CN114963472A - Air conditioning equipment coordinated control system - Google Patents

Abstract

The invention discloses a linkage control system of air conditioning equipment, which comprises a plurality of air conditioning equipment and a control terminal, wherein the air conditioning equipment comprises a plurality of air conditioning equipment; each air conditioning device is in communication connection with the control terminal; the control terminal is configured with a plurality of linkage operation modes; the linked operation mode may configure the air conditioning device with a first operation setting parameter; the control terminal can select any plurality of the air conditioning equipment in any linkage operation mode, and control the selected air conditioning equipment to start and operate according to the corresponding first operation setting parameters. The invention also discloses an air conditioning device, a server and a control terminal; the air conditioning equipment linkage control system realizes linkage control of each relevant air conditioning equipment when the indoor environment is in a specific scene, improves the starting and operating efficiency of each air conditioning equipment, improves the efficiency of improving the indoor space air quality, and improves the use experience of users.

Description

Air conditioning equipment coordinated control system

Technical Field

The invention relates to the technical field of air conditioning, in particular to an air conditioning equipment linkage control system, air conditioning equipment, a server and a control terminal.

Background

The air conditioning equipment comprises various categories, such as a heat pump air conditioner, an air purifier, a fresh air machine, a total heat exchanger, an oxygenator and the like; the heat pump air conditioner circularly compresses, condenses and evaporates a refrigerant by a heat pump principle to realize heating, refrigerating or dehumidifying of indoor air; the air purifier purifies and sterilizes the air through means of filtering, sterilization and the like; the fresh air machine is a machine or equipment which exchanges indoor air and outdoor air through a fan; the total heat exchanger improves the function of the fresh air machine, exchanges heat between the air discharged from the room and the air introduced into the room, and recovers the heat of the indoor air. Specifically, the heat of the indoor air comprises cold energy and heat energy; namely, the cold energy of the indoor air is recovered in summer, so that the indoor temperature is not obviously increased when the indoor fresh air is changed; in winter, the heat of indoor air is recovered, so that the indoor temperature is not obviously reduced when the indoor fresh air is changed; the full heat exchanger can prevent the comfort level of indoor users from being influenced by sudden drop or rise of the indoor air temperature when indoor fresh air is exchanged; the oxygenator releases oxygen indoors by manufacturing oxygen, so that the oxygen content of indoor air is increased, and the comfort of a user is improved.

With the pursuit of higher and higher comfort of indoor environments, users of indoor devices for installing various air conditioning devices or devices for installing modules equipped with various air conditioning functions have been increasing. Each air conditioning equipment or functional module needs to be opened or closed one by one when the air quality for different purposes is adjusted; for example, a heat pump air conditioner is turned on when cooling or heating is required; turning on the air purifier when the indoor air quality needs to be improved; when the air freshness needs to be rapidly improved, a fresh air fan or a total heat exchanger is turned on; when the oxygen content of the air needs to be increased, the oxygenator is opened, and the like.

However, the indoor air environment is often complicated in a special scene, for example, when a plurality of people smoke or a plurality of people meet or a hot pot has a dinner, the indoor temperature is high, the indoor air quality is poor, and/or the oxygen content is low and needs to be adjusted; in this case, it is not necessary to prepare controllers (possibly remote controllers) of the devices, and parameters need to be set one by one, which is poor in efficiency and experience.

Disclosure of Invention

In order to solve the problems of low opening efficiency and poor user experience of air conditioning equipment when multiple air parameters need to be adjusted in a specific scene in the prior art, the invention provides the air conditioning equipment linkage control system, which realizes linkage control of the opening and operation parameter setting of each air conditioning equipment aiming at the specific scene, improves the opening and operation efficiency of each indoor air conditioning equipment and simultaneously improves the user experience.

In order to achieve the purpose, the invention adopts the following technical scheme:

according to some embodiments of the present invention, an air conditioning equipment linkage control system includes a plurality of air conditioning equipment, a control terminal; each air conditioning device is in communication connection with the control terminal;

the control terminal is configured with a plurality of linkage operation modes; the linked operation mode may configure the air conditioning device with a first operation setting parameter;

the control terminal can select any plurality of the air conditioning equipment in any linkage operation mode, and control the selected air conditioning equipment to start and operate according to the corresponding first operation setting parameters.

The air conditioning equipment linkage control system realizes linkage control of each relevant air conditioning equipment when the indoor environment is in a specific scene, improves the starting and operating efficiency of each air conditioning equipment, improves the efficiency of improving the indoor space air quality, and improves the use experience of users.

According to some embodiments of the invention, the air conditioning apparatus is a heat pump air conditioner, a total heat exchanger.

According to some embodiments of the present invention, the control terminal is a mobile terminal (mobile phone, tablet computer, etc.) or a centralized controller.

According to some embodiments of the invention, the control terminal is in communication connection with the air conditioning equipment through the internet or a local area network or a bus or the internet of things.

According to some embodiments of the invention, the control terminal is connected with the air conditioning device by wireless or wired communication.

According to some embodiments of the invention, the air conditioning equipment linkage control system further comprises a server;

the air conditioning equipment is in communication connection with the server through the Internet; the control terminal is in communication connection with the server through the Internet;

the server is configured with a first corresponding table comprising a corresponding relation between the indoor environment parameters of the linkage operation mode and the first operation setting parameters;

when the control terminal controls the linkage operation mode, the information of the linkage operation mode and the linkage air conditioning equipment is sent to the server; the server inviting the indoor environment parameters to each of the air conditioning devices; the air conditioning equipment detects the indoor environmental parameters and sends the detected indoor environmental parameters to the server; the server configures the first operation setting parameter for the linkage operation mode of the control terminal according to the received indoor environment parameter and the first corresponding table;

the control terminal returns confirmation information to the server after confirming the first operation setting parameter; and the server sends corresponding first operation setting parameters to each linked air conditioning device according to the confirmation information, and controls each air conditioning device to start and operate according to the received first operation setting parameters.

According to some embodiments of the invention, the indoor environmental parameter in the first correspondence table is an indoor temperature.

