CN110631233B - Air conditioning system, method, device and computer readable storage medium - Google Patents

Abstract

The embodiment of the invention discloses an air conditioning system, and belongs to the technical field of intelligent household appliances. The method comprises the following steps: the system comprises one or more air devices, a distribution station in communication with the one or more air devices, a diversion line in communication with the distribution station, and an end-effector in communication with the diversion line, wherein one of the distribution stations is in communication with the one or more diversion lines and one of the diversion lines is in communication with the one or more end-effector. The embodiment of the invention can adjust the ambient air of the area where each user is located in a targeted manner, and simultaneously meets the requirements of different users on the ambient air. The embodiment of the invention also discloses an air conditioning method, an air conditioning device and a computer readable storage medium.

Description

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

Technical Field

The invention relates to the technical field of intelligent household appliances, in particular to an air conditioning system, method and device and a computer readable storage medium.

Background

Different users have different requirements on the ambient air, and for a room with dense users, when the central air conditioner and the common air conditioner are adopted to adjust the ambient air in one room, the central air conditioner can only provide uniform ambient air temperature for the room, and the requirements of different users on the ambient air are difficult to meet at the same time.

Disclosure of Invention

The embodiment of the invention provides an air conditioning system which can be used for pertinently adjusting the ambient air of an area where each user is located and simultaneously meeting the requirements of different users on the ambient air.

The following presents a simplified summary in order to provide a basic understanding of some aspects of the disclosed embodiments. This summary is not an extensive overview and is intended to neither identify key/critical elements nor delineate the scope of such 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 embodiments of the present invention, there is provided an air conditioning system.

In an alternative embodiment, the air conditioning system comprises:

one or more air devices, wherein the one or more air devices are one or more of a fresh air machine, an air conditioner, a humidifier, a dehumidifier, an oxygen generator and an air purifier;

a distribution station, one end of which communicates with one end of an air plant, the distribution station having one or more first flow control devices disposed therein;

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

One end of the terminal adjusting device is communicated with the other end of the drainage pipeline, and the terminal adjusting device is used for outputting air with set parameters;

wherein one distribution station is in communication with one or more diversion lines, one diversion line being in communication with one or more terminal conditioning devices.

In some optional embodiments, when the air device is an air conditioner, the distribution station is configured to distribute conditioned air output by the air conditioner, or the distribution station is configured to distribute refrigerant of the air conditioner.

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

In an alternative embodiment, the air conditioning system is the air conditioning system of the first aspect, and the conditioning method includes:

determining the total output parameters of one or more air devices in the air conditioning system according to the set parameters of two or more users; the total output parameters comprise one or more of a set output value of a fresh air fan, 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;

And adjusting one or more first flow control devices in a distribution station of the air conditioning system and one or more second flow control devices in a drainage pipeline of the air conditioning system according to the setting parameters of the two or more users, and distributing the output of the one or more air devices operated according to the total output parameter to the drainage pipeline of the air conditioning system and a terminal adjusting device.

In an optional embodiment, when the air device is an air conditioner, the output quantity of the air conditioner after the air conditioner operates according to the total output parameter includes a temperature of the temperature-regulated air and a flow rate of the temperature-regulated air, or a refrigerant pressure and a refrigerant flow rate.

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

determining the setting parameters of two or more users according to the user information of the two or more users, wherein the user information comprises one or more of behavior information, position information, identity information, age information and physiological parameter information.

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

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

a first module for determining a total output parameter of one or more air devices in the air conditioning system based on two or more user-defined parameters; the total output parameters comprise one or more of a set output value of a fresh air fan, 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;

and the second module is used for adjusting one or more first flow control devices in a distribution station of the air conditioning system and one or more second flow control devices in a drainage pipeline of the air conditioning system according to the setting parameters of the two or more users, and distributing the output quantity of the one or more air equipment operated according to the total output parameter to the drainage pipeline of the air conditioning system and the terminal adjusting device.

In an optional embodiment, when the air device is an air conditioner, the output quantity of the air conditioner after the air conditioner operates according to the total output parameter includes a temperature of temperature-regulated air and a flow rate of the temperature-regulated air, or a refrigerant pressure and a refrigerant flow rate.

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

In an alternative embodiment, the air conditioning system is the air conditioning system recited in claim 1 or 2, the conditioning device comprising:

a processor;

a memory for storing processor-executable instructions;

wherein the processor is configured to:

determining the total output parameters of one or more air devices in the air conditioning system according to the set parameters of two or more users; the total output parameters comprise one or more of a set output value of a fresh air fan, 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;

And adjusting one or more first flow control devices in a distribution station of the air conditioning system and one or more second flow control devices in a drainage pipeline of the air conditioning system according to the setting parameters of the two or more users, and distributing the output quantity of the one or more air devices operated according to the total output parameter into the drainage pipeline of the air conditioning system and a terminal adjusting device.

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

In an alternative embodiment, the computer-readable storage medium stores a computer program which, when executed by a processor, implements the method for conditioning an air conditioning system as provided by the first aspect of the embodiment of the invention.

The embodiment of the invention has the following effects: the ambient air of the area where each user is located can be adjusted in a targeted manner, and the requirements of different users on the ambient air are met.

It is to be understood that both the foregoing general description and the following detailed description are exemplary and explanatory only and are not restrictive of the invention, as claimed.

