Air purification system, air purification method, control device and readable storage medium

[0051]It should be understood that the specific embodiments described herein are merely intended to illustrate the invention and are not intended to limit the invention.

[0052]The main solution of the embodiment of the present invention is to obtain the concentration of the preset harmful gas in the indoor environment, obtain the first parameter value of the preset environment parameters in the indoor environment; when the concentration is greater than or equal to the preset threshold, Further, the first parameter value is in the preset parameter range, according to the first parameter value and the preset parameter range, the environmental adjustment device is controlled to adjust the indoor environment; the filter device performs filtration operation on the air of the indoor environment, The preset harmless gas is filtered off; wherein the default gas removal rate of the preset parameter range is greater than or equal to the preset value.

[0053]Due to the prior art, air purification apparatus typically automatically opens the filter device when the harmful gas concentration is greater than the threshold, to filter out the harmful gas in the air, while other environmental parameters are independently controlled according to different needs independently adjust the corresponding environmental equipment. However, when the air purification equipment is filtered in the process of filtering, the effects of other environmental factors on the effect of harmful gas are not guaranteed by the air purification equipment to the harmful gas filtering effect, even if it is opened, it is not necessary to quickly reduce the harmful indoors. The concentration of the gas.

[0054]The present invention provides the above solution to achieve rapidly and efficient filtering of harmful gases and improve indoor air purification efficiency.

[0055]The present invention proposes a control device that is applied to the air quality of the indoor environment.

[0056]In the embodiment of the present invention, referencefigure 1 The control device includes: processor 1001, such as a CPU, a memory 1002, and the like. Memory 1002 can be a high speed RAM memory, or a stable memory (Non-Volatile Memory), such as a disk memory. Memory 1002 can also be a storage device independently of the processor 1001.

[0057]Among them, an environmental monitoring module can be provided in an indoor environment that requires air quality monitoring, which may include a first detecting module 2001 for detecting a detrimental gas such as a volatile organic compound such as formaldehyde, and may further comprise detecting environmental parameters. (, Such as temperature, humidity, etc.) of the second detection module 2002.

[0058]Further, in the indoor environment, there may be provided with filtering device 3001 for filtrating the harmful gas, and may also provide environmental adjustment device 3002 (such as humidifier, dehumidifier, air conditioning, etc.) for adjusting environmental parameters.

[0059]The filtration device 3001 is specifically provided with an air outlet and an air outlet, inlet and air ports in communication with the indoor environment. In addition, there is a fan inlet gas port and air outlet, and a fan and a filter are provided in the air, which can be moved from the air inlet to the air inlet when the fan is opened. Then discharge from the air intake to the indoor environment. Among them, the filter can decompose or adsorb harmful gases in the via air. Specifically, the filter is specifically a manganese dioxide formaldehyde, which can be used as a decomposed formaldehyde by catalysis of manganese dioxide, and the surface of the mesh is produced by the surface of the mesh to achieve filtering of harmful gases. The first detection module 2001 and the second detecting module 2002 described above may be particularly disposed at the air of the filter device 3001.

[0060]The processor 1001 is connected to the memory 1002, the first detecting module 2001, the second detecting module 2002, the filter device 3001, and the environmental adjustment device 3002, respectively. The processor 1001 can acquire its acquired data from the first detection module 2001 and the second detecting module 2002, and the processor 1001 can also control the operation of the filter device 3001 and the environmental adjustment device 3002.

[0061]Those skilled in the art will appreciate thatfigure 1 The structure shown in the device does not constitute a defined to the device, and may include more or fewer components, or in combination, or different components.

[0062]Such asfigure 1 As shown, a air purifier can be included in memory 1002 as a readable storage medium. infigure 1 In the apparatus shown, the processor 1001 can be used to invoke the air purifier stored in the memory 1002 and perform related steps of the air purification method in the following embodiments.

[0063]The embodiment of the present invention also provides an air purification method.

