WO2019242307A1 - Air conditioning system, method and device, and computer-readable storage medium - Google Patents

Abstract

The embodiments of the present invention relate to the technical field of smart home appliances, and disclosed thereby is an air conditioning system. The method comprises: one or more air devices, distribution stations in communication with the one or more air devices, drainage pipelines in communication with the distribution stations, and terminal conditioning devices in communication with the drainage pipelines, wherein one distribution station is in communication with one or more drainage pipelines, and one drainage pipeline is in communication with one or more terminal conditioning devices. By employing the embodiments of the present invention, the ambient air of areas where each user is located may be specifically adjusted, while the needs of different users for ambient air are met. Also disclosed by the embodiments of the present invention are an air conditioning method and device and a computer-readable storage medium.

Description

Air conditioning system, method, device and computer-readable storage medium

This application is based on a Chinese patent application with an application number of 201810642204.3 and an application date of 2018.06.21, and claims the priority of the Chinese patent application. The entire content of this Chinese patent application is incorporated herein by reference.

Technical field

The present invention relates to the technical field of smart home appliances, and in particular, to an air conditioning system, method, device, and computer-readable storage medium.

Background technique

Different users have different requirements for ambient air. For rooms with dense users, when central air conditioning and ordinary air conditioning are used to adjust the ambient air in a room, it can only provide a uniform ambient air temperature for the room, which is difficult to satisfy different users at the same time. Demand for ambient air.

Summary of the Invention

An embodiment of the present invention provides an air conditioning system, which adjusts the ambient air of each user's area in a targeted manner while satisfying the needs of different users for the ambient air.

In order to have a basic understanding of some aspects of the disclosed embodiments, a brief summary is given below. This summary is not a general overview, nor is it intended to identify key / important constituent elements or to describe the scope of protection of these embodiments. Its sole purpose is to present some concepts in a simplified form as a prelude to the more detailed description that is presented later.

According to a first aspect of an embodiment of the present invention, an air conditioning system is provided.

In an optional embodiment, the air conditioning system includes:

One or more air devices, the one or more air devices being one or more of a new fan, an air conditioner, a humidifier, a dehumidifier, an oxygen generator, and an air purifier;

A distribution station, one end of which is in communication with one end of the air equipment, and one or more first flow control devices are arranged in the distribution station;

A drainage pipeline, one end of which is in communication with the other end of the distribution station, and one or more second flow control devices are arranged in the drainage pipeline;

A terminal adjustment device, one end of the terminal adjustment device is in communication with the other end of the drainage pipe, and the terminal adjustment device is used to output air for setting parameters;

Among them, one distribution station is in communication with one or more drainage lines, and one drainage line is in communication with one or more terminal regulating devices.

In some optional embodiments, when the air device is an air conditioner, the distribution station is configured to distribute temperature-controlled air output by the air conditioner, or the distribution station is configured to distribute the air conditioner of the air conditioner. Refrigerant.

According to a second aspect of the embodiments of the present invention, an adjustment method for an air conditioning system is provided.

In an optional embodiment, the air conditioning system is the air conditioning system according to the first aspect, and the conditioning method includes:

A total output parameter of one or more air equipment in the air conditioning system is determined according to a set parameter of two or more users; wherein the total output parameter includes a set output value of a new fan, an air conditioner's One or more of a set output value, a set output value of a humidifier, a set output value of a dehumidifier, a set output value of an oxygen generator, and a set output value of an air purifier;

Adjusting one or more first flow control devices in a distribution station of the air-conditioning system and one or more first-flow tubes in a drainage line of the air-conditioning system according to the setting parameters of the two or more users Two flow control devices are used to distribute the output volume of the one or more air equipment after operating according to the total output parameter to a drainage pipe and a terminal adjustment device of the air conditioning system.

In an optional embodiment, when the air device is an air conditioner, the output of the air conditioner after operating according to the total output parameters includes the temperature of the tempered air and the flow of the tempered air, or the pressure of the refrigerant And refrigerant flow.

In an optional embodiment, before determining the total output parameter of one or more air equipment in the air conditioning system according to the setting parameters of two or more users, the method further includes:

Setting parameters of the two or more users are determined according to user information of the two or more users, wherein the user information includes one of behavior information, location information, identity information, age information, and physiological parameter information Or more.

According to a third aspect of the embodiments of the present invention, there is provided a conditioning device for an air conditioning system.

In an optional embodiment, the air conditioning system is an air conditioning system provided by the first aspect of the embodiments of the present invention, and the conditioning device includes:

A first module is configured to determine a total output parameter of one or more air equipment in the air conditioning system according to a setting parameter of two or more users; wherein the total output parameter includes a setting of a new fan One or more of output value, set output value of air conditioner, set output value of humidifier, set output value of dehumidifier, set output value of oxygen generator, and set output value of air purifier ;

A second module for adjusting one or more first flow control devices in a distribution station of the air conditioning system and a drainage line of the air conditioning system according to the set parameters of the two or more users One or more second flow control devices, which are used to distribute the output of the one or more air equipment after operating according to the total output parameter to a drainage pipe and a terminal adjustment device of the air conditioning system.

In an optional embodiment, when the air device is an air conditioner, the output of the air conditioner after operating according to the total output parameter includes the temperature of the tempered air and the flow of the tempered air, or, Refrigerant pressure and refrigerant flow.

In an optional embodiment, the adjusting device further includes a third module, configured to determine the setting parameters of the two or more users according to the user information of the two or more users. The user information includes one or more of behavior information, location information, identity information, age information, and physiological parameter information.

