CN111322725A - Air treatment system - Google Patents

Abstract

The invention relates to an air treatment system, which divides linkage of air detection equipment and air treatment equipment into scene types, each scene type is provided with an independent linkage control method, a user only needs to select or set the scene type according to the requirement of the user, and under the same scene type, the uniquely determined state control is carried out on the air treatment equipment according to air parameters. Therefore, the method and the device can select the scene type according to the user requirements, are simple to operate, can ensure the stable operation of the air treatment equipment, and ensure the air comfort level.

Description

Air treatment system

Technical Field

The invention relates to the technical field of air conditioning, in particular to an air treatment system.

Background

With the improvement of the requirement of people on air comfort, air conditioners are increasingly applied to daily life of people.

At present, the common starting condition of the air conditioner is that a user actively starts the air conditioner and sets heating, refrigerating, dehumidifying and other modes. However, this method is very cumbersome, requires re-starting operation after each shutdown, and requires one-to-one operation for a plurality of air conditioners, and thus, this method cannot adjust the comfort level of air in time.

Disclosure of Invention

The invention provides an air treatment system, which solves the technical problem that the air comfort level of an air conditioner cannot be adjusted in time by actively opening the air conditioner for a user in the prior art.

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

an air treatment system, the system comprising:

the storage module is used for storing a plurality of scene types, and each scene type comprises air detection equipment, at least one air treatment equipment and linkage conditions of the air detection equipment and the air treatment equipment;

the control module is used for receiving a scene type setting signal and reading the scene type stored by the storage module according to the scene type setting signal; the air parameter information processing device is used for receiving the air parameter information sent by at least one air detection device, and outputting a control signal corresponding to the linkage condition to control the state of the air processing device when the air parameter information detected by the air detection device meets the linkage condition.

Compared with the prior art, the technical scheme of the invention has the following technical effects: the air processing system of the invention stores a plurality of scene types, each scene type comprises an air detection device, at least one air processing device and a linkage condition of the air detection device and the air processing device, which are linked, the control module can read the corresponding scene type stored in the storage module according to the scene type setting signal only by receiving the scene type setting signal, and the state of the linked air processing device is controlled when the air parameter information detected by the air detection device meets the linkage condition. Therefore, the linkage of the air detection equipment and the air treatment equipment is divided into scene types, each scene type is provided with an independent linkage control method, a user only needs to select or set the scene type according to the requirement of the user, and the air treatment equipment is subjected to uniquely determined state control according to the air parameters under the same scene type. Therefore, the method and the device can select the scene type according to the user requirements, are simple to operate, can ensure the stable operation of the air treatment equipment, and ensure the air comfort level.

Drawings

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

FIG. 1 is a schematic block diagram of an air treatment system according to an embodiment of the present invention.

FIG. 2 is a control flow diagram of an air treatment system according to an embodiment of the present invention.

FIG. 3 is a schematic block diagram of an air treatment system according to another embodiment of the present invention.

FIG. 4 is a flow chart of setting the type of scenario for an air handling system in accordance with an embodiment of the present invention.

Detailed Description

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

In the description of the present invention, it should be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, e.g., as meaning either a fixed connection, a removable connection, or an integral connection; may be directly connected or indirectly connected through an intermediate. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art. In the foregoing description of embodiments, the particular features, structures, materials, or characteristics may be combined in any suitable manner in any one or more embodiments or examples.

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

As shown in fig. 1, the present embodiment proposes an air treatment system including a storage module and a control module.

And the storage module is used for storing a plurality of scene types. The names of a plurality of scene types are not repeatable, and each scene type comprises linkage starting function and linkage closing function linkage conditions to determine starting and closing of the scene type.

Each scene type includes one air detection device, at least one air treatment device linked together, and linked conditions of the air detection device and the air treatment device.

Preferably, one air detection device and a plurality of air treatment devices are included in the same scene type.

The air detection equipment in the scene type is the unique equipment number or network ID and the like of the air detection equipment, the air detection equipment has a networking function, and the equipment number or the network ID of the air detection equipment is sent to the control module after the air detection equipment is networked.