[0064]Referfigure 2 The first embodiment of the air purification method of the present invention is proposed, in the first embodiment, the air purification method includes:

[0065]Step S10, acquire the concentration of the harmful gas in the indoor environment, obtain the current first parameter value of the preset environment parameters in the indoor environment;

[0066]Preset of harmful gas refers to the lifting of human health. In the present embodiment, the preset of the harmful gas is specifically an organic volatile compound such as formaldehyde. In other embodiments, the harmless gas can also be other gases (such as PM2.5, etc.) that are harmful to human health. Specifically, the concentration of formaldehyde in the indoor environment can be collected in real time through the first detection module.

[0067]Preset environmental parameters are specific to the status parameters characterized by indoor environment. Preset environmental parameters may specifically include environmental humidity, ambient temperature, and / or environmental radiation. Specifically, data acquired by the second detection module is real-time as the first parameter value.

[0068]Among them, there may be corresponding relationships between preset harmless gases and preset environmental parameters. The preset environment parameters are environmental parameters that produce positive impact or negative impact on preset harmful gases. Different preset harmful gases can correspond to different preset environmental parameters. For example, when presetting the harmful gas is formaldehyde, the corresponding predetermined environment parameters are environmental humidity.

[0069]Step S20, when the concentration is greater than or equal to the preset threshold, and the first parameter value is in the preset parameter range, the environmental adjustment device is controlled according to the first parameter value and the preset parameter range. Adjust the indoor environment; control the air filtering operation of the filter device to perform filtration operation to filter out the preset harmless gas; wherein the preset parameter range corresponding to the preset harmful gas is greater than or equal to the preset value.

[0070]The preset parameter range refers to the numerical range corresponding to the indoor environment parameters of the harmful gas (the removal rate greater than or equal to the preset value). Among them, the removal rate refers to the percentage of air concentrations in the unit volume of air to reducing the total amount of air in the total amount of air. The preset value can be set according to the actual needs. Different preset harmful gases can correspond to different preset environmental parameters, and different preset environment parameters may have different preset parameters. The critical value of the preset parameter range can be obtained by a large amount of data analysis. For example, when the manganese dioxide decomposition mesh is used as the filter of the filter device, when the harmless gas is formaldehyde, the surface of the mesh is produced by formate and carbonate, and the active group-hydroxyl group is constantly consumed. Low humidity environments, difficult regenerative active group - hydroxyl, surface formate and carbonate accumulation, significantly reduce the contact and catalytic decomposition effect of the filter and formaldehyde, so at 20% RH, the formaldehyde removal rate is only 62.1%. . In high humidity environments, such as 80% RH, water vapor adsorbed on the surface of the mesh catalytic material, which reduces formaldehyde and catalytic components and active groups, and unimpledly decompose formaldehyde. In 40 ~ 60% RH humidity environment, MNO2Methyl aldehyde resolution net catalytic decomposition of formaldehyde, although the surface of the mesh and carbonate is produced, and the surface active group-hydroxyl group is constantly consumed, but the appropriate humidity environment, the active group can quickly recover and regenerate, and effective Promoting intermediate-formate and carbonate further transform into CO2And water, continuous guarantee the effect of catalytic decomposition of formaldehyde. Therefore, when presets the harmful gas is formaldehyde, the preset environmental parameters may be specifically environmentally humidity, and 40 to 60% RH can be used as the preset parameter range.

[0071]The first parameter value is less than the minimum threshold value of the preset parameter range, or the first parameter value is greater than the maximum threshold value of the preset parameter range, which can be considered that the first parameter value is outside the preset parameter range.

[0072]It is determined whether the obtained concentration is greater than or equal to the preset threshold. If it is, it indicates that the filtering device needs to be turned on; if, it indicates that the filter device is not required. Wherein, when it is determined that the obtained concentration is greater than or equal to the preset threshold, it is further determined whether or not the first parameter value is within the preset parameter range, and the first parameter value is within the preset parameter range, indicating that the filter device is in the current indoor environment. Having a preferred harmful gas filtering effect, the first parameter value is not in the range of preset parameters, indicating that the filtering device has a poor filtering effect in the current indoor environment. When it is determined that the concentration is greater than or equal to the preset threshold, and determines that the first parameter value is outside the preset parameter range, step S20 is performed.

