CN110554608A

CN110554608A - Indoor equipment adjusting method, device and system and storage medium

Info

Publication number: CN110554608A
Application number: CN201810549813.4A
Authority: CN
Inventors: 逯金重; 赵畅; 张淼辉; 梁喜泰; 高敬; 王松松
Original assignee: Beijing Source Code Intelligent Technology Co Ltd
Current assignee: Beijing Source Code Intelligent Technology Co Ltd
Priority date: 2018-05-31
Filing date: 2018-05-31
Publication date: 2019-12-10

Abstract

the application relates to a method, a device, a system and a storage medium for adjusting indoor equipment. The method comprises the following steps: acquiring a first indoor environment parameter at the current moment and a first outdoor environment parameter at the current moment; determining a target control mode of the indoor equipment according to the first indoor environment parameter, the first outdoor environment parameter and a preset database; the database comprises different historical indoor environment parameters and corresponding relations between the different historical outdoor environment parameters and equipment control modes; the indoor apparatus includes: windows and other indoor air conditioning equipment; and controlling the working state of the indoor equipment according to the target control mode. By adopting the adjusting method of the indoor equipment, the adjusting efficiency of the indoor environment quality is improved; the power consumption required for adjusting the indoor environmental quality is reduced.

Description

Indoor equipment adjusting method, device and system and storage medium

Technical Field

The present application relates to the field of computer technologies, and in particular, to a method, an apparatus, a system, and a storage medium for adjusting an indoor device.

background

In recent years, environmental problems have been receiving much attention, and various environmental problems have frequently occurred. With the improvement of living standard, the requirement of people for indoor environment quality is gradually increased, so how to control indoor environment quality becomes a subject of intensive research by researchers at present.

in the conventional technology, the indoor environment quality is improved by installing a fresh air system and an air conditioner indoors, and the indoor environment quality is adjusted by manually controlling the devices by a user.

However, in the conventional technique, the adjustment efficiency of the indoor environment quality is not high, and the power consumption is large.

Disclosure of Invention

In view of the above, it is necessary to provide a method, an apparatus, a system and a storage medium for adjusting an indoor device, which can improve efficiency of adjusting indoor environment quality and reduce power consumption, in view of the above technical problems.

In a first aspect, an embodiment of the present invention provides a method for adjusting an indoor device, including:

acquiring a first indoor environment parameter at the current moment and a first outdoor environment parameter at the current moment;

determining a target control mode of the indoor equipment according to the first indoor environment parameter, the first outdoor environment parameter and a preset database; the database comprises different historical indoor environment parameters and corresponding relations between the different historical outdoor environment parameters and equipment control modes; the indoor apparatus includes: windows and other indoor air conditioning equipment;

And controlling the working state of the indoor equipment according to the target control mode.

In a second aspect, an embodiment of the present invention provides an adjusting apparatus for indoor equipment, including:

The acquisition module is used for acquiring a first indoor environment parameter at the current moment and a first outdoor environment parameter at the current moment;

The determining module is used for determining a target control mode of the indoor equipment according to the first indoor environment parameter, the first outdoor environment parameter and a preset database; the database comprises different historical indoor environment parameters and corresponding relations between the different historical outdoor environment parameters and equipment control modes; the indoor apparatus includes: windows and other indoor air conditioning equipment;

And the control module is used for controlling the working state of the indoor equipment according to the target control mode.

In a third aspect, an embodiment of the present invention provides an indoor device adjustment system, including: the window, cloud screen equipment arranged on the window, an air box, a switch module used for adjusting the opening and closing of the window and other indoor air conditioning equipment, wherein the air box comprises a plurality of environmental parameter sensors, the air box is respectively in communication connection with the cloud screen equipment and other indoor control and conditioning equipment, and the switch module is in communication connection with the cloud screen equipment;

The cloud screen device comprises a memory and a processor, wherein the memory stores a computer program, and the processor executes the computer program to realize the steps of the method in any one of the embodiments.

in a fourth aspect, an embodiment of the present invention provides a computer-readable storage medium, on which a computer program is stored, where the computer program, when executed by a processor, implements the steps of the method in any of the above embodiments.

according to the method, the device, the system and the storage medium for adjusting the indoor equipment, the cloud screen equipment determines a target control mode of the indoor equipment according to the acquired first indoor environment parameter at the current moment, the acquired first outdoor environment parameter at the current moment and the preset database, and controls the working state of the indoor equipment according to the target control mode. In the embodiment, the working state of indoor equipment including a window in a room is controlled through the cloud screen equipment, so that the indoor environment quality is adjusted, and compared with the prior art in which the working state of the indoor equipment including the window is adjusted through the cloud screen equipment, the indoor environment quality is provided by manually controlling a fresh air system and an air conditioner, on one hand, the adjusting method of the indoor equipment provided by the embodiment improves the adjusting efficiency of the indoor environment quality; on the other hand, the window adjustment is added in the method for adjusting the indoor equipment provided by the embodiment, instead of the intrusive adjustment of equipment with high power consumption, such as a fresh air system and an air conditioner, so that the power consumption required for adjusting the indoor environment quality is reduced.

Drawings

FIG. 1 is a schematic block diagram of an indoor unit conditioning system provided in one embodiment;

fig. 2 is an internal structural diagram of a cloud screen device provided in an embodiment;

Fig. 3 is a schematic flow chart of a method of adjusting an indoor unit provided in one embodiment;

Fig. 4 is a schematic flow chart of a method of adjusting an indoor unit provided in one embodiment;

Fig. 5 is a schematic flowchart illustrating a method for determining a target control mode of an indoor device according to another embodiment;

fig. 6 is a schematic flow chart of a method for adjusting an indoor unit provided in another embodiment;

Fig. 6a is a schematic flow chart illustrating a process for determining a target control manner for an indoor device according to an embodiment;

Fig. 7 is a schematic flow chart of a method for adjusting an indoor unit provided in still another embodiment;

Fig. 8 is a schematic flow chart of a method for adjusting an indoor unit provided in still another embodiment;

fig. 9 is a schematic flow chart of a method for adjusting an indoor unit provided in still another embodiment;

fig. 10 is a schematic structural view of an adjusting device of indoor equipment according to an embodiment;

Fig. 11 is a schematic structural view of an adjusting device of indoor equipment according to another embodiment;

Fig. 12 is a schematic structural view of a regulating device of indoor equipment according to still another embodiment;

Fig. 13 is a schematic structural diagram of an adjusting device of indoor equipment according to still another embodiment.

