CN115562093A - Automatic control method and device for intelligent air conditioning equipment - Google Patents

Abstract

The invention discloses an automatic control method and device for intelligent air-conditioning equipment. The method automatically generates targeted equipment control parameters for intelligent air-conditioning equipment through the collected information of the current area, such as environmental information and personnel category, and automatically Dynamically control the work of smart air-conditioning equipment based on the generated equipment control parameters, which can improve the control intelligence of smart air-conditioning equipment and meet the needs of different types of people for environmental comfort. There is no need for users to manually control smart air-conditioning equipment, even when the user is sleeping. It can also provide users with an accurate and comfortable environment and improve the user experience; by accurately controlling intelligent air-conditioning equipment according to the current regional environmental information and personnel information (such as personnel categories), it can also reduce the waste of power resources.

Description

Automatic control method and device for intelligent air-conditioning equipment

technical field

The invention relates to the technical field of intelligent air-conditioning equipment, in particular to an automatic control method and device for intelligent air-conditioning equipment.

Background technique

With the rapid development of science and technology, more and more devices are developing in the direction of intelligence, and based on the advantages of convenient and quick operation, saving time and effort, the application of smart devices in life, work, production and other scenarios is becoming more and more popular And also more and more important, such as: air conditioning equipment.

In real life, people can manually set the working mode (such as temperature and wind speed) of the air conditioner in advance through the remote control device of the air conditioner or its user terminal, and then the air conditioner adjusts the current function according to the working mode preset by the user. Such as: sleep, strong wind, etc. However, it has been found in practice that the existing control methods of air-conditioning equipment still require manual participation and are limited to the current temperature and time, which cannot be truly intelligent and thus cannot provide users with an accurate and comfortable environment. Therefore, it is particularly important to propose a scheme of how to improve the control intelligence of air-conditioning equipment and provide users with an accurate and comfortable environment.

Contents of the invention

The invention provides an automatic control method and device for intelligent air-conditioning equipment, which can improve the control intelligence of the intelligent air-conditioning equipment, meet the needs of different types of people for environmental comfort, and provide users with an accurate and comfortable environment.

In order to solve the above technical problems, the first aspect of the present invention discloses an automatic control method for intelligent air-conditioning equipment, the method comprising:

collecting information in the current area, the information in the current area includes personnel information in the current area and environmental information in the current area, and the personnel information in the current area includes the category of personnel in the current area;

generating device control parameters matching the information of the current area according to the content included in the determined information of the current area;

Controlling the smart air conditioner in the current area to work based on the generated device control parameters.

As an optional implementation manner, in the first aspect of the present invention, the generating the device control parameters matching the information of the current area according to the content included in the determined information of the current area includes:

According to the content included in the determined information of the current area, determine perception information matching the personnel in the current area, where the perception information matching the personnel in the current area includes comfort perception matching the personnel in the current area temperature;

Generate device control parameters that match information in the current area according to content included in the perception information that matches people in the current area.

As an optional implementation manner, in the first aspect of the present invention, determining the perception information matching the personnel in the current area according to the content included in the determined information of the current area includes:

When the number of personnel categories in the current area is greater than 1, calculating the average comfortable perceived temperature of the comfortable perceived temperature corresponding to each of the personnel categories in the current area, as the perception information matching the personnel in the current area; or,

When the number of personnel categories in the current area is greater than 1 and the smart air-conditioning equipment in the current area includes multiple air outlet areas, determine that the comfortable perceived temperature corresponding to each of the personnel categories in the current area is the same as the Perception information matched by personnel in the current area, and each of the air outlet areas of the smart air-conditioning equipment in the current area has the perception information of the corresponding personnel category; or,

When the number of personnel categories in the current area is greater than 1 and the number of personnel categories in the current area is an odd number, determine the comfort perception temperature corresponding to all the personnel categories in the current area, and select from all the personnel categories Selecting the comfortable perceived temperature whose temperature value is in the middle value among the corresponding comfortable perceived temperatures, as the perceived information matching the personnel in the current area; or,

When the number of personnel categories in the current area is greater than 1, determine the sensitivity of the personnel of each of the personnel categories in the current area to information, and select the maximum sensitivity from the sensitivities corresponding to all the personnel categories The comfortable perceived temperature matched with the corresponding personnel category is used as the perceived information matched with the personnel in the current area, and the information includes temperature and/or dust.

As an optional implementation manner, in the first aspect of the present invention, determining the perception information matching the personnel in the current area according to the content included in the determined information of the current area includes:

When the number of personnel categories in the current area is greater than 1, it is judged whether the smart air conditioner in the current area is in a working state;

When it is determined that the smart air conditioner in the current area is in a working state, determine the working mode of the smart air conditioner in the current area, and determine whether the working mode of the smart air conditioner in the current area is used to represent the current area The current work of the smart air-conditioning equipment is an alternate work, and the alternating work is used to indicate that the smart air-conditioning equipment in the current area is working in turn at the comfortable perceived temperature corresponding to each of the personnel categories. Preset duration, wherein, each of the categories of personnel has a corresponding preset duration;

When the judgment result is yes, determine the rotation of the comfortable perceived temperature corresponding to each of the personnel categories in the interval between the initial working time and the current working time of the smart air-conditioning equipment in the current area working in the working mode number of jobs;

Calculate the average comfort perception temperature corresponding to the comfort perception temperature corresponding to all the personnel categories according to the number of shifts of the comfort perception temperature corresponding to each of the personnel categories and the comfort perception temperature corresponding to each of the personnel categories, as the Perception information matched by people in the current area.

As an optional implementation manner, in the first aspect of the present invention, the personnel information in the current area further includes a personnel position corresponding to each of the personnel types;

And, the method also includes:

According to the personnel position corresponding to each of the personnel types, determine the air outlet area that matches the personnel position corresponding to each of the personnel types from the multiple air outlet areas of the intelligent air-conditioning equipment in the current area;

Wherein, the generating the device control parameters matching the information of the current area according to the content included in the determined information of the current area includes:

According to the content included in the determined information of the current area and the wind outlet area matched with the position of the person corresponding to each type of person, generate the device control corresponding to the air outlet area matched with the position of the person corresponding to each type of person parameter.

As an optional implementation manner, in the first aspect of the present invention, before generating the device control parameters matching the information of the current area according to the content included in the determined information of the current area, the Methods also include:

When the personnel of the personnel category in the current area is in a non-sleeping state, collecting the personnel activity corresponding to the personnel category, and determining the metabolic condition corresponding to the personnel category according to the collected personnel activity corresponding to the personnel category;

Wherein, the generating the device control parameters matching the information of the current area according to the content included in the determined information of the current area includes:

According to the metabolic condition corresponding to the person category and the content included in the determined information of the current area, an equipment control parameter matching the information of the current area is generated.

As an optional implementation manner, in the first aspect of the present invention, the method further includes:

Collect the air outlet speed of the intelligent air-conditioning equipment in the current area, and query the average comfortable perceived temperature matched by the personnel category according to the personnel category;

Wherein, the generation of device control parameters matching the information of the current area according to the metabolic condition corresponding to the person category and the content included in the determined information of the current area includes:

According to the metabolic condition corresponding to the person category, the air output speed of the smart air conditioner in the current area, the average comfortable perceived temperature matched by the person category, and the content included in the determined information of the current area, a Device control parameters matching the information of the current region.

As an optional implementation manner, in the first aspect of the present invention, the method further includes:

Judging whether to receive feedback information on the current working conditions of the intelligent air-conditioning equipment;

When it is judged that the feedback information on the current working condition of the intelligent air conditioner is received, modify the device control parameters of the working mode corresponding to the current work of the intelligent air conditioner according to the received feedback information, and obtain the corrected The equipment control parameters of the intelligent air conditioner; wherein, the corrected device control parameters of the intelligent air conditioner include the corrected temperature control parameters of the intelligent air conditioner, and the corrected temperature of the intelligent air conditioner The control parameters include the temperature control parameters at the next working time of the intelligent air conditioner or the temperature control parameters at the next startup of the intelligent air conditioner.

As an optional implementation, in the first aspect of the present invention, the personnel category of the current area includes one or more combinations of gender category, age group category, and physical fitness category; the environmental information of the current area Including one or more combinations of the ambient temperature of the current area, the ambient humidity of the current area, the concentration of key gases in the current area, and the odor of the current area;

Further, the information of the current area also includes the solar term information of the current area, wherein the solar term information of the current area includes the solar term type of the current area, and the solar term type of the current area includes the solar terms of the current area One of summer type, spring type, winter type, and autumn type.