In an optional embodiment, the air conditioning system is the air conditioning system described in claim 1 or 2, and the conditioning device includes:

processor;

Memory for storing processor-executable instructions;

The processor is configured to:

A total output parameter of one or more air equipment in the air conditioning system is determined according to a set parameter of two or more users; wherein the total output parameter includes a set output value of a new fan, an air conditioner's One or more of a set output value, a set output value of a humidifier, a set output value of a dehumidifier, a set output value of an oxygen generator, and a set output value of an air purifier;

Adjusting one or more first flow control devices in a distribution station of the air-conditioning system and one or more first-flow tubes in a drainage line of the air-conditioning system according to the setting parameters of the two or more users Two flow control devices are used to distribute the output volume of the one or more air equipment after operating according to the total output parameter to a drainage pipe and a terminal adjustment device of the air conditioning system.

According to a fourth aspect of the embodiments of the present invention, a computer-readable storage medium is provided.

In an optional embodiment, the computer-readable storage medium stores a computer program, and when the computer program is executed by a processor, the computer program is implemented for air conditioning provided by the first aspect of the embodiment of the present invention System adjustment method.

The effect of the embodiment of the present invention is that the ambient air in the area where each user is located can be adjusted in a targeted manner, while meeting the needs of different users for ambient air.

It should be understood that the above general description and the following detailed description are merely exemplary and explanatory, and should not limit the present invention.

BRIEF DESCRIPTION OF THE DRAWINGS

The drawings herein are incorporated in and constitute a part of this specification, illustrate embodiments consistent with the present invention, and together with the description serve to explain the principles of the present invention.

Fig. 1 is a schematic diagram showing an air conditioning system according to an exemplary embodiment;

Fig. 2 is a schematic diagram showing an air conditioning system according to an exemplary embodiment;

Fig. 3 is a schematic diagram showing a terminal adjustment structure according to an exemplary embodiment;

Fig. 4 is a schematic flowchart of a method for adjusting an air conditioning system according to an exemplary embodiment;

Fig. 5 is a schematic flowchart of a method for adjusting an air conditioning system according to an exemplary embodiment;

Fig. 6 is a schematic diagram showing an air conditioning system according to an exemplary embodiment;

Fig. 7 is a schematic block diagram of a conditioning apparatus for an air conditioning system according to an exemplary embodiment.

detailed description

The following description and the drawings sufficiently illustrate specific embodiments of the present invention to enable those skilled in the art to practice them. The examples represent only possible variations. Unless explicitly required, individual components and functions are optional, and the order of operations may vary. Parts and features of some embodiments may be included in or replace parts and features of other embodiments. The scope of the embodiments of the invention includes the entire scope of the claims, and all available equivalents of the claims. Herein, the embodiments may be individually or collectively represented by the term "invention", this is for convenience only, and if more than one invention is actually disclosed, it is not intended to automatically limit the scope of the application to any A single invention or inventive idea. In this article, relational terms such as first and second are used only to distinguish one entity or operation from another entity or operation, and do not require or imply any actual relationship between these entities or operations or order. Moreover, the terms "including," "including," or any other variation thereof are intended to encompass non-exclusive inclusion, such that a process, method, or device that includes a series of elements includes not only those elements, but also other elements not explicitly listed Elements. The embodiments in this document are described in a progressive manner. Each embodiment focuses on the differences from other embodiments. For the same and similar parts between the embodiments, refer to each other. As for the structures and products disclosed in the embodiments, since they correspond to the parts disclosed in the embodiments, the description is relatively simple, and the relevant parts can be referred to the description of the method.

Different users have different requirements for ambient air. For rooms with dense users, the embodiment of the present invention adopts a distributed air conditioning system to adjust the ambient air in the area where each user is located, which can simultaneously satisfy different users' requirements for ambient air. Demand.

The air conditioner mentioned in this article refers to all equipment that can directly provide treated air to an enclosed space, room or area. It mainly includes refrigeration systems for refrigeration and dehumidification, as well as air circulation and purification devices, and can also include heating and ventilation devices.

The humidifier mentioned in this article refers to all household appliances that can increase the humidity of a room, including, but not limited to, evaporative humidifiers, ultrasonic humidifiers, electric heating humidifiers, immersion electrode humidifiers, and cold mist humidifiers.

The dehumidifier mentioned in this article refers to all household appliances that can reduce the humidity of a room.

The air purifier mentioned in this article refers to all household and similar electrical appliances that can remove particulate matter, gaseous pollutants, microorganisms and other pollutants in the air.

The oxygen generator mentioned in this article refers to all electrical appliances that make oxygen.

The new fans mentioned in this article generally refer to all independent air treatment systems consisting of a supply air system and an exhaust system, mainly including two types of ducted new fans and ductless new fans.

As shown in FIG. 1, according to a first aspect of an embodiment of the present invention, an air conditioning system is provided.

In an optional embodiment, the air conditioning system includes:

One or more air equipment 10, one or more of the air equipment 10 is one or more of a new fan, an air conditioner, a humidifier, a dehumidifier, an oxygen generator, and an air purifier;

A distribution station 20, one end of which is in communication with one end of the air equipment 10, and one or more first flow control devices 21 are provided in the distribution station 20;

A drainage line 30, one end of which is in communication with the other end of the distribution station 20, and one or more second flow control devices 31 are provided in the drainage line 30;

A terminal adjusting device 40, one end of which is in communication with the other end of the drainage pipe 30, and the terminal adjusting device 40 is used for outputting air for setting parameters;

Among them, one distribution station 20 is in communication with one or more drainage lines 30, and one drainage line 30 is in communication with one or more terminal adjustment devices 40.