[0073]The step of controlling the environmental adjustment device to adjust the indoor environment according to the first parameter value and the preset parameter range specifically includes determining the first large relationship between the first parameter value and the preset parameter range, according to the first large number of relationships, corresponding to increase or decrease in the room The value corresponding to the environment parameters in the environment, so that the first parameter value corresponding to the preset environment parameters in the indoor environment will change to the range of the range of preset parameters; or determine the critical value of the first parameter value and the preset parameter range The difference between the values, according to the difference value corresponding to the value corresponding to the preset environment parameters in the indoor environment, so that the first parameter value corresponding to the preset environment parameters in the indoor environment will change to the range of the range of preset parameters. .

[0074]Controlling the air of the indoor environment performs filtration operation to filter out the step of preset the harmful gas specifically comprises: opening the fan in the air of the filter device to drive the air in the indoor environment into the filter device to filter the harmful gas. Remove, discharge it again into the indoor environment. Further, the speed of the fan can be determined according to the filtering requirements of the user or the concentration of the current harmful gas. Specifically, in the present embodiment, the blower is used to control the amount of air that is filtered through the filtration device. Therefore, the filter operation is performed according to the air of the indoor environment, and the step of filtering out the preset harmful gas may specifically include: determining the target speed of the fan according to the concentration; controlling the fan according to the target The speed of rotation is run to bring the air in the indoor environment to the filter device for filtration. Among them, the larger the speed of the fan, the greater the amount of air entering the filtering apparatus filtration. The larger the concentration of the harmful gas, the greater the speed of the corresponding fan. Specifically, the concentration of the harmful gas can be divided into several intervals, and different ranges correspond to different speeds. Determine the interval in which the current concentration is located, the rotational speed corresponding to the region is operated as the target speed of the fan. For example, the formaldehyde concentration can be grade three (such as mild, moderate, severe), mild, moderate, and severely corresponding to the formaldehyde concentration of 0.06 ~ 0.1 mg / m, respectively.30.1 ~ 0.15mg / m30.15mg / m3Above), when the current indoor formaldehyde concentration is 0.12 mg / m3It belongs to moderate pollution, adjust the air volume to the center - winding; when the current indoor formaldehyde concentration is 0.08mg / m3It belongs to mild pollution, adjust the air volume to the low wind helilele; when the current indoor formaldehyde concentration is 0.2mg / m3It belongs to severe pollution, adjust the air volume to the high windshift. Adapt to different concentrations of harmful gases, using different wind speed control fans to adjust the amount of air, so that the filtering device has a high energy efficiency ratio, and energy saving simultaneously ensures that the filtering effect satisfies user health needs.

[0075]An air purification method proposed in the embodiment of the present invention, the method acquires the concentration of the high-efficiency gas in the indoor environment, and acquires the first parameter value of the preset environment parameters that exhibits the removal rate of the harmful gas, when detrimental The gas concentration exceeds the preset threshold, indicating that the harmful gas needs to be filtered to ensure the health of the indoor user, and the deregulation of the preset harmful gas is greater than or equal to the preset value of the preset parameter range, if the first parameter value is in this condition In the range of preset parameters, it indicated that the removal rate of harmful gases in the current indoor environment is low, and therefore, in addition to controlling the air of the indoor environment to perform filtration operation, it is refined to remove the preset harmful gas, according to the first The parameter value and the preset parameter range control the environmental adjustment device to adjust the indoor environment to avoid the limit of filtering device filtering effect from the first parameter value from the preset parameter range, by adjusting the preset environment parameters to ensure that the filter device is filtered out of the harmful gas effect. Improve, thereby achieving rapid and effective filtering of harmful gases and improving indoor air purification efficiency.