The air processing equipment in the scene type refers to the unique equipment number or network ID of the air processing equipment, the air processing equipment has a networking function, and the equipment number or the network ID of the air processing equipment is sent to the control module after the air processing equipment is networked.

The scene type can be a plurality of preset scene types and stored in the storage module, or the scene type which is set by the user according to the requirement and accords with the set rule can be stored in the storage module.

The scene types include a first scene type (summer scene type) and a second scene type (winter scene type).

The linkage condition of the first scene type comprises a first temperature set value corresponding to the condition that the air processing equipment opens the refrigeration mode and a second temperature set value corresponding to the condition that the air processing equipment closes the refrigeration mode.

Wherein the first temperature set value is greater than or equal to the second temperature set value.

The linkage conditions of the second scene type include a third temperature setting value corresponding to a condition that the air processing device starts the heating mode, and a fourth temperature setting value corresponding to a condition that the air processing device stops the heating mode.

Wherein the fourth temperature set value is greater than or equal to the third temperature set value.

The first temperature set value is greater than or equal to the third temperature set value, and the second temperature set value is greater than or equal to the fourth temperature set value.

In a first scene type, when the temperature information detected by the air detection equipment is higher than a first set temperature value, the air treatment equipment starts a refrigeration mode; and when the temperature information detected by the air detection equipment is lower than a second set temperature value, the air treatment equipment closes the cooling mode.

In a second scene type, when the temperature information detected by the air detection equipment is lower than a third temperature set value, the air processing equipment starts a heating mode; and when the temperature information detected by the air detection device is higher than a fourth set value of the temperature, the air treatment device closes the heating mode.

The scene types include a third scene type (dehumidification scene type) and a fourth scene type (humidification scene type).

The linkage condition of the third scene type comprises a first humidity set value corresponding to the condition that the air processing equipment opens the dehumidification mode and a second humidity set value corresponding to the condition that the air processing equipment closes the dehumidification mode.

Wherein the first set value of humidity is more than or equal to the second set value of humidity.

The linkage condition of the fourth scene type comprises a third humidity set value corresponding to the condition that the air processing equipment opens the humidification mode and a fourth humidity set value corresponding to the condition that the air processing equipment closes the humidification mode.

Wherein the fourth set value of humidity is more than or equal to the third set value of humidity.

The first humidity set value is greater than or equal to the third humidity set value, and the second humidity set value is greater than or equal to the fourth humidity set value.

In a third scene type, when the humidity information detected by the air detection equipment is higher than a first humidity set value, the air treatment equipment starts a dehumidification mode; and when the humidity information detected by the air detection equipment is lower than a second humidity set value, the air treatment equipment closes the dehumidification mode.

In a second scene type, when the humidity information detected by the air detection equipment is lower than a third humidity set value, the air treatment equipment starts a humidification mode; when the humidity information detected by the air detection device is higher than a fourth humidity set value, the air treatment device turns off the humidification mode.

The control module is used for receiving the scene type setting signal and reading the scene type stored in the storage module according to the scene type setting signal.

The scene type setting signal is generally sent by a control terminal, the control terminal can be a remote controller or a wire controller, and the embodiment is preferably an intelligent terminal.

The control module is used for receiving the air parameter information sent by at least one air detection device and outputting a control signal corresponding to the linkage condition to control the state of the air treatment device when the air parameter information detected by the air detection device meets the linkage condition.

Specifically, when the control module receives a scene type setting signal, the air detection device and the air treatment device which are included in the scene type are networked online at the same time, and the air parameter information sent by the air detection device meets the linkage condition, the control module outputs a control signal corresponding to the linkage condition to control the state of the air treatment device.

The control module only executes one scene type at the same time, and in one scene type, one air detection device is linked with a plurality of air treatment devices.

The control module is used for preferentially linking air treatment equipment in the same space with the air detection equipment.