The air conditioning system in this embodiment can accurately seal and drain the output of one or more air devices, can accurately control the quality of the ambient air in the target area, avoid the impact of complex environments, and reduce energy waste. The air conditioning system in this embodiment is a distributed air conditioning system, and each air device corresponds to a plurality of terminal conditioning devices. Further optionally, the terminal adjusting device is provided at multiple positions in an activity place, for example, in an office, a terminal adjusting device is provided on each desk to achieve accurate and close air blowing. At the same time, each terminal adjustment device is individually controlled to meet the different needs of different users.

The distribution station includes one or more chambers, the number of which corresponds to the number of air equipment types. The flow control device has a function of adjusting a flow, including a power effect and a throttling effect. Among them, the power action is used to increase the flow rate, and the throttling action is used to decrease the flow rate. Optionally, when the output of the air equipment is fresh air, the first flow control device or the second flow control device includes a drainage fan blade and a flow meter. Optionally, when the output of the air device is a refrigerant, the first flow control device or the second flow control device is a flow control valve.

As shown in FIG. 2, one or more second flow control devices 31 are provided in the drainage line 30, which may be specifically implemented as: one or more drainage sub-lines 32 are provided on the drainage line 30, and are used to communicate with the terminal adjustment device 40. For connection, a second flow control device 31 is provided at a node of the drainage line 30 where the drainage sub-line 32 is provided. A third flow control device 33 is provided at the connection of the drainage branch pipe 32 to the drainage pipe 30. Among them, the second flow control device 31 can monitor and adjust the flow rate of the fluid in the drainage pipe 30, and the third flow control device 33 can monitor and adjust the flow rate of the fluid in the drainage pipe 32, so as to monitor and adjust the flow through the drainage pipe The flow rate of the fluid flowing from the path 32 to the terminal regulating device 40. The second flow control device 31 or the third flow control device 33 may include a drainage fan blade and a flow meter. The flow meter is used to monitor the flow of fluid in the drainage pipe, and the drainage fan blade is used to adjust the flow of fluid in the drainage pipe. Increasing the speed of the fan blades can increase the flow of fluid in the drainage line, and decreasing the speed of the fan blades can reduce the flow of fluid in the drainage line.

When the terminal adjustment device outputs the air with the set parameters, there are two optional ways: optionally, the air equipment sends the air that meets the set parameters to the terminal adjustment device through the distribution station and the drainage pipe, and the terminal adjustment device Directly output air that meets the set parameters. Optionally, the air equipment transports the intermediate medium to the terminal regulating device through the distribution station and the drainage pipe, and the terminal regulating device processes the ambient air according to the intermediate medium and the set parameters. Under the influence of the intermediate medium, the ambient air can be converted into air that meets the set parameters. For example, when adjusting the temperature of the ambient air, the intermediate medium may be a refrigerant to perform heat exchange with the ambient air; when adjusting the humidity of the air, the intermediate medium may be air with a set humidity. It can form the air with the set humidity. By adopting the method of conveying the intermediate medium, compared with the method of conveying the air that meets the set parameters, it avoids the interference of the air that meets the set conditions in the conveying process, and can accurately perform the air output by the terminal adjustment device control. The terminal adjustment device is the final air outlet of the air conditioning system. Optionally, the terminal adjustment device includes a wall-mounted terminal adjustment device and a desktop adjustment device. For example, a wall-mounted terminal adjustment device can be set on the office wall, and a desktop-type terminal adjustment device can be set on the desk of a desk, ensuring that each user can adjust the terminal adjustment device according to his own needs. In the case of heating by the user of the terminal adjustment device, optionally, a heating device is provided on the terminal adjustment device, and the ambient air is heated by the heating device.

As shown in FIG. 3, when the terminal adjusting device 40 directly outputs the air output from the air device, optionally, the terminal adjusting device 40 sets an independent air outlet 401 for each air device. Optionally, the terminal adjusting device 40 is provided with one or more air inlets, mixing chambers, and mixing air outlets 402 that are communicated in sequence. One or more air inlets are connected to the outlet of the drainage pipe, and the wind output by the drainage pipe is in the mixing chamber. After medium mixing, it is output through the mixing air outlet 402. Optionally, a fan is provided at the air outlet 401 / hybrid air outlet 402 of the terminal adjustment device 40, and a circulating air inlet is provided at the back of the air outlet 401 / hybrid air outlet 402. It is ensured that the terminal adjustment device 40 has a function of promoting ambient air circulation. For example, the flow of fresh air is adjusted separately; the flow of temperature-adjusted air is adjusted separately. The temperature-adjusted air refers to the cold or hot air output by the air conditioner. A display panel and a control panel 403 are provided on the terminal adjustment device, which is convenient for users to operate.

When one or more air equipment includes an air conditioner and a fresh air fan, a first temperature sensor is provided at the fresh air inlet of the terminal adjustment device to detect the temperature of the fresh air; the temperature adjustment air inlet of the terminal adjustment device sets a second temperature A sensor is used to detect the temperature of the tempered air; a third temperature sensor is provided at the air outlet of the terminal adjustment device to detect the temperature of the mixed air; a fourth temperature sensor is provided on the outer surface of the terminal adjustment device to detect the ambient temperature. Accurate temperature control.

In an optional embodiment, when the air device is an air conditioner, the distribution station is used to distribute the temperature-controlled air output by the air conditioner, or the distribution station is used to distribute the refrigerant of the air conditioner. When the user of the distribution station distributes the refrigerant of the air conditioner, the terminal regulating device directly uses the refrigerant to regulate the temperature of the ambient air to reduce heat loss. Among them, the tempered air is the air with a specific temperature output by the air conditioner, the temperature of which is higher than the temperature of the ambient air or lower than the temperature of the ambient air. The tempered air is used to mix with the ambient air to make the temperature of the ambient air Meet user needs.