[0076]Among them, in step S20 of the first embodiment, the step of controlling the indoor environment in accordance with the first parameter value and the preset parameter range, and the control filter is performed on the air of the indoor environment. Filter operations can be performed simultaneously to filter out the steps of the preset harmful gases can be executed simultaneously or step by step. Specifically, in one manner, in step S20, in accordance with the first parameter value and the preset parameter range, the environmental adjustment device regulates the indoor environment; controlling the air of the indoor environment to perform filtration operations to filter out The steps of preset harmful gases include:

[0077]In step S21, the environmental adjustment device adjusts the indoor environment according to the first parameter value and the preset parameter range;

[0078]In step S22, it is judged whether or not the current first parameter is located in the range of the preset parameter;

[0079]If the current first parameter value is located in the preset parameter range, step S23 is performed; if the current first parameter value is not located in the preset parameter range, then the step S21 is returned.

[0080]In step S23, the filter device controls the air of the indoor environment performs filtration operation to filter out the preset harmful gas;

[0081]In this manner, step S20 is implemented in accordance with step S21 to S22, ensuring that the filter device is filtered in the current environment, and the air of the indoor environment can be filtered, thereby ensuring that the filter device can be efficient after opening. Filter the harmful gases in the air and improve the energy efficiency ratio of the operation of the filter.

[0082]Further, in another aspect, the first parameter value and the preset parameter range are controlled according to the first parameter value and the preset parameter range, and the environmental adjustment device regulates the indoor environment; the filter device performs filtration operation on the air of the indoor environment, to filter out The step of preting the harmful gas includes controlling the environmental adjustment device to adjust the indoor environment according to the first parameter value and the preset parameter range; simultaneously controlling the air of the indoor environment to perform filtration operations to filter out the Harmful gases are preset. In this manner, the harmful gas is filtered out while the preset environment parameters in the indoor environment is adjusted, which is advantageous to purify the indoor air in time, and shorten the time of harmful gases to the safety concentration.

[0083]In other embodiments, step S23 can also be performed after step S21, and the preset time length can be determined according to the difference between the threshold value of the first parameter parameter interval, the larger the difference, the preset The greater the length, thereby ensuring that the filtering device performs the filtering effect of harmful gases during the filtration operation.

[0084]Further, based on the first embodiment, the second embodiment of the present application air purification method is proposed. In the second embodiment, referenceimage 3 Step S21 includes:

[0085]Step S211, determine the size relationship between the first parameter value and the preset parameter range, defined as the first large relationship;

[0086]The first larger relationship may specifically include the maximum threshold value greater than the preset parameter range, and the first parameter value is less than the minimum threshold value of the preset parameter range.

[0087]In step S212, the operating mode of the environmental adjustment device is acquired according to the first large number of relationships, the operating mode to change the first parameter value to a trend of the preset parameter range;

[0088]Different size relationships require environmental adjustment devices to use different operating modes to achieve environmental adjustment devices to adjust the indoor environment. Among them, under the same small relationship, different environmental adjustment devices can have different operating modes to suit the needs of current environmental adjustments. When the environmental adjustment device adjusts the indoor environment when the internal cycle is adjusted, the operating mode can be determined directly according to the first large relationship. Specifically, when the first large number of relationships are the first parameter value greater than the maximum threshold range of the preset parameter range, the mode to reduce the first parameter threshold is determined as the operating mode of the environmental adjustment device; when the first large relationship is the first When a parameter value is less than the maximum critical value of the preset parameter range, the mode to improve the first parameter threshold is determined as the operating mode of the environmental adjustment device. When the environmental adjustment device is adjusted to the indoor environment in an outdoor air, in addition to a single dependency, in order to ensure that the adjustment is more accurate and effective, according to the current situation of outdoor air (such as the current value of the above predetermined environment parameters described above). , The harmful gas content of the outdoor environment, etc.) determines the operating mode in conjunction with the first large relationship.

[0089]In step S213, controlling the environmental adjustment device runs in accordance with the operating mode.

[0090]In the present embodiment, the operating mode of the environmental adjustment device is determined based on the size relationship between the first parameter value and the preset parameter range, so that the environmental adjustment device is regulated in the indoor environment when running according to the determined operating mode. To enable the first parameter value in the indoor environment, it is increasingly close to the preset parameter range, and even falls into the preset parameter range, filtering the filtering device to provide a suitable indoor environment to improve the filtration effect of the filter device.