The control module can be arranged on the intelligent terminal, and the intelligent terminal is communicated with the networked air detection device and the air treatment device.

The control module can also be arranged at the cloud end, the cloud end is communicated with the networked air detection equipment and the air processing equipment, and the cloud end is also communicated with the intelligent terminal.

Of course, the air treatment system of the present embodiment may also include at least one air detection device and at least one air treatment device.

And the air detection equipment is used for acquiring air parameter information. The air detection device may be an air detection device capable of detecting one or more air parameter information (temperature information, humidity information, etc.).

The air detection device has a networking function and can send a unique device number or a network ID to the control module.

Air treatment devices for conditioning the comfort of air, such as: temperature and humidity.

The air treatment device can be an air conditioner (such as a household air conditioner, a central air conditioner and the like) which is provided with an air temperature adjusting function and a dehumidifying function, or can be added with a humidifying function on the basis of the existing air conditioner, or can be the existing air conditioner plus a humidifier.

And the air treatment equipment can be used for treating air in one or more rooms, and the corresponding relation between the air treatment equipment and the rooms is stored in the storage module. The air treatment equipment can be connected to a network, and remote management of the networked intelligent terminal to the air treatment equipment can be realized.

The storage module is also used for storing an effective time period of the linkage condition, and the control module is used for judging that when the current time is in the effective time period and the air parameter information accords with the linkage condition, outputting a control signal corresponding to the linkage condition to control the state of the air processing equipment. The air treatment can be carried out within a specific effective time period.

As shown in fig. 2, the operation process of the air treatment system of the present embodiment includes the following steps:

and S1, receiving a scene type setting signal.

And S2, reading the scene type stored in the storage module according to the scene type setting signal.

S3, judging whether the current time is in the effective time period, if yes, entering the step S4, otherwise, entering the step S3.

And S4, receiving the air parameter information sent by the air detection equipment.

And S5, judging whether the air parameter information meets the linkage condition, if so, entering the step S6, otherwise, entering the step S4.

And S6, outputting a control signal corresponding to the linkage condition to control the state of the air treatment equipment.

As shown in fig. 3, the air treatment system of the present embodiment further includes a scene type setting module, configured to set a scene type and air detection devices included in the scene type, an air treatment device, and linkage conditions of the air detection device and the air treatment device. The personalized setting of the scene types of the users can be realized so as to meet different requirements of different users.

The names of the scene types cannot be repeated, and when the scene types are set, the linkage conditions of the opening function and the closing function of the air treatment equipment need to be set at the same time, and the air parameters and the set values of the two are the same.

The scene type setting module is generally disposed in the smart terminal, and is presented to the user in the form of APP, for example.

Specifically, the scene type setting module provides information of the air detection device and the air treatment device to a user, provides room information and the like corresponding to the air detection device and the air treatment device to the user, and provides types of air parameters detected by the air detection device to the user. The scene type setting module is used for selecting the types of the air detection equipment, the air treatment equipment and the air parameters included by the scene type.

Setting summer scene types:

adding condition equipment: an air detection device;

adding linkage equipment: a plurality of air treatment devices;

linkage conditions and actions:

when the temperature is higher than T1 ℃, the refrigeration function is started, and the temperature is set to be Y12 ℃;

when the temperature is less than T2 degrees, the cooling function is closed.

And (4) recommendation and prompt: the optimum temperature in the room is 22-28 ℃.

Setting winter scene types:

adding condition equipment: an air detection device;

adding linkage equipment: a plurality of air treatment devices;

linkage conditions and actions:

when the temperature is less than T3 ℃, the heating function is started, and the temperature is set to be Y2 ℃;

when the temperature is higher than T4 degrees, the heating function is closed;

and (4) recommendation and prompt: the optimum temperature in a room is 16-24 ℃;

setting of dehumidification scene type:

adding condition equipment: an air detection device;

adding linkage equipment: a plurality of air treatment devices;

linkage conditions and actions:

when the humidity is greater than S1, the dehumidification function is started;

when the humidity is less than S2, the dehumidification function is closed;

and (4) recommendation and prompt: the indoor optimum humidity is 30% -60% in winter; 40% -80% in summer.