Detailed Description

The method for adjusting the indoor equipment provided by the embodiment of the invention can be applied to the indoor equipment adjusting system shown in fig. 1. The indoor equipment adjusting system includes a window 21, a cloud screen device 22 provided on the window, an air box 23, a switch module 24 for adjusting opening and closing of the window, and other indoor air-conditioning equipment 25. The air box 23 may include a plurality of environmental parameter sensors 231, such as a temperature and humidity sensor, a formaldehyde sensor, a PM2.5 sensor, a Total Volatile Organic Compound (TVOC) sensor, a CO sensor, and a CO sensor₂Sensors, smoke sensors, gas sensors, and other environmental parameter sensors. The indoor air conditioning equipment 25 may include an air conditioner, a fresh air system or a micro fresh air system, an electric heater, a humidifier, and other air conditioning equipment, and the indoor air conditioning equipment 25 is illustrated in fig. 1 by taking the air conditioner and the micro fresh air system as an example. When the indoor air conditioning device 25 includes an air conditioner, the air box 23 further includes an infrared control module 232 for controlling the air conditioner, and the infrared control module 232 may control the air conditioner to condition the indoor environment by transmitting an air conditioner infrared command. The air box 23 is in communication connection with the cloud screen device 22 and the other indoor air conditioning devices 25, and the switch module 24 is in communication connection with the cloud screen device 22.

The cloud screen device structure is shown in fig. 2, and the cloud screen device includes a processor and a memory connected by a system bus, where the memory stores a computer program, and the processor executes the computer program to perform the steps of the following method embodiments. Optionally, the cloud screen device may further include a network interface, a display screen, and an input device. Wherein the processor of the cloud screen device is used to provide computing and control capabilities. The memory of the cloud screen device includes a nonvolatile storage medium storing an operating system and a computer program, and an internal memory. The internal memory provides an environment for the operation of an operating system and computer programs in the non-volatile storage medium. The network interface of the cloud screen device is used for being connected and communicated with an external terminal through a network. Optionally, the cloud screen device may be an electronic device such as a mobile terminal and a portable device that has a data processing function and can interact with an external device or a user, and the specific form of the cloud screen device is not limited in the embodiment of the present invention. In addition, the cloud screen device can also acquire outdoor environment parameters, such as a weather forecast application program installed on the cloud screen device.

In the conventional technology, people improve the indoor environment quality by installing a fresh air system and an air conditioner indoors, and then adjust the indoor environment quality by manually adjusting the ventilation mode of the fresh air system and the working mode of the air conditioner. Therefore, the indoor environment quality is not adjusted efficiently, and the power consumption is large. The present application provides a method, an apparatus, a system and a storage medium for adjusting an indoor device, which are intended to solve the above technical problems of the conventional technology.

It should be noted that the execution subject of the following method embodiments may be an indoor equipment adjusting apparatus, which may be implemented by software, hardware, or a combination of software and hardware to become part or all of the indoor equipment adjusting system. The following method embodiments are described by taking the example where the execution subject is a cloud screen device.

in order to make the objects, technical solutions and advantages of the present application more apparent, the present application is described in further detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the present application and are not intended to limit the present application.

fig. 3 is a flowchart illustrating a method for adjusting an indoor device according to an embodiment. The embodiment relates to a specific process for determining a target control mode of indoor equipment according to a first indoor environment parameter at the current moment, a first outdoor environment parameter at the current moment and a preset database so as to control the working state of the indoor equipment. As shown in fig. 3, the method includes:

S101, obtaining a first indoor environment parameter at the current moment and a first outdoor environment parameter at the current moment.

Specifically, the first indoor environmental parameter may include indoor temperature, indoor humidity, indoor PM2.5, and indoor CO₂Indoor formaldehyde, indoor TVOC, indoor smog and indoor fuelGas, etc. The first indoor environmental parameters can be obtained by an environmental parameter sensor in the air box. The first outdoor environment parameter may include at least one of outdoor temperature, outdoor humidity, outdoor PM2.5, and the like, and the first outdoor environment parameter may also include weather, such as cloudy and sunny weather, rain and snow, and the like, and may also include a current outdoor wind blowing level. Optionally, the first outdoor environment parameter may be obtained through a connected network by a weather forecast application installed on the cloud screen device, and the first outdoor environment parameter may also be obtained through other external devices.

S102, determining a target control mode of the indoor equipment according to the first indoor environment parameter, the first outdoor environment parameter and a preset database; the database comprises different historical indoor environment parameters and corresponding relations between the different historical outdoor environment parameters and equipment control modes; the indoor apparatus includes: windows and other indoor air conditioning equipment.

Specifically, the above-mentioned indoor unit includes window and other indoor air conditioning equipment, and optionally, other indoor air conditioning equipment can include other air conditioning equipment such as air conditioner, new trend system or little new trend system, electric heater, humidifier, this embodiment and other indoor air conditioning equipment of following embodiment explain with including air conditioner and little new trend system as the example. Correspondingly, the control mode of the device may include: the opening and closing of the window, the internal circulation and the external circulation of the micro fresh air system, and the refrigeration, heating and dehumidification of the air conditioner, wherein the opening of the window further comprises the opening degree of the window, and the opening mode of the window comprises the opening in the window, the opening out of the window, the horizontal opening and the upward suspension of the window, the push-and-pull and the like.

Further, the database includes different historical indoor environment parameters and corresponding relationships between different historical outdoor environment parameters and control modes of the devices, where the corresponding relationships include a historical outdoor environment parameter corresponding to a certain historical indoor environment parameter and a control mode of each corresponding indoor air conditioning device. For example, a certain oneThe historical indoor environment parameters are respectively as follows: temperature of 23.8 deg.C, humidity of 29%, PM2.5 concentration of 26 microgram/cubic meter, and CO₂630ppm, 0.06 mg/cubic meter of formaldehyde, and the like, and the corresponding historical outdoor environmental parameters are respectively: the temperature is-6 ℃, the humidity is 25%, the PM2.5 concentration is 36, the sunny day, grade 3 wind and the like, and correspondingly, the window at the moment is a flat-open top-hung window 30%, the micro fresh air system is closed, and the air conditioner is closed. It should be noted that different indoor environment parameters and corresponding relations between different outdoor environment parameters and full arrangements of all the device control modes are preset in the initial database, a target control mode of the indoor device is determined through the first indoor environment parameter, the first outdoor environment parameter and the initial database, and the initial database is updated according to the determined control mode of the indoor device and the corresponding relations between the corresponding first indoor environment parameter and the corresponding first outdoor environment parameter, so that a more accurate database is obtained. The database used in this embodiment and the following embodiments is an updated database.

Optionally, the first indoor environment parameter at the current time and the first outdoor environment parameter at the current time acquired in S101 are compared with the historical indoor environment parameter and the historical outdoor environment parameter in the preset database, the historical indoor environment parameter and the historical outdoor environment parameter that are similar to the first indoor environment parameter and the first outdoor environment parameter at the current time (that is, the error is within the preset range) are searched in the database, and the device control mode corresponding to the searched similar historical indoor environment parameter and historical outdoor environment parameter can be used as the target control mode of the indoor device. Of course, the target control manner may also be determined in other manners according to the first indoor environment parameter, the first outdoor environment parameter and the preset database, for example, refer to the following method embodiments, which are not limited in this embodiment, as long as the target control manner is determined according to the first indoor environment parameter, the first outdoor environment parameter and the preset database.

