CN117232085B

CN117232085B - Method and system for adjusting environment control parameters

Info

Publication number: CN117232085B
Application number: CN202311515687.8A
Authority: CN
Inventors: 刘加永; 洪辉; 吴薇
Original assignee: Zhongkesailing Zhongshan Technology Co ltd
Current assignee: Zhongkesailing Zhongshan Technology Co ltd
Priority date: 2023-11-15
Filing date: 2023-11-15
Publication date: 2024-02-13
Anticipated expiration: 2043-11-15
Also published as: CN117232085A

Abstract

The invention discloses a method and a system for adjusting environmental control parameters, and belongs to the technical field of air conditioning. The method of the invention comprises the following steps: determining an initial set value and an initial adjustment threshold value of each environmental control parameter of the target place based on the current time parameter and the configuration file; determining a dynamic adjustment threshold value of each environmental parameter of the target place according to the threshold value adjustment coefficient and the initial adjustment threshold value; determining a target set value of the target place according to the current internal environment parameter, the current external environment parameter and the initial set value of the target place; and adjusting each environmental control parameter based on the parameter adjustment step value, the initial setting value and the target setting value. According to the invention, the current environmental parameters can be adaptively adjusted according to the environmental parameters, so that the artificial operation is eliminated.

Description

Method and system for adjusting environment control parameters

Technical Field

The present invention relates to the field of air conditioning technology, and more particularly, to a method and system for adjusting environmental control parameters.

Background

Most of the air conditioners used in the common rooms at present need to be controlled manually, and the air conditioners need to be regulated and controlled continuously to obtain a relatively comfortable environment.

Disclosure of Invention

In view of the above problems, the present invention proposes a method for adjusting environmental control parameters, comprising:

acquiring a configuration file of environment control parameters associated with a target place, and determining an initial set value and an initial adjustment threshold value of each environment control parameter of the target place based on the current time parameter and the configuration file;

acquiring environment interval parameters and user customization parameters associated with a target place, determining a threshold adjustment coefficient based on the environment interval parameters, the user customization parameters and an initial adjustment threshold, and determining a dynamic adjustment threshold of each environment parameter of the target place according to the threshold adjustment coefficient and the initial adjustment threshold;

acquiring a current internal environment parameter and a current external environment parameter of a target place, and determining a target setting value of the target place according to the current internal environment parameter, the current external environment parameter and the initial setting value of the target place; and

setting a parameter adjustment stepping value of each environment control parameter based on a dynamic adjustment threshold value, an initial setting value and a target setting value of a target place, and adjusting each environment control parameter based on the parameter adjustment stepping value, the initial setting value and the target setting value;

Wherein the current internal environmental parameters of the target site include: a current internal temperature and a current internal humidity;

the current external environment parameters of the target place comprise: a current external temperature and a current external humidity;

wherein determining the target setting value of the target place according to the current internal environment parameter, the current external environment parameter and the initial setting value of the target place comprises:

determining a current internal temperature and a current internal humidity in current internal environment parameters of the target site;

determining a current external temperature and a current external humidity in current external environment parameters of the target site;

determining an absolute value of a first difference between the current external temperature and the current internal temperature as a temperature adjustment value, and determining an absolute value of a second difference between the current external humidity and the current internal humidity as a humidity adjustment value,

acquiring a temperature initial set value and a humidity initial set value in the initial set values, determining a temperature target set value based on the temperature initial set value and the temperature adjustment value, and determining a humidity target set value based on the humidity initial set value and the humidity adjustment value;

and forming the target set value of the target place by the temperature target set value and the humidity target set value.

Alternatively, the target sites are sites with indoor independent spaces, sites with indoor closed spaces and sites with indoor semi-closed spaces.

Optionally, the environmental control parameters include: temperature control parameters and humidity control parameters.

Optionally, the configuration file includes a plurality of configuration items, each configuration item including: date, initial setting value, and initial adjustment threshold.