Setting of humidification scene type:

adding condition equipment: an air detection device;

adding linkage equipment: a plurality of air treatment devices;

linkage conditions and actions:

when the humidity is less than S3, the humidifying function is started;

when the humidity is greater than S4, the humidifying function is closed;

and (4) recommendation and prompt: the indoor optimum humidity is 30% -60% in winter; 40% -80% in summer.

After the user sets the scene type through the scene type setting module, the scene type is stored in the storage module.

The scene type setting module is also used for setting the effective linkage condition time period.

As shown in fig. 4, the scene type setting process of this embodiment includes the following steps:

and S1, setting scene type names.

And S2, judging whether the scene type names are repeated, if so, entering a step S1, and otherwise, entering a step S3.

S3, inputting scene names, selecting effective time periods, selecting air detection equipment and air treatment equipment.

And S4, adding linkage conditions of the starting function of the air treatment equipment.

S5, adding or automatically generating a linkage condition for the air treatment device shut down function.

And S6, completing setting of scene types and storing the scene types in a storage module.

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

Claims (10)

1. An air treatment system, characterized in that the system comprises:

the storage module is used for storing a plurality of scene types, and each scene type comprises air detection equipment, at least one air treatment equipment and linkage conditions of the air detection equipment and the air treatment equipment;

the control module is used for receiving a scene type setting signal and reading the scene type stored by the storage module according to the scene type setting signal; the air parameter information processing device is used for receiving the air parameter information sent by at least one air detection device, and outputting a control signal corresponding to the linkage condition to control the state of the air processing device when the air parameter information detected by the air detection device meets the linkage condition.

2. The air handling system of claim 1, wherein the scene types include a first scene type and a second scene type, the linkage conditions of the first scene type including a first set point for temperature corresponding to a condition that the air handling device turns on a cooling mode, and a second set point for temperature corresponding to a condition that the air handling device turns off the cooling mode; the linkage conditions of the second scene type include a third temperature setting value corresponding to the condition that the air processing device starts the heating mode, and a fourth temperature setting value corresponding to the condition that the air processing device stops the heating mode.

3. An air handling system according to claim 2, wherein the temperature first set point is greater than or equal to the temperature third set point, the temperature first set point is greater than or equal to the temperature second set point, the temperature second set point is greater than or equal to the temperature fourth set point, and the temperature fourth set point is greater than or equal to the temperature third set point.

4. The air handling system of claim 1, wherein the scene types include a third scene type and a fourth scene type, the linkage conditions of the third scene type including a first set point for humidity for a condition where the air handling device is in a dehumidification mode, and a second set point for humidity for a condition where the air handling device is in a dehumidification mode; the linkage conditions of the fourth scene type comprise a third humidity set value corresponding to the condition that the air processing equipment starts the humidification mode and a fourth humidity set value corresponding to the condition that the air processing equipment stops the humidification mode.

5. The air handling system of claim 4, wherein the first set point for humidity is greater than or equal to the third set point for humidity, and the second set point for humidity is greater than or equal to the fourth set point for humidity.

6. The air handling system of claim 1, wherein the storage module stores the linkage condition enabling time period, and the control module is configured to output a control signal corresponding to the linkage condition to control the state of the air handling equipment when the air parameter information meets the linkage condition when the current time is within the enabling time period.

7. The air handling system of claim 1, wherein the control module executes only one scene type at a time, including one air detection device and a plurality of air treatment devices in the same scene type.

8. The air handling system of claim 7, wherein the control module is configured to preferentially couple air handling equipment located in the same space as the air detection equipment.

9. The air treatment system according to any one of claims 1-8, wherein the system comprises a scene type setting module for setting a scene type and an air detection device and an air treatment device comprised by the scene type, and linkage conditions of the air detection device and the air treatment device.

10. The air handling system of claim 9, wherein the scene type setting module is configured to set the linkage condition validation time period.

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