TWI747386B - Air switch system with internet of things - Google Patents

Abstract

The present invention relates an air switch system with the internet of things which primarily includes a body, a transmitter, a processor, and a heat exchange element. Wherein the air is conducted in or out by the body, and the transmitter, the processor, and the heat exchange element set in the body. The transmitter receives a control signal from an IoT(internet of things) control device, and the processor controls the heat exchange element turning on, turning off, inlet, or outlet through at least one instruction in the control signal while the control signal received. Therefore, the air switch system of the present invention achieves wireless controlling with air switch or purification by applying the technology of IoT, to provide the user through the air purification thereby.

Description

Internet of Things Air Conversion System

The present invention relates to an Internet of Things technology, in particular to an Internet of Things air conversion system that uses the Internet of Things technology to provide air conversion.

In order to improve the quality of people’s living environment, according to the current living environment, people are often in a closed indoor environment, so that the carbon dioxide emitted by people’s breathing or some other changes can easily cause the indoor air to be more polluted. So, if you want to To ventilate the room, the indoor and outdoor air can be circulated by opening windows or opening the air conditioner, but in fact, the air-conditioning only has internal circulation and no external circulation, so it cannot exhaust the dirty air in the room or introduce it to the outside. Fresh air. Furthermore, if the windows are opened directly, it is easy to affect people in the room because the outside air is too cold or too hot.

In this way, the prior art invented a total heat exchanger to improve the problem of indoor air being blocked and easy to be polluted, and it can also make the outside air closer to the inside air when it enters. However, the general total heat exchanger cannot be used. The Internet of Things is not controlled by the way, and it cannot provide the effect of purifying the air, and it is not convenient for users to use.

Therefore, there is an urgent need for a technology that can be connected and controlled by the Internet of Things technology, and can effectively perform air conversion or purify most of the dirt in the air, so as to improve the problems of the prior art.

The object of the present invention is to provide an Internet of Things air conversion system, which mainly uses a transmission module to receive a control signal transmitted by an Internet of Things control device, and the processing module receives the control signal, according to at least one command in the control signal Control the total heat exchange element or other related components, and then use the technology of the Internet of Things to achieve the function of wirelessly controlling the air conversion or purification to provide the user with purified gas.

For the purpose of the above disclosure, the present invention provides an Internet of Things air conversion system, including: a body with an air inlet and an indoor air outlet on one side, and an air outlet and an indoor air inlet on the other side of the body , The air inlet introduces an outdoor air from an outdoor environment, the indoor air outlet leads an indoor air from the inside of the body, the air outlet leads the outdoor air from the inside of the body, and the indoor air inlet leads from an indoor environment to the Indoor gas; a transmission module, which is arranged in the body and connected with an Internet of Things control device, the transmission module receives a control signal from the Internet of Things control device; a processing module, which is arranged in the body and Connected to the transmission module, the processing module receives the control signal from the transmission module; and a full heat exchange element, which is arranged in the body and connected to the processing module, one side of the full heat exchange element Connected to the air inlet and the indoor air outlet, the other side of the total heat exchange element is connected to the air outlet and the indoor air inlet, the total heat exchange element receives the outdoor air from the air inlet and removes the outdoor air from the indoor The air outlet is led out, the total heat exchange element receives the indoor air from the indoor air inlet and leads the indoor air from the indoor air outlet, wherein the total heat exchange element is provided with a heat exchange element, when the heat exchange element receives When the outdoor air and the indoor air are reached, the heat exchange element will be The temperature of the outdoor air and the indoor air are harmonized; wherein the processing module controls the opening and closing of the total heat exchange element, the air inlet of the air inlet, and the air outlet of the air outlet according to at least one command in the control signal. The air volume, the air inlet volume of the indoor air inlet, or the air outlet volume of the indoor air outlet.

Preferably, the Internet of Things air conversion system further includes: a dehumidification device, which is arranged between one of the air inlet and the total heat exchange element or between the total heat exchange element and the air outlet, And the dehumidification device is connected with the processing module, and the dehumidification device receives the outdoor air to adsorb a water vapor in the outdoor air and evaporate the water vapor into a plurality of water droplets; wherein, the processing module is based on At least one command in the control signal controls the dehumidification device to be turned on or off.