[0091]Specifically, in the second embodiment, the environmental adjustment device includes an internal cycle regulation device and / or a new fan. The inner circulating regulator is specifically to achieve a device that adjusts the indoor environment parameter, for example, a humidity adjustment function, an air conditioner having a humidity adjustment function, and a humidity adjustment function. The new wind device is specifically a device that is adjusted to the indoor environmental parameters via air exchange through indoors. Based on this, step S212 includes: obtaining the operating mode of the internal cycle regulator according to the first large relationship, and / or, the operating mode of the new wind device is acquired according to the first large relationship. As a second mode; wherein the first mode and the second mode are used to change the first parameter to a trend of approximately the preset parameter range;

[0092]When the environmental adjustment device includes only an internal cycle regulator, step S212 acquires the operating mode of the internal cycle regulation device according to the first large relationship, as the first mode; when the environmental adjustment device includes only a new wind device, step S212 In order to acquire the operating mode of the new fan according to the first large relationship, as a second mode; when the environmental adjustment device includes an internal cycle regulator and a new fan, step S212 is acquired according to the first large relationship. The operation mode of the circulating regulation device is actuated as the first mode, and the operating mode of the new fan is acquired according to the first large relationship.

[0093]Step S213 includes controlling the inner cycle regulator to operate in the first mode, and / or controlling the new wind device to operate in the second mode.

[0094]When the environmental adjustment device includes only an internal cycle regulator, step S213 is to control the inner cycle regulation device to operate in the first mode; when the environmental adjustment device includes only a new fan, step S213 is to control the new wind device. The second mode operation is operated; when the environmental adjustment device includes an internal cycle regulating device and a new fan, step S213 is to control the internal cycle regulator with the first mode, and control the new wind device to be the second Mode is running. Wherein, in step S213, the internal cycle regulator is operated at the first mode, and when the new wind device is controlled by the second mode, the internal cycle regulation device is controlled in the first mode. The step of running, and the step of controlling the new fan can be performed simultaneously, or step by step.

[0095]In the present embodiment, the corresponding device can be adjusted by adjusting the value of the preset environment parameters of the indoor environment, respectively, to ensure the effective regulation of the indoor environment, so that the indoor environment can be adjusted to the indoor environment. It is rapidly effective when performing harmful gas filtration, and the indoor air purification efficiency is improved.

[0096]The internal cycle regulation device has different adjustment effects on the indoor environment in its different operating modes. For example, when the humidity adjustment device is in a humidification mode, increasing the indoor environment humidity; when the humidity adjustment device is in the dehumidification mode, reduce the humidity of the indoor environment; in the summer airmaster is in a refrigeration mode or lower the indoor ambient temperature when the heating mode is closed in winter; The winter airmaster is in a heating mode or increasing the indoor ambient temperature when the cooling mode is closed in the summer. The corresponding operating mode is obtained according to the first larger relationship as the first mode. For example, when the first parameter value corresponding to the indoor environment is less than the minimum threshold range of the preset parameter range, the humidification mode is a first mode of the humidity adjustment device; when the indoor environment humidity corresponds to the first parameter range of the preset parameter When the maximum threshold, the dehumidification mode is used as the first mode of the humidity adjustment device; when the first parameter value corresponding to the indoor ambient temperature is less than the minimum threshold range of the preset parameter range, the compressor can be stopped when the air conditioner is operated. Run as the first mode of the air conditioner; when the first parameter value corresponding to the indoor ambient temperature is greater than the maximum threshold range of the preset parameter range, the air conditioner running frequency can increase the compressor running frequency as the first mode of the air conditioner, air conditioner. Air conditioning cooling can be run as the first mode of the air conditioner when turning off.