According to some embodiments of the present invention, when the air conditioning device in communication connection with the server operates at a second operation setting parameter, the air conditioning device detects the indoor environmental parameter and transmits the detected indoor environmental parameter and the corresponding second operation setting parameter to the server; and the server stores the received indoor environment parameters and the corresponding second operation setting parameters, and corrects the first operation setting parameters in the first corresponding table according to the stored data of the indoor environment parameters and the corresponding second operation setting parameters.

According to some embodiments of the invention, each of the indoor environmental parameters in each of the linked operational modes in the first mapping table corresponds to a plurality of the first operational setting parameters with classification flags;

and when the control terminal controls the linkage operation mode, the server sends the selection information of the classification mark to the control terminal according to the received indoor environment parameter and the first corresponding table, and configures the first operation setting parameter to the linkage operation mode of the control terminal according to the selection result of the classification mark fed back by the control terminal.

According to some embodiments of the invention, the categorical indicia includes warmer preferences, cooler preferences.

According to some embodiments of the present invention, when the control terminal receives the first operation setting parameter configured by the server to the linked operation mode of the control terminal, the first operation setting parameter may be modified by the control terminal;

when the first operation setting parameter in the linkage operation mode on the control terminal is modified and confirmed, the modified and confirmed first operation setting parameter is returned to the server; the server controls the starting and the operation of each air conditioning device according to the modified first operation setting parameter and stores a second corresponding table containing the corresponding relation between the indoor environment parameter in the linkage operation mode and the modified first operation setting parameter;

when the control terminal controls the linkage operation mode, if the indoor environment parameters and the linkage operation mode received by the server are contained in the second corresponding table, the server configures the first operation setting parameters for the linkage operation mode of the control terminal according to the second corresponding table.

According to some embodiments of the invention, the control terminal is provided with a stop mode;

and when the control terminal is operated to execute the stop mode, all the linked air conditioning equipment stops running and is shut down.

According to some embodiments of the invention, the server is configured with a plurality of unequal shut-down durations; recording the starting time when controlling the air conditioning equipment to operate in a linkage manner; sending a shutdown reminding message to the control terminal when the startup duration reaches the shutdown duration;

the control terminal returns a shutdown or non-shutdown message according to the shutdown confirmation reminding message; the server determines whether to control the air conditioning equipment to be powered off or not according to the received power-off or power-off message returned by the control terminal;

and when the server receives a shutdown message, controlling the air conditioning equipment to shut down and stopping starting timing.

According to some embodiments of the present invention, when the control terminal determines to execute the shutdown mode, a startup duration is recorded and transmitted to the server; the server corrects each power-off duration according to the collected power-on durations; when the server controls each air conditioning device to operate in the linkage operation mode, recording the operation duration of the linkage operation mode of each air conditioning device, and pushing a shutdown reminding message to the control terminal when the operation duration reaches each shutdown duration.

According to some embodiments of the present invention, when the control terminal confirms the shutdown reminding message and returns a no-more-reminding instruction, the remaining shutdown reminding messages are not pushed any more.

According to some embodiments of the invention, the control terminal is provided with an adding module and a deleting module; adding or deleting the air conditioning equipment according to the name or address by operating the adding module and the deleting module to form an air conditioning equipment list; selecting any one or more air conditioning equipment in the list of air conditioning equipment to form a linkage combination;

the control terminal sends information of each air conditioning device in the linkage combination to the server; and determining the functional configuration of each air conditioning device according to the information of each air conditioning device, and determining the corresponding first operation setting parameter of each air conditioning device according to the functional configuration of each air conditioning device.

According to some embodiments of the present invention, an air conditioning apparatus includes an environmental parameter sensor, a first controller, a first communication module, an actuator;

the environment parameter sensor is used for detecting indoor environment parameters;

the first controller is respectively connected with each environmental parameter sensor and receives the indoor environmental parameters detected by each environmental parameter sensor;

the first communication module is connected with the first controller, and is used for being in communication connection with a control terminal or a server, sending the indoor environment parameters to the control terminal or the server, receiving the first operation setting parameters sent by the control terminal or the server, and transmitting the first operation setting parameters to the first controller;

the execution element is connected with the first controller; and the first controller controls the action or operation of the executing element according to the received first operation setting parameter.

According to some embodiments of the invention, a server comprises a second communication module, a processing module;

the second communication module is used for being in communication connection with the air conditioning equipment and the control terminal respectively, and receiving indoor environment parameters sent by the air conditioning equipment, linkage operation modes sent by the control terminal and information of the linkage air conditioning equipment;

the processing module is connected with the second communication module, receives the information of the indoor environment parameters, the linkage operation mode and the linkage air conditioning equipment received by the second communication module, generates a first corresponding table comprising the corresponding relation between the indoor environment parameters and first operation setting parameters in the linkage operation mode, selects the first operation setting parameters according to the linkage operation mode, the indoor environment parameters and the first corresponding table, transmits the first operation setting parameters to the second communication module, and controls the second communication module to transmit the first operation setting parameters to the control terminal for confirmation and transmit the confirmed first operation setting parameters to the linkage air conditioning equipment.

According to some embodiments of the present invention, a control terminal includes an input module, a second controller, a third communication module;

the input module is used for a user to input a control instruction;

the second controller is connected with the input module, receives the control instruction and determines a linkage operation mode and linkage air conditioning equipment;

the third communication module is connected with the second controller and is used for being in communication connection with each air conditioning equipment or server; the second controller sends a first operation setting parameter to each linked air-conditioning device through the third communication module or sends information of the linked operation mode and the linked air-conditioning devices, receives the first operation setting parameter of the linked operation mode configured by the server and returns confirmation information of the first operation setting parameter.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings needed to be used in the description of the embodiments are briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art to obtain other drawings based on these drawings without creative efforts.