Preferably, the dehumidifying device includes: a dehumidifying element that receives the outdoor air, and the dehumidifying element is provided with a plurality of dehumidifying holes, the dehumidifying holes adsorb the moisture in the outdoor air, and dry the air The outdoor air exhaust; and a dehumidification heater, which is installed on the dehumidification element or adjacent to the periphery, when the moisture in the dehumidification element exceeds a moisture load threshold, the dehumidification heater is activated to heat The dehumidifying element causes the moisture in the dehumidifying element to be heated to evaporate into the water droplets.

Preferably, the dehumidification device further includes: a moisture collection body, which is arranged adjacent to the periphery of the dehumidification element and located on either side of the body, and the moisture collection system is detachable from the body The water collection system collects the water droplets formed after the water vapor is heated and evaporated. The water level sensing element is arranged inside the water collection body, and the water level sensing element senses the water droplets contained in the water collection body. When the water level position exceeds a water level threshold set by the water level sensing element, the water level sensing element sends a reminder signal to a control device that interrupts the air purification function of the air treatment device or It is the operation of the dehumidifier.

Preferably, the water level sensing element further sends the reminder signal to a warning device, and the warning device receives the reminder signal and correspondingly sends out a warning signal.

Preferably, the Internet of Things air conversion system further includes: a first air collecting hood, which is arranged at the position of the air inlet or the indoor air outlet of the main body, and the first air collecting hood is from the outdoor The outdoor air in the environment is concentratedly introduced to the air inlet or the indoor air is concentratedly exported to the outdoor environment through the first air collecting hood; and a second air collecting hood, which is arranged at the air outlet of the main body or At the position of the indoor air inlet, the second air collecting hood is introduced from the indoor air in the indoor environment to the indoor air inlet or the outdoor air is concentratedly exported to the indoor environment through the second air collecting hood .

Preferably, the Internet of Things air conversion system includes: an ion generator installed in the body and connected to the processing module, and the ion generator is located adjacent to the air inlet or the periphery of the air outlet , To receive the imported outdoor gas, and the ion generator generates a plurality of ion charges, so that the plurality of suspended particles in the outdoor gas passing through the ion generator carry the ion charges; an ion filter, which is provided In the body and located adjacent to the periphery of the ion generator, the ion generator is sandwiched between the air inlet and the ion filter or between the air outlet and the ion filter, the ion filter Receiving the outdoor gas derived from the ion generator, and the ion filter element includes a plurality of filter element charges that are electrically opposite to the ion charge, so as to attach the suspended particles having the ion charge in the outdoor gas; and A filter element, which is arranged between the air outlet and the ion filter element, the filter element receives the outdoor gas derived from the ion filter element to attach the suspended particles that are not attached to the ion filter element, and The outdoor air is exported to the air outlet; wherein, the processing module controls the ion generator to be turned on or off according to at least one command in the control signal.

Preferably, the Internet of Things air conversion system includes: a nano-catalyst purification device, which is installed in the body and located on one of the air inlets or the periphery of the total heat exchange element, the The nanocatalyst purification device provides a light source to irradiate the outdoor gas, so that a pollutant in the outdoor gas is irradiated by the light source of an appropriate wavelength to cause the pollutant to produce a degradation reaction. The pollutant is decomposed into a harmless substance; wherein, the processing module controls the nanocatalyst purification device to turn on or off according to at least one instruction in the control signal.

Preferably, the pollutant includes one of formaldehyde, acetaldehyde, benzene, toluene, Ethyl benzene, Styrene, and Xylene. , Para-dichiorobenzene, ammonia or any combination of the two.

Another object of the present invention is to provide an Internet of Things air conversion method, which mainly uses a transmission module to receive a control signal transmitted by an Internet of Things control device, and the processing module receives the control signal according to at least one of the control signals A command controls the total heat exchange element or other related components, and then uses the Internet of Things technology to achieve the function of wirelessly controlling air conversion or purification, so as to provide the user with purified gas.

To achieve another objective of the above disclosure, the present invention provides an Internet of Things air conversion management method applied to the above-mentioned Internet of Things air conversion system.

In order to make the above-mentioned objectives, features and advantages of the present invention more obvious and understandable, detailed descriptions are given below in conjunction with the specific embodiments listed in the drawings.