S103, controlling the working state of the indoor equipment according to the target control mode.

Specifically, the operating state of each indoor unit is controlled according to the target control method of the indoor unit determined in S102. For example, the target control mode of the indoor device determined in S102 is that the window is hung upwards by 30%, the micro fresh air system is closed, and the air conditioner is closed, then the cloud screen device hangs the window upwards by 30% through the switch module, the micro fresh air system is closed by the cloud screen device, and the air conditioner is closed by the cloud screen device through the infrared module.

In the method for adjusting the indoor device, the cloud screen device determines a target control mode of the indoor device according to the acquired first indoor environment parameter at the current time, the acquired first outdoor environment parameter at the current time, and the preset database, and controls the working state of the indoor device according to the target control mode. In the embodiment, the working state of indoor equipment including a window in a room is controlled through the cloud screen equipment, so that the indoor environment quality is adjusted, and compared with the prior art in which the working state of the indoor equipment including the window is adjusted through the cloud screen equipment, the indoor environment quality is provided by manually controlling a fresh air system and an air conditioner, on one hand, the adjusting method of the indoor equipment provided by the embodiment improves the adjusting efficiency of the indoor environment quality; on the other hand, the window adjustment is added in the method for adjusting the indoor equipment provided by the embodiment, instead of the intrusive adjustment of equipment with high power consumption, such as a fresh air system and an air conditioner, so that the power consumption required for adjusting the indoor environment quality is reduced.

fig. 4 is a schematic flowchart of a method for adjusting an indoor device according to another embodiment. The present embodiment relates to a specific process for determining a target control manner of an indoor device according to the first indoor environment parameter, the first outdoor environment parameter, and a preset database. On the basis of the above embodiment, in this embodiment, the database specifically includes: at different times, corresponding relations between different historical indoor environment parameters and different historical outdoor environment parameters and equipment control modes; as shown in fig. 4, S102 may include:

s201, determining a candidate control mode set according to the first indoor environment parameter, the first outdoor environment parameter and the database, wherein the candidate control mode set comprises at least one candidate control mode.

In this embodiment, the database includes: at different times, the corresponding relations between different historical indoor environment parameters and different historical outdoor environment parameters and the control modes of the equipment correspond to the above embodiment, and the corresponding relations between different indoor environment parameters and different outdoor environment parameters at different times and the full arrangement of all the control modes of the equipment can be preset in the initial database. The correspondence relationship may specifically include: and at a certain historical moment, specific historical indoor environment parameters and specific historical outdoor environment parameters corresponding to the historical moment and a specific control mode of indoor equipment corresponding to the historical moment. For example: 13 hours, 15 minutes and 20 seconds in 1 month, 26 days and 13 days in 2018, and the corresponding historical indoor environment parameters are respectively as follows: temperature of 23.8 deg.C, humidity of 29%, PM2.5 concentration of 26 microgram/cubic meter, and CO₂630ppm, 0.06 mg/cubic meter of formaldehyde, and the like, and the corresponding historical outdoor environmental parameters are respectively: the temperature is-6 ℃, the humidity is 25%, the PM2.5 concentration is 36, the weather is fine, grade 3 wind and the like, and correspondingly, the window at the moment is a flat-open top-hung window of 30%, the micro fresh air system is closed, and the air conditioner is closed. Optionally, the corresponding relationship may exist in a form of a list, a form of a connection line, or a form of an index, and it should be noted that the storage form of the corresponding relationship is not limited in this embodiment. For example, the correspondence relationship can be seen in table 1:

TABLE 1

specifically, the cloud screen device may compare the acquired first indoor environment parameter and the acquired first outdoor environment parameter at the current time with the historical indoor environment parameter and the historical outdoor environment parameter in the database, search the historical indoor environment parameter and the historical outdoor environment parameter that are similar to the first indoor environment parameter and the first outdoor environment parameter at the current time (that is, the error is within a preset range) in the database, determine all the searched device control modes corresponding to the similar historical indoor environment parameter and historical outdoor environment parameter as an alternative control mode set, where the alternative control mode set may include at least one alternative control mode. Because the database comprises an initial database and an updated database, according to the corresponding relationship between the first indoor environment parameter and the first outdoor environment parameter at the current time and the database, the alternative control mode set corresponding to the first indoor environment parameter and the first outdoor environment parameter at the current time can be obtained, and the initial database is preset with different indoor environment parameters and the corresponding relationship between different outdoor environment parameters and the full arrangement of all the equipment control modes, the alternative control mode set can comprise the full arrangement of all the equipment control modes.

s202, determining a corresponding second indoor environment parameter after the indoor equipment continuously works for a preset time length from the current moment by adopting each alternative control mode from the database.

specifically, the second indoor environment parameter may include an indoor environment parameter obtained through prediction after the indoor device continuously operates for a preset time period in the alternative control mode.

The cloud screen device determines an alternative control mode set of the indoor device according to the step S201, and may determine a second indoor environment parameter corresponding to each alternative control mode in the alternative control mode set after the indoor device continuously operates for a preset time from the current time according to the historical indoor environment parameter and the historical outdoor environment parameter recorded in the database and the corresponding relation between the control modes of the indoor device.

optionally, the preset time period may be set according to a user requirement, for example, may be set to 10 minutes, 30 minutes, 2 hours, and the like. Generally, in order to improve the user experience, the preset time period is generally set to 30 minutes.

and S203, determining a target control mode of the indoor equipment according to the second indoor environment parameter corresponding to each alternative control mode.

Optionally, the cloud screen device may select a second indoor environment parameter that is most comfortable for the user from the second indoor environment parameters corresponding to each alternative control mode, and the control mode of the indoor device corresponding to the selected second indoor environment parameter that is most comfortable for the user is the target control mode of the indoor device. Optionally, the second indoor environment parameter most comfortable for the user may be selected empirically, or may be obtained by calculating a comfort score corresponding to the second indoor environment parameter, which is not limited in this embodiment, as long as the target control mode is determined according to the second indoor environment parameter.