Drawings

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

FIG. 1 is a schematic diagram of an air conditioning system shown in accordance with an exemplary embodiment;

FIG. 2 is a schematic diagram of an air conditioning system shown in accordance with an exemplary embodiment;

FIG. 3 is a schematic diagram illustrating a terminal adjustment apparatus according to an exemplary embodiment;

FIG. 4 is a schematic flow diagram illustrating a conditioning method for an air conditioning system in accordance with an exemplary embodiment;

FIG. 5 is a schematic flow diagram illustrating a conditioning method for an air conditioning system in accordance with an exemplary embodiment;

FIG. 6 is a schematic diagram of an air conditioning system shown in accordance with an exemplary embodiment;

FIG. 7 is a block schematic diagram illustrating a conditioning device for an air conditioning system according to an exemplary embodiment.

Detailed Description

The following description and the drawings sufficiently illustrate specific embodiments of the invention to enable those skilled in the art to practice them. The examples merely typify possible variations. Individual components and functions are optional unless explicitly required, and the sequence of operations may vary. Portions and features of some embodiments may be included in or substituted for those of others. The scope of embodiments of the invention encompasses the full ambit of the claims, and all available equivalents of the claims. Embodiments may be referred to herein, individually or collectively, by the term "invention" merely for convenience and without intending to voluntarily limit the scope of this application to any single invention or inventive concept if more than one is in fact disclosed. Herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed. The embodiments are described in a progressive manner, each embodiment focuses on differences from other embodiments, and the same and similar parts among the embodiments are referred to each other. For the structures, products and the like disclosed in the embodiments, the description is simple because the structures, the products and the like correspond to the parts disclosed in the embodiments, and the relevant parts can be referred to the description of the method part.

Different users have different requirements on the ambient air, and for a room with denser users, the embodiment of the invention adopts the distributed air conditioning system, has the function of pertinently conditioning the ambient air of the area where each user is located, and can simultaneously meet the requirements of different users on the ambient air.

Air conditioners are herein generally intended to refer to all devices capable of providing treated air directly to an enclosed space, room or area. It mainly includes refrigerating system for refrigeration and dehumidification and air circulation and purification device, also can include heating and ventilation device.

Reference herein to a humidifier generally refers to all household appliances capable of increasing the humidity of a room, including but not limited to evaporative humidifiers, ultrasonic humidifiers, electrically heated humidifiers, immersion electrode humidifiers, cold mist humidifiers, and the like.

The dehumidifier referred to herein generally refers to all household appliances that are capable of reducing the humidity of a room.

Air purifiers as referred to herein generally refer to all household and similar appliances that have a certain ability to remove one or more contaminants, such as particulate matter, gaseous contaminants, microorganisms, etc., from the air.

Oxygen generators as referred to herein generally refer to all electrical appliances that produce oxygen.

The new fan mentioned in the present text refers to all independent air processing systems composed of an air supply system and an air exhaust system, and mainly comprises two types, namely a pipeline type new fan and a ductless new fan.

According to a first aspect of an embodiment of the present invention, as shown in fig. 1, there is provided an air conditioning system.

In an alternative embodiment, the air conditioning system comprises:

one or more air devices 10, wherein the one or more air devices 10 are one or more of a fresh air machine, an air conditioner, a humidifier, a dehumidifier, an oxygen generator and an air purifier;

a distribution station 20, one end of the distribution station 20 being in communication with one end of the air plant 10, the distribution station 20 having one or more first flow control devices 21 disposed therein;

one end of the drainage pipeline 30 is communicated with the other end of the distribution station 20, and one or more second flow control devices 31 are arranged in the drainage pipeline 30;

a terminal adjusting device 40, wherein one end of the terminal adjusting device 40 is communicated with the other end of the drainage pipeline 30, and the terminal adjusting device 40 is used for outputting air with set parameters;

wherein one dispensing station 20 is in communication with one or more tapping lines 30 and one tapping line 30 is in communication with one or more end-regulating devices 40.

The air conditioning system in the embodiment can accurately seal and drain the output quantity of one or more air devices, can accurately control the quality of the ambient air in a target area, avoids the influence of a complex environment, and reduces energy waste. The air conditioning system in this embodiment is a distributed air conditioning system, and each air appliance corresponds to a plurality of terminal conditioning devices. Further optionally, terminal adjusting device sets up in a plurality of positions of a workplace, for example in the office, all sets up terminal adjusting device on every desk, has realized accurate closely the air-out. Meanwhile, each terminal adjusting device is independently controlled, and different requirements of different users are met.

The distribution station comprises one or more chambers, the number of chambers corresponding to the number of air equipment types. The flow control device has the function of adjusting the flow, including power action and throttling action. Where the power action is used to increase the flow and the throttling action is used to decrease the flow. Optionally, when the output of the air device is fresh air, the first flow control device or the second flow control device includes a flow guide fan blade and a flow meter. Optionally, when the output of the air apparatus 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 disposed in the drainage line 30, and may be implemented as: one or more tapping lines 32 are arranged on the tapping line 30 for connection to a terminal control device 40, and a second flow control device 31 is arranged at the point of the tapping line 30 at which the tapping line 32 is arranged. A third flow control device 33 is provided at the connection of the tapping branch line 32 and the tapping line 30. The second flow control device 31 may monitor and regulate the flow rate of the fluid in the diversion pipeline 30, and the third flow control device 33 may monitor and regulate the flow rate of the fluid in the diversion pipeline 32, that is, the flow rate of the fluid flowing to the terminal adjusting device 40 through the diversion pipeline 32. The second flow control device 31 or the third flow control device 33 may include a flow guiding fan blade and a flow meter, the flow meter is configured to monitor a flow rate of the fluid in the flow guiding pipeline, the flow guiding fan blade is configured to adjust the flow rate of the fluid in the flow guiding pipeline, a rotation speed of the flow guiding fan blade is increased to increase the flow rate of the fluid in the flow guiding pipeline, and the rotation speed of the flow guiding fan blade is decreased to decrease the flow rate of the fluid in the flow guiding pipeline.