10: body

11: Air inlet

12: Air outlet

13: Indoor air outlet

14: Indoor air inlet

20: Transmission module

30: Processing module

40: Full heat exchange element

41: Heat Exchanger

50: Internet of Things control device

51: Control signal

511: instruction

60: Dehumidifier

61: Dehumidifier

62: Dehumidification heater

63: Water collector

631: water level sensor

632: Water Threshold

633: reminder signal

64: Dehumidification control device

70: Warning device

71: warning signal

80: Nano catalyst purification device

81: light source

90: ion generator

91: Ion filter

92: filter

Figure 1 is a schematic diagram of the component configuration of the present invention; Figure 2 is a schematic diagram of the connection of the Internet of Things control device of the present invention; Figure 3 is a schematic diagram of the component configuration of the dehumidification device of the present invention; Figure 4 is a schematic diagram of the dehumidification device of the present invention Schematic diagram of the internal configuration; Figure 5 is a schematic diagram of the component configuration of the nanocatalyst purification device of the present invention; Fig. 6 is a schematic diagram of the component arrangement of the ion filter of the present invention.

The advantages, features, and technical methods of the present invention will be described in more detail with reference to exemplary embodiments and the accompanying drawings to make it easier to understand, and the present invention can be implemented in different forms, so it should not be understood as the present invention It is limited to the embodiments set forth herein. On the contrary, for those with ordinary knowledge in the technical field, the provided embodiments will make this disclosure more thorough, comprehensive and complete to convey the scope of the present invention, and the present invention will only It is defined by the scope of the attached patent application.

In the description of the present invention, it should be understood that the terms "shun", "inverse", "center", "lateral", "up", "down", "left", "right", "top", " The orientation or positional relationship indicated by "bottom", "inner", "outer", etc. are based on the orientation or positional relationship shown in the diagrams, and are only for the convenience of describing the present invention and simplifying the description, rather than indicating or implying the pointed device or The element must have a specific orientation, be constructed and operated in a specific orientation, and therefore cannot be understood as a limitation of the present invention.

In addition, the terms "including" and/or "including" refer to the existence of the features, regions, wholes, steps, operations, elements, and/or components, but do not exclude one or more other features, regions, wholes, steps, operations , The presence or addition of elements, components, and/or combinations thereof.

In order to make it easier for your reviewer to understand the content of the present invention and the effects that can be achieved, the specific embodiments listed in the drawings are described in detail as follows: Please refer to Figures 1 and 2, which are elements of the present invention. Schematic diagram of configuration and connection diagram of IoT control device. As shown in the figure, the present invention is mainly composed of a main body 10, a transmission module 20, a processing module 30 and a full heat exchange element 40. The main body 10 can be a metal box, and one side is provided with an air inlet 11 and an indoor air outlet 13, and the other side of the main body 10 is provided with an air outlet 12 and an indoor air inlet 14, and the air inlet 11 is suitable for To introduce an outdoor gas from an outdoor environment, the The indoor air outlet 13 is an indoor gas after the treatment is led out from the inside of the body 10, and the air outlet 12 leads the treated outdoor air from the inside of the body 10. In addition, the air inlet 11 or the indoor air outlet 13 is connected to A first air-collecting hood can be provided for centralized introduction of the outdoor air in the outdoor environment to the air inlet 11, or the indoor air can be concentratedly exported to the outdoor environment through the first air-collecting hood, and The air outlet 12 or the indoor air inlet 14 may be provided with a second air collecting hood for centralized introduction of the indoor air from the indoor environment to the indoor air inlet 14 or the outdoor air through the indoor air inlet 14 The second set of wind hoods are exported to the indoor environment.

The transmission module 20 is mainly used to receive or transmit signals. Therefore, when the transmission module 20 is installed in the body 10 and connected to an IoT control device 50, the transmission module 20 can be The networked control device 50 receives a control signal 51.

The processing module 30 is used to process related signals, such as chips or other related processing elements. Therefore, when the processing module 30 is installed in the main body 10 and connected to the transmission module 20, the processing module 30 The group 30 can receive the control signal 51 from the transmission module 20, and demodulate the control signal 51, according to the demodulated control signal 51 at least one command 511, and control by the command 511 The total heat exchange element 40 is opened and closed, the air inlet volume of the air inlet 11, the air outlet volume of the air outlet 12, the air inlet volume of the indoor air inlet 13 or the air outlet volume of the indoor air outlet 14 and so on.