As a possible implementation manner of S203, as shown in fig. 5, the determining a target control manner of the indoor device according to the second indoor environment parameter corresponding to each alternative control manner may specifically include the following steps:

S301, adopting a formula 1:calculating a comfort score S corresponding to each alternative control mode, wherein S_iA parameter comfort score, W, for each second indoor environmental parameter_iand the weight corresponding to each second indoor environment parameter is represented by i, which is the ith parameter in the second indoor environment parameters, and n is the number of parameters in the second indoor environment parameters.

specifically, the second indoor environmental parameter may include temperature, humidity, PM2.5, CO₂Formaldehyde, Total Volatile Organic Compounds (TVOC), smoke, and fuel gas. For human perception, each second indoor environment parameter has a corresponding comfort zone, tolerable zone and bad zone. For example, according to human perception, the temperature is in the comfortable region of 18127 ℃, the tolerable regions of 12118 ℃ and 27130 ℃, and the harsh regions of 12 ℃ or less and 30 ℃ or more; the comfort zone of humidity was 30150%, the tolerable zones were 50190% and 10130%, and the inclement zones were 901100% and 0110%; CO2₂Is CO₂the content was 3501800ppm, CO₂Has an affordable region of CO₂the content was 80012000ppm, CO₂In the severe region of CO₂The content is more than 2000ppm(ii) a The PM2.5 concentration of a comfortable area is 0115 micrograms/cubic meter for the PM2.5, the PM2.5 concentration of a bearable area is 151100 micrograms/cubic meter for the PM2.5, and the PM2.5 concentration of a severe area of the PM2.5 is more than 100 micrograms/cubic meter; the formaldehyde content of the comfortable area is 0127 mg/cubic meter, the formaldehyde content of the sustainable area is 271200 mg/cubic meter, and the formaldehyde content of the severe area is more than 200 mg/cubic meter; in addition, S_irespectively temperature, humidity, PM2.5, CO₂The comfortable value of the parameter corresponding to each second indoor environment parameter comfortable area is 85 minutes or more, the comfortable value of the parameter corresponding to each second indoor environment parameter bearable area is 60184 minutes, and the comfortable value of the parameter corresponding to each second indoor environment parameter severe area is less than 60 minutes. It should be noted that, the above-mentioned division of the comfort zone, the tolerable zone, and the bad zone for each second indoor environment parameter is only an example, and this embodiment does not limit this, and the division of the parameter scores of the comfort zone, the tolerable zone, and the bad zone is also an example, and this embodiment does not limit the division of the parameter scores of each zone. In addition, in this embodiment, the parameter comfort score corresponding to the second indoor environment parameter may be embodied not only in the form of a score, but also in the form of a "star", and may be embodied in other forms capable of expressing a rating interval.

specifically, the above-mentioned W_iFor the weight corresponding to each second indoor environment parameter, the weight corresponding to each second indoor environment parameter may be all set to 1, or may be set according to the perception importance degree of the human body to each second indoor environment parameter, for example, if the perception of the human body to the temperature is important, the weight corresponding to the temperature is set to 2, the content of formaldehyde and PM2.5 exceeding the standard may harm the health of the human body, and therefore, if the perception of the human body to the temperature is important, the weights corresponding to formaldehyde and PM2.5 are set to 2, respectively, and the human body to CO is set to 2₂Is not important, CO is set₂The corresponding weight is 1, and if the human body has weak perception of humidity, the weight corresponding to the humidity is set to be 0.5. It is noted that, the above pairsthe setting of the weight corresponding to each second indoor environment parameter is only an example, and this embodiment does not limit this.

it should be noted that the comfort score S corresponding to each of the above alternative control manners may be directly obtained throughCan also be obtained by comprisingAlternatively, the "other formula" here may be a correction or auxiliary formula for the comfort score S corresponding to each alternative control manner or may also be a correction or auxiliary formula for the comfort score S corresponding to each alternative control mannerDeformation of (2).

S302, determining a target control mode of the indoor equipment according to the comfort score corresponding to each alternative control mode.

Specifically, a comfort score corresponding to each alternative control mode is calculated according to formula 1 in S301, and a target control mode of the indoor device is determined. Optionally, the target control mode of the indoor device may be determined according to the alternative control mode corresponding to the highest comfort score, or the target control mode of the indoor device may be determined according to an alternative control mode including opening a window in the alternative control modes corresponding to the comfort scores ranked in the top, or the target control mode of the indoor device may be determined according to a control mode used by the user. The present embodiment does not limit the method used for determining the target control method of the indoor unit according to the alternative control method corresponding to which method is used.

In the method for adjusting the indoor device, the cloud screen device determines the set of alternative control modes according to the first indoor environment parameter, the second indoor environment parameter and the database, determines the corresponding second indoor environment parameter after the indoor device continuously operates for the preset time duration from the current moment by adopting each alternative control mode from the database, and determines the target control mode of the indoor device according to the second indoor environment parameter corresponding to each alternative control mode. According to the method for adjusting the indoor equipment, the cloud screen equipment predicts the corresponding second indoor environment parameter of each alternative control mode after continuously working for the preset time from the current moment through the historical data recorded in the database, so that the target control mode of the indoor equipment is determined, and the cloud screen equipment predicts the corresponding second indoor environment parameter of each alternative control mode after continuously working for the preset time from the current moment according to the historical data recorded in the database to determine the target control mode of the indoor equipment, so that the cloud screen equipment can control the indoor equipment including a window more accurately, and the adjustment efficiency of the indoor environment quality is improved; further, a target control mode of the indoor equipment is determined by calculating a comfort score corresponding to each alternative control mode based on formula 1, so that the cloud screen equipment can control the indoor equipment including windows more accurately, and the indoor environment quality adjustment efficiency is improved.

Fig. 6 is a schematic flowchart of a method for adjusting an indoor device according to another embodiment. The embodiment relates to an optional process for determining a target control mode of indoor equipment by cloud screen equipment according to a comfort score corresponding to each alternative control mode. On the basis of the above embodiment, as shown in fig. 6, the above S302 may include:

S401, determining the alternative control mode corresponding to the highest comfort score from all the alternative control modes.

Specifically, the highest comfort score is selected from the comfort scores corresponding to all the candidate control manners calculated in S301, and the candidate control manner corresponding to the highest comfort score is determined.

S402, determining the target control mode according to the alternative control mode corresponding to the highest comfort score.

This S402 can be implemented by several possible implementations:

a first possible implementation: the cloud screen device may directly determine the alternative control mode corresponding to the highest comfort score determined in S401 as the target control mode.

in the embodiment, the alternative control mode with the highest comfortable score is determined as the target control mode, and the alternative control mode corresponding to the highest comfortable score obtained through calculation is adopted to control the indoor equipment so as to adjust the indoor environment quality, which is the most suitable indoor environment quality for the human body obtained by the cloud screen equipment; and the alternative control mode corresponding to the highest comfort score obtained through calculation is directly determined as the target control mode, so that the cloud screen equipment can control the indoor equipment including the window very accurately, and the adjustment efficiency of the indoor environment quality is improved.

A second possible implementation: if the candidate control modes with the highest comfort scores are multiple, the cloud screen device may determine, as the target control mode, the candidate control mode corresponding to the highest comfort score closest to the current time among the multiple highest comfort scores.