The second aspect of the present invention discloses an automatic control device for intelligent air-conditioning equipment, the device comprising:

A collection module, configured to collect information in the current area, the information in the current area includes personnel information in the current area and environmental information in the current area, and the personnel information in the current area includes personnel categories in the current area;

A generating module, configured to generate device control parameters matching the information of the current area according to the content included in the determined information of the current area;

A control module, configured to control the smart air conditioner in the current area to work based on the generated device control parameters.

As an optional implementation manner, in the second aspect of the present invention, the generating module includes:

The determination submodule is configured to determine the perception information matching the personnel in the current area according to the content included in the determined information of the current area, and the perception information matching the personnel in the current area includes The comfortable perceived temperature matched by the personnel;

The generating submodule is configured to generate device control parameters matching the information of the current area according to the content included in the perception information matching the personnel in the current area.

As an optional implementation manner, in the second aspect of the present invention, the determination submodule determines the manner of the perception information matching the personnel in the current area according to the content included in the determined information of the current area Specifically:

When the number of personnel categories in the current area is greater than 1, calculating the average comfortable perceived temperature of the comfortable perceived temperature corresponding to each of the personnel categories in the current area, as the perception information matching the personnel in the current area; or,

When the number of personnel categories in the current area is greater than 1 and the smart air-conditioning equipment in the current area includes multiple air outlet areas, determine that the comfortable perceived temperature corresponding to each of the personnel categories in the current area is the same as the Perception information matched by personnel in the current area, and each of the air outlet areas of the smart air-conditioning equipment in the current area has the perception information of the corresponding personnel category; or,

When the number of personnel categories in the current area is greater than 1 and the number of personnel categories in the current area is an odd number, determine the comfort perception temperature corresponding to all the personnel categories in the current area, and select from all the personnel categories Selecting the comfortable perceived temperature whose temperature value is in the middle value among the corresponding comfortable perceived temperatures, as the perceived information matching the personnel in the current area; or,

When the number of personnel categories in the current area is greater than 1, determine the sensitivity of the personnel of each of the personnel categories in the current area to information, and select the maximum sensitivity from the sensitivities corresponding to all the personnel categories The comfortable perceived temperature matched with the corresponding personnel category is used as the perceived information matched with the personnel in the current area, and the information includes temperature and/or dust.

As an optional implementation manner, in the second aspect of the present invention, the determination submodule determines the manner of the perception information matching the personnel in the current area according to the content included in the determined information of the current area Specifically:

When the number of personnel categories in the current area is greater than 1, it is judged whether the smart air conditioner in the current area is in a working state;

When it is determined that the smart air conditioner in the current area is in a working state, determine the working mode of the smart air conditioner in the current area, and determine whether the working mode of the smart air conditioner in the current area is used to represent the current area The current work of the smart air-conditioning equipment is an alternate work, and the alternating work is used to indicate that the smart air-conditioning equipment in the current area is working in turn at the comfortable perceived temperature corresponding to each of the personnel categories. Preset duration, wherein, each of the categories of personnel has a corresponding preset duration;

When the judgment result is yes, determine the rotation of the comfortable perceived temperature corresponding to each of the personnel categories in the interval between the initial working time and the current working time of the smart air-conditioning equipment in the current area working in the working mode number of jobs;

Calculate the average comfort perception temperature corresponding to the comfort perception temperature corresponding to all the personnel categories according to the number of shifts of the comfort perception temperature corresponding to each of the personnel categories and the comfort perception temperature corresponding to each of the personnel categories, as the Perception information matched by people in the current area.

As an optional implementation manner, in the second aspect of the present invention, the personnel information in the current area further includes a personnel position corresponding to each of the personnel types;

And, the device also includes:

The first determining module is configured to determine, from the multiple air outlet areas of the smart air-conditioning equipment in the current area, the air outlet that matches the location of the person corresponding to each type of person according to the location of the person corresponding to each type of person area;

Wherein, according to the content included in the determined information of the current area, the generating module generates the device control parameters matching the information of the current area specifically as follows:

According to the content included in the determined information of the current area and the wind outlet area matched with the position of the person corresponding to each type of person, generate the device control corresponding to the air outlet area matched with the position of the person corresponding to each type of person parameter.

As an optional implementation manner, in the second aspect of the present invention, the acquisition module is further configured to generate, in the generation module, a Before the device control parameters matched by the information, when the personnel of the personnel category in the current area is in a non-sleeping state, collect the personnel activity situation corresponding to the personnel category;

And, the device also includes:

The second determination module is configured to determine the metabolic condition corresponding to the personnel category according to the collected personnel activity conditions corresponding to the personnel categories;

Wherein, according to the content included in the determined information of the current area, the generating module generates the device control parameters matching the information of the current area specifically as follows:

According to the metabolic condition corresponding to the person category and the content included in the determined information of the current area, an equipment control parameter matching the information of the current area is generated.

As an optional implementation, in the second aspect of the present invention, the collection module is further configured to collect the wind speed of the smart air-conditioning equipment in the current area, and query the personnel category matching according to the personnel category. The average comfortable perceived temperature of

Wherein, the generating module generates the device control parameters matching the information of the current area according to the metabolic condition corresponding to the person category and the content included in the determined information of the current area as follows:

According to the metabolic condition corresponding to the person category, the air output speed of the smart air conditioner in the current area, the average comfortable perceived temperature matched by the person category, and the content included in the determined information of the current area, a Device control parameters matching the information of the current region.

As an optional implementation manner, in the second aspect of the present invention, the device further includes:

A judging module, configured to judge whether feedback information on the current working conditions of the smart air-conditioning equipment is received;

A correction module, configured to correct the working mode corresponding to the current work of the smart air conditioner according to the received feedback information when the judging module determines that the feedback information on the current working condition of the smart air conditioner is received The equipment control parameters of the intelligent air conditioning equipment are obtained to obtain the equipment control parameters of the intelligent air conditioning equipment after correction; wherein, the equipment control parameters of the intelligent air conditioning equipment after correction include the temperature control parameters of the intelligent air conditioning equipment after correction, and the correction The subsequent temperature control parameters of the intelligent air conditioner include the temperature control parameters at the next working time of the intelligent air conditioner or the temperature control parameters at the next startup of the intelligent air conditioner.

As an optional implementation, in the second aspect of the present invention, the personnel category of the current area includes one or more combinations of gender category, age group category, and physical fitness category; the environmental information of the current area Including one or more combinations of the ambient temperature of the current area, the ambient humidity of the current area, the concentration of key gases in the current area, and the odor of the current area;

Further, the information of the current area also includes the solar term information of the current area, wherein the solar term information of the current area includes the solar term type of the current area, and the solar term type of the current area includes the solar terms of the current area One of summer type, spring type, winter type, and autumn type.

The third aspect of the present invention discloses another automatic control device for intelligent air-conditioning equipment, which includes:

a memory storing executable program code;

a processor coupled to the memory;

The processor invokes the executable program code stored in the memory to execute some or all of the steps in any automatic control method for intelligent air-conditioning equipment disclosed in the first aspect of the present invention.

The fourth aspect of the present invention discloses a computer storage medium, the computer storage medium stores computer instructions, and when the computer instructions are called, it is used to perform automatic control of any intelligent air-conditioning equipment disclosed in the first aspect of the present invention Some or all of the steps in the method.

Compared with the prior art, the embodiments of the present invention have the following beneficial effects:

In the embodiment of the present invention, the information of the current area is collected. The information of the current area includes the personnel information of the current area and the environment information of the current area. The personnel information of the current area includes the personnel category of the current area; content, generate equipment control parameters that match the information of the current area; control the smart air-conditioning equipment in the current area to work based on the generated equipment control parameters. It can be seen that the present invention automatically generates targeted equipment control parameters of intelligent air-conditioning equipment through the collected information of the current area, such as environmental information, personnel category, etc., and automatically dynamically controls the operation of intelligent air-conditioning equipment based on the generated equipment control parameters. Improve the control intelligence of intelligent air-conditioning equipment to meet the needs of different types of people for environmental comfort. It does not require users to manually control intelligent air-conditioning equipment. Even when the user is sleeping, it can also provide users with an accurate and comfortable environment. Use experience; by accurately controlling intelligent air-conditioning equipment according to the current area's environmental information and personnel information (such as personnel category), it can also reduce the waste of power resources.