When the terminal adjusting device outputs the air with set parameters, the following two optional modes are provided: optionally, the air device delivers air meeting the set parameters to the terminal conditioning device via the distribution station and the diversion line, and the terminal conditioning device directly outputs air meeting the set parameters. Optionally, the air system delivers the intermediate medium via a distribution station and a tapping line to a final control device, which processes the ambient air according to the intermediate medium and the set parameters. The ambient air may be converted into air according to the set parameters under the influence of the intermediary. For example, when adjusting the temperature of the ambient air, the intermediate medium may be a refrigerant, and exchanges heat with the ambient air; when adjusting the air humidity, the intermediate medium can be air with set humidity, and after the air with set humidity is integrated with the ambient air, the air with set humidity can be formed. Compared with the mode of conveying the air meeting the set parameters, the mode of conveying the intermediate medium avoids the interference on the air meeting the set conditions in the conveying process, and can accurately control the air output by the terminal adjusting device. The terminal adjusting device is a final air outlet of the air conditioning system. Optionally, the terminal adjusting device includes a wall-hung terminal adjusting device and a desktop terminal adjusting device. For example, the wall-hung terminal adjusting device can be arranged on the wall surface of an office, and the desktop terminal adjusting device can be arranged on the desktop of the office desk, so that each user can adjust the terminal adjusting device according to the own requirements. In the case of heating by the user of the terminal adjusting device, optionally, a heating device is provided on the terminal adjusting 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 by the air equipment, the terminal adjusting device 40 may optionally provide a separate outlet 401 for each air equipment. Optionally, the terminal adjusting device 40 is provided with one or more air inlets, a mixing chamber, and a mixing air outlet 402, which are sequentially communicated, the one or more air inlets are connected to an outlet of the drainage pipeline, and the air output by the drainage pipeline is mixed in the mixing chamber and then output through the mixing air outlet 402. Optionally, a fan is disposed at the outlet 401/mixed outlet 402 of the terminal adjusting device 40, and a circulating air inlet is disposed at the back of the outlet 401/mixed outlet 402. Ensuring that the terminal adjusting device 40 has the function of promoting circulation of ambient air. For example, independently adjusting the fresh air flow; the flow of the temperature-adjusting air is independently adjusted, and the temperature-adjusting air refers to cold air or hot air output by the air conditioner. The terminal adjusting device is provided with a display panel and a control panel 403, which are convenient for the user to operate.

When one or more air devices comprise an air conditioner and a fresh air fan, a first temperature sensor is arranged at the outlet of a fresh air inlet of the terminal adjusting device and used for detecting the temperature of fresh air; a temperature-adjusting air inlet of the terminal adjusting device is provided with a second temperature sensor for detecting the temperature of the temperature-adjusting air; the air outlet of the terminal adjusting device is provided with a third temperature sensor for detecting the temperature of the mixed air; and a fourth temperature sensor is arranged on the outer surface of the terminal adjusting device and used for detecting the ambient temperature. The temperature can be accurately controlled.

In an alternative embodiment, when the air device is an air conditioner, the distribution station is used for distributing the temperature-regulated air output by the air conditioner, or the distribution station is used for distributing the refrigerant of the air conditioner. When the user of the distribution station distributes the refrigerant of the air conditioner, the terminal adjusting device directly utilizes the refrigerant to adjust the temperature of the ambient air, and the heat loss is reduced. The temperature-regulated air is air with a specific temperature output by the air conditioner, the temperature of the air is higher than that of ambient air or lower than that of the ambient air, and the temperature-regulated air is used for being mixed with the ambient air so that the temperature of the ambient air meets the requirements of users.

When the distribution station is used for distributing the refrigerant of the air conditioner, the refrigerant pipeline of the air conditioner is communicated with the distribution station, wherein the air conditioner comprises an outdoor unit, or an indoor unit and the outdoor unit. The refrigerant pipeline of the air conditioner is communicated with the distribution station and comprises: a refrigerant pipeline of the outdoor unit of the air conditioner is communicated with the distribution station; the refrigerant pipeline of the indoor unit of the air conditioner is communicated with the distribution station. When the air conditioner comprises an indoor unit and an outdoor unit, the connection relation between the air conditioner and the distribution station is cut off, the air conditioner can adjust the temperature of indoor ambient air in a common air conditioner mode, the air conditioner is communicated with the distribution station, and the air conditioner can adjust the temperature of the indoor ambient air in a distributed mode.