Optionally, before obtaining the configuration file of the environmental control parameter associated with the target location, the method further includes:

acquiring historical operating data of air conditioning equipment for adjusting environmental control parameters associated with a target location and historical environmental data of the target location;

according to the historical environment data, determining the value range of external environment parameters of each natural day where the target field is located, wherein the external environment parameters comprise: the value range of the external temperature value and the external humidity value is the interval formed by the maximum value and the minimum value of the external environment parameters in the same natural day;

determining an initial set value of each environmental control parameter in each natural day based on the value range of the external environmental parameter in each natural day, wherein the initial set value of the environmental control parameter is the average of the maximum value and the minimum value in the value range of the external environmental parameter;

Based on historical operation data of the air conditioning equipment, determining an average value of the maximum set value and an average value of the minimum set value of each environmental control parameter of the air conditioning equipment in the same natural day, and taking a value range formed by the average value of the maximum set value and the average value of the minimum set value of each natural day as an initial adjustment threshold value of each environmental control parameter in each natural day;

and forming a configuration file of the environment control parameters by the initial set value and the initial adjustment threshold value of each environment control parameter in each natural day.

Optionally, the current time parameter is a date, and is used for determining a natural day on which the current time is located.

Optionally, determining the initial setting value and the initial adjustment threshold value of each environmental control parameter of the target site based on the current time parameter and the configuration file includes:

determining a current date from the current time parameter, and determining an initial set value and an initial adjustment threshold value of each environment control parameter in the natural day corresponding to the current date from the configuration file based on the current date;

and determining the initial set value and the initial adjustment threshold value of each environmental control parameter in the natural days corresponding to the current date as the initial set value and the initial adjustment threshold value of each environmental control parameter of the target place.

Optionally, the environmental interval parameter associated with the target location is an interval parameter formed by a maximum value and a minimum value of each environmental parameter in the preset target location, where the environmental parameter includes: temperature and humidity.

Optionally, the user-customized parameter is a set value of an environmental parameter set by a user.

In yet another aspect, the present invention also proposes a system for adjusting environmental control parameters, comprising:

a configuration unit, configured to obtain a configuration file of environmental control parameters associated with the target location, and determine an initial set value and an initial adjustment threshold value of each environmental control parameter of the target location based on the current time parameter and the configuration file;

the first calculation unit is used for acquiring environment interval parameters and user customization parameters associated with the target place, determining a threshold adjustment coefficient based on the environment interval parameters, the user customization parameters and the initial adjustment threshold, and determining a dynamic adjustment threshold of each environment parameter of the target place according to the threshold adjustment coefficient and the initial adjustment threshold;

the second computing unit is used for acquiring the current internal environment parameter and the current external environment parameter of the target place and determining a target setting value of the target place according to the current internal environment parameter, the current external environment parameter and the initial setting value of the target place;

Wherein the second computing unit determines a target setting value of the target location according to the current internal environment parameter, the current external environment parameter, and the initial setting value of the target location, comprising:

forming a target set value of a target place by the temperature target set value and the humidity target set value; and

the adjusting unit is used for setting a parameter adjustment stepping value of each environment control parameter based on a dynamic adjustment threshold value, an initial setting value and a target setting value of a target place and adjusting each environment control parameter based on the parameter adjustment stepping value, the initial setting value and the target setting value;

the current external environment parameters of the target place comprise: current external temperature and current external humidity.

Compared with the prior art, the invention has the beneficial effects that:

the invention provides a method for adjusting environmental control parameters, which comprises the following steps: acquiring a configuration file of environment control parameters associated with a target place, and determining an initial set value and an initial adjustment threshold value of each environment control parameter of the target place based on the current time parameter and the configuration file; acquiring environment interval parameters and user customization parameters associated with a target place, determining a threshold adjustment coefficient based on the environment interval parameters, the user customization parameters and an initial adjustment threshold, and determining a dynamic adjustment threshold of each environment parameter of the target place according to the threshold adjustment coefficient and the initial adjustment threshold; acquiring a current internal environment parameter and a current external environment parameter of a target place, and determining a target setting value of the target place according to the current internal environment parameter, the current external environment parameter and the initial setting value of the target place; setting a parameter adjustment stepping value of each environment control parameter based on a dynamic adjustment threshold value, an initial setting value and a target setting value of a target place, and adjusting each environment control parameter based on the parameter adjustment stepping value, the initial setting value and the target setting value; wherein the current internal environmental parameters of the target site include: a current internal temperature and a current internal humidity; the current external environment parameters of the target place comprise: a current external temperature and a current external humidity; wherein determining the target setting value of the target place according to the current internal environment parameter, the current external environment parameter and the initial setting value of the target place comprises: determining a current internal temperature and a current internal humidity in current internal environment parameters of the target site; determining a current external temperature and a current external humidity in current external environment parameters of the target site; determining an absolute value of a first difference value between the current external temperature and the current internal temperature as a temperature adjustment value, determining an absolute value of a second difference value between the current external humidity and the current internal humidity as a humidity adjustment value, acquiring a temperature initial setting value and a humidity initial setting value in initial setting values, determining a temperature target setting value based on the temperature initial setting value and the temperature adjustment value, and determining a humidity target setting value based on the humidity initial setting value and the humidity adjustment value; and forming the target set value of the target place by the temperature target set value and the humidity target set value. According to the invention, the current environmental parameters can be adaptively adjusted according to the environmental parameters, so that the artificial operation is eliminated.

Drawings

FIG. 1 is a flow chart of the method of the present invention;

fig. 2 is a block diagram of the system of the present invention.

Detailed Description

The exemplary embodiments of the present invention will now be described with reference to the accompanying drawings, however, the present invention may be embodied in many different forms and is not limited to the examples described herein, which are provided to fully and completely disclose the present invention and fully convey the scope of the invention to those skilled in the art. The terminology used in the exemplary embodiments illustrated in the accompanying drawings is not intended to be limiting of the invention. In the drawings, like elements/components are referred to by like reference numerals.

Unless otherwise indicated, terms (including technical and scientific terms) used herein have the same meaning as commonly understood by one of ordinary skill in the art. In addition, it will be understood that terms defined in commonly used dictionaries should be interpreted as having a meaning that is consistent with their meaning in the context of the relevant art and will not be interpreted in an idealized or overly formal sense.

Example 1:

the invention provides a method for adjusting environmental control parameters, as shown in fig. 1, comprising the following steps:

Step 1, acquiring a configuration file of environment control parameters associated with a target place, and determining an initial set value and an initial adjustment threshold value of each environment control parameter of the target place based on the current time parameter and the configuration file;

step 2, acquiring environment interval parameters and user customization parameters associated with the target place, determining a threshold adjustment coefficient based on the environment interval parameters, the user customization parameters and the initial adjustment threshold, and determining a dynamic adjustment threshold of each environment parameter of the target place according to the threshold adjustment coefficient and the initial adjustment threshold;

step 3, acquiring the current internal environment parameter and the current external environment parameter of the target place, and determining the target setting value of the target place according to the current internal environment parameter, the current external environment parameter and the initial setting value of the target place; and

and 4, setting a parameter adjustment stepping value of each environment control parameter based on the dynamic adjustment threshold value, the initial setting value and the target setting value of the target place, and adjusting each environment control parameter based on the parameter adjustment stepping value, the initial setting value and the target setting value.

The target sites are sites with indoor independent spaces, sites with indoor closed spaces and sites with indoor semi-closed spaces.

Wherein the environmental control parameters include: temperature control parameters and humidity control parameters.

Wherein, the configuration file is a plurality of configuration items, and each configuration item includes: date, initial setting value, and initial adjustment threshold.

Wherein prior to obtaining the configuration file of the environmental control parameters associated with the target site, further comprising:

The current time parameter is a date and is used for determining a natural day of the current time.

Wherein determining an initial setting value and an initial adjustment threshold value for each environmental control parameter of the target site based on the current time parameter and the profile comprises:

The environmental interval parameter associated with the target location is an interval parameter formed by a maximum value and a minimum value of each environmental parameter in the preset target location, and the environmental parameter comprises: temperature and humidity.

Wherein the user-customized parameter is a set value of an environmental parameter set by a user.