Description of drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present invention, the drawings that need to be used in the description of the embodiments will be briefly introduced below. Obviously, the drawings in the following description are only some embodiments of the present invention. For those skilled in the art, other drawings can also be obtained based on these drawings without creative effort.

Fig. 1 is a schematic flow chart of an automatic control method for an intelligent air conditioner disclosed in an embodiment of the present invention;

Fig. 2 is a schematic flowchart of another automatic control method for intelligent air-conditioning equipment disclosed in an embodiment of the present invention;

Fig. 3 is a schematic structural diagram of an automatic control device for an intelligent air conditioner disclosed in an embodiment of the present invention;

Fig. 4 is a schematic structural diagram of another automatic control device for intelligent air-conditioning equipment disclosed in an embodiment of the present invention;

Fig. 5 is a structural schematic diagram of another automatic control device for intelligent air-conditioning equipment disclosed in an embodiment of the present invention;

Fig. 6 is a schematic diagram of a scene disclosed by an embodiment of the present invention.

detailed description

In order to enable those skilled in the art to better understand the solutions of the present invention, the following will clearly and completely describe the technical solutions in the embodiments of the present invention in conjunction with the drawings in the embodiments of the present invention. Obviously, the described embodiments are only It is a part of embodiments of the present invention, but not all embodiments. Based on the embodiments of the present invention, all other embodiments obtained by persons of ordinary skill in the art without creative efforts fall within the protection scope of the present invention.

The terms "first", "second" and the like in the description and claims of the present invention and the above drawings are used to distinguish different objects, rather than to describe a specific order. Furthermore, the terms "include" and "have", as well as any variations thereof, are intended to cover a non-exclusive inclusion. For example, a process, method, device, product, or terminal comprising a series of steps or units is not limited to the listed steps or units, but optionally also includes steps or units that are not listed, or optionally further includes For other steps or units inherent in these processes, methods, products or ends.

Reference herein to an "embodiment" means that a particular feature, structure, or characteristic described in connection with the embodiment can be included in at least one embodiment of the present invention. The occurrences of this phrase in various places in the specification are not necessarily all referring to the same embodiment, nor are separate or alternative embodiments mutually exclusive of other embodiments. It is understood explicitly and implicitly by those skilled in the art that the embodiments described herein can be combined with other embodiments.

The invention discloses an automatic control method and device for intelligent air-conditioning equipment, which can automatically generate targeted equipment control parameters for intelligent air-conditioning equipment based on the collected information of the current area, such as environmental information and personnel categories, and automatically based on The generated device control parameters dynamically control the work of smart air-conditioning equipment, which can improve the control intelligence of smart air-conditioning equipment and meet the needs of different types of people for environmental comfort. There is no need for users to manually control smart air-conditioning equipment, even when the user is sleeping. It can provide users with an accurate and comfortable environment and improve the user experience; by accurately controlling the intelligent air-conditioning equipment according to the current regional environmental information and personnel information (such as personnel category), it can also reduce the waste of power resources. Each will be described in detail below.

Embodiment one

Please refer to FIG. 1 . FIG. 1 is a schematic flowchart of an automatic control method for an intelligent air conditioner disclosed in an embodiment of the present invention. Wherein, the method described in FIG. 1 can be applied to the automatic control device of the intelligent air conditioner, and the automatic control device of the intelligent air conditioner can include the server corresponding to the intelligent air conditioner or the intelligent air conditioner, wherein, the automatic control device of the intelligent air conditioner It can communicate with user terminals and/or other smart devices in the current area (such as: smart sweeping equipment, smart image acquisition devices, etc.), where the user terminals include but are not limited to smart wearable devices (such as smart sports bracelets, etc.) and /or smart phones (Android mobile phones, iOS mobile phones, etc.), the embodiments of the present invention are not limited. As shown in Figure 1, the automatic control method of the intelligent air conditioner may include the following operations:

101. Collect information of the current area, the information of the current area includes personnel information of the current area and environment information of the current area, the information of the personnel of the current area includes the type of personnel of the current area.

In the embodiment of the present invention, the personnel category of the current area includes one or more combinations of gender category, age group category, and physical fitness category; the environmental information of the current area includes the ambient temperature of the current area, the ambient humidity of the current area, the current area One or more combinations of the concentration of the key gas and the smell of the current area; wherein, the key gas of the current area includes but not limited to carbon dioxide and/or oxygen; further, the information of the current area also includes the solar term information of the current area , wherein the solar term information of the current region includes the solar term type of the current region, and the solar term type of the current region includes one of summer type, spring type, winter type and autumn type of the current region. In this way, by collecting more information of the current area, the generation accuracy of the equipment control parameters of the intelligent air-conditioning equipment can be improved, which is further conducive to providing a more comfortable environment for personnel and different types of people.

In the embodiment of the present invention, optionally, the information collection method of the current area includes a user input method and a device collection method, wherein the user input method is used to indicate that the information is sent by a person to the automatic control device through his user terminal, such as: The male category, the elderly category, etc., the equipment collection method is used to indicate that the information is recognized by the automatic control device through the identification device, wherein the identification device can be integrated into the automatic control device or independent of the automatic control device, and the identification device includes but not It is limited to one or more combinations of voice recognition equipment (such as recognizing the keyword output by the voice of the person in the current area: child), voiceprint recognition equipment, image recognition equipment, and environment recognition equipment. In this way, more comprehensive information can be collected by collecting the information of the current area in various ways, thereby helping to improve the accuracy of the equipment control parameters of the intelligent air-conditioning equipment.

It should be noted that the personnel category in the current area can refer to individual personnel, such as: Xiaohong and Xiaoming, or can represent a whole composed of multiple personnel, such as: a female group composed of Xiaohong and Xiaolan. The implementation of the present invention Examples are not limited.

102. Generate device control parameters that match the information of the current area according to content included in the determined information of the current area.

In the embodiment of the present invention, the device control parameters include temperature control parameters and mode control parameters. Wherein, the mode control parameters include sleep mode control parameters or non-sleep mode control parameters. Further, the device control parameters also include wind speed control parameters and/or air outlet mode control parameters. Wherein, the air outlet mode of the intelligent air conditioner is a mode formed by the movement of the wind deflector of the intelligent air conditioner and/or the movement of the front panel of the intelligent air conditioner. Wherein, the air outlet mode of the intelligent air conditioner includes one of the horizontal air outlet mode, the up and down air outlet mode, and the global air outlet (surrounding air outlet) mode. Wherein, the movement of the air deflector of the intelligent air conditioner and the movement of the front panel of the intelligent air conditioner both include moving and/overturning, wherein the movement of the air deflector of the intelligent air conditioner and the movement of the front panel of the intelligent air conditioner both include the upper One of Move, Move Down, Move Forward, and Move Back. In this way, the more content the device control parameters include, the better the control accuracy of the intelligent air-conditioning device will be improved.

103. Control the smart air conditioner in the current area to work based on the generated device control parameters.

It can be seen that implementing the correction method described in Figure 1 can automatically generate targeted device control parameters for intelligent air-conditioning equipment through the collected information of the current area, such as environmental information, personnel categories, etc., and automatically based on the generated device control parameters. Controlling the work of intelligent air-conditioning equipment can improve the control intelligence of intelligent air-conditioning equipment and meet the needs of different types of people for environmental comfort. There is no need for users to manually control intelligent air-conditioning equipment. Even when the user is sleeping, it can also provide users with accurate information. The comfortable environment improves the user experience; by accurately controlling the intelligent air-conditioning equipment according to the current area's environmental information and personnel information (such as personnel category), it can also reduce the waste of power resources.

In an optional embodiment, according to the content included in the determined information of the current area, generating device control parameters that match the information of the current area includes:

According to the content included in the determined information of the current area, determine the perception information that matches the personnel in the current area, and the perception information that matches the personnel in the current area includes the comfortable perceived temperature that matches the personnel in the current area;

According to the content included in the perception information matched with the personnel in the current area, the device control parameters matched with the information of the current area are generated.

In this optional embodiment, the device control parameters matched with the information of the current area include environment control parameters. Further, the perceived information matched with the personnel in the current area also includes the perceived wind conditions matched with the personnel in the current area. At this time, the device control parameters matched with the information in the current area also include wind speed control parameters and/or wind mode control parameter.