The refrigerant distribution station comprises a refrigerant input chamber and a refrigerant output chamber. Optionally, one or more first flow control devices are provided in the distribution station, and may be implemented as: a first flow control device is arranged at the connecting part of the distribution station and the drainage pipeline, so that the distribution of the refrigerant flow is realized. Wherein, the first flow control device can be an expansion valve. And the drainage pipeline comprises a refrigerant input pipeline and a refrigerant output pipeline corresponding to the distribution station, wherein the refrigerant input pipeline is communicated with the refrigerant input cavity of the distribution station, and the refrigerant output pipeline is communicated with the refrigerant output cavity of the distribution station. Correspondingly, the terminal adjusting device is internally provided with a heat exchanger, a refrigerant input pipeline is communicated with the input end of the heat exchanger, a refrigerant output pipeline is communicated with the output end of the heat exchanger, and the heat exchanger of the terminal adjusting device exchanges refrigerants with the air conditioner through the connecting structure.

According to a second aspect of an embodiment of the invention, as shown in fig. 4, a conditioning method for an air conditioning system is provided.

In an alternative embodiment, the air conditioning system is the air conditioning system described above, and the conditioning method includes:

s401, determining the total output parameters of one or more air devices in the air conditioning system according to the set parameters of two or more users; the total output parameters comprise one or more of a set output value of the fresh air fan, a set output value of the air conditioner, a set output value of the humidifier, a set output value of the dehumidifier, a set output value of the oxygen generator and a set output value of the air purifier.

Alternatively, S401 may be implemented as: the total output parameter of one or more air devices in the air conditioning system is determined based on the set parameters of two or more users and the current environmental information.

S402, adjusting one or more first flow control devices in a distribution station of the air conditioning system and one or more second flow control devices in a drainage pipeline of the air conditioning system according to set parameters of two or more users, and distributing the output quantity of one or more air equipment operated according to the total output parameters to the drainage pipeline of the air conditioning system and a terminal adjusting device.

The adjusting method provided in this embodiment can accurately adjust the terminal adjusting device, and further accurately adjust the quality of the ambient air in the target area where the terminal adjusting device is located, where the target area is the area where the user is located. The embodiment can simultaneously meet different requirements of different users.

In distributing the output of the one or more air devices operating according to the total output parameter to the drain line and the terminal regulating device of the air conditioning system, the output of the one or more air devices may include: one or more of the fresh air flow of the fresh air machine, the air outlet temperature and the air outlet flow of the air conditioner, the air outlet humidity and the air outlet flow of the humidifier, the air outlet humidity and the air outlet flow of the dehumidifier, the air outlet oxygen content and the air outlet flow of the oxygen generator and the air outlet flow of the air purifier.

In this embodiment, the regulation of the ambient air is achieved by regulating the fluid flow of the drainage branch connected to the terminal regulating device. For example, when a user needs to adjust the temperature of the ambient air, the temperature of the ambient air is adjusted by adjusting the outlet air flow rate of the bypass line of the terminal adjusting device, which communicates with the air conditioner. In the refrigeration process, when the temperature of the ambient air is too low, the air outlet flow of a diversion pipeline of the terminal adjusting device, which is communicated with the air conditioner, is reduced, and when the temperature is too high, the air outlet flow of a diversion pipeline of the terminal adjusting device, which is communicated with the air conditioner, is increased; in the heating process, when the ambient temperature is too low, the air outlet flow of the diversion distribution pipeline of the terminal adjusting device communicated with the air conditioner is increased, and when the ambient temperature is too high, the air outlet flow of the diversion distribution pipeline of the terminal adjusting device communicated with the air conditioner is reduced.

As shown in fig. 5, in S402, adjusting one or more first flow control devices in a distribution station of an air-conditioning system and one or more second flow control devices in a diversion line of the air-conditioning system according to setting parameters of two or more users, optionally implemented as:

S501, one or more first flow control devices in the first distribution station are adjusted according to the set parameters of two or more users, so that the flow of the fluid flowing from the first distribution station to the first drainage pipeline is adjusted.

The fluid comprises air and an intermediate medium which accord with set parameters, for example, when the temperature of the ambient air is regulated, the intermediate medium can be a refrigerant; in adjusting the humidity of the ambient air, the intermediate medium may be air of a set humidity.

Optionally, S501 is implemented as: and acquiring the total set fluid flow of all terminal adjusting devices on the first drainage pipeline in the set parameters of two or more users, and adjusting one or more first flow control devices according to the total set fluid flow so as to ensure that the fluid flow distributed by the distribution station for the first drainage pipeline is the total set fluid flow. The total set fluid flow of all the terminal adjusting devices on the first drainage line is obtained from the set parameters of two or more users, and can be optionally implemented as follows: the method comprises the steps of determining a first sub-setting parameter used for representing second environment information in setting parameters of two or more users, and determining the total set fluid flow of all terminal adjusting devices on a first drainage pipeline according to the first sub-setting parameter, wherein the fluid in the first drainage pipeline can adjust second environment information of ambient air, and the second environment information is any one of temperature information, humidity information, cleanliness information, freshness information and oxygen content information. When the two or more user setting parameters comprise two or more sub setting parameters used for representing two or more types of environment information, the embodiment can accurately distribute the fluid flow for the corresponding drainage pipeline according to each sub setting parameter.

S502, one or more second flow control devices in the first drainage pipeline are adjusted according to the set parameters of two or more users, so that the flow of the fluid flowing from the first drainage pipeline to the first drainage pipeline is adjusted.