Specifically, if there are a plurality of highest values among the comfort scores corresponding to all the candidate control methods calculated in S301, the candidate control method closest to the current time is selected from the candidate control methods corresponding to the plurality of highest comfort scores based on the correspondence between different times described in the database and the device control methods, and is determined as the target control method. For example, if the candidate control schemes whose calculated comfort score is the highest include 3, the times described in the database are 45 minutes 20 seconds at 13 days 3 and 15 months in 2018, 01 minutes 30 seconds at 14 days 20 and 9 months in 2017, 30 minutes 01 seconds at 17 days 40 and 4 months in 2017, and the current time is 20 minutes 10 seconds at 12 days 12 and 3 months and 20 days 12 in 2018, the candidate control scheme corresponding to 45 minutes 20 seconds at 13 days 13 months and 15 months in 2018 is determined as the target control scheme.

In the embodiment, the candidate control mode closest to the current moment among the candidate control modes with the highest comfort scores is determined as the target control mode, and the indoor environment parameter changes within a short time interval are relatively close in general, so that the candidate control mode closest to the current moment among the candidate control modes with the highest comfort scores is determined as the target control mode, the cloud screen device can control indoor devices including windows more accurately, and the indoor environment quality adjustment efficiency is improved.

A third possible implementation: referring to fig. 6a, this possible embodiment comprises the following steps:

s402 a: and calculating a comfort score corresponding to the initial control mode at the current moment by adopting a formula 1 and the first indoor environment parameter.

Specifically, the first indoor environment parameter may include indoor temperature, indoor humidity, indoor PM2.5, and indoor CO as described above₂at least one of indoor formaldehyde, indoor TVOC, indoor smoke, indoor gas, etc.

Wherein equation 1 is as described above:At this time, in equation 1, S_ia comfort score, W, of a parameter corresponding to the first indoor environmental parameter_iAnd the weight corresponding to the first indoor environment parameter is represented as i, which is the ith parameter in the first indoor environment parameter, and n is the number of parameters in the first indoor environment parameter. And substituting the first indoor environment parameter at the current moment into the formula 1 to calculate the comfort score corresponding to the initial control mode at the current moment.

s402 b: and determining the difference value between the comfort score corresponding to the initial control mode and the highest comfort score.

Specifically, the comfort score corresponding to the initial control method obtained in S402a is subtracted from the highest comfort score selected in S401 from the comfort scores corresponding to all the candidate control methods, or the highest comfort score selected in S401 from the comfort scores corresponding to all the candidate control methods is subtracted from the comfort score corresponding to the initial control method obtained in S402a, and the difference between the comfort score corresponding to the initial control method and the highest comfort score is determined.

S402 c: if the difference is smaller than or equal to a first preset threshold, determining that the target control mode is the initial control mode; and if the difference is larger than a first preset threshold value, determining that the target control mode is the alternative control mode corresponding to the highest comfort score.

Specifically, when the difference is smaller than or equal to the first preset threshold, the difference between the sense of the user on the first indoor environment parameter in the initial control mode at the current time and the sense of the user on the second indoor environment parameter after the predicted preset duration is not large, and the user basically does not feel change.

Optionally, the first preset threshold may be set according to an empirical value, or may be set according to the sensory degree of the indoor environment parameter by different users, which is not limited in this embodiment. For example, if the comfort score corresponding to the initial control mode is 85, the highest comfort score is 87, and the first preset threshold is 5, and the difference between the comfort score corresponding to the initial control mode and the highest comfort score is smaller than the first preset threshold, the current control mode for the indoor device is not changed, that is, the initial control mode is maintained.

In addition, when the difference is greater than the first preset threshold, the user can feel obvious changes in the sense of the first indoor environment parameter by the user in the initial control mode at the current time and the sense of the second indoor environment parameter by the user after the predicted preset duration, and therefore the alternative control mode corresponding to the highest comfort score selected in S401 is determined as the target control mode. For example, if the comfort score corresponding to the initial control mode is 85, the highest comfort score is 91, and the first preset threshold is 5, and the difference between the comfort score corresponding to the initial control mode and the highest comfort score is greater than the first preset threshold, the current control mode for the indoor device is changed, that is, the current initial control mode is changed into the alternative control mode corresponding to the highest comfort score.

In this embodiment, formula 1 and the first indoor environment parameter are used to calculate a comfort score corresponding to an initial control mode at the current time, and according to a difference between the comfort score corresponding to the initial control mode and a highest comfort score and a first preset threshold, it is determined whether the initial control mode or an alternative control mode corresponding to the highest comfort score is determined as a target control mode. According to the method for adjusting the indoor equipment, when the difference value between the comfort score corresponding to the alternative control mode and the highest comfort score corresponding to the initial control mode is within the first preset threshold range, the initial control mode at the current moment can be maintained, and frequent jitter caused by adjustment of the control mode of the indoor equipment is avoided.

fig. 7 is a flowchart illustrating a method for adjusting an indoor device according to yet another embodiment. The embodiment relates to another optional process for determining a target control mode of indoor equipment by the cloud screen equipment according to a comfort score corresponding to each alternative control mode. On the basis of the above embodiment, as shown in fig. 7, the above S302 may include:

S501: and sequencing the comfort scores corresponding to all the alternative control modes from high to low to obtain a comfort score queue.

specifically, all the comfort scores calculated in the above step S301 are sorted from high to low to obtain a comfort score queue. For example, if all the comfort scores calculated by the above 301 include 75, 89, 77, 91, 95, and 62, the obtained comfort score queues are 95, 91, 89, 77, 75, and 62, and this example is only an example, and all the comfort scores calculated by the above S301 may be more than the above 6 or less than the above 6, and may be obtained from the correspondence relationship between the history data information described in each database and the indoor device control method.

S502: and acquiring the first M comfortable scores in the comfortable score queue, and determining a control mode comprising opening a window from alternative control modes corresponding to the first M comfortable scores.

Specifically, the cloud screen device selects the first M comfort scores from the comfort score queue obtained in S501, and selects a control mode including opening a window from the alternative control modes corresponding to the first M comfort scores. Optionally, the first M comfort scores may be set empirically or may be set according to a user's request. Continuing with the above example, for example, if the first 3 comfort scores, i.e. 95, 91 and 89, are selected from the comfort score queue obtained in S601, it is determined that the candidate control manners corresponding to the comfort scores of 95, 91 and 89 respectively include the control manner for opening the window, and it is not necessary to consider the candidate control manners corresponding to the comfort scores of 77, 75 and 62 respectively.

s503: and determining a target control mode of the indoor equipment according to the control mode including opening the window.

Optionally, the number of the candidate control manners corresponding to the first M comfort scores obtained in S502 may include a plurality of control manners for opening a window, or one control manner.

when the control mode including the open window is only one, the control mode including the open window is determined as a target control mode of the indoor device. Continuing with the above example, for example, when only the candidate control manner corresponding to the comfort score of 89 includes an open window, the candidate control manner corresponding to the comfort score of 89 is determined as the target control manner of the indoor device.