The specific implementation steps of the steps 1-4 further include the following steps:

Wherein determining the threshold adjustment coefficient based on the environmental interval parameter, the user customization parameter, and the initial adjustment threshold comprises:

determining a preset temperature range and a preset humidity range of a target place based on the environmental interval parameters;

determining a temperature set value and a humidity set value set by a user based on the user customized parameters;

determining an initial adjustment threshold for temperature and an initial adjustment threshold for humidity based on the initial adjustment threshold;

determining a threshold adjustment coefficient of the temperature based on a preset temperature range of the target place, a temperature set value set by a user and an initial adjustment threshold of the temperature; and

determining a threshold adjustment coefficient of the humidity based on a preset humidity range of the target place, a humidity set value set by a user and an initial adjustment threshold of the humidity;

wherein the threshold adjustment coefficient includes: a threshold adjustment coefficient for temperature and a threshold adjustment coefficient for humidity.

Wherein determining a threshold adjustment coefficient of the temperature based on a preset temperature range of the target site, a temperature set value set by a user, and an initial adjustment threshold of the temperature, comprises:

wherein,threshold adjustment coefficient for temperature, +.>For the temperature maximum value of the temperature range of the preset target site,/- >For a preset temperature minimum value of the temperature range of the target site, < >>Temperature set point set for user, +.>A temperature upper limit value of an initial adjustment threshold value for temperature, < >>A temperature lower limit value that is an initial adjustment threshold value of the temperature; wherein the method comprises the steps of

Wherein determining a dynamic adjustment threshold for each environmental parameter of the target site based on the threshold adjustment coefficient and the initial adjustment threshold comprises:

the upper limit value of the dynamic adjustment threshold value of the temperature of the target site isThe temperature lower limit value of the dynamic adjustment threshold value of the temperature of the target place is +.>；

Temperature of dynamic adjustment threshold of temperature of target siteThe upper limit value of the degree is->The temperature lower limit value of the dynamic adjustment threshold value of the temperature of the target place is +.>。

Wherein, based on the humidity range of the target place set in advance, the humidity set value set by the user and the initial adjustment threshold value of the humidity, determining the threshold value adjustment coefficient of the humidity includes:

Wherein,for the threshold adjustment coefficient of humidity, < >>For the humidity maximum value of the humidity range of the preset target place,/-for the humidity range of the preset target place>For a humidity minimum value of a humidity range of a preset target place, < >>A humidity set point set for a user,humidity upper limit value of initial adjustment threshold for humidity,/->A humidity lower limit value of an initial adjustment threshold value for humidity; wherein the method comprises the steps of

the upper limit value of the humidity of the dynamic adjustment threshold value of the humidity of the target place isThe humidity lower limit value of the dynamic adjustment threshold value of the humidity of the target place is +.>。

Wherein the current internal environmental parameters of the target site include: current internal temperature and current internal humidity.

Wherein determining the temperature target setting value based on the temperature initial setting value and the temperature adjustment value includes:

when the current internal temperature is greater than the temperature initial setting value and the third difference value of the current internal temperature minus the temperature initial setting value is greater than or equal to the temperature adjustment value, determining the temperature target setting value as the temperature initial setting value minus the temperature adjustment value;

when the current internal temperature is greater than the temperature initial setting value and the fourth difference value of the current internal temperature minus the temperature initial setting value is less than the temperature adjustment value, determining the temperature target setting value as the temperature initial setting value minus the fourth difference value;

Determining a temperature target set value as a temperature initial set value when the current internal temperature is equal to the temperature initial set value;

when the current internal temperature is smaller than the temperature initial setting value and the fifth difference value of the temperature initial setting value minus the current internal temperature is larger than or equal to the temperature adjustment value, determining the temperature target setting value as the temperature initial setting value plus the temperature adjustment value;

when the current internal temperature is less than the temperature initial setting value and the sixth difference of the temperature initial setting value minus the current internal temperature is less than the temperature adjustment value, the temperature target setting value is determined as the temperature initial setting value plus the sixth difference.

