode control file When the minimum value of , the control system controls the integrated dehumidification and humidification device to perform humidification; if the indoor humidity is greater than the maximum value of the preset range value of each mode control file, the control system controls the integrated dehumidification and humidification device to perform dehumidification; if the indoor humidity If it is within the preset range value of each mode control file, the integrated dehumidification and humidification device stops working. 6. The indoor air exchange system according to claim 3, characterized in that: the control system controls the working state of the purifying fresh air ventilator as follows: when the _CO2 concentration sensor detects that the indoor _CO2 concentration is lower than that of each mode control file When the minimum value of the preset range value, the control system controls the purifying fresh air ventilator to run at the minimum power; if the indoor _CO2 concentration is greater than the maximum value of the preset range value of each mode control file, the purifying fresh air ventilator The ventilator operates at maximum power; if the indoor _CO2 concentration is within the preset range value of each mode control file, the purifying fresh air ventilator operates at medium power. 7. The indoor air exchange system according to claim 3, characterized in that: the control system controls the working state of the negative ion generator specifically as follows: when the negative ion detector detects that the indoor negative ion concentration is less than the preset range of each mode control file When the minimum value of the value, the control system controls the anion generator to open; when the indoor anion concentration is greater than the maximum value of the preset range value of each mode control file, the control anion generator is closed; if the indoor anion concentration is within the range of each mode control file Within the preset range value, the control system does not perform any operation on the negative ion generator, and the negative ion generator remains in the current operating state. 8. The indoor air exchange system according to claim 1, characterized in that: said purified fresh air ventilator is provided with an air inlet passage and an exhaust passage which are not connected to each other, and one side of the purified fresh air ventilator is provided with an inlet Air outlet and exhaust air outlet, clean fresh air The other side of the ventilator is provided with a fresh air outlet and an exhaust air inlet, the air inlet and fresh air outlet are connected through the air inlet channel, and the exhaust air inlet and exhaust air outlet are connected through the exhaust air channel; The air inlet and exhaust air inlet are arranged indoors, and the air inlet and exhaust air outlet are both arranged outdoors. 9. The indoor air exchange system according to claim 1, wherein the electrostatic filter is an electrostatic filter made of electret electrostatic synthetic fiber filter material.