When the distribution station is used to distribute the refrigerant of the air conditioner, the refrigerant pipe of the air conditioner is in communication with the distribution station. The air conditioner includes an outdoor unit, or an indoor unit and an outdoor unit. The communication between the refrigerant pipeline of the air conditioner and the distribution station includes: the refrigerant pipeline of the outdoor unit of the air conditioner communicates with the distribution station; and the refrigerant pipeline of the indoor unit of the air conditioner communicates with the distribution station. When the air conditioner includes an indoor unit and an outdoor unit, the connection relationship between the air conditioner and the distribution station is cut off. The air conditioner can adjust the temperature of the indoor ambient air by using an ordinary air conditioner, and the air conditioner can be connected to the distribution station. Adjust the temperature of the indoor ambient air in a controlled manner.

The refrigerant distribution station includes a refrigerant input chamber and a refrigerant output chamber. Optionally, setting one or more first flow control devices in the distribution station may be implemented as: setting a first flow control device at a connection portion between the distribution station and the drainage pipe, thereby realizing the distribution of the refrigerant flow. The first flow control device may be an expansion valve. Corresponding to the distribution station, the drainage pipeline includes a refrigerant input pipeline and a refrigerant output pipeline, wherein the refrigerant input pipeline communicates with the refrigerant input chamber of the distribution station, and the refrigerant output pipeline communicates with the refrigerant output chamber of the distribution station . Correspondingly, a heat exchanger is provided in the terminal regulating device, and the refrigerant input pipeline communicates with the input end of the heat exchanger, and the refrigerant output pipeline communicates with the output end of the heat exchanger. Through the above connection structure, the heat exchange of the terminal regulating device The air conditioner exchanges refrigerant with the air conditioner.

As shown in FIG. 4, according to a second aspect of the embodiment of the invention, an adjustment method for an air conditioning system is provided.

In an optional embodiment, the air-conditioning system is the above-mentioned air-conditioning system, and the adjustment method includes:

S401. Determine the total output parameters of one or more air equipment in the air conditioning system according to the setting parameters of two or more users; wherein the total output parameters include the set output value of the new fan and the setting of the air conditioner. One or more of an output value, a set output value of a humidifier, a set output value of a dehumidifier, a set output value of an oxygen generator, and a set output value of an air purifier.

Optionally, S401 may be implemented to determine the total output parameters of one or more air equipment in the air conditioning system according to the set parameters of two or more users and the current environmental information.

S402. Adjust one or more first flow control devices in the distribution station of the air conditioning system and one or more second flow control devices in the drainage pipe of the air conditioning system according to the setting parameters of two or more users. , Used to distribute the output of one or more air equipment according to the total output parameters to the drainage pipe and terminal regulating device of the air conditioning system.

The adjustment method provided in this embodiment can precisely adjust the terminal adjustment device, and then precisely adjust the quality of the ambient air in the target area where the terminal adjustment device is located, where the target area is the area where the user is located. This embodiment can simultaneously meet different needs of different users.

In the process of distributing the output of one or more air equipment according to the total output parameters to the drainage lines and terminal conditioning devices of the air conditioning system, the output of one or more air equipment may include: Fresh air flow, air temperature and air flow of the air conditioner, air humidity and air flow of the humidifier, air humidity and air flow of the dehumidifier, air oxygen content and air flow of the oxygen generator, and air One or more of the air flow of the purifier.

In this embodiment, the adjustment of the ambient air is achieved by adjusting the fluid flow rate of the drainage branch pipe connected to the terminal regulating device. For example, when the user needs to adjust the temperature of the ambient air, the temperature of the ambient air can be adjusted by adjusting the outlet air flow of the drainage branch pipe connected to the air conditioner of the terminal regulating device. In the cooling process, when the temperature of the ambient air is too low, reduce the air flow of the drainage sub-pipe connected to the air conditioner of the terminal adjustment device, and increase the temperature of the terminal adjustment device and the air conditioner when the temperature is too high. When the ambient temperature is too low during the heating process, increase the airflow rate of the drainage sub-line connected to the air conditioner of the terminal adjustment device. When the ambient temperature is too high, decrease the air flow rate. The outlet air flow of the terminal regulating device which is connected to the air conditioner is small.

As shown in FIG. 5, in S402, one or more of the first flow control device and one of the drainage pipes of the air conditioning system are adjusted according to the setting parameters of two or more users of the air conditioning system. Or multiple second flow control devices, optionally implemented as:

S501. Adjust one or more first flow control devices in the first distribution station according to the setting parameters of two or more users, so as to adjust the fluid flow from the first distribution station to the first drainage pipeline.

Among them, the fluid includes air and an intermediate medium that meet the set parameters. For example, when adjusting the temperature of the ambient air, the intermediate medium can be a refrigerant; when adjusting the humidity of the ambient air, the intermediate medium can be air with a set humidity.

Optionally, S501 is implemented as: obtaining the total set fluid flow of all the terminal adjustment devices on the first drainage line in the setting parameters of two or more users, and adjusting one or more first A flow control device to ensure that the fluid flow distributed by the distribution station for the first drainage pipeline is the total set fluid flow. Wherein, the total set fluid flow of all the terminal regulating devices on the first drainage line is obtained in the setting parameters of the two or more users, and may optionally be implemented as determined in the setting parameters of the two or more users. A first sub-setting parameter for characterizing the second environmental information is generated, and a total set fluid flow rate of all terminal regulating devices on the first drainage pipeline is determined according to the first sub-setting parameter. The second environmental information of the fluid can regulate the ambient air, and the second environmental information is any one of temperature information, humidity information, cleanliness information, freshness information, and oxygen content information. When two or more user setting parameters include two or more sub-setting parameters used to characterize two or more types of environmental information, this embodiment can accurately correspond to each sub-setting parameter as corresponding Drain lines distribute fluid flow.