[0097]The new wind device has different adjustment effects on the indoor environment in its different operating modes, and the new wind device has different adjustment effects on the indoor environment when turning on or off. For example, the oxygen concentration of the indoor environment can be increased when turned on, and the indoor air is maintained in the indoor air when it is closed. In particular, there is a difference in indoor and outdoor environmental parameters for specific environmental parameters in indoor environments, and the indoor environment has different adjustments to the indoor environment. Based on this, the operating mode of the new wind device is acquired according to the first large relationship, as the step of the second mode, further includes: obtaining the second parameter value of the preset environment parameters in the outdoor environment; determined The second parameter value is defined as a second larger relationship; determines the first preset mode of the new wind device according to the second larger relationship, and according to the second size The relationship determines the second preset mode of the new fan; the first preset mode is used to increase the first parameter value, the second preset mode for minimizing the first parameter value. Among them, the second parameter value is a detection value corresponding to the preset environment parameters of the detection module of the outdoor environment. The second larger relationship includes a first parameter value greater than the second parameter value, the first parameter value is less than the second parameter value, and the first parameter value is equal to the second parameter value. When changing the preset environmental parameters in the room, the new wind device needs to be achieved by different second larger relationships. Therefore, it can be determined according to the second larger relationship to determine the first preset mode of the first parameter value, and, according to the second larger relationship, it is determined that the new fan currently reduces the first parameter value to reduce the first parameter value. mode.

[0098]Specific, environmental parameters are greater than the value of the outdoor environment. When the new wind device opens the value of environmental parameters in the indoor environment, the new wind device is closed to avoid environmental parameters in the indoor environment, and even reduce environmental parameters Numerical in the indoor environment. Therefore, when the second larger relationship is a second parameter value is greater than the first parameter value, the open state of the new fan is used as the first preset mode, and the closing state of the new wind device is used as the second preset mode. When the value of the environmental parameters is less than the value of the indoor environment, the new wind device opens the value of the environmental parameter in the indoor environment, and the new wind device is closed to prevent environmental parameters to continue to decrease, even elevated environmental parameters in the indoor environment. Numerical value. Therefore, when the second larger relationship is less than the first parameter value, the shutter state of the new wind device is used as the first preset mode as the second preset mode.

[0099]The step of acquiring the new wind device according to the first larger relationship, as the second mode, includes: when the first large relationship is the first parameter value less than the minimum critical range of the preset parameter range When the value is value, the first preset mode is obtained as the second mode to increase the first parameter value in the chamber, and the trend of the minimum threshold of the range of preset parameters. When the first large number of relationships are the first parameter value greater than the maximum threshold range of the preset parameter range, the second preset mode is acquired as the second mode to enable the first parameter value in the chamber. Reduce the trend of the maximum critical value of the preset parameter range.

[0100]For example, the overtest environment humidity is greater than the indoor environmental humidity, and the indoor environment humidity is less than the minimum threshold range of the preset parameter range, the new wind device can be opened with outdoor air to humidify the indoor environment to improve the harmful gas filtering effect; the outdoor environment is less than When the indoor environment is humidity, and the indoor environment is greater than the maximum critical value of the preset parameter range, the new wind device can be opened to dehumidify the indoor environment with outdoor air to improve the harmful gas filtering effect; the ocean environment is less than the humidity of the indoor environment, and indoors When the environment humidity is less than the smallest threshold of the preset parameter range or within the preset parameter range, the new wind device can be turned off to avoid the harmful gas filtering effect of outdoor air to deteriorate the indoor environment; the ocean environment is greater than the indoor environment humidity, and the indoor environment is greater than the indoor environment. The maximum critical value of the preset parameter range is within the preset parameter range, and the new wind device can be turned off to avoid the harmful gas filtering effect of outdoor air to deteriorate the indoor environment.

[0101]Through the above-described manner, the first parameter value corresponding to the preset environment parameters corresponding to the indoor environment can be achieved by the outdoor environment and the indoor environment, to improve the filtering effect of indoor air harmful gases; Avoid the negative effects of outdoor environment on the effect of harmful gases, avoiding the deviation of preset environmental parameters and preset parameter ranges to ensure filtering effect of indoor air harmful gases.