The total heat exchange element 40 can be arranged in the body 10 and connected to the processing module 30. One side of the total heat exchange element 40 is connected to the air inlet 11 and the indoor air outlet 13, and the total heat The other side of the exchange element 40 is connected to the air outlet 12 and the indoor air inlet 14, and the total heat exchange element 40 is also provided with a heat exchange element 41, wherein the indoor air inlet 14 and the indoor air outlet 13 are mainly It is arranged at a position corresponding to the air inlet 11 and the air outlet 12, but can also be arranged at a position that does not correspond to the air inlet 11 and the air outlet 12 to receive and export the outdoor air or the indoor air, So, when should When the air inlet 11 introduces the outdoor air in the outdoor environment into the total heat exchange element 40, the heat exchange element 41 can receive the outdoor air and perform related heat exchange processing, and then pass the outdoor air through the air outlet 12 is exported to the indoor environment, and when the indoor air inlet 14 receives the indoor air from the indoor environment, the heat exchange element 41 can receive the outdoor air and perform related heat exchange processing, and then the indoor air The gas is led out to the outdoor environment through the indoor air outlet 13 so that the heat exchange element 41 can be processed by heat exchange to reconcile the outdoor air and the indoor air temperature, thereby effectively reducing the outdoor air temperature. Fresh air is introduced into the room.

Furthermore, since the total heat exchange element 40 is indirectly connected to the IoT control device 50 via the processing module 30 and the transmission module 20, the total heat exchange element 40 can be controlled through the IoT The control of the device 50 realizes the function of wirelessly controlling the air conversion.

In this way, the Internet of Things air conversion system can effectively provide the function of air purification, and then provide users with clean air.

Please refer to FIGS. 3 and 4 again, which are schematic diagrams of the component configuration of the dehumidification device and the internal configuration of the dehumidification device of the present invention. As shown in the figure, the Internet of Things air conversion system of the present invention can be further equipped with a dehumidification device 60 to be installed between the air inlet 11 and the total heat exchange element 40 or between the total heat exchange element 40 and In the position between the air outlets 12, in this embodiment, the dehumidification device 60 is set between the total heat exchange element 40 and the air outlet 12 as an example, wherein the dehumidification device 60 It is set to receive the outdoor air and absorb a water vapor in the outdoor air to further evaporate the water vapor into a plurality of water droplets to facilitate subsequent recovery or removal (for example, filling with a plurality of water Pour out the water accumulated by the beads).

More specifically, the dehumidifying device 60 includes a dehumidifying element 61, a dehumidifying heater 62, and a moisture collecting body 63. The dehumidifying element 61 is set to receive the outdoor air, and by the dehumidifying A plurality of dehumidifying holes provided on the member 61 adsorb the moisture in the outdoor air to facilitate the exhaust of the dried outdoor air (that is, the outdoor air from which the moisture is sucked away).

The dehumidification heater 62 is installed on the dehumidification element 61 or adjacent to the periphery. When the moisture in the dehumidification element 61 exceeds a moisture load threshold (for example, 1 liter), the dehumidification heater 62 is activated to heat the dehumidifying element 61, so that by setting the moisture load threshold, the electric energy consumed by the dehumidifying heater 62 can be reduced. When the dehumidification heater 62 is heated, the moisture in the dehumidification element 61 can be heated to evaporate into the water droplets.

The moisture collecting body 63 is arranged adjacent to the periphery of the dehumidifying element 61 and located on either side of the main body 10, and the moisture collecting body 63 is a detachable structure that can be detached from the main body 10. , And the moisture collecting body 63 is mainly used to collect the water droplets after being heated and evaporated, and a water level sensing element 631 can be arranged in the moisture collecting body 63 to use the water level sensing element 631 to sense the moisture collection When a water level threshold 632 is set by the water level sensor 631 for the water droplets contained in the body 63, the water level sensor 63 sends a reminder signal 633 to a dehumidification control device 64, and the dehumidification The control device 64 then interrupts the operation of the total heat exchange element 40 or the dehumidification device 60. In addition, the water level sensing element 63 can further send the reminder signal 633 to a warning device 70 to receive it by the warning device 70 When the reminder signal 633 is reached, a warning signal 71 (for example, a sound or a flashing light) is correspondingly issued.

Furthermore, when the dehumidifying device 60 is connected to the processing module 30, the processing module 30 can also control the turning on or off of the dehumidifying device 60 according to at least one command 511 in the control signal 51.

Please refer to FIG. 5 again, which is a schematic diagram of the component arrangement of the nanocatalyst purification device of the present invention. As shown in the figure, the Internet of Things air conversion system of the present invention can be further equipped with a nano-catalyst net. The chemical device 80 is arranged in the main body 10 and located on one of the air inlet 11 or the periphery of the total heat exchange element 40. The nanocatalyst purification device 80 provides a light source 81 to irradiate the outdoor gas, so that a pollutant in the outdoor gas is irradiated by the light source of the appropriate wavelength to generate electron-hole pairs, so that the hydroxide ions in the pollutant will be oxidized by the holes to hydroxyl groups (OH), and the hydroxyl group will get electrons from organic matter again. In this way, the pollutant that loses electrons will degrade into smaller molecules (such as carbon dioxide or water) due to the loss of linking ability. When the pollutant produces one of the aforementioned degradation reactions, the pollutant can be decomposed into a harmless substance (such as carbon dioxide or water). Wherein, the pollutant includes one of formaldehyde, acetaldehyde, benzene, toluene, ethylbenzene, styrene, xylene, p-xylene, ammonia or any combination of two or more.