In this optional embodiment, the comfortable perceived temperature matched with the people in the current area includes an initial comfortable perceived temperature matched with the people in the current area or the comfortable perceived temperature of the intelligent air conditioner during operation. Among them, different categories of personnel correspond to different comfortable perception temperatures, for example, the relationship between the comfort perception temperature T1 of adult men, the comfort perception temperature T2 of adult women, and the comfort perception temperature T3 of children is T2>T1>T3. Further, different solar term types correspond to different comfortable perceived temperatures, and the corresponding comfortable perceived temperature in winter is lower than the corresponding comfortable perceived temperature in summer, for example: in summer, the corresponding comfortable perceived temperature of adult women is 27.5°C; The comfortable perceived temperature is 24.5°C. Furthermore, different ambient humidity corresponds to different comfortable perception temperature, such as: the environment moderate is 55% RH, the comfortable perception temperature of adult women is 27.5°C, the environment moderateness is 85% RH, the comfortable perception temperature of adult women is 25.5°C .

It can be seen that this optional embodiment can realize the generation of equipment control parameters of intelligent air-conditioning equipment through the perception information of people in the current area, such as comfortable perceived temperature, etc., and improve the generation accuracy of equipment control parameters of intelligent air-conditioning equipment, thereby Personalize the matching comfortable environment for the people in the current area.

In another optional embodiment, according to the content included in the determined information of the current area, determining the perception information matching the personnel in the current area includes:

When the number of personnel categories in the current area is greater than 1, calculate the average comfortable perceived temperature of the comfortable perceived temperature corresponding to each personnel category in the current area as the perception information matching the personnel in the current area; or,

When the number of personnel categories in the current area is greater than 1 and the smart air-conditioning equipment in the current area includes multiple air outlet areas, determine that the comfortable perceived temperature corresponding to each personnel category in the current area is the perception information that matches the personnel in the current area, and Each air outlet area of the smart air-conditioning equipment in the current area has the perception information of the corresponding personnel category; or,

When the number of personnel categories in the current area is greater than 1 and the number of personnel categories in the current area is an odd number, determine the comfort perception temperature corresponding to all personnel categories in the current area, and filter the temperature value from the comfort perception temperature corresponding to all personnel categories. a comfortable perceived temperature of the median value as perceived information matched to the occupants of the current zone; or,

When the number of personnel categories in the current area is greater than 1, determine the sensitivity of the personnel of each personnel category in the current area to the information, and select the personnel category corresponding to the maximum sensitivity from the sensitivities corresponding to all personnel categories (such as the child category etc.) matching comfortable perceived temperature, as the perceived information matched with the personnel in the current area, the information includes temperature and/or dust.

For example, area A has personnel category a and personnel category b, and the comfortable perceived temperature corresponding to personnel category a is 28.9°C, and the comfortable perceived temperature corresponding to personnel category b is 27.5°C, then the comfortable perceived temperature matching area A is (28.9°C + 27.5°C) ÷ 2 = 28.2°C; or when the smart air conditioner in area A has two independent air outlet areas c1 and c2, then 28.9°C and 27.5°C are comfortable perceived temperatures that match area A, and The air outlet area c1 corresponds to 28.9°C, and c2 corresponds to 27.5°C; or, when area A also includes d personnel category, and the comfortable perceived temperature corresponding to d personnel category is 26.5°C, then the comfortable perceived temperature matching area A is 27.5°C; Or, if category d is the most sensitive to temperature, the comfortable perceived temperature matching area A is 26.5°C.

It can be seen that in this optional embodiment, when there are multiple categories of personnel in the current area, the average comfort temperature of all categories of personnel is calculated, or the comfort temperature of multiple categories of personnel is calculated when the smart air conditioner has multiple air outlet areas. Perceived temperature or when there are an odd number of categories in the current area, the comfortable perceived temperature whose value is the middlemost or the comfortable perceived temperature corresponding to the personnel category most sensitive to temperature and/or dust is used as the comfortable perceived temperature matching the personnel in the current area ( That is, as a temperature control parameter for generating intelligent air-conditioning equipment), the efficiency of determining the comfortable perceived temperature matched with the personnel in the current area is improved, and the intelligent function of the automatic control device is enriched.

In yet another optional embodiment, according to the content included in the determined information of the current area, determining the perception information matching the personnel in the current area includes:

When the number of personnel categories in the current area is greater than 1, it is judged whether the smart air-conditioning equipment in the current area is in a working state;

When it is judged that the smart air conditioner in the current area is in the working state, determine the working mode of the smart air conditioner in the current area, and determine whether the working mode of the smart air conditioner in the current area is used to indicate that the current work of the smart air conditioner in the current area is Alternate work. Alternate work is used to indicate the preset duration corresponding to the smart air-conditioning equipment in the current area working in turn at the comfortable perceived temperature corresponding to each personnel category in all personnel categories, wherein each personnel category has a corresponding preset duration;

When the judgment result is yes, determine the number of rotations of the comfortable perceived temperature corresponding to each personnel category within the interval between the initial working time and the current working time of the smart air-conditioning equipment in the current area working in the working mode;

Calculate the average comfortable temperature corresponding to the comfortable perceived temperature of all personnel categories according to the number of rotations of the comfortable perceived temperature corresponding to each personnel category and the comfortable perceived temperature corresponding to each personnel category, as the perception information matching the personnel in the current area .

In this optional embodiment, optionally, when the number of shift work corresponding to the comfortable perception temperature corresponding to each personnel category reaches the preset number of work (such as 4 times, etc.), trigger the execution of the above-mentioned correspondence according to each personnel category. Calculate the average comfort temperature corresponding to the comfort temperature of all personnel categories, as the operation of matching the perception information of the personnel in the current area.

In this optional embodiment, optionally, when the number of personnel categories in the current area is greater than 1 and is an odd number and the number of shifts corresponding to the comfortable perceived temperature of each personnel category reaches the preset number of operations (such as 4 times etc.), the comfortable perceived temperature in the middle value is used as the perceived information matching the personnel in the current area.

For example, there are personnel category a and personnel category b in area A, and the comfortable perceived temperature corresponding to personnel category a is 28.9°C, and the comfortable perceived temperature corresponding to personnel category b is 27.5°C, the smart air conditioner first works at 28.9°C for 10 minutes , and then work at 27.5°C for 10 minutes, and continue to work alternately at 28.9°C and 27.5°C. If 28.9°C is turned 5 times and 27.5°C is turned 4 times, the comfortable perceived temperature matching the A area is (28.9°C*5+ 27.5°C*4)÷9≈28.3°C.

It can be seen that in this optional embodiment, when there are multiple personnel categories in the current area and the intelligent air-conditioning equipment is in the working state, the work of combining the comfortable perceived temperature corresponding to each personnel category with the comfortable perceived temperature corresponding to each personnel category The number of times determines the final comfortable perceived temperature matched by the current area personnel, which can improve the accuracy of obtaining the comfortable perceived temperature matching the current area personnel, thereby improving the accuracy of obtaining the comfortable temperature that meets different types of personnel.

In yet another optional embodiment, the personnel information in the current area also includes the personnel position corresponding to each personnel type; the method may also include the following operations:

According to the personnel position corresponding to each personnel type, determine the air outlet area matching the personnel position corresponding to each personnel type from the multiple air outlet areas of the smart air-conditioning equipment in the current area;

Wherein, according to the content included in the determined information of the current area, generate device control parameters matching the information of the current area, including:

According to the content included in the determined information of the current area and the wind outlet area matched with the position of the person corresponding to each type of person, the device control parameters corresponding to the air outlet area matched with the position of the person corresponding to each type of person are generated.

In this optional embodiment, the total air outlet area of the intelligent air conditioner is composed of multiple air outlet areas, and each air outlet area has a corresponding front panel and wind deflector, and each air outlet area can be independently controlled of. This facilitates matching comfort for different types of people.

For example, there are two air outlet areas in the smart air conditioner, which are air outlet areas A1 and A2 respectively, and personnel of type a are close to the air outlet area A1, and personnel of type b are close to the air outlet area A2, then the air outlet area A1 is used to provide a comfortable environment for personnel of category a, and the air outlet area A2 is used to provide a comfortable environment for personnel of category b.

It can be seen that in this optional embodiment, the device control parameters of the smart air conditioner can be generated by combining the environmental information and personnel information of the current area with the air outlet area of the smart air conditioner matched with the position of the person corresponding to the different personnel categories, which can further improve the intelligence. The generation accuracy of the equipment control parameters of the air-conditioning equipment can provide a comfortable environment for different types of personnel, and further enrich the intelligent functions of the automatic control equipment.