The flow difference between the two first flow control devices on the two sides of the first drainage branch pipeline in the first drainage pipeline is the flow of the fluid flowing from the first drainage pipeline to the first drainage branch pipeline. Because the terminal adjusting device is communicated with the first drainage branch pipeline, the fluid flow flowing from the first drainage pipeline to the first drainage branch pipeline is the fluid flow flowing from the first drainage branch pipeline to the terminal adjusting device.

Optionally, S502 is implemented as: the set fluid flow on the first drainage branch pipeline is obtained from the set parameters of two or more users, and one or more second flow control devices are adjusted according to the set fluid flow, so that the fluid flow distributed to the first drainage branch pipeline by the first drainage pipeline is ensured to be the set fluid flow. In order to further precisely control the fluid flow to the terminal adjusting device, after S402, the method further includes:

s503, one or more third flow control devices in the first diversion branch pipeline are adjusted according to the set parameters of two or more users, so that the flow of the fluid flowing to the terminal adjusting device from the first diversion branch pipeline is determined.

The fluid flow shown by the third flow control device can accurately reflect the accurate fluid flow which can be provided for the terminal adjusting device by the drainage pipeline.

By adopting the scheme, the fluid flowing into the terminal adjusting device can be accurately controlled, so that the quality of the ambient air of the target area where the terminal adjusting device is located can be accurately adjusted, and different requirements of different users can be met simultaneously.

Fig. 6 shows an air-conditioning system comprising 4 end-point control devices and two feed lines, wherein a first end-point control device 41 and a third end-point control device 43 are arranged on a second feed line 50, and a second end-point control device 42 and a fourth end-point control device 44 are arranged on a third feed line 60. The air conditioning system can be used by 4 users at the same time, for example, the third environmental information about the ambient air, the first user has a set parameter with a demand for 3 units of fluid flow, the second user has a set parameter with a demand for 0 unit of fluid flow, the third user has a set parameter with a demand for 5 units of fluid flow, and the fourth user has a set parameter with a demand for 2 units of fluid flow.

After performing S501 of adjusting one or more first flow control devices in the first dispensing station according to the setting parameters of two or more users, the dispensing station dispenses 8 units of fluid flow to the second tapping line 50 and 2 units of fluid flow to the third tapping line 60. After performing S502 to adjust one or more second flow control devices in the second diversion line 50 according to the setting parameters of two or more users, the second diversion line 50 allocates 3 units of fluid flow to the second diversion line 71, the second diversion line 50 allocates 5 units of fluid flow to the third diversion line 72, the third diversion line 60 allocates 0 units of fluid flow to the fourth diversion line 73, and the third diversion line 60 allocates 2 units of fluid flow to the fifth diversion line 74. Finally, the flow rate of the fluid obtained by the first final control device 41 is 3 units, the flow rate of the fluid obtained by the second final control device 42 is 0 units, the flow rate of the fluid obtained by the third final control device 43 is 5 units, and the flow rate of the fluid obtained by the fourth final control device 44 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 the clarity information, the fluid flow in the above embodiment is the fresh air flow, and a larger fresh air flow indicates a higher requirement of the user on the freshness; when the third environmental information is temperature information, the fluid flow rate is a set temperature air flow rate or a refrigerant flow rate, and the larger the fluid flow rate is, the stronger the adjusting effect on the temperature is, for example, in the process of refrigeration, in the case that the temperature of the set temperature air is lower than the set temperature of the user, the larger the flow rate of the cold air blown out by the terminal adjusting device is, the easier the environmental temperature is to be reduced; when the third environmental information is the humidity information, the fluid flow is set humidity air flow or water flow, the larger the fluid flow is, the stronger the adjusting effect on the humidity of the ambient air is, and when the third environmental information is the cleanliness information, the fluid flow is clean air flow, and the larger the clean air flow is, the higher the freshness of the ambient air is.

In the above embodiment, a flow of adjusting one type of environment information is schematically given, and when the setting parameters of two or more users include two or more setting parameters representing two or more types of environment information by the user, that is, when two or more users have a need for two or more types of environment information, it is necessary to adjust two or more types of environment information. Two or more kinds of environment information can be sequentially split into one kind of environment information, and then each kind of environment information is sequentially adjusted according to the process. For example, when the setting parameters of the two or more users include a temperature setting value and a freshness setting value, the temperature of the ambient air may be independently adjusted by using the above-described process, the freshness of the ambient air may be independently adjusted by using the above-described process, and the process of adjusting the temperature of the ambient air and the process of adjusting the freshness of the ambient air are not separated.

In the above described embodiments the flow of fluid in the drain line is regulated, however, the properties of the fluid itself also have an effect on regulating the ambient air, for example: when the temperature of the ambient air is adjusted, the higher the fluid temperature is, the smaller the required fluid flow is when the same temperature is reached, and the fluid temperature is inevitably higher than the set temperature value of all users; when the air freshness is adjusted, the higher the fluid freshness is, the same freshness is achieved, and the smaller the required fluid flow is; when the humidity of the air is adjusted, the higher the humidity of the fluid is, the same humidity is achieved, and the smaller the flow rate of the fluid is required; when the oxygen content of the air is adjusted, the more the oxygen content of the fluid is, the same oxygen content is achieved, and the smaller the flow rate of the fluid is required; when air cleanliness is adjusted, the higher the fluid cleanliness is, the lower the required fluid flow is to achieve the same cleanliness.