Wherein determining the humidity target setting value based on the humidity initial setting value and the humidity adjustment value includes:

when the current internal humidity is larger than the humidity initial set value and the third difference value of subtracting the humidity initial set value from the current internal humidity is larger than or equal to the humidity adjustment value, determining the humidity target set value as the humidity initial set value minus the humidity adjustment value;

when the current internal humidity is larger than the humidity initial setting value and the fourth difference value of subtracting the humidity initial setting value from the current internal humidity is smaller than the humidity adjustment value, determining the humidity target setting value as the humidity initial setting value minus the fourth difference value;

Determining a humidity target set value as a humidity initial set value when the current internal humidity is equal to the humidity initial set value;

when the current internal humidity is smaller than the humidity initial set value and the fifth difference value of subtracting the current internal humidity from the humidity initial set value is larger than or equal to the humidity adjustment value, determining the humidity target set value as the humidity initial set value plus the humidity adjustment value;

and when the current internal humidity is smaller than the humidity initial setting value and the sixth difference value of the humidity initial setting value minus the current internal humidity is smaller than the humidity adjustment value, determining the humidity target setting value as the humidity initial setting value plus the sixth difference value.

Wherein setting the parameter adjustment step value of each environmental control parameter based on the dynamic adjustment threshold, the initial setting value, and the target setting value of the target location, comprises:

determining a temperature initial setting value and a humidity initial setting value based on the initial setting value;

determining a temperature target set value and a humidity target set value based on the target set value;

determining a dynamic adjustment threshold of the temperature and a dynamic adjustment threshold of the humidity of the target site based on the dynamic adjustment threshold of the target site;

determining a parameter adjustment stepping value of the temperature based on the temperature initial setting value, the temperature target setting value and a dynamic adjustment threshold value of the temperature of the target place; and

And determining a parameter adjustment stepping value of the humidity based on the humidity initial setting value, the humidity target setting value and a dynamic adjustment threshold value of the humidity of the target place.

Wherein determining a parameter adjustment step value of the temperature based on the temperature initial setting value, the temperature target setting value, and a dynamic adjustment threshold of the temperature of the target site, comprises:

calculating an absolute value Dt of a difference between the initial temperature setting value and the target temperature setting value, determining a temperature upper limit value and a temperature lower limit value of a dynamic adjustment threshold value of the temperature of the target location when the Dt is smaller than a temperature difference threshold value, calculating an absolute value Dtht of a difference between the temperature upper limit value and the temperature lower limit value, and determining a parameter adjustment step value of the temperature as，

When the absolute value Dt of the difference between the temperature initial setting value and the temperature target setting value is greater than or equal to the temperature difference threshold value, and when the temperature initial setting value is greater than the temperature target settingWhen the temperature is calculated, the absolute value Dlt of the difference between the temperature target set value and the temperature lower limit value is calculated, and the parameter adjustment stepping value of the temperature is determined to be，

When the absolute value Dt of the difference between the temperature initial setting value and the temperature target setting value is greater than or equal to the temperature difference threshold value, and when the temperature initial setting value is smaller than the temperature target setting value, calculating the absolute value Dht of the difference between the temperature target setting value and the temperature upper limit value, determining the parameter adjustment step value of the temperature as 。

Wherein, based on the humidity initial setting value, the humidity target setting value and the dynamic adjustment threshold value of the humidity of the target place, determining the parameter adjustment step value of the humidity includes:

calculating an absolute value Dr of a difference between the humidity initial setting value and the humidity target setting value, determining a humidity upper limit value and a humidity lower limit value of a dynamic adjustment threshold value of the humidity of the target site when Dr is smaller than a humidity difference threshold value, calculating an absolute value Dthr of a difference between the humidity upper limit value and the humidity lower limit value, and determining a parameter adjustment step value of the humidity as，

When the absolute value Dr of the difference between the humidity initial setting value and the humidity target setting value is greater than or equal to the humidity difference threshold value, and when the humidity initial setting value is greater than the humidity target setting value, calculating the absolute value Dlr of the difference between the humidity target setting value and the humidity lower limit value, determining the parameter adjustment step value of the humidity as，