In S503, optionally, if there are a plurality of control manners including opening a window, the control manner with the highest comfort score corresponding to the plurality of control manners including opening a window may be determined as the target control manner.

Specifically, the control manner including the open window may be selected from the candidate control manners corresponding to the first M comfort scores obtained in S502, and when there are a plurality of selected control manners including the open window, the control manner with the highest comfort score corresponding to the plurality of control manners including the open window may be determined as the target control manner. Continuing with the above example, for example, if the open window is included in the candidate control manners corresponding to the comfort scores of 89 and 95, and if the open window is not included in the candidate control manners corresponding to the comfort score of 91, the candidate control manner corresponding to the comfort score of 95 is determined as the target control manner of the indoor device.

In the method for adjusting indoor equipment provided in this embodiment, comfort scores corresponding to all candidate control manners are sorted from high to low to obtain a comfort score queue, and a control manner for opening a window is included in the candidate control manners corresponding to the first M comfort scores, and is determined as a target control manner for the indoor equipment. According to the method for adjusting the indoor equipment, the alternative control modes corresponding to the first M comfortable scores in the comfortable score queue are preferentially selected to comprise the window opening control mode, so that the adjustment is performed in the mode of opening the window when the indoor environment quality is adjusted as far as possible, namely, the indoor environment quality is adjusted in the mode of selecting indoor and outdoor convection as far as possible, the situation that a user is in the environment where other indoor equipment such as an air conditioner or a micro fresh air system is opened for a long time is avoided, and in addition, the power consumption required for adjusting the indoor environment quality is reduced.

fig. 8 is a flowchart illustrating a method for adjusting an indoor device according to yet another embodiment. The embodiment relates to another optional process for determining a target control mode of indoor equipment by the cloud screen equipment according to a comfort score corresponding to each alternative control mode. On the basis of the above embodiment, as shown in fig. 8, the above S302 may include:

S601: and acquiring the matching degree between each alternative control mode and a preset user habit control mode, and determining the alternative control mode with the matching degree larger than a second preset threshold value as the matching control mode.

Specifically, the preset user habits include that some users are used to adjust the indoor environment parameters by opening or closing the window, some users are used to adjust the indoor environment parameters by adjusting other indoor devices such as a micro fresh air system or an air conditioner, and the requirements of the users on the opening degree of the window and the opening mode of the window or the working parameter values of other indoor devices such as the micro fresh air system and the air conditioner are different.

Specifically, the cloud screen device calculates the matching degree between each alternative control mode and a preset user habit control mode respectively, and determines the alternative control mode with the matching degree larger than a second preset threshold value in all the matching degrees as the matching control mode. Optionally, the second preset threshold may be preset.

S602: and determining the matching control mode corresponding to the highest comfortable value in the comfortable values corresponding to all the matching control modes as the target control mode.

Specifically, one or more matching control methods may be used in S701. And when the obtained matching control mode is one, determining the matching mode as the target control mode. And when the matching control modes are multiple, selecting the highest comfortable score from the comfortable scores corresponding to all the matching control modes, and determining the matching control mode corresponding to the highest comfortable score as the target control mode. For example, if the comfort scores corresponding to the matching control schemes obtained in S701 are 77, 85, and 92, respectively, the matching control scheme corresponding to the comfort score of 92 is determined as the target control scheme.

According to the method for adjusting the indoor equipment, the matching control modes are determined according to the matching degree between each alternative control mode and the preset user habit control mode, and the matching control mode corresponding to the highest comfort score in the comfort scores corresponding to all the matching control modes is determined as the target control mode. In the method for adjusting the indoor device provided in this embodiment, the matching control manner corresponding to the highest comfort score in the comfort scores corresponding to the matching control manner matched with the control manner used by the user is determined as the target control manner to control the indoor device, so that the method for adjusting the indoor device provided in this embodiment can control the indoor device in accordance with the user's habit, that is, the control manner of the indoor device is adjusted to the state most suitable for the user.

Based on any one of the above embodiments, optionally, the method further includes:

and if the first indoor environment parameter is greater than the safety parameter threshold value, outputting alarm information.

Optionally, when the cloud screen device detects that the first indoor environment parameter is greater than the security parameter threshold, it is determined that the life of a person may be endangered at this time, and then alarm information needs to be output. Optionally, the alarm information may be output in a sound manner, may also be output in an alarm lamp manner, may also be output in a manner of making a call to a mobile phone number set in the cloud screen device or sending a short message, and may also be output in a manner of directly making a call to a fire department or the like, which needs to be explained. Generally, the first indoor environmental parameter which is larger than the safety parameter threshold value and endangers the life of people is gas and smoke.

In addition, when the cloud screen device detects that rain or wind exists in the first outdoor environment parameter, the cloud screen device controls the switch module to close the window.

According to the adjusting method of the indoor equipment provided by the embodiment, when the first indoor environment parameter is judged to be larger than the safety parameter threshold value, alarm information is output. The adjusting method of the indoor equipment provided by the embodiment can ensure the safety of lives and properties of people.

The following describes the procedure of the method for adjusting the indoor unit according to the embodiment of the present invention by a simple example. Specifically, see fig. 9 for a description:

s701, the cloud screen device obtains a first indoor environment parameter at the current moment and a first outdoor environment parameter at the current moment.

S702, determining a candidate control mode set according to a first indoor environment parameter, a first outdoor environment parameter and a database, wherein the candidate control mode set comprises at least one candidate control mode.

And S703, determining a corresponding second indoor environment parameter after the indoor equipment continuously works for a preset time from the current moment by adopting each alternative control mode from the database.

S704, adopting a formula 1:And calculating the comfort score corresponding to each alternative control mode. After that, S705 or S706 is executed.

S705, determining an alternative control mode corresponding to the highest comfort score from all alternative control modes, and determining the alternative control mode with the highest comfort score as the target control mode; or, the initial control mode is maintained unchanged; or, determining the candidate control mode closest to the current time among the plurality of candidate control modes with the highest comfort score as the target control mode.

S706, selecting M alternative control modes corresponding to the comfortable scores with higher comfortable scores, wherein the alternative control modes comprise a window opening control mode; or selecting the matching control mode corresponding to the highest comfort score in the alternative control modes with higher matching degree with the user habit control mode.

It should be understood that although the various steps in the flow charts of fig. 3-9 are shown in order as indicated by the arrows, the steps are not necessarily performed in order as indicated by the arrows. The steps are not performed in the exact order shown and described, and may be performed in other orders, unless explicitly stated otherwise. Moreover, at least some of the steps in fig. 3-9 may include multiple sub-steps or multiple stages that are not necessarily performed at the same time, but may be performed at different times, and the order of performance of the sub-steps or stages is not necessarily sequential, but may be performed in turn or alternating with other steps or at least some of the sub-steps or stages of other steps.