FIG. 1 is a schematic connection diagram of an embodiment of a combined air conditioning system of the present invention;

FIG. 2 is a schematic connection diagram of an embodiment of a combined air conditioning system of the present invention;

FIG. 3 is a schematic connection diagram of an embodiment of a combined air conditioning system of the present invention;

FIG. 4 is a communication schematic of an embodiment of a combined air conditioning unit control system of the present invention;

FIG. 5 is a communication schematic of an embodiment of a combined air conditioning unit control system of the present invention;

FIG. 6 is a communication schematic of an embodiment of a combined air conditioning unit control system of the present invention;

FIG. 7a is a schematic diagram of controlling a smoker mode of an embodiment of a control terminal according to the invention;

FIG. 7b is a schematic diagram of controlling a smoker mode of an embodiment of a control terminal of the invention;

FIG. 7c is a schematic control diagram of a smoker mode of an embodiment of a control terminal of the invention;

fig. 8a is a control diagram of a party mode according to an embodiment of the present invention;

FIG. 8b is a control diagram illustrating a party mode according to an embodiment of the present invention;

fig. 8c is a control diagram of a party mode according to an embodiment of the control terminal of the present invention;

FIG. 9a is a schematic control diagram illustrating a hot pot mode according to an embodiment of the control terminal of the present invention;

FIG. 9b is a control diagram illustrating a hot pot mode according to an embodiment of the control terminal of the present invention;

fig. 9c is a control diagram of a hot pot mode according to an embodiment of the control terminal of the present invention.

Reference numerals:

1. a control terminal; 2. an air conditioning device; 3. and a server.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

In the description of the present invention, it should be noted that the terms "mounted," "connected," and "connected" are to be construed broadly and may be, for example, fixedly connected, detachably connected, or integrally connected unless otherwise explicitly stated or limited. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art. In the foregoing description of embodiments, the particular features, structures, materials, or characteristics may be combined in any suitable manner in any one or more embodiments or examples.

The terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include one or more of that feature. In the description of the present invention, "a plurality" means two or more unless otherwise specified.

According to some embodiments of the present invention, referring to fig. 1 and 2, the air-conditioning-apparatus linkage control system includes a plurality of air-conditioning apparatuses 2, a control terminal 1.

Each of the air-conditioning apparatuses 2 which can participate in the linkage of the same linkage operation mode is installed in the indoor space of the same area, and can adjust different air parameters of the same indoor space.

Each air conditioning device 2 is communicatively connected to the control terminal 1.

The control terminal 1 is configured with a plurality of linked operation modes. The linkage operation mode may simultaneously control a plurality of air-conditioning apparatuses 2 participating in linkage control to be started and operated at specific operation parameters.

Each linkage operation mode is respectively configured with a first operation parameter; and when each air conditioning equipment 2 communicates with the control terminal 1 and the control terminal 1 executes the linkage operation mode, the control terminal 1 controls each air conditioning equipment 2 participating in the linkage control to start and operate with the corresponding first operation setting parameter.

The first operation setting parameters include setting parameters of each air conditioning device 2, such as a setting temperature, an operation mode of cooling or heating or dehumidifying, an air volume, an air outlet flap, whether to purify, whether to sterilize, whether to add oxygen, and the like.

The air conditioning equipment linkage control system of this embodiment realizes executing each relevant air conditioning equipment 2 of corresponding linkage operation mode linkage control when the indoor space environment is in a specific scene through the control terminal 1 that is provided with a plurality of linkage operation modes and the plurality of air conditioning equipment 2 of being connected with control terminal 1 communication, make it start and operate simultaneously or close to start and operate simultaneously according to the first operation setting parameter of configuration, improve the efficiency that each air conditioning equipment 2 opened and operated, not only improve the efficiency of indoor space air quality improvement, and promote user's use experience.

Referring to fig. 1 and 2, the control terminal 1 may be a centralized controller or an intelligent mobile terminal according to some embodiments of the present invention.

When the control terminal 1 is an integrated controller, the control terminal 1 and each air conditioning device 2 may be connected through the internet, a local area network, a bus, or the internet of things. The control terminal 1 and each air conditioning device 2 may be connected in wireless or wired communication.

When the control terminal 1 is an intelligent mobile terminal, the control terminal 1 and each air conditioning device 2 may be connected by wireless communication in the form of bluetooth or WIFF.

According to some embodiments of the present invention, referring to fig. 3, 4, and 5, the air conditioner cooperative control system includes a plurality of air conditioners 2, a control terminal 1, and a server 3.

The air conditioning device 2 comprises at least one ambient parameter sensor for detecting an indoor ambient parameter.

Each air conditioning equipment 2 is respectively connected with the server 3 in a communication way through the internet; the control terminal 1 is connected to the server 3 through the internet. And the practical effect of realizing the communication connection between the control terminal 1 and the air conditioning equipment 2 is achieved through the communication connection between the control terminal 1 and the server 3 and the communication connection between the air conditioning equipment 2 and the server 3.

The control terminal 1 is configured with a plurality of linked operation modes and an air conditioning equipment list in any one of the linked operation modes.

The control terminal 1 selects the air-conditioning equipment 2 participating in linkage from the air-conditioning equipment list in a linkage operation mode, and transmits information of the linkage operation mode and information of the air-conditioning equipment 2 participating in linkage to the server 3.

A first correspondence table including a correspondence relationship between indoor environment parameters and first operation setting parameters in each linkage operation mode is configured in the server 3; when the server 3 receives the linkage operation mode information and the information of the air conditioning devices 2 participating in the linkage, inviting indoor environment parameters to each air conditioning device 2 according to the received information of the air conditioning device 2; the air conditioning equipment 2 participating in linkage detects indoor environment parameters and sends the indoor environment parameters to the server 3 when receiving the invitation information; the server 3 determines a first operation setting parameter configured for the linkage operation mode of the control terminal 1 according to the received indoor environment parameter, the linkage operation mode and the first mapping table, and sends the first operation setting parameter to the control terminal 1.

When receiving the first operation setting parameter configured by the server 3, the control terminal 1 confirms the first operation setting parameter and returns confirmation information; and the server 3 sends control information including the first operation setting parameter to each air conditioning equipment 2 participating in the linkage according to the confirmation information, and controls each air conditioning equipment 2 participating in the linkage to start and operate according to the corresponding parameter of the first operation setting parameter.

The air conditioning equipment linkage control system of the embodiment realizes linkage control by means of the Internet and the control terminal 1 of the mobile intelligent terminal, increases the convenience of user linkage control and saves cost.