In yet another optional embodiment, the method may also include the following operations:

Judging whether to receive feedback information on the current working conditions of the smart air-conditioning equipment;

When it is judged that the feedback information on the current working condition of the smart air conditioner is received, the device control parameters of the working mode corresponding to the current work of the smart air conditioner are corrected according to the received feedback information, and the corrected device control of the smart air conditioner is obtained Parameters; wherein, the corrected device control parameters of the smart air conditioner include the corrected temperature control parameters of the smart air conditioner, and the corrected temperature control parameters of the smart The temperature control parameter for the next startup of the air conditioner.

In this optional embodiment, optionally, the feedback information may include information uploaded by a user terminal worn on the person (such as: a smart bracelet, etc.) and/or information reported by a person in the current area, wherein the user terminal uploads The information includes, but is not limited to, one or more of sleep quality, body surface temperature, heart rate, metabolism, and sleep stages. The information reported by the personnel in the current area includes but is not limited to one or more of the felt temperature feedback information, the felt wind speed feedback information, and the felt wind outlet direction of the smart air conditioner. Among them, the information reported by the personnel in the current area includes one or more combinations of voice reporting, reporting through the remote control device of the smart air conditioner, and directly touching the smart air conditioner. Further, the feedback information also includes information about the last work of the smart air conditioner or the current work, such as: horizontal cooling, global air cooling, environmental information, and the like. In this way, the more content the feedback information includes, the more it is beneficial to improve the correction accuracy of the equipment control parameters of the intelligent air conditioner. It should be noted that the time for personnel to input feedback information may include any time after the smart air conditioner enters the target working mode, or any time after the smart air conditioner ends the target working mode, which is not limited in this embodiment of the present invention.

In this optional embodiment, optionally, the corrected device control parameters of the intelligent air conditioner further include corrected wind speed control parameters and/or air outlet mode control parameters of the smart air conditioner. The more equipment control parameters corrected in this way, the more conducive to improving the control accuracy of intelligent air-conditioning equipment, thereby providing a more accurate and comfortable environment for personnel.

It can be seen that in this optional embodiment, when the smart air conditioner is working in the corresponding working mode or when the smart air conditioner ends the corresponding working mode, the device control parameters of the smart air conditioner are corrected again in combination with the feedback of the current work of the smart air conditioner, It is possible to obtain more accurate equipment control parameters of intelligent air-conditioning equipment, thereby further providing personnel with a more comfortable and comfortable environment.

In yet another optional embodiment, the method may also include the following operations:

When it is detected that the person in the current area is on the bed or on the couch, the physiological information sent by the user terminal of the person in the current area is obtained, and according to the obtained physiological information, it is judged whether the person in the current area is in a sleep state;

When it is determined that the people in the current area are starting to fall asleep, the above operation of controlling the smart air conditioner in the current area to work based on the generated device control parameters is performed.

In this optional embodiment, the physiological information of the people in the current area includes but not limited to at least one of metabolic rate, heart rate, respiratory rate, and eyes closed or not closed. And the physiological information of the people in the current area is reported through the smart wearable devices worn by the people in the current area.

It can be seen that this optional embodiment determines the current state of the person by combining the parameters reported by the smart wearable device worn by the person, and executes the subsequent sleep control mode of the smart air conditioner when it is in the sleep state, which can improve the sleep quality of the smart air conditioner. The control accuracy of the control mode, so as to provide a matching sleeping environment for the people in the current area.

Embodiment two

Please refer to FIG. 2 . FIG. 2 is a schematic flowchart of another automatic control method for an intelligent air conditioner disclosed in an embodiment of the present invention. Wherein, the method described in FIG. 2 can be applied to the automatic control device of the intelligent air conditioner, and the automatic control device of the intelligent air conditioner can include the server corresponding to the intelligent air conditioner or the intelligent air conditioner, wherein, the automatic control device of the intelligent air conditioner It can communicate with user terminals and/or other smart devices in the current area (such as: smart sweeping equipment, smart image acquisition devices, etc.), where the user terminals include but are not limited to smart wearable devices (such as smart sports bracelets, etc.) and /or smartphone (Android phone, iOS phone, etc.). As shown in Figure 2, the automatic control method of the intelligent air conditioner may include the following operations:

201. Collect information of the current area, the information of the current area includes personnel information of the current area and environment information of the current area, the information of the personnel of the current area includes the type of personnel of the current area.

202. When the personnel of the personnel category in the current area is in a non-sleeping state, collect the personnel activity situation corresponding to the personnel category.

In this embodiment of the present invention, optionally, the non-sleeping state includes one of a leisure state, a working state, and an intensive labor state. Among them, the leisure state refers to the state where the person is in a sitting position that does not require physical strength and uses the brain lightly, such as reading, watching movies, etc.; the working state refers to the state where the person is in a sitting position that requires light physical strength and uses the brain intensively, such as writing articles and analyzing data, etc.; strong The working state refers to the state where the person is standing and requires more physical strength, such as doing housework and exercising.

203. Determine the metabolic condition corresponding to the personnel category according to the collected personnel activity conditions corresponding to the personnel category.

In the embodiment of the present invention, optionally, for the same personnel category, different personnel activity conditions correspond to different metabolic conditions, and different metabolic conditions correspond to different comfortable perceived temperatures, that is, correspond to different equipment control parameters of intelligent air conditioners. Among them, the comfortable perceived temperature corresponding to the leisure state, working state and intensive labor state decreased in turn.

204. Generate device control parameters that match the current area information according to the metabolic condition corresponding to the person category and the content included in the determined current area information.

205. Control the smart air conditioner in the current area to work based on the generated device control parameters.

In the embodiment of the present invention, it should be noted that, for other related descriptions of step 201, step 204 and step 205, please refer to the detailed description of step 101-step 103 in the first embodiment, which will not be repeated in this embodiment of the present invention.

It can be seen that the embodiment of the present invention can also combine the environmental information and personnel information of the current area with the metabolism of personnel activities in the current area to generate dynamic equipment control parameters of the smart air conditioner, which can further improve the dynamic equipment control parameters of the smart air conditioner. Generate accuracy, thereby improving the dynamic control accuracy of intelligent control equipment, providing personnel with a more accurate and comfortable environment, and further enhancing the user experience.

It can be seen that implementing the correction method described in Figure 2 can automatically generate targeted device control parameters for intelligent air-conditioning equipment through the collected information of the current area, such as environmental information, personnel categories, etc., and automatically based on the generated device control parameters. Controlling the work of intelligent air-conditioning equipment can improve the control intelligence of intelligent air-conditioning equipment and meet the needs of different types of people for environmental comfort. There is no need for users to manually control intelligent air-conditioning equipment. Even when the user is sleeping, it can also provide users with accurate information. The comfortable environment improves the user experience; by accurately controlling the intelligent air-conditioning equipment according to the current area's environmental information and personnel information (such as personnel category), it can also reduce the waste of power resources.

In an optional embodiment, the method may also include the following operations:

Collect the air outlet speed of the smart air-conditioning equipment in the current area, and query the average comfortable perceived temperature matching the personnel category according to the personnel category;

In this optional embodiment, optionally, according to the metabolic condition corresponding to the person category and the content included in the determined information of the current area, generate device control parameters that match the information of the current area, including:

According to the metabolic condition corresponding to the personnel category, the air output speed of the smart air-conditioning equipment in the current area, the average comfortable perceived temperature matched by the personnel category, and the content included in the determined information of the current area, generate equipment control parameters that match the information of the current area .

In this optional embodiment, different personnel categories correspond to different average comfortable perceived temperatures. And regardless of the type of solar term, the comfortable perceived temperature corresponding to the same personnel category increases with the increase of the wind speed, and finally tends to be stable. And the comfort perception temperature corresponding to different personnel categories has a corresponding relationship, for example: the comfort perception temperature corresponding to adult men is Tm, the comfort perception temperature corresponding to adult women is Tf, the comfort perception temperature corresponding to the elderly is Ts, and the comfort perception temperature corresponding to children is Ts The temperature is Tk. In summer and the wind speed of the smart air conditioner is 0.2m/s, Tf>Ts>Tk>Tm. In the leisure state, Ts=Tf-0.1℃, Tk=Tf-0.5℃, Tm=Tf -0.8°C; in winter and when the wind speed of the smart air conditioner is 0.2m/s, Tm>Tf>Ts>Tk, that is, in winter and leisure state, Tf=Tm-0.7°C, Ts=Tm-1°C , Tk=Tm-1.4°C.