S502. Adjust one or more second flow control devices in the first drainage line according to the setting parameters of two or more users, so as to adjust the fluid flow from the first drainage line to the first drainage sub-line.

The flow difference between the two first flow control devices on both sides of the first drainage sub-line in the first drainage line is the fluid flow from the first drainage line to the first drainage sub-line. Since the terminal adjustment device is in communication with the first drainage branch line, the fluid flow from the first drainage line to the first drainage branch line is the fluid flow from the first drainage branch line to the terminal adjustment device.

Optionally, S502 is implemented as: obtaining the set fluid flow on the first drainage sub-line in the setting parameters of two or more users, and adjusting one or more second flow control devices according to the set fluid flow to ensure that The fluid flow allocated by the first drainage line to the first drainage branch line is a set fluid flow. In order to further precisely control the fluid flow to the terminal regulating device, after S402, it further includes:

S503. Adjust one or more third flow control devices in the first drainage sub-line according to the setting parameters of two or more users, so as to determine the fluid flow from the first drainage sub-line to the terminal adjustment device.

The fluid flow rate shown by the third flow control device can accurately reflect the accurate fluid flow rate that the drainage pipe can provide to the terminal regulating device.

By adopting the above scheme, the fluid flowing to the terminal regulating device can be accurately controlled, and then the quality of the ambient air in the target area where the terminal regulating device is located can be accurately adjusted, which can simultaneously meet the different needs of different users.

FIG. 6 shows an air-conditioning system. The air-conditioning system includes four terminal adjustment devices and two drainage lines. The second drainage line 50 is provided with a first terminal adjustment device 41 and a third terminal adjustment. The device 43 and the third drainage line 60 are provided with a second terminal adjustment device 42 and a fourth terminal adjustment device 44. The air conditioning system can be used by 4 users at the same time. For example, the third environmental information about the ambient air. In the setting parameters of the first user, the demand for fluid flow is 3 units, and in the setting parameters of the second user, The demand for fluid flow is 0 units. Among the parameters set by the third user, the demand for fluid flow is 5 units. The demand for the fourth user's set parameters is 2 units.

After performing S501 to adjust one or more first flow control devices in the first distribution station according to the setting parameters of two or more users, the distribution flow for the second drainage line 50 is 8 units, and the distribution The station distributes the fluid flow for the third drainage line 60 by 2 units. After executing S502 to adjust one or more second flow control devices in the second drainage line 50 according to the setting parameters of two or more users, the second drainage line 50 is the fluid distributed by the second drainage sub-line 71. The flow rate is 3 units, the second drainage line 50 is a unit of fluid distributed by the third drainage sub-line 72, and the third drainage line 60 is the unit of the fluid flow assigned by the fourth drainage sub-line 73, and the third drainage The flow rate of the fluid distributed by the line 60 for the fifth drainage branch line 74 is 2 units. Finally, the fluid flow rate obtained by the first terminal adjustment device 41 is 3 units, the fluid flow rate obtained by the second terminal adjustment device 42 is 0 units, the fluid flow rate obtained by the third terminal adjustment device 43 is 5 units, and the fourth terminal adjustment device 44 The obtained fluid flow is 2 units.

In the above embodiment, the third environmental information of the ambient air is any one of temperature information, humidity information, cleanliness information, freshness information, and oxygen content information. When the third environmental information is clarity information, the above implementation is implemented. The fluid flow in the example is the fresh air flow. The greater the fresh air flow, the higher the user's demand for freshness. When the third environmental information is temperature information, the fluid flow is the set temperature air flow or refrigerant flow, and the fluid flow. The larger the temperature, the stronger the regulation effect. For example, in the cooling process, when the temperature of the set temperature is lower than the user's set temperature, the larger the flow of the cold air blown out by the terminal regulating device, the easier it is to reduce the environment. Temperature; when the third environmental information is humidity information, the fluid flow is the set humidity air flow or water flow. The greater the fluid flow, the stronger the regulating effect on the humidity of the ambient air. When the third environmental information is cleanness information, The fluid flow is clean air flow. The greater the clean air flow, the higher the freshness of the ambient air.

In the foregoing embodiment, a process for adjusting one type of environmental information is schematically provided. When the setting parameters of two or more users include two or more setting parameters that represent two or more types of environmental information, That is, when two or more users need two or more types of environmental information, two or more types of environmental information need to be adjusted. Two or more types of environmental information may be sequentially divided into one type of environmental information, and each type of environmental information may be adjusted in turn according to the above process. For example, when the setting parameters of two or more users include a temperature setting value and a freshness setting value, the above process can be used to independently adjust the temperature of the ambient air, and the above process can be used to independently adjust the freshness of the ambient air, and , The process of adjusting the ambient air temperature and the process of adjusting the freshness of the ambient air are in no particular order.

In the above embodiment, the flow rate of the fluid in the drainage pipe is adjusted. However, the nature of the fluid also affects the adjustment of the ambient air. For example, when the temperature of the ambient air is adjusted, the higher the temperature of the fluid is, the higher the temperature is. , The smaller the required fluid flow, and the fluid temperature must be higher than the temperature set by all users; when the air freshness is adjusted, the higher the fluid freshness, the smaller the fluid flow required to achieve the same freshness ; When adjusting the humidity of the air, the greater the fluid humidity, the smaller the fluid flow required to reach the same humidity; when the oxygen content of the air is adjusted, the more the oxygen content of the fluid, the same oxygen content is required. The smaller the fluid flow; when the air cleanliness is adjusted, the higher the fluid cleanliness, the smaller the fluid flow required to achieve the same cleanliness.