According to some embodiments of the invention, the indoor environment parameter in the first correspondence table is an indoor temperature. Namely, the server 3 is provided with a first corresponding table comprising corresponding relations between a plurality of indoor temperatures and first operation setting parameters in each linkage operation mode; and the set temperature in the first operation set parameter is set according to the indoor temperature, so that the indoor user can set different set temperatures under different environmental temperatures, and the comfort of the user is ensured while the indoor air quality is improved.

According to some embodiments of the present invention, referring to fig. 2, the air-conditioning apparatus 2 and the server 3 may be connected by WIFF wireless communication; the control terminal 1 and the server 3 are connected by WIFF wireless communication.

According to the embodiment, the wireless existing communication resources are utilized, so that the cost is saved, the limitation of linkage control is reduced through a wireless communication method, and the user experience is improved.

According to some embodiments of the invention, the connection of the air-conditioning apparatus 2 to the server 3 may be a configuration networking via its own controller or via a bluetooth connection of the air-conditioning apparatus 2 to the control terminal 1.

According to some embodiments of the present invention, referring to fig. 3, 4, 5, and 6, when the air-conditioning apparatus 2 communicatively connected to the server 3 operates at the second operation setting parameter, the indoor environmental parameter is detected, and the detected indoor environmental parameter and the corresponding second operation setting parameter are transmitted to the server 3.

The server 3 receives the indoor environment parameters and the corresponding second operation setting parameters, and performs classified storage according to the indoor environment parameters.

The indoor environment parameters comprise any one or more of indoor temperature, solid particle concentration, harmful gas content and oxygen content, and are classified and stored according to the extreme conditions of the indoor environment parameters.

For example, the method can be classified into a high indoor temperature category, a high solid particulate matter concentration category, a high harmful gas content category, a high carbon dioxide concentration category, a low oxygen content category, and the like.

The server 3 analyzes and summarizes the habit setting parameters corresponding to the specific scene according to the indoor environment parameters and the data of the corresponding second operation setting parameters stored in the category and the operation time period information, and corrects each first operation setting parameter in the linkage operation mode in the first corresponding table, so that the first corresponding table comprising the corresponding relation between the indoor environment parameters and the first operation setting parameters in the linkage operation mode better conforms to the setting habits of most users.

The control terminal 1 selects the air-conditioning equipment 2 participating in linkage in a linkage operation mode, and transmits linkage operation mode information and information of the air-conditioning equipment 2 participating in linkage to the server 3.

When the server 3 receives the linkage operation mode information and the information of the air conditioning devices 2 participating in the linkage, inviting indoor environment parameters to each air conditioning device 2 according to the received information of the air conditioning device 2; the air conditioning equipment 2 participating in linkage detects indoor environment parameters and sends the indoor environment parameters to the server 3 when receiving the invitation information; the server 3 determines a first operation setting parameter configured for the linkage operation mode of the control terminal 1 according to the received indoor environment parameter, the linkage operation mode and the corrected first correspondence table, and sends the first operation setting parameter to the control terminal 1. When receiving the first operation setting parameter configured by the server 3, the control terminal 1 confirms the first operation setting parameter and returns confirmation information; and the server 3 sends control information including the first operation setting parameter to each air conditioning equipment 2 participating in the linkage according to the confirmation information, and controls each air conditioning equipment 2 participating in the linkage to start and operate according to the corresponding parameter of the first operation setting parameter.

The air conditioning equipment linkage control system of the embodiment collects the second operation setting parameters of the air conditioning equipment 2 under various daily indoor environment parameters through the server 3, corrects the first operation setting parameters under the indoor environment parameters under the linkage operation modes in the first corresponding table by a method for analyzing and summarizing the collected indoor environment parameters and the corresponding second operation setting parameters, so that the determination of the first operation setting parameters of the linkage operation modes is obtained by the use data of the daily air conditioning equipment 2, the air quality improvement efficiency is improved, the user setting habits are respected, the user comfort level is improved, and the user use experience is improved.

According to some embodiments of the present invention, referring to fig. 3, 4, and 5, the indoor environment parameters in each linked operation mode in the first mapping table correspond to a plurality of first operation setting parameters with the category flag.

When the control terminal 1 controls in a linkage operation mode, information of the linkage operation mode and information of the air-conditioning equipment 2 participating in linkage are transmitted to the server 3.

When the server 3 receives the linkage operation mode information and the information of the air conditioning devices 2 participating in the linkage, inviting indoor environment parameters to each air conditioning device 2 according to the received information of the air conditioning device 2; the air conditioning equipment 2 participating in linkage detects indoor environment parameters and sends the indoor environment parameters to the server 3 when receiving the invitation information; the server 3 determines a first operation setting parameter with a classification mark according to the received indoor environment parameter, the linkage operation mode and the first corresponding table and sends classification mark selection information to the control terminal 1; the control terminal 1 selects the classification mark option and transmits the selection result to the server 3.

The server 3 receives the selection result of the classification mark, determines a first operation setting parameter of the linkage mode of the control terminal 1 according to the selection result of the classification mark, and transmits the determined first operation setting parameter to the control terminal 1; the control terminal 1 confirms the configured first operation setting parameters and feeds back the first operation setting parameters to the server 3; the server 3 sends a control instruction to each air conditioning equipment 2 participating in linkage according to the feedback result, so that the air conditioning equipment is started and operated according to the relevant parameters in the determined first operation setting parameters.

The linkage control system of the air conditioning equipment provided by the embodiment is characterized in that a plurality of first operation setting parameters with classification marks are set under each indoor environment parameter in each linkage operation mode in the first corresponding table, different preferences of different users are met through configuration of the first operation setting parameters with the same indoor environment parameter and different indoor environment parameters, and the use experience of the users is further improved.

According to some embodiments of the present invention, referring to fig. 3, 4, and 5, the category flag may be set for different set temperatures in heating or cooling modes, for example, a higher set temperature may be set for a warmer favorite group than for a cooler favorite group to meet the needs of different groups.

According to some embodiments of the present invention, referring to fig. 3, 4, 5, when the control terminal 1 performs a certain interlocking operation mode, the control terminal 1 is communicatively connected to the server 3, and each air conditioning device 2 is communicatively connected to the server 3.