It can be seen that this optional embodiment can further combine the air outlet speed of the smart air conditioner to generate the device control parameters of the smart air conditioner, and can further improve the accuracy of generating the device control parameters of the smart air conditioner, thereby further providing personnel in the current area with More appropriate comfort environment.

In another optional embodiment, the method may also include the following steps:

Set the corresponding weight value for each content included in the information of the current area according to the personnel category of the current area;

In this optional embodiment, optionally, according to the content included in the determined information of the current area, generate device control parameters that match the information of the current area, including:

According to the content included in the information of the current area and the weight value corresponding to each content included in the information of the current area, a device control parameter matching the information of the current area is generated.

In this optional embodiment, optionally, the metabolic condition corresponding to the personnel category and/or the personnel position and/or wind speed corresponding to the personnel category may be combined to generate device control parameters that match information in the current area.

In this optional embodiment, different personnel categories have different weight values corresponding to each content included in the collected information of the current area, but the sum of the weight values corresponding to each content included in the information of the current area Both are equal to 1. For example, if the physique category is a cold physique category, the weight value corresponding to the corresponding ambient temperature is greater than the weight value corresponding to the non-cold physique category; at the same age, the gender category is the female category, and the corresponding weight value corresponding to the ambient temperature is greater than The physique category is the weight value corresponding to the male physique category.

It can be seen that this optional embodiment can assign corresponding weight values to the content included in the information for determining the current area according to different types of personnel, and can improve the setting accuracy of the weight values corresponding to the corresponding personnel categories, and further combine the current area The information includes the weight value corresponding to the content distribution and the collected information, which can generate the equipment control parameters of the smart air-conditioning equipment suitable for the category of personnel, thereby providing a precise and comfortable environment for the personnel of the corresponding category, and further improving the user experience. feel.

The following takes the current area as the room, and the smart air conditioner has two independent air outlet areas. The current area is a father and a 5-year-old son who are both in a sleeping state for example:

As shown in Figure 6, Figure 6 is a schematic diagram of a scene according to an embodiment of the present invention. The areas are the air outlet area 1 and the air outlet area 2 respectively, wherein the air outlet area 1 is close to the son's position, and the air outlet area 2 is close to the father's position. At this time, the current solar term is summer, the son’s corresponding comfortable perceived temperature is 26.5°C, the father’s corresponding comfortable perceived temperature is 25.8°C, the ambient humidity in the room is 67% RH, and the ambient temperature is 26.7°C. At this time, the air outlet area The output temperature of 1 is 26.5°C, and the output temperature of air outlet area 2 is 25.8°C. Continue to monitor environmental information such as ambient temperature and environmental moderateness in the room, physiological information such as body temperature, respiratory rate, and heart rate of the father and son, and neither the father nor the son is covered with a quilt. 4:00-6:00 in the morning), and the temperature control parameter of the intelligent air conditioner corresponding to this deep sleep stage is 28.5°C, but it is detected that the body temperature of the father and/or son are 37.5°C and 37.2°C respectively, and they are sweating a little , and the ambient temperature in the room is 27.1°C, and the ambient temperature is 51% RH, then the output temperature of the air outlet area 1 will be automatically adjusted to 26.1°C, and the output temperature of the air outlet area 2 will be 25.4°C, and the information in the room will continue to be monitored. And adjust the device control parameters of the smart air-conditioning device according to the monitored information to provide a comfortable environment for the father and son.

Embodiment Three

Please refer to FIG. 3 . FIG. 3 is a schematic structural diagram of an automatic control device for an intelligent air conditioner disclosed in an embodiment of the present invention. Wherein, the device described in FIG. 3 may include smart air-conditioning equipment or a server corresponding to the smart air-conditioning equipment, wherein the automatic control device of the smart air-conditioning equipment may communicate with the user terminal and/or other smart devices in the current area (such as: smart sweeping equipment, Intelligent image acquisition equipment, etc.) for communication connection, wherein, user terminals include but not limited to smart wearable devices (such as smart sports bracelets, etc.) and/or smart phones (Android phones, iOS phones, etc.). As shown in Figure 3, the device may include:

The collection module 301 is configured to collect information of the current area, the information of the current area includes personnel information of the current area and environment information of the current area, the information of the personnel of the current area includes the type of personnel of the current area.

The generating module 302 is configured to generate device control parameters matching the information of the current area according to the content included in the determined information of the current area.

The control module 303 is configured to control the smart air conditioner in the current area to work based on the generated device control parameters.

In the embodiment of the present invention, optionally, the personnel category of the current area includes one or more combinations of gender category, age group category, and physical fitness category; the environmental information of the current area includes the environmental temperature of the current area, the environmental temperature of the current area One or more combinations of humidity, the concentration of key gases in the current area, and the odor of the current area;

Further, the information of the current region also includes the solar term information of the current region, wherein the solar term information of the previous region includes the solar term type of the current region, and the solar term type of the current region includes the summer type, spring type, winter type and autumn type of the current region. one of the

It can be seen that the automatic control device implementing the intelligent air-conditioning equipment described in Figure 3 automatically generates targeted equipment control parameters for the intelligent air-conditioning equipment through the collected information of the current area, such as environmental information and personnel categories, and automatically generates based on the generated Device control parameters dynamically control the work of smart air conditioners, which can improve the control intelligence of smart air conditioners and meet the needs of different types of people for environmental comfort. There is no need for users to manually control smart air conditioners, even when users are sleeping. The user provides an accurate and comfortable environment, which improves the user experience; by accurately controlling the intelligent air-conditioning equipment according to the current regional environmental information and personnel information (such as personnel category), it can also reduce the waste of power resources.

In an optional embodiment, as shown in FIG. 4, the generation module 302 includes:

The determining sub-module 3021 is configured to determine the perception information matching the personnel in the current region according to the content included in the determined information of the current region, the perception information matching the personnel in the current region includes the comfortable perceived temperature matching the personnel in the current region .

The generating sub-module 3022 is configured to generate device control parameters matching the information of the current area according to the content included in the perception information matching the personnel in the current area.

It can be seen that the implementation of the automatic control device of the intelligent air-conditioning equipment described in Figure 4 can realize the generation of equipment control parameters of the intelligent air-conditioning equipment through the perception information of the personnel in the current area, such as comfortable perceived temperature, and improve the equipment control of the intelligent air-conditioning equipment. The generation accuracy of the parameters, so as to provide the personnel in the current area with a matching comfortable environment.

In yet another optional embodiment, as shown in FIG. 4 , the determining submodule 3021 determines the perception information matching the personnel in the current area according to the content included in the determined information of the current area as follows:

When the number of personnel categories in the current area is greater than 1, calculate the average comfortable perceived temperature of the comfortable perceived temperature corresponding to each personnel category in the current area as the perception information matching the personnel in the current area; or,

When the number of personnel categories in the current area is greater than 1 and the smart air-conditioning equipment in the current area includes multiple air outlet areas, determine that the comfortable perceived temperature corresponding to each personnel category in the current area is the perception information that matches the personnel in the current area, and Each air outlet area of the smart air-conditioning equipment in the current area has the perception information of the corresponding personnel category; or,

When the number of personnel categories in the current area is greater than 1 and the number of personnel categories in the current area is an odd number, determine the comfort perception temperature corresponding to all personnel categories in the current area, and filter the temperature value from the comfort perception temperature corresponding to all personnel categories. a comfortable perceived temperature of the median value as perceived information matched to the occupants of the current zone; or,

When the number of personnel categories in the current area is greater than 1, determine the sensitivity of the personnel of each personnel category in the current area to information, and select the comfort perception of the personnel category corresponding to the maximum sensitivity from the sensitivities corresponding to all personnel categories Temperature, as perception information matched with people in the current area, this information includes temperature and/or dust.

It can be seen that the automatic control device for implementing the intelligent air-conditioning equipment described in FIG. 4 can also be used when there are multiple categories of personnel in the current area, by using the average comfortable perceived temperature of all personnel categories or when the intelligent air-conditioning equipment has multiple air outlet areas. Under the circumstances, the comfortable perceived temperature of multiple personnel categories or the comfortable perceived temperature with the value in the middle when there are an odd number of categories in the current area, or the comfortable perceived temperature corresponding to the personnel category most sensitive to temperature and/or dust as the current The comfortable perceived temperature matched by the personnel in the area (that is, used as a temperature control parameter for generating intelligent air-conditioning equipment) improves the determination efficiency of the comfortable perceived temperature matched with the personnel in the current area, and enriches the intelligent functions of the automatic control device.