In an alternative embodiment, the output of the one or more air devices operating in accordance with the total output parameter includes an output fluid property and an output fluid flow rate. The implementation mode can accurately adjust the fluid flow, and ensures that the index of the ambient air of the terminal adjusting terminal meets the requirement of a user. Wherein the output fluid properties 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 a total output parameter of one or more air devices in the air conditioning system based on the set parameters of two or more users and the current environmental information includes:

determining output fluid properties of one or more air devices in the air conditioning system according to the set parameters of two or more users and the actual environment information; an output fluid flow rate of one or more air devices in the air conditioning system is determined based on the two or more user set parameters and the current environmental information. Wherein the actual environment change information comprises 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-mentioned solution, when the fourth environment information (the fourth environment information is any one of the actual temperature information, the actual humidity information, the actual cleanliness information, the actual freshness information, and the actual oxygen content information) is adjusted, in the above-mentioned technical solution, a first difference between the set parameter and the fourth environment information is inversely related to a second difference between the set parameter and the corresponding output fluid property of the air equipment. For example, when the fourth environment information is actual temperature information, the set temperature is higher than the actual temperature, the output fluid temperature of the corresponding air equipment is lower than the set temperature, and the more the set temperature world temperature is high, the more the output fluid temperature of the corresponding air equipment is lower than the set temperature. The embodiment can accurately distribute the fluid flow rate to each terminal regulating device so as to ensure that the ambient air around the terminal regulating device meets the requirements of users.

In an alternative embodiment, when the air device is an air conditioner, the output quantity of the air conditioner after the air conditioner operates according to the total output parameter includes a temperature of the temperature-regulated air and a flow rate of the temperature-regulated air, or a refrigerant pressure and a refrigerant flow rate. In the embodiment, when the fluid is a refrigerant, the heat loss of the fluid during transportation can be reduced.

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

and determining the setting parameters of the two or more users according to the user information of the two or more users, wherein the user information comprises one or more of behavior information, position information, identity information, age information and physiological parameter information.

The user's requirements can be accurately obtained according to the behavior information and the location information of the user, for example, the user needs to lower the ambient temperature during exercise, and the user needs to raise the ambient temperature during reading. The parameters actively set by the user can be associated with the identity information of the user, and when the identity information of the user is obtained, the set parameters of the user can be determined according to the identity information of the user. The demands of users of different age groups on the ambient air are different, after the age information of the users is obtained, the operation modes of the air equipment are determined according to the age information, and each operation mode corresponds to one set parameter. The operation modes include, but are not limited to: pregnant infant mode, children mode, normal mode, old man mode. The physiological parameter information includes one or more of body surface temperature information, heart rate information, blood pressure information, blood glucose information, sleep information, blood oxygen content information, skin hydration information, respiration rate information, brain activity information, female physiological period information, and fetal heart rate information. Under general conditions, different users have different perceptions of cold and heat, even the same user has different perceptions and demands of cold and heat in different time periods, the physiological parameter information of the user can accurately reflect the actual demands of the user, the set parameters are determined according to the physiological parameter information of the user, and better use experience can be brought to the user.

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

When the user identity information is behavior information or location information, acquiring the user identity information may be implemented as: and acquiring the user information through the linkage equipment, wherein the linkage equipment is equipment capable of providing the user information.

The linkage device is an electrical device which provides necessary functions to maintain normal life in daily life of a user. Linkage devices include, but are not limited to: a range hood, an electromagnetic stove, a gas stove, an electric oven, an electric cooker, a bathroom water heater, a washing machine, an intelligent toilet lid, a television, a projector, a computer and a treadmill. The setting position of the linkage equipment in the household life is generally fixed, for example: the treadmill is arranged in the sports fitness room; the range hood, the electromagnetic range and the gas range are arranged in a kitchen; the bathroom water heater and the intelligent toilet cover are arranged in a toilet. Therefore, the position information of the user can be determined according to the starting condition of one linkage device. In addition, different linkages have different functions, such as: the treadmill is used for exercising the body, the range hood, the electromagnetic stove or the gas stove are used for cooking, and the bathroom water heater is used for bathing and the like. Therefore, the behavior information of the user can be determined according to the running time of the linkage equipment and the combined running condition of two or more linkage equipment. The behavior information and the position information of the user can be more accurately determined through the linkage equipment. Obtaining user information may also be implemented as: behavior information of a user is acquired through a camera or an infrared sensor, and position information is acquired through a Radio Frequency Identification (RFID) technology. Optionally, the acquiring the behavior information of the user includes: the behavior action of the user is determined through the camera or the infrared sensor, and the behavior intensity of the user is determined through the linkage equipment.

When the user information is physiological parameter information of the user, acquiring the identity information of the user may be implemented as: and acquiring the user information through the linkage equipment, wherein the linkage equipment is equipment capable of providing the user information. The linkage devices include, but are not limited to, smart bracelets, smart watches, smart helmets, smart skin patches, smart armrings, and the like.

When the user information is identity information or age information, the obtaining of the user information may be implemented as: acquiring a facial image of a user through a camera, and determining identity information, or age information, or identity information and age information of the user according to the facial image of the user; the camera can be any one of a self-contained camera of the air equipment, a special camera and a security camera. The method for acquiring the identity information of the user can also be implemented as follows: and acquiring the identity information of the user through the RFID.