In one embodiment, as shown in fig. 10, there is provided an adjusting apparatus of an indoor unit, including: an obtaining module 11, a determining module 12 and a control module 13, wherein:

the obtaining module 11 is configured to obtain a first indoor environment parameter at a current time and a first outdoor environment parameter at the current time.

The determining module 12 is configured to determine a target control mode of the indoor device according to the first indoor environment parameter, the first outdoor environment parameter, and a preset database; the database comprises different historical indoor environment parameters and corresponding relations between the different historical outdoor environment parameters and equipment control modes; the indoor apparatus includes: windows and other indoor air conditioning equipment.

and the control module 13 is configured to control the working state of the indoor equipment according to the target control mode.

The adjusting apparatus of the indoor device provided in this embodiment may implement the embodiments of the method, and the implementation principle and the technical effect are similar, which are not described herein again.

In one embodiment, the database specifically includes: at different times, corresponding relations between different historical indoor environment parameters and different historical outdoor environment parameters and equipment control modes; on the basis of the embodiment shown in fig. 10, as shown in fig. 11, the determining module 12 includes: a first determination submodule 121, a second determination submodule 122, and a third determination submodule 123.

a first determining submodule 121, configured to determine a candidate control manner set according to the first indoor environment parameter, the first outdoor environment parameter, and the database, where the candidate control manner set includes at least one candidate control manner.

And a second determining submodule 122, configured to determine, from the database, a corresponding second indoor environment parameter after the indoor device continuously operates for a preset time duration from the current time in each alternative control manner.

and a third determining submodule 123, configured to determine a target control manner of the indoor device according to the second indoor environment parameter corresponding to each alternative control manner.

in one embodiment, the first indoor environmental parameter and the second indoor environmental parameter each comprise at least one of temperature, humidity, PM2.5, CO2, formaldehyde, total volatile organic compounds TVOC, smoke, fuel gas; on the basis of the embodiment shown in fig. 11, as shown in fig. 12, the third determination submodule 123 includes: a processing unit 1231, a determination unit 1232.

a processing unit 1231 configured to employ equation 1:calculating the comfort score corresponding to each alternative control mode, wherein S_iCorresponding for each second indoor environmental parametercomfort score of parameter, W_iand the weight corresponding to each second indoor environment parameter is represented by i, which is the ith parameter in the second indoor environment parameters, and n is the number of parameters in the second indoor environment parameters.

a determining unit 1232, configured to determine a target control manner of the indoor device according to the comfort score corresponding to each alternative control manner.

In an embodiment, the determining unit 1232 is specifically configured to: and determining the alternative control mode corresponding to the highest comfort score from all the alternative control modes, and determining the target control mode according to the alternative control mode corresponding to the highest comfort score.

In an embodiment, the determining unit 1232 is specifically configured to: and determining the alternative control mode with the highest comfort score as the target control mode.

In an embodiment, the determining unit 1232 is specifically configured to: calculating a comfort score corresponding to an initial control mode at the current moment by adopting a formula 1 and the first indoor environment parameter; determining a difference value between the comfort score corresponding to the initial control mode and the highest comfort score; if the difference is smaller than or equal to a first preset threshold, determining that the target control mode is the initial control mode; and if the difference is larger than a first preset threshold value, determining that the target control mode is the alternative control mode corresponding to the highest comfort score.

In an embodiment, if there are a plurality of candidate control manners with the highest comfort score, the determining unit 1232 is specifically configured to: and determining the candidate control mode which is the closest to the current moment among the plurality of candidate control modes with the highest comfort score as the target control mode.

In an embodiment, the determining unit 1232 is specifically configured to: sequencing the comfort values corresponding to all the alternative control modes from high to low to obtain a comfort value queue; obtaining the first M comfortable scores in the comfortable score queue, and determining a control mode including opening a window from alternative control modes corresponding to the first M comfortable scores; and determining a target control mode of the indoor equipment according to the control mode including opening the window.

In an embodiment, if there are a plurality of control manners for opening the window, the determining unit 1232 is specifically configured to: and determining the control mode with the highest comfortable score corresponding to the control modes including the window opening as the target control mode.

in an embodiment, the determining unit 1232 is specifically configured to: acquiring the matching degree between each alternative control mode and a preset user habit control mode, and determining the alternative control mode with the matching degree larger than a second preset threshold value as a matching control mode; and determining the matching control mode corresponding to the highest comfortable value in the comfortable values corresponding to all the matching control modes as the target control mode.

In an embodiment, on the basis of the embodiment shown in fig. 10, as shown in fig. 13, the apparatus further includes: and an output module 14.

and the output module 14 is configured to output alarm information when the first indoor environment parameter is greater than a safety parameter threshold.

For the specific definition of the adjusting device of the indoor device, reference may be made to the above definition of the adjusting method of the indoor device, which is not described herein again. The modules in the regulating device of the indoor equipment can be wholly or partially realized by software, hardware and a combination thereof. The modules can be embedded in a hardware form or independent from a processor in the computer device, and can also be stored in a memory in the computer device in a software form, so that the processor can call and execute operations corresponding to the modules.

The present application further provides a schematic structural diagram of an indoor device adjustment system according to the embodiment shown in fig. 1, including: the window, set up cloud screen equipment, air box, be used for adjusting the switch module and other indoor air conditioning equipment of window switch on the window, the air box includes a plurality of environmental parameter sensors, and other air conditioning equipment such as air conditioner, new trend system or little new trend system, electric heater, humidifier can be included to indoor air conditioning equipment, show for example with little new trend system and air conditioner in figure 1. When the indoor air conditioning equipment comprises the air conditioner, the air box further comprises an infrared control module for controlling the air conditioner, and the infrared control module can control the air conditioner to adjust the indoor environment by transmitting an air conditioner infrared command. The air box is respectively in communication connection with the cloud screen equipment and other indoor control and regulation equipment, and the switch module is in communication connection with the cloud screen equipment.

In one embodiment, as shown in fig. 2, the cloud screen device includes a processor and a memory connected by a system bus, where the memory stores a computer program, and the processor executes the computer program to perform the steps of the following method embodiments. Optionally, the cloud screen device may further include a network interface, a display screen, and an input device. Wherein the processor of the cloud screen device is used to provide computing and control capabilities. The memory of the cloud screen device includes a nonvolatile storage medium storing an operating system and a computer program, and an internal memory. The internal memory provides an environment for the operation of an operating system and computer programs in the non-volatile storage medium. The network interface of the cloud screen device is used for being connected and communicated with an external terminal through a network. Optionally, the cloud screen device may be an electronic device such as a mobile terminal and a portable device that has a data processing function and can interact with an external device or a user, and the specific form of the cloud screen device is not limited in the embodiment of the present invention.