In yet another optional embodiment, as shown in FIG. 4 , the determining submodule 3021 determines the perception information matching the personnel in the current area according to the content included in the determined information of the current area as follows:

When the number of personnel categories in the current area is greater than 1, it is judged whether the smart air-conditioning equipment in the current area is in a working state;

When it is judged that the smart air conditioner in the current area is in the working state, determine the working mode of the smart air conditioner in the current area, and determine whether the working mode of the smart air conditioner in the current area is used to indicate that the current work of the smart air conditioner in the current area is Alternate work. Alternate work is used to indicate the preset duration corresponding to the smart air-conditioning equipment in the current area working in turn at the comfortable perceived temperature corresponding to each personnel category in all personnel categories, wherein each personnel category has a corresponding preset duration;

When the judgment result is yes, determine the number of rotations of the comfortable perceived temperature corresponding to each personnel category within the interval between the initial working time and the current working time of the smart air-conditioning equipment in the current area working in the working mode;

Calculate the average comfortable temperature corresponding to the comfortable perceived temperature of all personnel categories according to the number of rotations of the comfortable perceived temperature corresponding to each personnel category and the comfortable perceived temperature corresponding to each personnel category, as the perception information matching the personnel in the current area .

It can be seen that the automatic control device implementing the intelligent air-conditioning equipment described in FIG. 4 can also combine the comfortable perceived temperature corresponding to each personnel category with the The number of jobs corresponding to the comfortable perceived temperature of the category determines the final comfortable perceived temperature matched by the personnel in the current area, which can improve the accuracy of obtaining the comfortable perceived temperature matching the personnel in the current area, thereby improving the acquisition of the comfortable temperature that meets the requirements of different categories of personnel accuracy.

In yet another optional embodiment, the personnel information in the current area also includes a personnel location corresponding to each personnel type. And, as shown in Figure 4, the device also includes:

The first determination module 304 is configured to determine the air outlet area that matches the location of the person corresponding to each type of person from the multiple air outlet areas of the smart air conditioner in the current area according to the location of the person corresponding to each type of person.

Wherein, the generating module 302 generates the device control parameters matching the information of the current area according to the content included in the determined information of the current area as follows:

According to the content included in the determined information of the current area and the wind outlet area matched with the position of the person corresponding to each type of person, the device control parameters corresponding to the air outlet area matched with the position of the person corresponding to each type of person are generated.

It can be seen that the automatic control device implementing the intelligent air-conditioning equipment described in Figure 4 can also generate intelligent air-conditioning equipment by combining the environmental information and personnel information of the current area with the air outlet area of the intelligent air-conditioning equipment matched with the positions of personnel corresponding to different personnel categories. The equipment control parameters can further improve the generation accuracy of the equipment control parameters of the intelligent air-conditioning equipment, thereby providing a comfortable environment for different types of personnel, and further enriching the intelligent functions of the automatic control equipment.

In yet another optional embodiment, as shown in FIG. 4 , the acquisition module 301 is further configured to generate device control parameters that match the information of the current area in the generation module 302 according to the content included in the determined information of the current area Before, when the personnel of the personnel category in the current area were in a non-sleeping state, the personnel activity corresponding to the personnel category was collected.

And, as shown in Figure 4, the device also includes:

The second determination module 305 is configured to determine the metabolic condition corresponding to the personnel category according to the collected personnel activity conditions corresponding to the personnel category.

Wherein, the generating module 302 generates the device control parameters matching the information of the current area according to the content included in the determined information of the current area as follows:

According to the metabolic condition corresponding to the person category and the content included in the determined information of the current area, the device control parameters matching the information of the current area are generated.

It can be seen that implementing the automatic control device of the intelligent air-conditioning equipment described in FIG. 4 can also generate dynamic equipment control parameters of the intelligent air-conditioning equipment by combining the environmental information and personnel information of the current area with the metabolism of personnel activities in the current area, which can further improve The generation accuracy of dynamic equipment control parameters of intelligent air-conditioning equipment can improve the dynamic control accuracy of intelligent control equipment, provide personnel with a more accurate and comfortable environment, and further enhance the user experience.

In yet another optional embodiment, as shown in FIG. 4 , the collection module 301 is also used to collect the wind speed of the smart air-conditioning equipment in the current area, and query the average comfortable perceived temperature matching the personnel category according to the personnel category.

Wherein, the generation module 302 generates the device control parameters matching the information of the current area according to the metabolic condition corresponding to the person category and the content included in the determined information of the current area as follows:

According to the metabolic condition corresponding to the personnel category, the air output speed of the smart air-conditioning equipment in the current area, the average comfortable perceived temperature matched by the personnel category, and the content included in the determined information of the current area, generate equipment control parameters that match the information of the current area .

It can be seen that implementing the automatic control device of the intelligent air-conditioning equipment described in FIG. 4 can further generate equipment control parameters of the intelligent air-conditioning equipment in combination with the wind speed of the intelligent air-conditioning equipment, and can further improve the generation accuracy of the equipment control parameters of the intelligent air-conditioning equipment. Thereby further providing a more appropriate comfortable environment for the personnel in the current area.

In yet another optional embodiment, as shown in Figure 4, the device also includes:

A judging module 306, configured to judge whether feedback information on the current working conditions of the smart air conditioner is received.

The correction module 307 is used to correct the device control parameters of the working mode corresponding to the current work of the smart air conditioner according to the received feedback information when the judging module 306 judges that the feedback information for the current working situation of the smart air conditioner is received, to obtain The corrected device control parameters of the smart air-conditioning device; wherein, the corrected device control parameters of the smart air-conditioning device include the corrected temperature control parameters of the smart air-conditioning device, and the corrected temperature control parameters of the smart air-conditioning device include The temperature control parameter at a working time or the temperature control parameter at the next startup of the intelligent air conditioner.

It can be seen that implementing the automatic control device of the intelligent air conditioner described in FIG. 4 can also combine the feedback of the current work of the intelligent air conditioner when the intelligent air conditioner is working in the corresponding work mode or when the intelligent air conditioner ends the corresponding work mode. By correcting the equipment control parameters of the intelligent air-conditioning equipment, more accurate equipment control parameters of the intelligent air-conditioning equipment can be obtained, thereby further providing personnel with a more appropriate comfortable environment.

Embodiment four

Please refer to FIG. 5 . FIG. 5 is a schematic structural diagram of another automatic control device for an intelligent air conditioner disclosed in an embodiment of the present invention. Wherein, the apparatus described in FIG. 5 may include an intelligent air conditioner or a server corresponding to an intelligent air conditioner, wherein the automatic control device of an intelligent air conditioner may communicate with a user terminal, wherein the user terminal includes but is not limited to a smart wearable device ( Such as smart sports bracelets, etc.) and/or smart phones (Android phones, iOS phones, etc.), the embodiments of the present invention are not limited. As shown in Figure 5, the device may include:

A memory 401 storing executable program codes;

a processor 402 coupled to the memory 401;

Further, an input interface 403 and an output interface 404 coupled with the processor 402 may also be included;

Wherein, the processor 402 invokes the executable program code stored in the memory 401 to execute some or all of the steps in the automatic control method for the intelligent air conditioner disclosed in Embodiment 1 or Embodiment 2 of the present invention.

Embodiment five

The embodiment of the present invention discloses a computer storage medium. The computer storage medium stores computer instructions. When the computer instructions are invoked, they are used to execute the automatic control method for the intelligent air-conditioning equipment disclosed in the first or second embodiment of the present invention. A step of.

The device embodiments described above are only illustrative, and the modules described as separate components may or may not be physically separated, and the components shown as modules may or may not be physical modules, that is, they may be located in One place, or it can be distributed to multiple network modules. Part or all of the modules can be selected according to actual needs to achieve the purpose of the solution of this embodiment. It can be understood and implemented by those skilled in the art without any creative efforts.