The control terminal 1 selects the air conditioning equipment 2 participating in linkage in the linkage operation mode and sends the linkage operation mode information and the information of the air conditioning equipment 2 participating in linkage control to the server 3; the server 3 invites indoor environment parameters to the air conditioning equipment 2 participating in linkage according to the received information of the air conditioning equipment 2; and feeding back a first operation setting parameter to the control terminal 1 according to the received indoor environment parameter, the linkage operation mode, the information of the air conditioning equipment 2 and the first correspondence table.

The control terminal 1 can modify and confirm or confirm when receiving the first operation setting parameter configured by the server 3; if the determination is made, the determination information is fed back to the server 3, and the server 3 transmits the first operation setting parameter to the air-conditioning apparatus 2 involved in the linkage. If the control terminal 1 modifies the received first operation setting data configured by the server 3, the control terminal 1 modifies the first operation setting parameter through the first operation setting parameter modification interface. Confirming the modification through a configured confirmation module, and sending the modified first operation setting parameter and confirmation information to the server 3; the server 3 receives the modified first operation setting parameter and sends the modified first operation setting parameter to the air conditioning equipment 2 participating in linkage to control the starting and the operation of the air conditioning equipment, and in addition, the modified first operation setting parameter and the initially received indoor environment parameter are generated into a second corresponding table comprising the corresponding relation between the indoor environment parameter in the linkage operation mode and the modified first operation parameter.

When the control terminal 1 performs corresponding linkage operation mode control on the air conditioning equipment 2 with the same name or address, and when the indoor environment parameters and the linkage operation mode correspond to data in the second corresponding table, the server 3 determines corresponding first operation setting parameters in the second corresponding table and sends the first operation setting parameters to the control terminal 1, and the first operation parameters in the second corresponding table are used for controlling the starting and the operation of each air conditioning equipment 2 participating in linkage.

The air conditioning equipment linkage control system records the adjusted first operation setting parameter and is used in the later linkage operation mode control, the same setting does not need to be modified again or for multiple times, convenience is brought to users, and the user experience is improved.

According to some embodiments of the present invention, when receiving the information of the air-conditioning apparatus 2 participating in the linkage, the server 3 may determine the model and the functional configuration of the air-conditioning apparatus 2 by querying, and send the first operation setting parameter of the air-conditioning apparatus 2 participating in the linkage to be adapted to the model and the functional configuration of the air-conditioning apparatus 2.

The present embodiment reduces the amount of information to be transmitted as much as possible, reduces the signal capacity to be transmitted, not only improves the communication efficiency, but also reduces interference information, and improves the control efficiency of the air-conditioning apparatus 2.

According to some embodiments of the present invention, referring to fig. 3, 4, 5, the control terminal 1 is configured with a stop mode; when the operation control terminal 1 executes the stop mode, each air conditioning device 2 associated with the linked operation mode stops operating and is shut down.

According to some embodiments of the present invention, referring to fig. 3, 4, 5, the server 3 is configured with a plurality of shutdown durations with unequal durations; when the server 3 sends linkage operation mode startup information to the air conditioning equipment 2, recording the operation duration; and when the running duration reaches the shutdown duration, pushing a shutdown reminding instruction to the control terminal 1.

The embodiment provides shutdown reminding service and improves user experience.

According to some embodiments of the present invention, referring to fig. 3, 4, and 5, when the control terminal 1 controls the air conditioning equipment 2 to operate in the linked operation mode, the control terminal records configuration of the linked operation mode and power-on duration between power-off confirmation and power-off confirmation, and sends the power-on duration in the linked operation mode to the server 3; the server 3 collects and stores the startup duration; and the server 3 corrects each power-off time length according to the stored power-on time length.

When each air conditioning device 2 executes the linkage operation mode, the server 3 records the operation duration when sending the first operation setting parameter to the air conditioning device 2 participating in the linkage, and pushes a shutdown reminding instruction to the control terminal 1 when the operation duration reaches each shutdown duration.

According to some embodiments of the present invention, if the control terminal 1 does not operate when receiving the shutdown reminding instruction, the server 3 pushes the shutdown reminding instruction to the control terminal 1 every time the shutdown time elapses; if the control terminal 1 confirms and executes shutdown when receiving the shutdown reminding instruction, the shutdown instruction is fed back to the server 3, the server 3 sends the shutdown instruction to the air conditioning equipment 2 participating in linkage, and timing of the running time length is cancelled. That is, the shutdown alert instruction is stopped from being pushed to the control terminal 1.

According to some embodiments of the present invention, the push shutdown reminding instruction may be only a reminding instruction, or may be a shutdown reminding execution instruction.

Only if the reminding instruction is that the shutdown reminding instruction is received, only reminding confirmation disappears after being received; if the terminal is to be stopped, operating the stop mode of the control terminal 1; when the operation is in the shutdown mode, a shutdown instruction is fed back to the server 3, so that the server 3 can send the shutdown instruction to the air conditioning equipment 2 conveniently; or automatically confirm the receipt and disappear when the control terminal 1 receives the shutdown reminding instruction for the specified time.

When the instruction is executed for the shutdown reminding, the shutdown options are cancelled and confirmed, and continuous operation or shutdown can be executed by clicking different options.

The air conditioning equipment linkage control system of this embodiment updates and corrects each shutdown duration by collecting the startup duration in the linkage operation mode, so that the server 3 corrects the duration for pushing the shutdown reminding instruction to the control terminal 1, which makes it more compliant with the user requirements, and achieves the purpose of timely shutting down the air conditioning equipment 2, thereby achieving the purpose of energy saving.

According to some embodiments of the invention, the control terminal 1 is provided with an add and delete module; the adding and deleting module may be operated to add or delete air-conditioning equipment 2 according to the name or address thereof, forming an air-conditioning equipment list. Of course, the addition or deletion of the air-conditioning apparatuses 2 is realized by the server 3 communicating with the respective air-conditioning apparatuses 2.

The air-conditioning apparatuses 2 selected to participate in the linkage in the air-conditioning apparatus list form a linkage combination, and the address or name and the linkage operation mode of each air-conditioning apparatus 2 in the linkage combination are sent to the server 3.