After obtaining the user identity information, determining the setting parameters of two or more users according to the user information of the two or more users may be implemented as: and sending the identity information to a database, and matching the set parameters corresponding to the identity information in the database. The database is communicated with the air equipment or the air equipment and the linkage equipment, and the database can be optionally arranged on a local area network (such as an intelligent home system) and can be optionally arranged on a cloud platform server.

When the setting parameters of the air equipment can not be determined through the identity information, namely when the setting parameters can not be obtained according to the identity information, the running mode is determined according to the age information, wherein the running mode corresponds to the setting parameters one to one.

A third aspect of an embodiment of the present invention provides a conditioning apparatus for an air conditioning system, as shown in fig. 7.

In an alternative embodiment, the air conditioning system is the air conditioning system described above, and the conditioning device of the user air conditioning system comprises:

a first module 81 for determining a total output parameter of one or more air devices in the air conditioning system based on two or more user set parameters; the total output parameters comprise one or more of a set output value of the fresh air fan, a set output value of the air conditioner, a set output value of the humidifier, a set output value of the dehumidifier, a set output value of the oxygen generator and a set output value of the air purifier;

a second module 82 for adjusting 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 bleed line of the air conditioning system based on two or more user set parameters for distributing the output of the one or more air devices operating according to the total output parameter to the bleed line of the air conditioning system and the terminal conditioning device.

In an alternative embodiment, the first module is specifically configured to determine a total output parameter of one or more air devices in the air conditioning system based on the setting parameters of two or more users and the current environmental information.

In an alternative embodiment, the output of the one or more air devices operating in accordance with the total output parameter includes an output fluid property and an output fluid flow rate. Wherein the output fluid properties 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 a total output parameter of one or more air devices in the air conditioning system according to the setting parameters of two or more users and the current environment information includes:

determining output fluid properties of one or more air devices in the air conditioning system according to the set parameters of two or more users and the actual environment information; an output fluid flow of one or more air devices in the air conditioning system is determined based on the two or more user set parameters and the current environmental information. Wherein the actual environment change information comprises one or more of actual temperature information, actual humidity information, actual cleanliness information, actual freshness information and actual oxygen content information.

In an alternative embodiment, when the air conditioner is an air conditioner, the output quantity of the air conditioner after the air conditioner operates according to the total output parameter includes a temperature of the temperature-regulated air and a flow rate of the temperature-regulated air, or a refrigerant pressure and a refrigerant flow rate.

In an optional embodiment, the adjusting apparatus further includes a third module, configured to determine setting parameters of two or more users according to user information of the two or more users, where 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 mediation apparatus further includes a fourth module configured to obtain the user information.

Optionally, the fourth module is specifically configured to, when the user identity information is behavior information or location information, acquire the user information through a linkage device, where the linkage device is a device that can provide the user information. The linkage device refers to an electric appliance that provides a necessary function to maintain a normal life in a user's daily life. Linkage devices include, but are not limited to: a range hood, an electromagnetic stove, a gas stove, an electric oven, an electric cooker, a bathroom water heater, a washing machine, an intelligent toilet lid, a television, a projector, a computer and a treadmill. The setting position of the linkage equipment in the household life is generally fixed, for example: the treadmill is arranged in the sports fitness room; the range hood, the electromagnetic range and the gas range are arranged in a kitchen; the bathroom water heater and the intelligent toilet cover are arranged in a toilet. Therefore, the position information of the user can be determined according to the starting condition of one linkage device. In addition, different linkages have different functions, such as: the treadmill is used for exercising the body, the range hood, the electromagnetic stove or the gas stove are used for cooking, and the bathroom water heater is used for bathing and the like.

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

Optionally, the fourth module is specifically configured to, when the user information is identity information or age information, obtain a facial image of the user through the camera, and determine the identity information, or the age information, or the identity information and the age information of the user according to the facial image of the user; the camera can be any one of a self-contained camera, a special camera and a security camera of the air equipment.

In an alternative embodiment, the conditioning device for an air conditioning system comprises:

a processor;

a memory for storing processor-executable instructions;

wherein the processor is configured to:

determining the total output parameters of one or more air devices in the air conditioning system according to the set parameters of two or more users; the total output parameters comprise one or more of a set output value of the fresh air fan, a set output value of the air conditioner, a set output value of the humidifier, a set output value of the dehumidifier, a set output value of the oxygen generator and a set output value of the air purifier;

And adjusting one or more first flow control devices in a distribution station of the air conditioning system and one or more second flow control devices in a diversion pipeline of the air conditioning system according to the set parameters of two or more users, and distributing the output of one or more air devices operated according to the total output parameter to the diversion pipeline of the air conditioning system and the terminal adjusting device.

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

In an alternative embodiment, a computer-readable storage medium is provided, on which a computer program is stored which, when being executed by a processor, carries out the aforementioned adjusting method for an air-conditioning system. The computer readable storage medium includes a Read Only Memory (ROM), a Random Access Memory (RAM), a magnetic tape, an optical storage device, and the like.

Those of ordinary skill in the art will appreciate that the various illustrative elements and algorithm steps described in connection with the embodiments disclosed herein may be implemented as electronic hardware or combinations of computer software and electronic hardware. Whether such functionality is implemented as hardware or software depends upon the particular application and design constraints imposed on the implementation. Skilled artisans may implement the described functionality in varying ways for each particular application, but such implementation decisions should not be interpreted as causing a departure from the scope of the present invention. It is clear to those skilled in the art that, for convenience and brevity of description, the specific working processes of the system and the apparatus described above may refer to the corresponding processes in the foregoing method embodiments, and are not described herein again.