Through the specific description of the above embodiments, those skilled in the art can clearly understand that each implementation manner can be implemented by means of software plus a necessary general-purpose hardware platform, and of course also by hardware. Based on this understanding, the above-mentioned technical solution essentially or the part that contributes to the prior art can be embodied in the form of a software product, and the computer software product can be stored in a computer-readable storage medium, and the storage medium includes a read-only memory (Read-Only Memory, ROM), random access memory (Random Access Memory, RAM), programmable read-only memory (Programmable Read-only Memory, PROM), erasable programmable read-only memory (Erasable Programmable Read Only Memory, EPROM) , One-time Programmable Read-Only Memory (OTPROM), Electronically Erasable Programmable Read-Only Memory (EEPROM), Compact Disc Read-Only Memory , CD-ROM) or other optical disk storage, magnetic disk storage, magnetic tape storage, or any other computer-readable medium that can be used to carry or store data.

Finally, it should be noted that: the automatic control method and device of an intelligent air-conditioning equipment disclosed in the embodiments of the present invention are only the preferred embodiments of the present invention, and are only used to illustrate the technical solutions of the present invention, not to Restrictions; Although the present invention has been described in detail with reference to the foregoing embodiments, those skilled in the art should understand that it is still possible to modify the technical solutions described in the foregoing embodiments, or perform equivalent replacements for some of the technical features and these modifications or replacements do not make the essence of the corresponding technical solutions depart from the spirit and scope of the technical solutions of the various embodiments of the present invention.

Claims (10)

1. An automatic control method of an intelligent air conditioning device is characterized by comprising the following steps:

acquiring information of a current area, wherein the information of the current area comprises personnel information of the current area and environment information of the current area, and the personnel information of the current area comprises personnel category of the current area;

generating equipment control parameters matched with the information of the current area according to the determined content included by the information of the current area;

and controlling the intelligent air-conditioning equipment in the current area to work based on the generated equipment control parameters.

2. The method as claimed in claim 1, wherein the generating of the device control parameter matching with the information of the current area according to the determined content included in the information of the current area comprises:

determining perception information matched with the personnel in the current area according to the content included in the determined information of the current area, wherein the perception information matched with the personnel in the current area comprises comfortable perception temperature matched with the personnel in the current area;

and generating equipment control parameters matched with the information of the current area according to the content included in the perception information matched with the personnel of the current area.

3. The automatic control method of intelligent air conditioning equipment according to claim 2, wherein said determining perception information matched with the person in the current area according to the determined content included in the information in the current area comprises:

when the number of the personnel categories in the current area is larger than 1, calculating an average comfortable sensing temperature of comfortable sensing temperatures corresponding to each personnel category in the current area as sensing information matched with the personnel in the current area; or,

when the number of the personnel categories of the current area is greater than 1 and the intelligent air-conditioning equipment of the current area comprises a plurality of air outlet areas, determining that the comfortable sensing temperature corresponding to each personnel category of the current area is the sensing information matched with the personnel of the current area, and each air outlet area of the intelligent air-conditioning equipment of the current area has the sensing information of the corresponding personnel category; or,

when the number of the personnel categories of the current area is more than 1 and the number of the personnel categories of the current area is an odd number, determining comfortable sensing temperatures corresponding to all the personnel categories of the current area, and screening the comfortable sensing temperatures with the temperature values at the middle value from the comfortable sensing temperatures corresponding to all the personnel categories to serve as sensing information matched with the personnel of the current area; or,

when the number of the personnel categories in the current area is larger than 1, determining the sensitivity of the personnel of each personnel category in the current area to information, and selecting a comfortable perception temperature matched with the personnel category corresponding to the maximum sensitivity from the sensitivities corresponding to all the personnel categories as perception information matched with the personnel in the current area, wherein the information comprises temperature and/or dust.

4. The automatic control method of intelligent air-conditioning equipment according to claim 2, wherein said determining perception information matched with the person in the current area according to the content included in the determined information of the current area comprises:

when the number of the personnel categories in the current area is more than 1, judging whether the intelligent air-conditioning equipment in the current area is in a working state;

when the intelligent air-conditioning equipment in the current area is judged to be in a working state, determining a working mode of the intelligent air-conditioning equipment in the current area, and judging whether the working mode of the intelligent air-conditioning equipment in the current area is used for indicating that the current working of the intelligent air-conditioning equipment in the current area is alternative working, wherein the alternative working is used for indicating that the intelligent air-conditioning equipment in the current area works for a preset time length corresponding to comfortable sensing temperature corresponding to each personnel category in all the personnel categories in turn, and each personnel category has the corresponding preset time length;

when the judgment result is yes, determining the number of times of the intelligent air-conditioning equipment in the current area working in turn at the comfortable perception temperature corresponding to each personnel category within the interval duration between the initial working time and the current working time of the working mode;

and calculating the average comfortable sensing temperature corresponding to the comfortable sensing temperatures corresponding to all the personnel categories according to the alternate working times of the comfortable sensing temperatures corresponding to all the personnel categories and the comfortable sensing temperatures corresponding to all the personnel categories, and taking the average comfortable sensing temperatures as the sensing information matched with the personnel in the current area.

5. The automatic control method of intelligent air-conditioning equipment according to claim 1, characterized in that the personnel information of the current area further comprises a personnel location corresponding to each of the personnel types;

and, the method further comprises:

determining an air outlet area matched with the personnel position corresponding to each personnel type from a plurality of air outlet areas of the intelligent air conditioning equipment in the current area according to the personnel position corresponding to each personnel type;

the generating of the device control parameter matched with the information of the current area according to the content included in the determined information of the current area includes:

and generating equipment control parameters corresponding to the air outlet area matched with the personnel position corresponding to each personnel type according to the content included in the determined information of the current area and the air outlet area matched with the personnel position corresponding to each personnel type.

6. The automatic control method of intelligent air-conditioning equipment according to claim 1, wherein before generating the equipment control parameter matched with the information of the current area according to the determined content included in the information of the current area, the method further comprises:

when the personnel of the personnel category in the current area are in a non-sleep state, acquiring personnel activity conditions corresponding to the personnel category, and determining metabolic conditions corresponding to the personnel category according to the acquired personnel activity conditions corresponding to the personnel category;

the generating of the device control parameter matched with the information of the current area according to the content included in the determined information of the current area includes:

and generating equipment control parameters matched with the information of the current area according to the metabolic condition corresponding to the personnel category and the determined content included in the information of the current area.

7. The automatic control method of intelligent air-conditioning equipment according to claim 6, characterized in that said method further comprises:

acquiring the air outlet speed of the intelligent air conditioning equipment in the current region, and inquiring the average comfortable perception temperature matched with the personnel category according to the personnel category;

generating equipment control parameters matched with the information of the current area according to the metabolic condition corresponding to the personnel category and the determined content included in the information of the current area, wherein the generating equipment control parameters comprises the following steps:

and generating equipment control parameters matched with the information of the current area according to the metabolic condition corresponding to the personnel category, the air outlet speed of the intelligent air conditioning equipment of the current area, the average comfortable perception temperature matched with the personnel category and the determined content included by the information of the current area.

8. The automatic control method of an intelligent air-conditioning apparatus according to any one of claims 1 to 7, characterized by further comprising:

judging whether feedback information aiming at the working condition of the intelligent air-conditioning equipment is received or not;

when judging that feedback information aiming at the current working condition of the intelligent air-conditioning equipment is received, correcting the equipment control parameters of the working mode corresponding to the current working of the intelligent air-conditioning equipment according to the received feedback information to obtain the corrected equipment control parameters of the intelligent air-conditioning equipment; the corrected equipment control parameters of the intelligent air-conditioning equipment comprise corrected temperature control parameters of the intelligent air-conditioning equipment, and the corrected temperature control parameters of the intelligent air-conditioning equipment comprise temperature control parameters of the intelligent air-conditioning equipment at the next working moment or temperature control parameters of the intelligent air-conditioning equipment started next time.

9. An automatic control device of an intelligent air conditioner, characterized in that the device comprises:

the system comprises an acquisition module, a display module and a display module, wherein the acquisition module is used for acquiring information of a current area, the information of the current area comprises personnel information of the current area and environment information of the current area, and the personnel information of the current area comprises personnel category of the current area;

the generating module is used for generating equipment control parameters matched with the information of the current area according to the determined content included in the information of the current area;

and the control module is used for controlling the intelligent air conditioning equipment in the current area to work based on the generated equipment control parameters.

10. An automatic control device of an intelligent air conditioning equipment, characterized in that the device comprises:

a memory storing executable program code;

a processor coupled with the memory;

the processor calls the executable program code stored in the memory to execute the method for determining the human body parameter of the user according to any one of claims 1 to 8.

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