The server 3 identifies the model and the function configuration of the air conditioning device 2 according to the received address or name of the air conditioning device 2 in combination with the indoor environment parameter received by the corresponding address or name, and configures a first operation setting parameter to the control terminal 1 according to the first correspondence table or the second correspondence table.

The control terminal 1 packs and sends the corresponding first operation setting parameters configured to each linkage air conditioning equipment 2 and the address or name of the air conditioning equipment 2 to the server 3; the server 3 sends the control information in the packet to the address or name in the packet to start and control the corresponding air conditioning equipment 2.

According to some embodiments of the present invention, referring to fig. 7a, 7b, 7c, 8a, 8b, 8c, 9a, 9b, 9c, the air conditioning apparatus 2 comprises a heat pump air conditioner and/or an air purifier and/or a total heat exchanger and/or an oxygenator or the like.

The heat pump air conditioner in the embodiment is a multi-split air conditioner with an air purification function; the air conditioning plant 2 also comprises a total heat exchanger.

The indoor environmental parameters include indoor temperature and/or solid particulate concentration and/or harmful gas content and/or oxygen content.

The linkage operation mode comprises a smoker mode, a party mode and a hot pot mode.

When the heat pump air conditioner and the total heat exchanger are selected to be in linkage combination in the smokers mode, the heat pump air conditioner is a multi-split air conditioner; referring to the determination completion confirmation in fig. 7b, the information of the linked operation mode and the air-conditioning apparatus 2 is transmitted to the server 3. The server 3 controls the starting command format of the multi-split air conditioner to be starting, refrigerating, high wind, set temperature, automatic air deflector and health function starting; starting and operating in a mode of setting temperature, a refrigeration mode, high wind and an automatic mode of an air deflector in a smokers mode control operation period; the set temperature is determined according to the middle indoor temperature of the indoor environment parameter in the first corresponding table or the second corresponding table; if the server 3 detects that the multi-connected unit is configured with the health function, the health function is started in the period of the linkage operation mode of the smokers.

The health function of the multi-split air conditioner is that a health nanoeTM module is carried, and when the multi-split air conditioner runs, a large number of nano water ions can be released and diffused to each corner of a room, so that decomposition of harmful substances such as PM2.5 and the like, such as carcinogenic substances, acid rain substances and the like, is realized. Moreover, germs that enter the room due to bad weather can be purified and disinfected, such as H3N2 influenza virus, Escherichia coli, and the like.

The set temperature is defined according to the indoor temperature in the first corresponding table, or is set corresponding to the indoor temperature in the second corresponding table, or is set by the user or is set by the first operation setting parameter.

The total heat exchanger adopts the instruction format of startup + common ventilation + high wind, and starts to operate in a common ventilation and high wind mode.

Referring to fig. 7c, the modification of the first operation setting parameter of the control terminal 1 is realized by modifying the interface "edit"; the modification confirmation and the confirmation are realized by "completion", i.e. "completion", and the confirmed first operation setting parameter is sent to the server 3.

When the heat pump air conditioner and the total heat exchanger are selected in the party mode, the heat pump air conditioner is a multi-split air conditioner; referring to the determination completion confirmation in fig. 8b, the information of the linked operation mode and the air-conditioning apparatus 2 is transmitted to the server 3. The server 3 controls the starting command format of the multi-split air conditioner to be starting, setting temperature, refrigerating, heating, air supplying, dehumidifying, air volume, additional function and automatic air deflector.

The set temperature + cooling/heating/blowing/dehumidifying + air volume + additional function is set by using a set temperature defined according to the indoor temperature in the first corresponding table, a set temperature corresponding to the indoor temperature set by a user in the second corresponding table, or an edit set temperature configured by using the first operation set parameter.

The total heat exchanger adopts the instruction format of startup + common ventilation + high wind, and starts to operate in a common ventilation and high wind mode.

Referring to fig. 8c, the modification of the first operation setting parameter of the control terminal 1 is realized by modifying the interface "edit"; the modification confirmation and the confirmation are realized by "completion", i.e. "completion", and the confirmed first operation setting parameter is sent to the server 3.

When the heat pump air conditioner and the total heat exchanger are selected in the hot pot mode, the heat pump air conditioner is a multi-split air conditioner; referring to the determination completion confirmation in fig. 9b, the information of the linked operation mode and the air-conditioning apparatus 2 is transmitted to the server 3. The server 3 controls the starting command format of the multi-split air conditioner to be starting, setting temperature, refrigerating, air volume, additional function and automatic air deflector; namely, the hot pot linkage operation mode period is started in a set temperature refrigeration mode, a high wind and automatic air guide plate mode; if the server 3 detects that the multi-connected air conditioner is configured with the health function, the health function is started in the period of the linkage operation mode of the smokers.

The health function of the multi-split air conditioner is that a health nanoeTM module is carried, and when the multi-split air conditioner runs, a large number of nano water ions can be released and diffused to each corner of a room, so that decomposition of harmful substances such as PM2.5 and the like, such as carcinogenic substances, acid rain substances and the like, is realized. Moreover, germs invading into the room due to bad weather can be purified and disinfected, such as H3N2 influenza virus, Escherichia coli, and the like.

The set temperature is defined according to the indoor temperature in the first corresponding table, or is set corresponding to the indoor temperature in the second corresponding table, or is set by the user or is set by the first operation setting parameter.

The total heat exchanger adopts the instruction format of startup + common ventilation + high wind, and starts to operate in a common ventilation and high wind mode.

Referring to fig. 9c, the modification of the first operation setting parameter of the control terminal 1 is realized by modifying the interface "edit"; the modification confirmation and the confirmation are realized by "complete", i.e. "complete", sending the confirmed first operation setting parameter to the server 3.

The air conditioning equipment coordinated control system of this embodiment realizes indoor taking a breath and air conditioning, convenient and high-efficient through the heat pump air conditioner and the total heat exchanger that have additional function.

Of course, according to some embodiments of the present invention, the accessory functions of air purification such as a heat pump air conditioner, an air purifier, and an oxygenator may be implemented by separate devices, and the linkage control needs to be implemented by connecting the control terminal 1 to each air conditioning device 2, so as to improve the control efficiency and the air conditioning efficiency.