Please refer to FIG. 6, which is a schematic diagram of the component arrangement of the ion filter of the present invention. As shown in the figure, the Internet of Things air conversion system of the present invention may further include an ion generator 90, an ion filter 91, and a filter 92. The ion generator 90 is disposed in the body 10 and located in the inlet. The tuyere 11, the total heat exchange element 40 leads out the outdoor air, or the dehumidifier 60 outputs the outdoor air adjacent to the periphery. In this embodiment, the ion generator 90 is set at the inlet Take the vicinity of the tuyere 11 as an example, because the ion generator 90 is mainly raised from a low voltage by a booster circuit to a DC negative high voltage, and then uses a high-end DC high voltage to generate a high corona, releasing a large amount of electrons at a high speed Later, since electrons cannot exist in the air for a long time, they are immediately captured by oxygen molecules in the air to generate a large amount of negative ions. Therefore, when the ion generator 90 receives the outdoor air introduced from the air inlet 11, a plurality of suspended particles in the outdoor air will be charged with the ion charge of negative ions.

The ion filter 91 is arranged in the body 10 and is located adjacent to the periphery of the ion generator 90, so that the ion generator 90 is sandwiched between the air inlet 11 and the ion filter 91, the The ion filter 91 includes a plurality of filter charges with opposite electrical charges of the ion (in this embodiment, it is a positive ion). The ion filter 91 receives the outdoor gas derived from the ion generator 90, and attaches the suspended particles with the ion charge of negative ions in the outdoor gas to the ion filter, Specifically, the charge of the filter elements included on the ion filter element 91 is specifically electrostatic, which is mainly formed by, for example, a resin polymer through permanent polarization treatment or a textile material related to static electricity. The ion filter 91 can attach the suspended particles with the ion charge of negative ions to the ion filter 91 via the filter charges.

The filter element 92 is mainly used for the second stage of the filtering process. The filter element 92 must be a filter that can effectively block the suspended particles, such as an activated carbon filter or a non-woven filter for attachment. The suspended particles that are not attached to the ion filter 91.

In this way, the present invention can effectively provide the function of air purification, thereby providing the user with clean air.

The disclosure in this case is a preferred embodiment, and any partial changes or modifications that are derived from the technical ideas of the case and can be easily inferred by those who are familiar with the art will not deviate from the scope of the patent right of this case.

In summary, regardless of the purpose, means, and effects of this case, it is showing its technical characteristics that are very different from conventional knowledge, and its first invention is suitable for practical use, and it is also in compliance with the patent requirements of the invention. Granting patents as soon as possible will benefit the society and feel the virtues.

10: body

11: Air inlet

12: Air outlet

13: Indoor air outlet

14: Indoor air inlet

20: Transmission module

30: Processing module

40: Full heat exchange element

41: Heat Exchanger

50: Internet of Things control device

51: Control signal

511: instruction

Claims (8)