In an optional embodiment, the output of one or more air devices operating according to the total output parameter includes output fluid properties and output fluid flow. This embodiment can accurately adjust the fluid flow rate, and ensure that the ambient air index of the terminal adjustment terminal meets the needs of the user. The properties of the output fluid are related to the type of fluid, including but not limited to: fluid temperature, fluid humidity, fluid oxygen content, fluid freshness, fluid cleanliness, and fluid pressure.

Further, determining the total output parameters of one or more air devices in the air conditioning system according to the set parameters of the two or more users and the current environmental information includes:

Determine the output fluid properties of one or more air equipment in the air-conditioning system according to the set parameters of two or more users and the actual environmental information; Output fluid flow from one or more air devices in an air conditioning system. The actual environmental information includes one or more of actual temperature information, actual humidity information, actual cleanliness information, actual freshness information, and actual oxygen content information.

In the application process of the above solution, when adjusting the fourth environmental information (the fourth environmental information is any one of actual temperature information, actual humidity information, actual cleanliness information, actual freshness information, and actual oxygen content information) In the above technical solution, the first difference between the setting parameter and the fourth environmental information is inversely correlated with the second difference between the setting parameter and the output fluid property of the corresponding air device. For example, when the fourth environmental information is actual temperature information, the set temperature is higher than the actual temperature, the output fluid temperature of the corresponding air device is lower than the set temperature, and the more the set temperature world temperature is higher, the corresponding air is. The output fluid temperature of the device is lower than the set temperature. This embodiment can accurately distribute the fluid flow to each terminal regulating device to ensure that the ambient air around the terminal regulating device meets the needs of the user.

In an optional embodiment, when the air device is an air conditioner, the output of the air conditioner after operating according to the total output parameter includes the temperature of the temperature-adjusted air and the flow of the temperature-adjusted air, or the pressure of the refrigerant and the flow of the refrigerant. In this embodiment, when the fluid is a refrigerant, the heat lost by the fluid during transportation can be reduced.

The setting parameters include parameters set by the user actively and parameters set according to the user information. In an optional embodiment, before determining the total output parameters of one or more air devices in the air conditioning system according to the setting parameters of two or more users, the method further includes:

Setting parameters of two or more users are determined according to user information of two or more users, wherein the user information includes one or more of behavior information, location information, identity information, age information, and physiological parameter information .

Among them, the user's needs can be accurately obtained according to the user's behavior information and location information, for example, the user needs to reduce the ambient temperature when exercising, and the user needs to raise the ambient temperature when reading. The parameters that the user actively sets can be associated with the user's identity information. When the user's identity information is obtained, the user's set parameters can be determined based on the user's identity information. Users of different age groups have different requirements for ambient air. After obtaining the user's age information, the operating mode of the air equipment is determined according to the age information, and each operating mode corresponds to a set parameter. Among them, the operating modes include, but are not limited to, a pregnant and infant mode, a child mode, a normal mode, and an elderly mode. The physiological parameter information includes one of body surface temperature information, heart rate information, blood pressure information, blood glucose information, sleep information, blood oxygen content information, skin moisture information, respiratory rate information, brain activity information, female physiological period information, and fetal heart rate information. Or more. In general, different users have different perceptions of cold and heat. Even the same user has different perceptions and needs of cold and heat in different time periods. The user's physiological parameter information can accurately reflect the actual needs of the user. The physiological parameter information determines the setting parameters, which can bring a better user experience.

In an optional embodiment, before the setting parameters of the two or more users are determined according to the user information of the two or more users, the method further includes: acquiring user information.

When the user identity information is behavior information or location information, obtaining the user's identity information may be implemented as: obtaining user information through a linkage device, where the linkage device is a device that can provide user information.

Among them, the linkage device refers to an electrical device that provides necessary functions to maintain a normal life in the daily life of the user. Linked devices include, but are not limited to, range hoods, induction cookers, gas stoves, electric ovens, rice cookers, bathroom water heaters, washing machines, smart toilet covers, televisions, projectors, computers, and treadmills. The setting position of the linkage equipment in home life is generally fixed, for example: the treadmill is set in the exercise and fitness room; the range hood, the electromagnetic range, and the gas range are set in the kitchen; the bathroom water heater and the intelligent toilet cover are set in the toilet. Therefore, the location information of the user can be determined according to the activation of a certain linkage device. In addition, different linkage devices have different functions, for example: a treadmill is used for exercising, a range hood, an electromagnetic range or a gas range is used for cooking, and a bathroom water heater is used for bathing. Therefore, the behavior information of the user can be determined according to the running time of the linked device and the combined running status of two or more linked devices. By linking the devices, the user's behavior information and location information can be determined more accurately. Obtaining user information may also be implemented as: obtaining user behavior information through a camera or an infrared sensor, and obtaining position information through radio frequency identification technology (Radio Frequency Identification). Optionally, acquiring the behavior information of the user includes: determining the behavior of the user through a camera or an infrared sensor, and acquiring and determining the intensity of the user's behavior through a linkage device.

When the user information is the user's physiological parameter information, obtaining the identity information of the user may be implemented as: obtaining the user information through a linkage device, where the linkage device is a device that can provide user information. Linked devices include, but are not limited to, smart bracelets, smart watches, smart helmets, smart skin patches, smart armbands, and the like.