When the absolute value Dt of the difference between the humidity initial setting value and the humidity target setting value is greater than or equal to the humidity difference threshold value, and when the humidity initial setting value is smaller than the humidity target setting value, calculating the absolute value Dhr of the difference between the humidity target setting value and the humidity upper limit value, determining the parameter adjustment step value of the humidity as。

Wherein, based on the parameter adjustment step value and the initial setting value, adjust each environmental control parameter, include:

When the temperature initial set value is larger than the temperature target set value, the air conditioner starts from the temperature initial set value and adjusts the temperature target set value according to the mode of adjusting the step value by the parameter of reducing the temperature in each time unit;

when the temperature initial set value is equal to the temperature target set value, setting the air conditioning equipment to the temperature target set value;

when the temperature initial setting value is smaller than the temperature target setting value, the air conditioner is enabled to be adjusted to the temperature target setting value from the temperature initial setting value according to the mode that the step value is adjusted according to the parameter of increasing the temperature of each time unit.

when the humidity initial set value is larger than the humidity target set value, the air conditioning equipment starts from the humidity initial set value and adjusts the humidity initial set value to the humidity target set value according to the mode of adjusting the stepping value by the parameters of reducing the humidity in each time unit;

when the humidity initial set value is equal to the humidity target set value, causing the air conditioning device to set to the humidity target set value;

when the humidity initial setting value is smaller than the humidity target setting value, the air conditioning equipment starts from the humidity initial setting value and adjusts the humidity initial setting value to the humidity target setting value according to the mode of adjusting the stepping value by the parameter of increasing the humidity in each time unit.

acquiring historical operation data of air conditioning equipment for adjusting environmental control parameters in a target place and historical environmental data of the target place;

according to the historical operation data and the historical environment data, determining initial setting parameters and parameter adjustment thresholds of the air conditioning equipment in each start-stop period, and determining the historical environment data corresponding to the initial setting parameters and the parameter adjustment thresholds of the air conditioning equipment in each start-stop period so as to generate initial corresponding relations of the initial setting parameters, the parameter adjustment thresholds and the historical environment data in each start-stop period of the air conditioning equipment;

revising the initial corresponding relation by using a preset revising coefficient to obtain a corresponding relation table of initial setting parameters, parameter adjustment thresholds and historical environment data;

acquiring forecast environment data outside a target place on a preset date, and predicting and obtaining the forecast environment data inside the target place on the preset date according to the forecast environment data based on the corresponding relation between the environment data inside and outside the target place in the history environment data; and

and inquiring the forecast environment data inside and outside the preset date as search data in a corresponding relation table for obtaining initial setting parameters, parameter adjustment thresholds and historical environment data so as to search the initial setting parameters and parameter adjustment thresholds corresponding to the search data, taking the preset date of the search data as the date of the configuration file, taking the initial setting parameters corresponding to the search data as the initial setting values of the configuration file, taking the parameter adjustment thresholds as the initial adjustment thresholds of the configuration file, and obtaining the corresponding relation among the date, the initial setting values and the initial adjustment thresholds of the configuration file.

Wherein the historical operating data comprises: and the starting and stopping time data of the air conditioning equipment and the parameter adjustment data during the starting and stopping of the air conditioning equipment.

Wherein the method further comprises: and extracting parameter adjustment data during the start-stop period of the air conditioning equipment in the historical operation data, determining the corresponding relation between the parameter adjustment data and the historical environment data, determining a parameter adjustment rule during the start-stop period of the air conditioning equipment based on the corresponding relation, and determining the optimal internal environment parameters under different external/internal environment parameters of the target field according to the parameter adjustment rule.

Wherein, the current time parameter includes: a current date and an environmental parameter of the current date.

The environment interval parameter is a range parameter of the lowest preferable value and the highest preferable value of the internal environment parameter of the target place;

internal environmental parameters, including internal temperature parameters and internal humidity parameters.

Wherein the user customizes parameters, which are the optimal internal temperature parameters and internal humidity parameters of the user under different external/internal environment parameters.