The invention also discloses air conditioning equipment which comprises an environmental parameter sensor, a first controller, a first communication module and an execution element.

The environmental parameter sensor is used for detecting indoor environmental parameters, such as indoor temperature, solid particle concentration, harmful gas content, oxygen content and the like, and certainly can also comprise humidity, bacteria concentration and the like.

The first controller is respectively connected with each environmental parameter sensor and receives the indoor environmental parameters detected by each environmental parameter sensor.

The first communication module is connected with the first controller, and is used for being in communication connection with the control terminal 1 or the server 3, sending the indoor environment parameters to the control terminal 1 or the server 3, receiving the first operation setting parameters sent by the control terminal 1 or the server 3, and transmitting the received first operation setting parameters to the first controller.

The execution elements are functional devices of the air conditioning equipment 2, such as a fan, a compressor, a refrigerant flow valve, an air path control valve and the like, which are respectively connected with the first controller, and the first controller controls operation or action according to the received first operation setting parameter, so as to realize the air conditioning function.

The first communication module of the air conditioning equipment of this embodiment can be a network communication module or a bus module or a wireless internet of things communication module (bluetooth, zegbee, etc.), and realizes the connection with the control terminal 1 or the server 3, and any one of the linkage operation modes is selected by the control terminal 1 or the server 3 to start and operate, so that the opening and closing efficiency of each air conditioning equipment 2 is improved, and then the user experience is improved, and the air conditioning efficiency is improved.

The invention also discloses a server 3, which comprises a second communication module and a processing module.

The second communication module is used for being connected with the internet and realizing communication connection with the air conditioning equipment 2 and the control terminal 1 through connection with the internet. The first communication module of the air conditioning equipment 2 is now a network communication module, which may be wired or wireless.

The second communication module receives the indoor environment parameters and the second operation setting parameters sent by the air conditioning equipment 2, and the linkage operation mode sent by the control terminal 1 and the information (address and/or name) of the air conditioning equipment 2 participating in the linkage operation mode.

The second communication module is connected with the processing module and is used for storing the received indoor environment parameters and the second operation setting parameters in a classified manner; and according to the stored indoor environment parameters and the second operation setting parameters, a first corresponding table which is configured by the analysis and summary and comprises the corresponding relation between the indoor environment parameters and the first operation setting parameters in the linkage operation mode is corrected, so that the first operation setting parameters are configured for the received linkage operation mode and the linkage air conditioning equipment 2.

The server 3 of the present embodiment collects data of second operation setting parameters of the air conditioning equipment 2 operating under each indoor environmental parameter, summarizes the environments with poor high temperature and air quality under the indoor environmental parameters and defines the environments as different realistic scenes such as a smoker environment, a party environment and a hot pot environment in a fuzzy manner; and generating a first corresponding table comprising the corresponding relation between the indoor environment parameters in the plurality of linkage operation modes and the first operation setting parameters or a first corresponding table comprising the corresponding relation between the indoor environment parameters in the plurality of linkage operation modes and the first operation setting parameters, which is configured by correcting, according to the second operation setting parameters collected under the environment, and configuring the linkage operation setting parameters, namely configuring the first operation setting parameters, for the received control terminal 1 of the indoor environment parameters in the corresponding linkage mode.

The data from the user is used for each air conditioning equipment 2 in the linkage operation mode, so that the requirements and habits of the user are more approximate, and the comfort and the use experience of the user are improved.

The invention also discloses a control terminal 1 which comprises an input module, a second controller and a third communication module.

The input module is used for a user to input a control instruction, and can be a keyboard, a mouse, a touch screen and the like; the input module is connected with the second controller and transmits the received control command to the second controller.

The second controller is connected with the third communication module; the third communication module is used for being in communication connection with the server 3 or the air conditioning equipment 2; the second controller communicates with the air-conditioning apparatus 2 or the server 3 through the third communication module.

When communicating with the air conditioning equipment 2, selecting a linkage operation mode and the air conditioning equipment 2 participating in linkage through the input module, configuring a first operation setting parameter for each air conditioning equipment 2 participating in linkage in the linkage operation mode, and generating communication information including the address or name of the air conditioning equipment 2; the communication information is transmitted to the first controller through the communication connection between the third communication module and the first communication module, and the action or operation of the execution element of each air conditioning device 2 is controlled.

When communicating with the server 3, the air conditioning equipment 2 which is in linkage operation mode and participates in linkage is selected through the input module; the control terminal 1 transmits the linkage operation mode and the information of the air conditioning equipment 2 participating in linkage to the server 3 through the third communication module; the server 3 configures a first setting parameter for the linkage operation mode according to the received information of the linkage operation mode and the air conditioning equipment 2 and transmits the first setting parameter to the control terminal 1.

The control terminal 1 confirms the configured first setting parameter through the input module and feeds back the first setting parameter to the server 3; the server 3 generates control information for controlling the air-conditioning apparatus 2 according to the feedback information, and sends the control information to the air-conditioning apparatus 2 to perform start and operation control on the air-conditioning apparatus.

The control terminal 1 of the embodiment may be an integrated controller or a mobile intelligent terminal (a mobile phone or a tablet computer), and loads execution software, so that control communication between a user and the air conditioning equipment 2 or the server 3 is realized, the control efficiency of the air conditioning equipment 2 in a special scene is improved, and the use experience of the user is improved; the air conditioning efficiency is improved.

In the foregoing description of embodiments, the particular features, structures, materials, or characteristics may be combined in any suitable manner in any one or more embodiments or examples.

The above description is only for the specific embodiments of the present invention, but the scope of the present invention is not limited thereto, and any changes or substitutions that can be easily conceived by those skilled in the art within the technical scope of the present invention are included in the scope of the present invention. Therefore, the protection scope of the present invention shall be subject to the protection scope of the claims.