When the user information is identity information or age information, obtaining user information may be implemented as: obtaining a user's face image through a camera, and determining the user's identity information based on the user's face image, or, age information, or, identity information and age information ; Among them, the camera may be any one of an airborne camera, a dedicated camera, and a security camera. Obtaining the user's identity information can also be implemented as: obtaining the user's identity information through RFID.

After obtaining the user's identity information, according to the user information of the two or more users, the setting parameters of the two or more users can be implemented as: sending the identity information to the database, and matching the identity information with the identity information in the database. Corresponding setting parameters. The database communicates with the air equipment, or with the air equipment and the linkage equipment. The database can be optionally set on a local area network (such as a smart home system), and can be optionally set on a cloud platform server.

When the setting parameters of the air device cannot be determined through the identity information, that is, when the setting parameters cannot be obtained according to the identity information, the operating mode is determined according to the age information, wherein the operating mode corresponds to the setting parameters one-to-one.

As shown in FIG. 7, a third aspect of the implementation of the present invention provides an air conditioning system for an air conditioning system.

In an optional embodiment, the air-conditioning system is the above-mentioned air-conditioning system, and the conditioning device of the user air-conditioning system includes:

A first module 81 is configured to determine a total output parameter of one or more air equipment in an air conditioning system according to a setting parameter of two or more users; wherein the total output parameter includes a set output value of a new fan, One or more of a set output value of an air conditioner, a set output value of a humidifier, a set output value of a dehumidifier, a set output value of an oxygen generator, and a set output value of an air purifier;

The second module 82 is configured to adjust one or more of the first flow control device and the drainage line of the air conditioning system in the distribution station of the air conditioning system according to the setting parameters of two or more users. The second flow control device is used to distribute the output volume of one or more air equipment after operating according to the total output parameter to the drainage pipe and the terminal adjustment device of the air conditioning system.

In an optional implementation manner, the first module is specifically configured to determine the total output parameters of one or more air devices in the air conditioning system according to the set parameters of the two or more users and the current environmental information.

In an optional embodiment, the output of one or more air devices operating according to the total output parameter includes output fluid properties and output fluid flow. The properties of the output fluid are related to the type of fluid, including but not limited to: fluid temperature, fluid humidity, fluid oxygen content, fluid freshness, fluid cleanliness, and fluid pressure.

Further optionally, determining the total output parameters of one or more air equipment in the air conditioning system according to the set parameters of the two or more users and the current environmental information includes:

Determine the output fluid properties of one or more air equipment in the air-conditioning system according to the set parameters of two or more users and the actual environmental information; Output fluid flow from one or more air devices in an air conditioning system. The actual environmental change information includes one or more of actual temperature information, actual humidity information, actual cleanliness information, actual freshness information, and actual oxygen content information.

In an optional embodiment, when the air device is an air conditioner, the output of the air conditioner after operating according to the total output parameters includes the temperature of the temperature-adjusted air and the flow of the temperature-adjusted air, or the refrigerant pressure and the flow of the refrigerant.

In an optional embodiment, the adjusting device further includes a third module, configured to determine the setting parameters of the two or more users according to the user information of the two or more users, where the user information includes behaviors One or more of information, location information, identity information, age information, and physiological parameter information.

In an optional implementation manner, the mediation device further includes a fourth module, configured to obtain user information.

Optionally, the fourth module is specifically configured to obtain user information through a linkage device when the user identity information is behavior information or location information, where the linkage device is a device that can provide user information. Linked equipment refers to electrical equipment that provides necessary functions to maintain normal life in the daily life of users. Linked devices include, but are not limited to, range hoods, induction cookers, gas stoves, electric ovens, rice cookers, bathroom water heaters, washing machines, smart toilet covers, televisions, projectors, computers, and treadmills. The setting position of the linkage equipment in home life is generally fixed, for example: the treadmill is set in the exercise and fitness room; the range hood, the electromagnetic range, and the gas range are set in the kitchen; the bathroom water heater and the intelligent toilet cover are set in the toilet. Therefore, the location information of the user can be determined according to the activation of a certain linkage device. In addition, different linkage devices have different functions, for example: a treadmill is used for exercising, a range hood, an electromagnetic range or a gas range is used for cooking, and a bathroom water heater is used for bathing.

Optionally, the fourth module is specifically configured to obtain user information through a linkage device when the user information is the user's physiological parameter information, where the linkage device is a device that can provide user information. Linked devices include, but are not limited to, smart bracelets, smart watches, smart helmets, smart skin patches, smart armbands, and the like.

Optionally, the fourth module is specifically configured to obtain a user's face image through a camera when the user information is identity information or age information, and determine the user's identity information, or age information, or identity information based on the user's face image. And age information; among them, the camera may be any one of an airborne camera, a dedicated camera, and a security camera.

In an optional embodiment, the conditioning device for an air conditioning system includes:

processor;

Memory for storing processor-executable instructions;

The processor is configured to:

Determine the total output parameters of one or more air equipment in the air conditioning system according to the setting parameters of two or more users; wherein the total output parameters include the set output value of the new fan and the set output value of the air conditioner One or more of the set output value of the humidifier, the set output value of the dehumidifier, the set output value of the oxygen generator, and the set output value of the air purifier;

Adjust one or more first flow control devices in the distribution station of the air conditioning system and one or more second flow control devices in the drainage line of the air conditioning system according to the setting parameters of two or more users. It is used to distribute the output of one or more air equipment according to the total output parameter to the drainage pipe and terminal regulating device of the air conditioning system.

Optionally, the foregoing adjustment method and device for adjusting the air system may be implemented in a network-side server, or in a mobile terminal, or in a dedicated control device.