[0102]Further, based on the second embodiment, the third embodiment of the present application air purification method is proposed. In the third embodiment, referenceFigure 4When the environmental adjustment device includes the internal cycle regulating device and the new fan, the control said internal cycle regulator operates in the first mode, and controls the new wind device to be the second. Mode operations include:

[0103]Step S201: Control the inner cycle regulator is operated in the first mode;

[0104]Step S202 acquires the parameter variation rate of the first parameter value;

[0105]Specifically, the interval preset time has acquired the current first parameter of the preset environment parameters in the indoor environment. The parameter change rate is calculated based on the difference between the difference between the first parameter value of the success. For example, after controlling the inner cycle regulator, after the first mode is run, the current first parameter value M is obtained in the indoor environment.1After that, the preset time t will again acquire the current first parameter value M in the indoor environment.2Then the parameter change rate is (M2-M1) / t.

[0106]Step S203, when the parameter variation rate is less than the preset rate threshold, the step of controlling the new wind device in the second mode is performed.

[0107]The larger the parameter change rate, the stronger the internal cycle regulation device on the regulation of preset environment parameters, the value of the preset environment parameters in the indoor environment is about to change to the range of preset parameters; the smaller the variation rate of the parameter, indicates within The smaller the regulation of the preset environment parameters, and the value corresponding to the preset environment parameters in the indoor environment will approximate the range of preset parameters. Therefore, when the parameter variation rate is less than the preset rate threshold, the control new wind device operates in the second mode, combined with the adjustment of the indoor environment in the outdoor air.

[0108]In the present embodiment, when the indoor environment is also provided with an internal cycle regulation device and a new wind device, the indoor environment is regulated by the internal circulation regulator, ensuring the stability of the indoor environment, and the internal circulation regulatory device is not sufficient to achieve presets. When the environmental parameters are quickly adjusted, combined with outdoor air to regulate the indoor environment, improve the value of the preset environment parameters corresponding to the indoor environment approximately the rate of change of the preset parameter range to ensure the rapid and effective filtering of the indoor environment harmful gas.

[0109]The air purification system includes a filter device, an environmental adjustment device, and a control device in the above embodiment, and the control device is connected to the filter device, an environmental adjustment device, and the like, respectively, in accordance with the above-described air purification method, to achieve a chamber The environment is purified. Specifically, the air purification system can be specifically provided with an air conditioner having a filter device and a environmental adjustment device.

[0110]Further, the embodiment of the present invention further provides a readable storage medium that stores an air purifying procedure, the air purifier, implemented, is performed by the processor, as an embodiment of an air purification method, an embodiment of an embodiment. .

[0111]It should be noted that in this article, the terms "including", "include" or any other variable admissibility thereof is intended to cover non-exclusive containe, so that the process, method, article, or system including a series of elements, not only those elements, Also included in other elements that are not explicitly listed, or include elements inherent to such processes, methods, items, or systems. In the absence of more restrictions, the elements defined by the statement "include a ...", and there is no additional same elements in the process, method, article, or system including the element.

[0112]The above-described embodiments of the present invention described only for describing, and does not represent the advantages and disadvantages of the embodiment.

[0113]Through the description of the above embodiments, those skilled in the art will clearly understand that the above-described embodiment can be implemented by means of software plus necessary general hardware platforms. Of course, you can pass hardware, but in many cases, the former is better. Embodiment. Based on this understanding, the technical solution of the present invention essentially or contributes to the prior art can be embodied in the form of a software product, which is stored in a storage medium as described above (such as ROM / RAM). , A disk, an optical disk, including a number of instructions to enable a terminal device (can be a mobile phone, computer, server, air purifying system, or network device, etc.) to perform the various embodiments of the present invention.

[0114]The above is only the preferred embodiments of the present invention, and is not limited to the patent scope of the present invention, and an equivalent structure or equivalent process transform is used to use the specification of the present invention and the accompanying drawings, or use directly or indirectly in other related technical fields. The same is included within the patent protection range of the present invention.