Claims (10)

1. An air conditioning apparatus coordinated control system, characterized by comprising:

a plurality of air conditioning equipment and a control terminal; each air conditioning device is in communication connection with the control terminal;

the control terminal is configured with a plurality of linkage operation modes; the linked operation mode may configure the air conditioning device with a first operation setting parameter;

the control terminal can select any plurality of the air conditioning equipment in any linkage operation mode, and control the selected air conditioning equipment to start and operate according to the corresponding first operation setting parameters.

2. The air conditioning equipment coordinated control system according to claim 1, further comprising a server;

the air conditioning equipment is in communication connection with the server through the Internet; the control terminal is in communication connection with the server through the Internet;

the server is configured with a first corresponding table comprising a corresponding relation between the indoor environment parameters of the linkage operation mode and the first operation setting parameters;

when the control terminal controls the linkage operation mode, the information of the linkage operation mode and the linkage air conditioning equipment is sent to the server; the server inviting the indoor environment parameters to each of the air conditioning devices; the air conditioning equipment detects the indoor environmental parameters and sends the detected indoor environmental parameters to the server; the server configures the first operation setting parameter for the linkage operation mode of the control terminal according to the received indoor environment parameter and the first corresponding table;

the control terminal returns confirmation information to the server after confirming the first operation setting parameter; and the server sends corresponding first operation setting parameters to each linked air conditioning device according to the confirmation information, and controls each air conditioning device to start and operate according to the received first operation setting parameters.

3. The air conditioning equipment coordinated control system according to claim 2, wherein when the air conditioning equipment communicatively connected to the server operates at a second operation setting parameter, the air conditioning equipment detects the indoor environmental parameter and transmits the detected indoor environmental parameter and the corresponding second operation setting parameter to the server; and the server stores the received indoor environment parameters and the corresponding second operation setting parameters, and corrects the first operation setting parameters in the first corresponding table according to the stored data of the indoor environment parameters and the corresponding second operation setting parameters.

4. The air conditioning apparatus coordinated control system according to claim 2, wherein each of said indoor environment parameters in each of said coordinated operation modes in said first correspondence table corresponds to a plurality of said first operation setting parameters with classification flags;

and when the control terminal controls the linkage operation mode, the server sends selection information of the classification marks to the control terminal according to the received indoor environment parameters and the first corresponding table, and configures the first operation setting parameters to the linkage operation mode of the control terminal according to the selection result of the classification marks fed back by the control terminal.

5. The air conditioning equipment coordinated control system according to claim 4, wherein when the control terminal receives the first operation setting parameter configured by the server to the coordinated operation mode of the control terminal, the first operation setting parameter is modifiable by the control terminal;

when the first operation setting parameter in the linkage operation mode on the control terminal is modified and confirmed, the modified and confirmed first operation setting parameter is returned to the server; the server controls the starting and the operation of each air conditioning device according to the modified first operation setting parameter and stores a second corresponding table containing the corresponding relation between the indoor environment parameter in the linkage operation mode and the modified first operation setting parameter;

when the control terminal controls the linkage operation mode, if the indoor environment parameters and the linkage operation mode received by the server are contained in the second corresponding table, the server configures the first operation setting parameters for the linkage operation mode of the control terminal according to the second corresponding table.

6. The air conditioning equipment coordinated control system according to claim 5, wherein the control terminal is provided with a stop mode;

when the control terminal is operated to execute the stop mode, all the linked air conditioning equipment stops running and is shut down;

the control terminal records the starting-up time and transmits the starting-up time to the server; the server forms shutdown durations with different durations according to the collected startup durations;

when the server controls each air conditioning device to operate in the linkage operation mode, recording the operation duration of the linkage operation mode of each air conditioning device, and pushing a shutdown reminding message to the control terminal when the operation duration reaches each shutdown duration.

7. The air conditioning equipment coordinated control system according to any one of claims 1 to 6, wherein the control terminal is provided with an addition module and a deletion module; adding or deleting the air conditioning equipment according to the name or address by operating the adding module and the deleting module to form an air conditioning equipment list; selecting any one or more air conditioning equipment in the list of air conditioning equipment to form a linkage combination;

the control terminal sends information of each air conditioning device in the linkage combination to the server; and determining the functional configuration of each air conditioning device according to the information of each air conditioning device, and determining the corresponding first operation setting parameter of each air conditioning device according to the functional configuration of each air conditioning device.

8. An air conditioning apparatus, characterized by comprising:

the environment parameter sensor is used for detecting indoor environment parameters;

a first controller connected to each of the environmental parameter sensors, respectively, and receiving the indoor environmental parameter detected by each of the environmental parameter sensors;

the first communication module is connected with the first controller, and is used for being in communication connection with a control terminal or a server, sending the indoor environment parameters to the control terminal or the server, receiving the first operation setting parameters sent by the control terminal or the server, and transmitting the first operation setting parameters to the first controller;

an actuator connected to the first controller; and the first controller controls the action or operation of the executing element according to the received first operation setting parameter.

9. A server, comprising:

the second communication module is used for being in communication connection with the air conditioning equipment and the control terminal respectively and receiving indoor environment parameters sent by the air conditioning equipment, linkage operation modes sent by the control terminal and information of the linkage air conditioning equipment;

and the processing module is connected with the second communication module, receives the information of the indoor environment parameters, the linkage operation mode and the linkage air conditioning equipment received by the second communication module, generates a first corresponding table comprising the corresponding relation between the indoor environment parameters and first operation setting parameters in the linkage operation mode, selects the first operation setting parameters according to the linkage operation mode, the indoor environment parameters and the first corresponding table, transmits the first operation setting parameters to the second communication module, and controls the second communication module to transmit the first operation setting parameters to the control terminal for confirmation and transmit the confirmed first operation setting parameters to the linkage air conditioning equipment.

10. A control terminal, comprising:

the input module is used for inputting a control instruction by a user;

the second controller is connected with the input module, receives the control instruction and determines a linkage operation mode and linkage air conditioning equipment;

the third communication module is connected with the second controller and is used for being in communication connection with each air conditioning equipment or server; the second controller sends a first operation setting parameter to each linked air conditioning equipment or sends information of the linked operation mode and the linked air conditioning equipment through the third communication module, receives the first operation setting parameter of the linked operation mode configured by the server and returns confirmation information of the first operation setting parameter.

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