An Internet of Things air conversion system includes: a body with an air inlet and an indoor air outlet on one side, and an air outlet and an indoor air inlet on the other side of the body, the air inlet introducing an outdoor air from an outdoor environment , The indoor air outlet leads out an indoor air from the inside of the body, the air outlet leads out the outdoor air from the inside of the body, the indoor air inlet introduces the indoor air from an indoor environment; a transmission module, which is arranged in the body The main body is connected to an Internet of Things control device, and the transmission module receives a control signal from the Internet of Things control device; a processing module is installed in the main body and is connected to the transmission module, and the processing module receives a control signal from the Internet of Things control device. The transmission module receives the control signal; and a total heat exchange element, which is arranged in the body, and is connected to one side of the total heat exchange element with the air inlet and the indoor air outlet, and the total heat exchange element is further Side is connected with the air outlet and the indoor air inlet, the total heat exchange element receives the outdoor air from the air inlet and leads the outdoor air from the indoor air outlet, and the total heat exchange element receives the indoor air from the indoor air inlet And lead the indoor air out of the indoor air outlet, wherein the total heat exchange element is provided with a heat exchange element, and when the heat exchange element receives the outdoor gas and the indoor air, the heat exchange element The temperature of the outdoor air and the indoor air are harmonized; wherein the processing module controls the opening and closing of the total heat exchange element, the air inlet volume of the air inlet, and the air outlet volume of the air outlet according to at least one command in the control signal , The air inlet volume of the indoor air inlet or the air outlet volume of the indoor air outlet; wherein, further comprising: a nano-catalyst purification device, which is installed in the body and located at one of the air inlet or the air inlet On the neighboring area of the total heat exchange element, the nanocatalyst purification device provides a light source to illuminate the outdoor gas, so that a pollutant in the outdoor gas is irradiated by the light source of appropriate wavelength to promote the production of the pollutant A degradation reaction to decompose the pollutant into a harmless substance; wherein, the processing module controls the nanocatalyst purification device to be turned on or off according to at least one instruction in the control signal. The Internet of Things air conversion system according to claim 1, further comprising: a dehumidification device, which is provided between the air inlet and the total heat exchange element or between the total heat exchange element and the air outlet , The dehumidification device receives the outdoor air to absorb a water vapor in the outdoor air, and evaporates the water vapor into a plurality of water droplets, wherein the processing module controls the water vapor according to at least one instruction in the control signal The dehumidifier is turned on or off. The Internet of Things air conversion system according to claim 2, wherein the dehumidification device includes: a dehumidification element that receives the outdoor air, and the dehumidification element is provided with a plurality of dehumidification apertures, and the dehumidification apertures adsorb the outdoor air And exhaust the dried outdoor air; and a dehumidification heater, which is arranged on the dehumidifying element or adjacent to the periphery, and the moisture in the dehumidifying element exceeds a moisture load threshold At this time, the dehumidification heater is activated to heat the dehumidification element, so that the moisture in the dehumidification element is heated to evaporate into the water droplets. According to the Internet of Things air conversion system according to claim 3, the dehumidification device further includes: a moisture collector arranged adjacent to the periphery of the dehumidification element and located on either side of the body, the moisture The collection system is a detachable structure that can be disassembled from the body. The water collection system collects the water droplets formed after the water vapor is heated and evaporated. A water level position after the water droplets are contained inside the water collection body. When the water level position exceeds a water level threshold set by the water level sensor element, the water level sensor element sends out a reminder signal to a control device. The control device is The operation of the air treatment device or the dehumidification device that interrupts the air purification function. The IoT air conversion system according to claim 4, wherein the water level sensing element further sends the reminder signal to a warning device, and the warning device receives the reminder signal and sends out a warning signal correspondingly. The Internet of Things air conversion system according to claim 1, further comprising: a first air collecting hood, which is arranged at the position of the air inlet or the indoor air outlet of the main body, and the first air collecting hood is drawn from the The outdoor air in the outdoor environment is concentratedly introduced to the air inlet or the indoor air is concentratedly exported to the outdoor environment through the first air collecting hood; and a second air collecting hood, which is arranged at the air outlet of the main body Or at the position of the indoor air inlet, the second air collecting hood is introduced from the indoor air in the indoor environment to the indoor air inlet or the outdoor air is intensively exported to the indoor environment through the second air collecting hood middle. The Internet of Things air conversion system according to claim 1, which includes: an ion generator installed in the body and located adjacent to the periphery of the air inlet or the air outlet, and the ion generator receives from the inlet The outdoor gas, and the ion generator generates a plurality of ion charges, so that the plurality of suspended particles in the outdoor gas passing through the ion generator carry the ion charges; an ion filter is arranged in the body, And is located adjacent to the periphery of the ion generator, so that the ion generator is sandwiched between the air inlet and the ion filter or between the air outlet and the ion filter, and the ion filter receives the ion generated from the ion filter. Outdoor Gas, and the ion filter element includes a plurality of filter element charges that are electrically opposite to the ion charge, so as to attach the suspended particles with the ion charge in the outdoor air; and a filter element, which is arranged at the air outlet Between the filter element and the ion filter element, the filter element receives the outdoor air derived from the ion filter element to attach the suspended particles that are not attached to the ion filter element, and export the outdoor air to the air outlet; wherein The processing module controls the ion generator to be turned on or off according to at least one command in the control signal. The Internet of Things air conversion system according to claim 1, wherein the pollutants include formaldehyde, acetaldehyde, benzene, toluene, ethylbenzene, styrene, xylene, p-xylene, ammonia, or any two or more of them The combination.

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