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

Claims (10)

1. An air conditioning system, comprising:

one or more air devices, wherein the one or more air devices are one or more of a fresh air machine, an air conditioner, a humidifier, a dehumidifier, an oxygen generator and an air purifier;

a distribution station, one end of which communicates with one end of an air plant, the distribution station having one or more first flow control devices disposed therein;

one end of the drainage pipeline is communicated with the other end of the distribution station, a plurality of drainage pipelines are arranged on the drainage pipeline, a second flow control device is arranged at a node of the drainage pipeline, where the drainage pipeline is arranged, a third flow control device is arranged at a joint of the drainage pipeline and the drainage pipeline, the second flow control device monitors and adjusts the flow of the fluid in the drainage pipeline, and the third flow control device can monitor and adjust the flow of the fluid in the drainage pipeline;

One end of the terminal adjusting device is communicated with the drainage branch pipeline, and the terminal adjusting device is used for outputting air with set parameters;

one distribution station is communicated with one or more drainage pipelines, one drainage pipeline is communicated with one or more terminal adjusting devices, and the drainage pipeline is used for being communicated with the terminal adjusting devices; the first flow control device, the second flow control device and the third flow control device respectively comprise a drainage fan and a flowmeter, and the first flow control device, the second flow control device and the third flow control device have the functions of regulating flow, including power function and throttling function; wherein the dynamic action is to increase flow and the throttling action is to decrease flow;

and the flow difference between the two second flow control devices on the two sides of the first drainage branch pipeline in the first drainage pipeline is the flow of the fluid flowing from the first drainage pipeline to the first drainage branch pipeline, namely the flow of the fluid flowing from the first drainage branch pipeline to the terminal adjusting device.

2. The system of claim 1, wherein when the air device is an air conditioner, the distribution station is configured to distribute conditioned air output by the air conditioner, or the distribution station is configured to distribute refrigerant of the air conditioner.

3. A conditioning method for an air conditioning system, characterized in that the air conditioning system is the air conditioning system of claim 1 or 2, the conditioning method comprising:

determining a total output parameter of one or more air devices in the air conditioning system according to the set parameters of two or more users; the total output parameters comprise one or more of a set output value of a fresh air fan, 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;

and adjusting one or more first flow control devices in a distribution station of the air conditioning system and one or more second flow control devices in a drainage pipeline of the air conditioning system according to the setting parameters of the two or more users, and distributing the output of the one or more air devices operated according to the total output parameter to the drainage pipeline of the air conditioning system and a terminal adjusting device.

4. The method as claimed in claim 3, wherein when the air device is an air conditioner, the output of the air conditioner after the air conditioner operates according to the total output parameters includes a temperature of the temperature-adjusted air and a flow rate of the temperature-adjusted air, or a refrigerant pressure and a refrigerant flow rate.

5. The method of claim 3, wherein prior to determining the total output parameter of the one or more air devices in the air conditioning system based on the two or more user-defined parameters, further comprising:

determining the setting parameters of two or more users according to the user information of the two or more users, wherein the user information comprises one or more of behavior information, position information, identity information, age information and physiological parameter information.

6. A conditioning apparatus for an air conditioning system, characterized in that the air conditioning system is the air conditioning system described in claim 1 or 2, the conditioning apparatus comprising:

a first module for determining a total output parameter of one or more air devices in the air conditioning system based on two or more user-defined parameters; the total output parameters comprise one or more of a set output value of a fresh air fan, 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;

and the second module is used for adjusting one or more first flow control devices in a distribution station of the air conditioning system and one or more second flow control devices in a drainage pipeline of the air conditioning system according to the setting parameters of the two or more users, and distributing the output quantity of the one or more air equipment operated according to the total output parameter to the drainage pipeline of the air conditioning system and the terminal adjusting device.

7. The conditioning apparatus of claim 6, wherein when the air device is an air conditioner, the output of the air conditioner after operating according to the total output parameter comprises a temperature of the temperature-regulated air and a flow rate of the temperature-regulated air, or a refrigerant pressure and a refrigerant flow rate.

8. The adjustment device of claim 6, further comprising a third module configured to determine the setting parameters of two or more users according to user information of the 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.

9. A conditioning apparatus for an air conditioning system, characterized in that the air conditioning system is the air conditioning system described in claim 1 or 2, the conditioning apparatus comprising:

a processor;

a memory for storing processor-executable instructions;

wherein the processor is configured to:

determining the total output parameters of one or more air devices in the air conditioning system according to the set parameters of two or more users; the total output parameters comprise one or more of a set output value of a fresh air fan, 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;

And adjusting one or more first flow control devices in a distribution station of the air conditioning system and one or more second flow control devices in a drainage pipeline of the air conditioning system according to the setting parameters of the two or more users, and distributing the output of the one or more air devices operated according to the total output parameter to the drainage pipeline of the air conditioning system and a terminal adjusting device.

10. A computer-readable storage medium, on which a computer program is stored which, when being executed by a processor, carries out a method for conditioning an air-conditioning system according to any one of claims 3 to 5.

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