In an optional embodiment, a computer-readable storage medium is provided, on which a computer program is stored, and when the computer program is executed by a processor, the foregoing adjustment method for an air-conditioning system is implemented. The computer-readable storage medium includes a read-only memory (ROM, Read Only Memory), a random access memory (RAM, Random Access Memory), a magnetic tape, and an optical storage device.

Those of ordinary skill in the art may realize that the units and algorithm steps of each example described in combination with the embodiments disclosed herein can be implemented by electronic hardware, or a combination of computer software and electronic hardware. Whether these functions are performed in hardware or software depends on the specific application and design constraints of the technical solution. Those skilled in the art can use different methods to implement the described functions for each specific application, but such implementation should not be considered to be outside the scope of the present invention. Those skilled in the art can clearly understand that for the convenience and brevity of the description, the specific working process of the system and device described above can refer to the corresponding process in the foregoing method embodiments, and will not be repeated here.

It should be understood that the present invention is not limited to the processes and structures that have been described above and shown in the drawings, and various modifications and changes can be made without departing from the scope thereof. The scope of the invention is only limited by the appended claims.

Claims (10)

1. An air conditioning system, comprising:

   One or more air devices, the one or more air devices being one or more of a new fan, an air conditioner, a humidifier, a dehumidifier, an oxygen generator, and an air purifier;

   A distribution station, one end of which is in communication with one end of the air equipment, and one or more first flow control devices are arranged in the distribution station;

   A drainage pipeline, one end of which is in communication with the other end of the distribution station, and one or more second flow control devices are arranged in the drainage pipeline;

   A terminal adjustment device, one end of the terminal adjustment device is in communication with the other end of the drainage pipe, and the terminal adjustment device is used to output air for setting parameters;

   Among them, one distribution station is in communication with one or more drainage lines, and one drainage line is in communication with one or more terminal regulating devices.
2. The system according to claim 1, wherein, when the air device is an air conditioner, the distribution station is configured to distribute temperature-controlled air output by the air conditioner, or the distribution station is configured to distribute The refrigerant of the air conditioner is described.
3. An adjustment method for an air-conditioning system, wherein the air-conditioning system is the air-conditioning system according to claim 1 or 2, and the adjustment method includes:

   A total output parameter of one or more air equipment in the air conditioning system is determined according to a set parameter of two or more users; wherein the total output parameter includes a set output value of a new fan, an air conditioner's One or more of a set output value, a set output value of a humidifier, a set output value of a dehumidifier, a set output value of an oxygen generator, and a set output value of an air purifier;

   Adjusting one or more first flow control devices in a distribution station of the air-conditioning system and one or more first-flow tubes in a drainage line of the air-conditioning system according to the setting parameters of the two or more users Two flow control devices are used to distribute the output volume of the one or more air equipment after operating according to the total output parameter to a drainage pipe and a terminal adjustment device of the air conditioning system.
4. The adjusting method according to claim 3, wherein when the air device is an air conditioner, the output of the air conditioner after operating according to the total output parameter includes the temperature of the temperature-controlled air and the flow of the temperature-controlled air, Or, refrigerant pressure and refrigerant flow.
5. The adjusting method according to claim 3, wherein before determining the total output parameter of one or more air equipment in the air conditioning system according to the setting parameters of two or more users, the method further comprises: :

   Setting parameters of the two or more users are determined according to user information of the two or more users, wherein the user information includes one of behavior information, location information, identity information, age information, and physiological parameter information Or more.
6. An air-conditioning system for an air-conditioning system, wherein the air-conditioning system is the air-conditioning system according to claim 1 or 2, and the air-conditioning system includes:

   A first module is configured to determine a total output parameter of one or more air equipment in the air conditioning system according to a setting parameter of two or more users; wherein the total output parameter includes a setting of a new fan One or more of output value, set output value of air conditioner, set output value of humidifier, set output value of dehumidifier, set output value of oxygen generator, and set output value of air purifier ;

   A second module for adjusting one or more first flow control devices in a distribution station of the air conditioning system and a drainage line of the air conditioning system according to the set parameters of the two or more users One or more second flow control devices, which are used to distribute the output of the one or more air equipment after operating according to the total output parameter to a drainage pipe and a terminal adjustment device of the air conditioning system.
7. The adjusting device according to claim 6, characterized in that when the air device is an air conditioner, the output of the air conditioner after operating according to the total output parameter includes the temperature of the temperature-adjusted air and the temperature of the temperature-adjusted air. Flow, or refrigerant pressure and refrigerant flow.
8. The adjusting device according to claim 6, further comprising a third module, configured to determine setting parameters of the two or more users according to user information of the two or more users, wherein, all The user information includes one or more of behavior information, location information, identity information, age information, and physiological parameter information.
9. An air-conditioning system for an air-conditioning system, wherein the air-conditioning system is the air-conditioning system according to claim 1 or 2, and the air-conditioning system includes:

   processor;

   Memory for storing processor-executable instructions;

   The processor is configured to:

   A total output parameter of one or more air equipment in the air conditioning system is determined according to a set parameter of two or more users; wherein the total output parameter includes a set output value of a new fan, an air conditioner's One or more of a set output value, a set output value of a humidifier, a set output value of a dehumidifier, a set output value of an oxygen generator, and a set output value of an air purifier;

   Adjusting one or more first flow control devices in a distribution station of the air-conditioning system and one or more first-flow tubes in a drainage line of the air-conditioning system according to the setting parameters of the two or more users Two flow control devices are used to distribute the output volume of the one or more air equipment after operating according to the total output parameter to a drainage pipe and a terminal adjustment device of the air conditioning system.
10. A computer-readable storage medium having stored thereon a computer program, characterized in that when the computer program is executed by a processor, the conditioning for an air conditioning system according to any one of claims 3 to 5 is realized method.

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