Those skilled in the art will appreciate that the structure shown in fig. 2 is only a block diagram of a part of the structure related to the present application, and does not constitute a limitation to the cloud screen device to which the present application is applied, and a specific cloud screen device may include more or less components than those shown in the figure, or combine some components, or have a different arrangement of components.

In one embodiment, a cloud screen device is provided, which includes a memory and a processor, wherein the memory stores a computer program, and the processor realizes the following steps when executing the computer program:

in one embodiment, a computer-readable storage medium is provided, having a computer program stored thereon, which when executed by a processor, performs the steps of:

It will be understood by those skilled in the art that all or part of the processes of the methods of the embodiments described above can be implemented by hardware instructions of a computer program, which can be stored in a non-volatile computer-readable storage medium, and when executed, can include the processes of the embodiments of the methods described above. Any reference to memory, storage, database, or other medium used in the embodiments provided herein may include non-volatile and/or volatile memory, among others. Non-volatile memory can include read-only memory (ROM), Programmable ROM (PROM), Electrically Programmable ROM (EPROM), Electrically Erasable Programmable ROM (EEPROM), or flash memory. Volatile memory can include Random Access Memory (RAM) or external cache memory. By way of illustration and not limitation, RAM is available in a variety of forms such as Static RAM (SRAM), Dynamic RAM (DRAM), Synchronous DRAM (SDRAM), Double Data Rate SDRAM (DDRSDRAM), Enhanced SDRAM (ESDRAM), Synchronous Link DRAM (SLDRAM), Rambus Direct RAM (RDRAM), direct bus dynamic RAM (DRDRAM), and memory bus dynamic RAM (RDRAM).

the technical features of the above embodiments can be arbitrarily combined, and for the sake of brevity, all possible combinations of the technical features in the above embodiments are not described, but should be considered as the scope of the present specification as long as there is no contradiction between the combinations of the technical features.

The above-mentioned embodiments only express several embodiments of the present application, and the description thereof is more specific and detailed, but not construed as limiting the scope of the invention. It should be noted that, for a person skilled in the art, several variations and modifications can be made without departing from the concept of the present application, which falls within the scope of protection of the present application. Therefore, the protection scope of the present patent shall be subject to the appended claims.

Claims

1. A method of conditioning indoor equipment, the method comprising:

2. The method according to claim 1, wherein the database comprises in particular: at different times, corresponding relations between different historical indoor environment parameters and different historical outdoor environment parameters and equipment control modes; the determining a target control mode of the indoor device according to the first indoor environment parameter, the first outdoor environment parameter and a preset database includes:

Determining an alternative control mode set according to the first indoor environment parameter, the first outdoor environment parameter and the database, wherein the alternative control mode set comprises at least one alternative control mode;

Determining a corresponding second indoor environment parameter after the indoor equipment continuously works for a preset time length from the current moment by adopting each alternative control mode from the database;

And determining a target control mode of the indoor equipment according to the second indoor environment parameter corresponding to each alternative control mode.

3. The method of claim 2, wherein the first indoor environmental parameter and the second indoor environmental parameter each comprise temperature, humidity, PM2.5, CO₂The method comprises the following steps of determining a target control mode of indoor equipment according to a second indoor environment parameter corresponding to each alternative control mode, wherein the target control mode comprises at least one of formaldehyde, Total Volatile Organic Compounds (TVOC), smoke and fuel gas:

using equation 1:Calculating the comfort score corresponding to each alternative control mode, wherein S_iA parameter comfort score, W, for each second indoor environmental parameter_ithe weight corresponding to each second indoor environment parameter is set, i is the ith parameter in the second indoor environment parameters, and n is the number of the parameters in the second indoor environment parameters;

and determining a target control mode of the indoor equipment according to the comfort value corresponding to each alternative control mode.

4. the method according to claim 3, wherein determining the target control mode of the indoor device according to the comfort score corresponding to each alternative control mode comprises:

determining an alternative control mode corresponding to the highest comfort score from all alternative control modes;

And determining the target control mode according to the alternative control mode corresponding to the highest comfort score.

5. The method according to claim 4, wherein the determining the target control mode according to the alternative control mode with the highest comfort score comprises:

And determining the alternative control mode with the highest comfort score as the target control mode.

6. The method according to claim 4, wherein the determining the target control mode according to the alternative control mode with the highest comfort score comprises:

Calculating a comfort score corresponding to an initial control mode at the current moment by adopting a formula 1 and the first indoor environment parameter;

Determining a difference value between the comfort score corresponding to the initial control mode and the highest comfort score;

If the difference is smaller than or equal to a first preset threshold, determining that the target control mode is the initial control mode;

And if the difference is larger than a first preset threshold value, determining that the target control mode is the alternative control mode corresponding to the highest comfort score.

7. the method according to claim 4, wherein if there are a plurality of candidate control manners with the highest comfort score, the determining the target control manner according to the candidate control manner with the highest comfort score comprises:

And determining the candidate control mode which is the closest to the current moment among the plurality of candidate control modes with the highest comfort score as the target control mode.

8. The method according to claim 3, wherein determining the target control mode of the indoor device according to the comfort score corresponding to each alternative control mode comprises:

sequencing the comfort values corresponding to all the alternative control modes from high to low to obtain a comfort value queue;

Obtaining the first M comfortable scores in the comfortable score queue, and determining a control mode including opening a window from alternative control modes corresponding to the first M comfortable scores;

And determining a target control mode of the indoor equipment according to the control mode including opening the window.

9. the method according to claim 8, wherein if there are a plurality of control modes including an open window, the determining a target control mode of the indoor device according to the control modes including the open window comprises:

And determining the control mode with the highest comfortable score corresponding to the control modes including the window opening as the target control mode.

10. The method according to claim 3, wherein determining the target control mode of the indoor device according to the comfort score corresponding to each alternative control mode comprises:

Acquiring the matching degree between each alternative control mode and a preset user habit control mode, and determining the alternative control mode with the matching degree larger than a second preset threshold value as a matching control mode;

And determining the matching control mode corresponding to the highest comfortable value in the comfortable values corresponding to all the matching control modes as the target control mode.

11. The method according to any one of claims 1-10, further comprising:

And if the first indoor environmental parameter is greater than the safety parameter threshold value, outputting alarm information.

12. An adjustment device for indoor equipment, characterized in that the device comprises:

13. An indoor device adjustment system, comprising: the air box comprises a plurality of environmental parameter sensors, and is respectively in communication connection with the cloud screen equipment and the other indoor control and regulation equipment, and the switch module is in communication connection with the cloud screen equipment;

The cloud screen device comprises a memory and a processor, the memory storing a computer program, wherein the processor implements the steps of the method according to any one of claims 1 to 11 when executing the computer program.

14. A computer-readable storage medium, on which a computer program is stored, which, when being executed by a processor, carries out the steps of the method of any one of claims 1 to 11.