Wherein the dynamic adjustment threshold is the product of the threshold adjustment coefficient and the initial adjustment threshold.

Wherein the external environmental parameters include temperature parameters and humidity parameters outside the target site.

Wherein the method further comprises: collecting current internal environment parameters of a target place through sensors, wherein if the space volume of the target place is smaller than a preset value, each type of sensor of the target place is provided with one sensor, and if the space volume of the target place exceeds the preset value, the provided data of each type of sensor of the target place is the ratio of the space volume to the preset value, and the ratio is rounded in a rounding mode;

when each type of sensor in the target place is provided with one sensor, the value of the current internal environment parameter is the value acquired by the sensor, and when each type of sensor in the target place is provided with a plurality of sensors, the value of the current internal environment parameter is the maximum value or the minimum value of the value acquired by the sensor.

Wherein setting the parameter adjustment step value of each environmental control parameter based on the current internal environmental parameter of the target site, the initial setting value and the target setting value, comprises:

and determining a first distance between the value of the current internal environment parameter and an initial set value, and determining a second distance between the initial set value and a target set value, wherein if the first distance is greater than or equal to the second distance, the stepping value per stage of the stepping value is greater than 1, and if the first distance is less than the second distance, the stepping value per stage of the stepping value is less than or equal to 1.

Example 2

The present invention proposes a system 200 for adjusting environmental control parameters, as shown in fig. 2, comprising:

a configuration unit 201, configured to obtain a configuration file of environmental control parameters associated with a target location, and determine an initial set value and an initial adjustment threshold value of each environmental control parameter of the target location based on the current time parameter and the configuration file;

a first calculation unit 202, configured to obtain an environmental interval parameter and a user customized parameter associated with a target location, determine a threshold adjustment coefficient based on the environmental interval parameter, the user customized parameter and an initial adjustment threshold, and determine a dynamic adjustment threshold for each environmental parameter of the target location according to the threshold adjustment coefficient and the initial adjustment threshold;

a second calculating unit 203, configured to obtain a current internal environment parameter and a current external environment parameter of the target location, and determine a target setting value of the target location according to the current internal environment parameter, the current external environment parameter and the initial setting value of the target location; and

the adjusting unit 204 is configured to set a parameter adjustment step value of each environmental control parameter based on the dynamic adjustment threshold, the initial setting value, and the target setting value of the target location, and adjust each environmental control parameter based on the parameter adjustment step value, the initial setting value, and the target setting value.

The specific implementation of the system 200 of the present invention is as follows:

wherein,threshold adjustment coefficient for temperature, +.>For the temperature maximum value of the temperature range of the preset target site,/->For a preset temperature minimum value of the temperature range of the target site, < >>A temperature set point set for the user,a temperature upper limit value of an initial adjustment threshold value for temperature, < >>A temperature lower limit value that is an initial adjustment threshold value of the temperature; wherein the method comprises the steps of

The upper limit value of the dynamic adjustment threshold value of the temperature of the target site isThe temperature lower limit value of the dynamic adjustment threshold value of the temperature of the target place is +. >；

The upper limit value of the dynamic adjustment threshold value of the temperature of the target site is +.>The temperature lower limit value of the dynamic adjustment threshold value of the temperature of the target place is +.>。/>

When the absolute value Dt of the difference between the temperature initial setting value and the temperature target setting value is greater than or equal to the temperature difference threshold value, and when the temperature initial setting value is greater than the temperature target setting value, calculating the absolute value Dlt of the difference between the temperature target setting value and the temperature lower limit value, determining the parameter adjustment step value of the temperature as ，

When the absolute value Dt of the difference between the temperature initial setting value and the temperature target setting value is greater than or equal to the temperature difference threshold value, and when the temperature initial setting value is smaller than the temperature target setting value, calculating the absolute value Dht of the difference between the temperature target setting value and the temperature upper limit value, determining the parameter adjustment step value of the temperature as。

When the humidity is at the beginningThe absolute value Dr of the difference between the initial setting value and the humidity target setting value is greater than or equal to the humidity difference threshold, and when the humidity initial setting value is greater than the humidity target setting value, the absolute value Dlr of the difference between the humidity target setting value and the humidity lower limit value is calculated, and the parameter adjustment step value of the humidity is determined to be，

When the absolute value Dt of the difference between the humidity initial setting value and the humidity target setting value is greater than or equal to the humidity difference threshold value, and when the humidity initial setting value is smaller than the humidity target setting value, calculating the absolute value Dhr of the difference between the humidity target setting value and the humidity upper limit value, determining the parameter adjustment step value of the humidity as 。

It will be appreciated by those skilled in the art that embodiments of the present invention may be provided as a method, system, or computer program product. Accordingly, the present invention may take the form of an entirely hardware embodiment, an entirely software embodiment or an embodiment combining software and hardware aspects. Furthermore, the present invention may take the form of a computer program product embodied on one or more computer-usable storage media (including, but not limited to, disk storage, CD-ROM, optical storage, and the like) having computer-usable program code embodied therein. The scheme in the embodiment of the invention can be realized by adopting various computer languages, such as object-oriented programming language Java, an transliteration script language JavaScript and the like.

The present invention is described with reference to flowchart illustrations and/or block diagrams of methods, apparatus (systems) and computer program products according to embodiments of the invention. It will be understood that each flow and/or block of the flowchart illustrations and/or block diagrams, and combinations of flows and/or blocks in the flowchart illustrations and/or block diagrams, can be implemented by computer program instructions. These computer program instructions may be provided to a processor of a general purpose computer, special purpose computer, embedded processor, or other programmable data processing apparatus to produce a machine, such that the instructions, which execute via the processor of the computer or other programmable data processing apparatus, create means for implementing the functions specified in the flowchart flow or flows and/or block diagram block or blocks.

These computer program instructions may also be stored in a computer-readable memory that can direct a computer or other programmable data processing apparatus to function in a particular manner, such that the instructions stored in the computer-readable memory produce an article of manufacture including instruction means which implement the function specified in the flowchart flow or flows and/or block diagram block or blocks.

These computer program instructions may also be loaded onto a computer or other programmable data processing apparatus to cause a series of operational steps to be performed on the computer or other programmable apparatus to produce a computer implemented process such that the instructions which execute on the computer or other programmable apparatus provide steps for implementing the functions specified in the flowchart flow or flows and/or block diagram block or blocks.

While preferred embodiments of the present invention have been described, additional variations and modifications in those embodiments may occur to those skilled in the art once they learn of the basic inventive concepts. It is therefore intended that the following claims be interpreted as including the preferred embodiments and all such alterations and modifications as fall within the scope of the invention.

It will be apparent to those skilled in the art that various modifications and variations can be made to the present invention without departing from the spirit or scope of the invention. Thus, it is intended that the present invention also include such modifications and alterations insofar as they come within the scope of the appended claims or the equivalents thereof.

Claims

1. A method for adjusting environmental control parameters, the method comprising:

2. The method of claim 1, wherein the target sites are sites having an indoor independent space, sites having an indoor enclosed space, and sites having an indoor semi-enclosed space.

3. The method of claim 1, wherein the environmental control parameters comprise: temperature control parameters and humidity control parameters.

4. The method of claim 1, wherein the profile comprises a plurality of configuration items, each configuration item comprising: date, initial setting value, and initial adjustment threshold.

5. The method of claim 4, further comprising, prior to the obtaining the profile of the environmental control parameters associated with the target site:

6. The method of claim 5, wherein the current time parameter is a date used to determine a natural day on which the current time is located.

7. The method of claim 6, wherein determining the initial set value and the initial adjustment threshold for each environmental control parameter of the target site based on the current time parameter and the profile comprises:

8. The method of claim 7, wherein the environmental interval parameter associated with the target site is an interval parameter formed by a maximum value and a minimum value of each environmental parameter in the target site set in advance, and the environmental parameter includes: temperature and humidity.

9. The method of claim 8, wherein the user-customized parameter is a set point of an environmental parameter set by a user.

10. A system for adjusting environmental control parameters, the system comprising: