CN111964227B - Air circulation control method, system and device - Google Patents

Abstract

The invention discloses an air circulation control method, system and device, wherein the method comprises the following steps: the method comprises the steps of collecting images of pets in an indoor environment, transmitting the images to an application program, and receiving the types and the unhairing periods of the pets fed back by the application program; judging whether the pet is in the unhairing period currently or not based on the type of the pet and the unhairing period, if so: detecting the indoor environment humidity; judging whether the indoor environment humidity is greater than a preset value, if so, then: starting a dehumidification mode to dehumidify and sweep air for the indoor environment until the humidity of the indoor environment is less than or equal to the preset value; sending a signal for starting the purifier to the application program so that the application program sends the signal for starting the purifier to control the purifier to work; receiving position information of the purifier fed back by an application program; and starting an air supply mode based on the position information of the purifier, and sweeping air to the position of the purifier. The invention can effectively solve the problem of poor indoor environment caused by pet depilation.

Description

Air circulation control method, system and device

Technical Field

The invention relates to the technical field of intelligent home control, in particular to an air circulation control method, system and device.

Background

At present, for a user who raises pets, the pet is raised for the first time, and the user does not know that the pet falls hair or does not know when the pet falls hair, so that furniture such as a sofa at home is full of pet hair; even experienced pet owners are very tiring to manage the hair that is shed, and the use of ordinary purifiers to remove hair from their homes is not clean (limited in scope, effective only locally). For the staff of the pet store, the pet can be handed over all the year round, the clothes which the pet likes cannot be worn, the pet can be sticky, the pet cannot be managed easily, and even the pet in the store has more pets, and the fallen hair blocks the air inlet system, so that the air conditioner cannot normally operate or the cold and hot effect is influenced.

Therefore, how to effectively solve the problem of pet depilation is an urgent problem to be solved.

Disclosure of Invention

In view of this, the invention provides an air circulation control method, which can effectively solve the problem of poor indoor environment caused by pet depilation, and further improve the comfort of the indoor air environment of a user.

The invention provides an air circulation control method, which comprises the following steps:

acquiring an image of a pet in an indoor environment, and transmitting the image of the pet to an application program so that the application program determines the type and the unhairing period of the pet based on the image of the pet;

receiving the pet type and the depilation period fed back by the application program;

judging whether the pet is in the unhairing period currently or not based on the type of the pet and the unhairing period, if so:

detecting the indoor environment humidity;

judging whether the indoor environment humidity is greater than a preset value, if so, then:

starting a dehumidification mode to dehumidify and sweep air for the indoor environment until the humidity of the indoor environment is less than or equal to the preset value;

sending a signal for starting a purifier to the application program, so that the application program sends the signal for starting the purifier to control the purifier to work;

receiving the position information of the purifier fed back by the application program;

and starting an air supply mode based on the position information of the purifier, and sweeping air to the position of the purifier.

Preferably, the method further comprises:

when the indoor environment humidity is larger than a preset value, detecting the position of a pet and/or a person in the indoor environment;

correspondingly, the dehumidification mode is started to dehumidify and sweep air to the indoor environment until the humidity of the indoor environment is less than or equal to the preset value, and the method comprises the following steps:

and starting a dehumidification mode, and dehumidifying and sweeping the positions of the pets and/or people in the indoor environment until the humidity of the indoor environment is less than or equal to the preset value.

Preferably, the method further comprises:

when the humidity of the indoor environment is smaller than or equal to a preset value, starting an air supply mode to sweep air for preset time for the indoor environment;

sending a signal for starting a purifier to the application program, so that the application program sends the signal for starting the purifier to control the purifier to work;

receiving the position information of the purifier fed back by the application program;

and starting an air supply mode based on the position information of the purifier, and sweeping air to the position of the purifier.

An air circulation control system comprising:

the system comprises an image sensor, an application program and a control module, wherein the image sensor is used for acquiring an image of a pet in an indoor environment and transmitting the image of the pet to the application program so that the application program can determine the type and the depilation cycle of the pet based on the image of the pet;

the dehumidifying equipment is used for receiving the pet type and the unhairing period fed back by the application program;

the dehumidifying equipment is also used for judging whether the pet is currently in the unhairing period or not based on the type of the pet and the unhairing period;

the humidity sensor is used for detecting the indoor environment humidity when the pet is currently in the unhairing period;

the dehumidification equipment is also used for judging whether the indoor environment humidity is greater than a preset value;

the dehumidification equipment is also used for starting a dehumidification mode to dehumidify and sweep air for the indoor environment when the humidity of the indoor environment is greater than a preset value until the humidity of the indoor environment is less than or equal to the preset value;

the dehumidification equipment is also used for sending a signal for starting the purifier to the application program so that the application program sends the signal for starting the purifier to control the purifier to work;

the dehumidification equipment is also used for receiving the position information of the purifier fed back by the application program;

and the dehumidification equipment is also used for starting an air supply mode based on the position information of the purifier and sweeping air to the position of the purifier.

Preferably, the system further comprises:

the infrared sensor is used for detecting the position of a pet and/or a person in the indoor environment when the indoor environment humidity is larger than a preset value;

correspondingly, the dehumidification equipment is specifically used for starting a dehumidification mode, and dehumidifying and sweeping the positions of the pets and/or people in the indoor environment until the humidity of the indoor environment is less than or equal to the preset value.

Preferably, the dehumidification equipment is further configured to start an air supply mode to perform air sweeping on the indoor environment for a preset time when the humidity of the indoor environment is less than or equal to a preset value;

the dehumidification equipment is also used for sending a signal for starting the purifier to the application program so that the application program sends the signal for starting the purifier to control the purifier to work;

the dehumidification equipment is also used for receiving the position information of the purifier fed back by the application program;

and the dehumidification equipment is also used for starting an air supply mode based on the position information of the purifier and sweeping air to the position of the purifier.

Preferably, the image sensor is disposed on the dehumidifying apparatus.

Preferably, the humidity sensor is disposed on the dehumidifying apparatus.

Preferably, the infrared sensor is disposed on the dehumidifying apparatus.

An air circulation control device comprising: an image sensor, an application, a dehumidification device, a humidity sensor, and a purifier; wherein:

the image sensor is used for acquiring an image of a pet in an indoor environment and transmitting the image of the pet to the application program;

the application program is used for determining the type and the unhairing period of the pet based on the image of the pet;

the dehumidifying equipment is used for receiving the pet type and the unhairing period fed back by the application program;

the dehumidifying equipment is also used for judging whether the pet is currently in the unhairing period or not based on the type of the pet and the unhairing period;

the humidity sensor is used for detecting the indoor environment humidity when the pet is currently in the unhairing period;

the dehumidification equipment is also used for judging whether the indoor environment humidity is greater than a preset value;

the dehumidification equipment is also used for starting a dehumidification mode to dehumidify and sweep air for the indoor environment when the humidity of the indoor environment is greater than a preset value until the humidity of the indoor environment is less than or equal to the preset value;

the dehumidification equipment is also used for sending a signal for starting the purifier to the application program;

the application program is also used for sending the signal for starting the purifier to the purifier;

the purifier is used for starting purification work based on the received signal for starting the purifier;

the application program is also used for acquiring the position information of the purifier;

the dehumidification equipment is also used for receiving the position information of the purifier fed back by the application program;

and the dehumidification equipment is also used for starting an air supply mode based on the position information of the purifier and sweeping air to the position of the purifier.

Preferably, the apparatus further comprises:

the infrared sensor is used for detecting the position of a pet and/or a person in the indoor environment when the indoor environment humidity is larger than a preset value;

correspondingly, the dehumidification equipment is specifically used for starting a dehumidification mode, and dehumidifying and sweeping the positions of the pets and/or people in the indoor environment until the humidity of the indoor environment is less than or equal to the preset value.

In summary, the present invention discloses an air circulation control method, which includes collecting an image of a pet in an indoor environment, and transmitting the image of the pet to an application program, so that the application program determines a type and a depilation period of the pet based on the image of the pet; then receiving the type and the unhairing period of the pet fed back by the application program, judging whether the pet is in the unhairing period currently or not based on the type and the unhairing period of the pet, if so: detecting the indoor environment humidity; then, whether the indoor environment humidity is larger than a preset value or not is judged, if yes, the following steps are carried out: starting a dehumidification mode to dehumidify and sweep air for the indoor environment until the humidity of the indoor environment is less than or equal to the preset value; and then sending a signal for starting the purifier to the application program so that the application program sends the signal for starting the purifier to control the purifier to work, and finally starting an air supply mode based on the position information of the purifier and carrying out air sweeping on the position of the purifier. According to the invention, during air circulation control, according to the unhairing period of the raised pets, in the unhairing period, when the indoor environment humidity is greater than a preset value, the air environment can be dehumidified firstly, so that the condition that the indoor environment humidity is too large to influence the purification of pet hair is avoided, when the indoor environment humidity is less than or equal to the preset value, air can be swept to the position of the purifier, so that the hair of the environmental pet can be sent to the periphery of the purifier, when the purifier works, the pet hair in the environment can be removed more effectively, the problem of poor indoor environment caused by unhairing of the pet is effectively solved, and the comfort of the indoor air environment of a user is further improved.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the drawings without creative efforts.

FIG. 1 is a flow chart of an embodiment 1 of the air circulation control method disclosed in the present invention;

FIG. 2 is a flow chart of an embodiment 2 of the air circulation control method disclosed in the present invention;

FIG. 3 is a flow chart of an embodiment 3 of the air circulation control method disclosed in the present invention;

FIG. 4 is a schematic structural diagram of an embodiment 1 of an air circulation control system according to the present disclosure;

FIG. 5 is a schematic structural diagram of an embodiment 2 of an air circulation control system according to the present disclosure;

FIG. 6 is a schematic structural diagram of an embodiment 3 of an air circulation control system according to the present disclosure;

fig. 7 is a schematic structural diagram of an embodiment of an air circulation control device disclosed in 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.

As shown in fig. 1, which is a flow chart of an embodiment 1 of the air circulation control method disclosed in the present invention, the method may include the following steps:

s101, acquiring an image of a pet in an indoor environment, and transmitting the image of the pet to an application program so that the application program determines the type and the depilation cycle of the pet based on the image of the pet;

firstly, the image of a pet in an indoor environment is collected, after the image of the pet is collected, the collected image of the pet is transmitted to an APP (Application), image information of different pets (such as a Cocky dog, a French bulldog, a Chinese countryside cat, a Persian cat and the like) and a corresponding unhairing period are stored in the APP in advance, after the collected image of the pet is received by the APP, the received image of the pet is compared with the prestored image information of the different pets and the corresponding unhairing period, the type and the unhairing period of the pet corresponding to the collected image of the pet are determined, and then the determined type and the unhairing period of the pet are fed back.

S102, receiving the pet type and the unhairing period fed back by the application program;

then, the type of the pet corresponding to the collected pet image and the unhairing period fed back by the APP are received.

S103, judging whether the pet is in the unhairing period currently or not based on the pet type and the unhairing period, if so, entering S104:

then, according to the received pet type and the depilation cycle, whether the pet with the image collected indoors is in the depilation cycle is judged.

S104, detecting the indoor environment humidity;

when the pet which acquires the image in the room is determined to be in the depilation period, the environmental humidity in the room is further detected.

S105, judging whether the indoor environment humidity is larger than a preset value, if so, entering S106:

then, it is determined whether the detected indoor ambient humidity is greater than a preset value, for example, whether the indoor ambient humidity is greater than 40%.

S106, starting a dehumidification mode to dehumidify and sweep air for the indoor environment until the humidity of the indoor environment is less than or equal to the preset value;

when indoor ambient humidity is greater than the default, it indicates that this moment indoor ambient humidity is great, and the hair that the pet drops easily glues on ground or furniture, at this moment, further start the dehumidification mode, dehumidify the indoor environment and sweep the wind to reduce indoor ambient humidity, at the in-process that dehumidifies the indoor environment and sweep the wind, real-time detection indoor ambient humidity, when the indoor ambient humidity that detects is less than or equal to the default, for example when indoor ambient humidity is less than or equal to 40%, stop the dehumidification mode.

S107, sending a signal for starting the purifier to an application program so that the application program sends the signal for starting the purifier to control the purifier to work;

then a signal for starting the purifier is sent to the application program, the signal for starting the purifier is sent to the purifier through the application program, and the purifier starts to perform purification work after receiving the signal for starting the purifier.

S108, receiving the position information of the purifier fed back by the application program;

the application program can further receive feedback of the position information of the purifier.

And S109, starting an air supply mode based on the position information of the purifier, and sweeping air to the position of the purifier.

In the working process of the purifier, the air supply mode is further started based on the position information of the purifier, air is swept to the position of the purifier, the hair of the pet in the indoor environment can be blown to the purifier, and the purifier is further utilized to clean the hair of the pet.

In summary, in the above embodiments, during air circulation control, according to the unhairing period of the raised pet, in the unhairing period, when the indoor environment humidity is greater than the preset value, the air environment can be dehumidified first, so that the condition that the indoor environment humidity is too large to affect purification of pet hair is avoided, when the indoor environment humidity is less than or equal to the preset value, air can be swept to the position of the purifier, so that the hair of the pet in the environment can be sent to the periphery of the purifier, when the purifier works, the pet hair in the environment can be removed more effectively, the problem of poor indoor environment caused by unhairing of the pet is effectively solved, and the comfort of the indoor air environment of the user is further improved.

As shown in fig. 2, which is a flowchart of an embodiment 2 of the air circulation control method disclosed in the present invention, the method may include the following steps:

s201, collecting an image of a pet in an indoor environment, and transmitting the image of the pet to an application program so that the application program determines the type and the unhairing period of the pet based on the image of the pet;

firstly, the image of a pet in an indoor environment is collected, after the image of the pet is collected, the collected image of the pet is transmitted to an APP (Application), image information of different pets (such as a Cocky dog, a French bulldog, a Chinese countryside cat, a Persian cat and the like) and a corresponding unhairing period are stored in the APP in advance, after the collected image of the pet is received by the APP, the received image of the pet is compared with the prestored image information of the different pets and the corresponding unhairing period, the type and the unhairing period of the pet corresponding to the collected image of the pet are determined, and then the determined type and the unhairing period of the pet are fed back.

S202, receiving the pet type and the unhairing period fed back by the application program;

then, the type of the pet corresponding to the collected pet image and the unhairing period fed back by the APP are received.

S203, judging whether the pet is in the unhairing period currently or not based on the pet type and the unhairing period, if so, entering S204:

then, according to the received pet type and the depilation cycle, whether the pet with the image collected indoors is in the depilation cycle is judged.

S204, detecting the indoor environment humidity;

when the pet which acquires the image in the room is determined to be in the depilation period, the environmental humidity in the room is further detected.

S205, judging whether the indoor environment humidity is larger than a preset value, if so, entering S206:

then, it is determined whether the detected indoor ambient humidity is greater than a preset value, for example, whether the indoor ambient humidity is greater than 40%.

S206, detecting the position of the pet and/or the person in the indoor environment;

when the indoor environment humidity is larger than a preset value, the positions of pets and/or people in the environment are further detected.

S207, starting a dehumidification mode, and dehumidifying and sweeping the positions of the indoor environment except pets and/or people until the humidity of the indoor environment is less than or equal to the preset value;

when indoor environment humidity is greater than the default, it is great to show this moment indoor environment humidity, and the hair that the pet drops glues easily on ground or furniture, at this moment, further start the dehumidification mode, dehumidify the indoor environment and sweep wind to reduce indoor environment humidity, need explain that, when dehumidifying and sweeping wind to the indoor environment, in order to avoid blowing people and/or the pet in the indoor environment, bypass people and/or pet when dehumidifying and sweeping wind, in order to promote user's experience. In addition, in the process of dehumidifying and sweeping the indoor environment, the indoor environment humidity is detected in real time, and when the detected indoor environment humidity is smaller than or equal to a preset value, for example, when the indoor environment humidity is smaller than or equal to 40%, the dehumidification mode is stopped.

S208, sending a signal for starting the purifier to an application program so that the application program sends the signal for starting the purifier to control the purifier to work;

then a signal for starting the purifier is sent to the application program, the signal for starting the purifier is sent to the purifier through the application program, and the purifier starts to perform purification work after receiving the signal for starting the purifier.

S209, receiving the position information of the purifier fed back by the application program;

the application program can further receive feedback of the position information of the purifier.

S210, starting an air supply mode based on the position information of the purifier, and sweeping air to the position of the purifier.

In the working process of the purifier, the air supply mode is further started based on the position information of the purifier, air is swept to the position of the purifier, the hair of the pet in the indoor environment can be blown to the purifier, and the purifier is further utilized to clean the hair of the pet.

In summary, on the basis of the above embodiments, when the indoor environment humidity is greater than the preset value, the position of the pet and/or the person in the indoor environment is further detected, and after the dehumidification mode is started, the position of the pet and/or the person in the indoor environment is dehumidified and swept, so that the pet and/or the person are prevented from being directly blown when the dehumidification and the sweep are performed, and the user experience is further improved.

As shown in fig. 3, which is a flowchart of an embodiment 3 of the air circulation control method disclosed in the present invention, the method may include the following steps:

s301, acquiring an image of a pet in an indoor environment, and transmitting the image of the pet to an application program so that the application program determines the type and the depilation cycle of the pet based on the image of the pet;

firstly, the image of a pet in an indoor environment is collected, after the image of the pet is collected, the collected image of the pet is transmitted to an APP (Application), image information of different pets (such as a Cocky dog, a French bulldog, a Chinese countryside cat, a Persian cat and the like) and a corresponding unhairing period are stored in the APP in advance, after the collected image of the pet is received by the APP, the received image of the pet is compared with the prestored image information of the different pets and the corresponding unhairing period, the type and the unhairing period of the pet corresponding to the collected image of the pet are determined, and then the determined type and the unhairing period of the pet are fed back.

S302, receiving the pet type and the depilation period fed back by the application program;

then, the type of the pet corresponding to the collected pet image and the unhairing period fed back by the APP are received.

S303, judging whether the pet is in the unhairing period currently or not based on the pet type and the unhairing period, if so, entering S304:

then, according to the received pet type and the depilation cycle, whether the pet with the image collected indoors is in the depilation cycle is judged.

S304, detecting the indoor environment humidity;

when the pet which acquires the image in the room is determined to be in the depilation period, the environmental humidity in the room is further detected.

S305, judging whether the indoor environment humidity is larger than a preset value, if not, entering S306:

then, it is determined whether the detected indoor ambient humidity is greater than a preset value, for example, whether the indoor ambient humidity is greater than 40%.

S306, starting an air supply mode to sweep air for preset time in the indoor environment;

and when the humidity of the indoor environment is less than or equal to the preset value, starting an air supply mode to sweep the indoor environment for preset time. For example, the air blowing mode is activated to automatically sweep the environment for 30 minutes.

S307, sending a signal for starting the purifier to an application program so that the application program sends the signal for starting the purifier to control the purifier to work;

then a signal for starting the purifier is sent to the application program, the signal for starting the purifier is sent to the purifier through the application program, and the purifier starts to perform purification work after receiving the signal for starting the purifier.

S308, receiving the position information of the purifier fed back by the application program;

the application program can further receive feedback of the position information of the purifier.

S309, starting an air supply mode based on the position information of the purifier, and blowing air to the position of the purifier.

In the working process of the purifier, the air supply mode is further started based on the position information of the purifier, air is swept to the position of the purifier, the hair of the pet in the indoor environment can be blown to the purifier, and the purifier is further utilized to clean the hair of the pet.

In summary, on the basis of the above embodiments, when the humidity of the indoor environment is less than or equal to the preset value, the air supply mode can be directly started to sweep the air for the preset time without dehumidifying the environment.

As shown in fig. 4, which is a schematic structural diagram of an embodiment 1 of an air circulation control system disclosed in the present invention, the system may include:

an image sensor 401 for acquiring an image of the pet in the indoor environment and transmitting the image of the pet to the application program, so that the application program determines the kind of the pet and the depilation cycle based on the image of the pet;

firstly, images of pets in an indoor environment are collected through the image sensor 401, after the images of the pets are collected, the collected images of the pets are transmitted to an APP (Application), image information of different pets (such as a Cocky dog, a French bulldog, a Chinese countryside cat, a Persian cat and the like) and a corresponding depilation cycle are stored in the APP in advance, after the collected images of the pets are received by the APP, the received images of the pets are compared with the prestored image information of the different pets and the corresponding depilation cycle, the types and the depilation cycles of the pets corresponding to the collected images of the pets are determined, and then the determined types and the depilation cycles of the pets are fed back.

A dehumidifying device 402 for receiving the pet type and depilation period fed back by the application;

then, the dehumidifying apparatus 402 receives the pet type and the depilation period corresponding to the collected pet image fed back by the APP.

The dehumidifying device 402 is further used for judging whether the pet is currently in the unhairing period or not based on the type of the pet and the unhairing period;

then, the dehumidifying device 402 determines whether the pet whose image is captured indoors is currently in the depilation cycle according to the type of the received pet and the depilation cycle.

A humidity sensor 403 for detecting the indoor ambient humidity when the pet is currently in the depilation cycle;

when it is determined that the pet whose image is captured in the room is currently in the depilation cycle, the further humidity sensor 403 detects the ambient humidity in the room.

The dehumidifying device 402 is further configured to determine whether the indoor environment humidity is greater than a preset value;

then, the dehumidifying apparatus 402 determines whether the detected indoor ambient humidity is greater than a preset value, for example, whether the indoor ambient humidity is greater than 40%.

The dehumidifying device 402 is further configured to start a dehumidifying mode to dehumidify and sweep air to the indoor environment when the humidity of the indoor environment is greater than a preset value until the humidity of the indoor environment is less than or equal to the preset value;

when indoor ambient humidity is greater than the default, it indicates that this moment indoor ambient humidity is great, the hair that the pet drops glues easily on ground or furniture, at this moment, further dehumidification equipment 402 starts the dehumidification mode, dehumidify the indoor environment and sweep wind, in order to reduce indoor ambient humidity, carry out the in-process of dehumidifying and sweeping wind to the indoor environment, real-time detection indoor ambient humidity, when the indoor ambient humidity that detects is less than or equal to the default, for example, when indoor ambient humidity is less than or equal to 40%, stop the dehumidification mode.

The dehumidifying device 402 is further configured to send a signal for starting the purifier to the application program, so that the application program sends the signal for starting the purifier to control the operation of the purifier;

the dehumidifier 402 then sends a signal to the application to turn on the scrubber, and the application sends the signal to the scrubber to start the scrubber, and the scrubber starts the scrubbing operation after receiving the signal to turn on the scrubber.

The dehumidification device 402 is also used for receiving the position information of the purifier fed back by the application program;

the dehumidification device 402 may further receive application feedback of the location of the scrubber.

The dehumidifying device 402 is further configured to start an air supply mode based on the position information of the purifier, and to sweep air to the position of the purifier.

In the working process of the purifier, the air supply mode is further started based on the position information of the purifier, air is swept to the position of the purifier, the hair of the pet in the indoor environment can be blown to the purifier, and the purifier is further utilized to clean the hair of the pet.

In summary, in the above embodiments, during air circulation control, according to the unhairing period of the raised pet, in the unhairing period, when the indoor environment humidity is greater than the preset value, the air environment can be dehumidified first, so that the condition that the indoor environment humidity is too large to affect purification of pet hair is avoided, when the indoor environment humidity is less than or equal to the preset value, air can be swept to the position of the purifier, so that the hair of the pet in the environment can be sent to the periphery of the purifier, when the purifier works, the pet hair in the environment can be removed more effectively, the problem of poor indoor environment caused by unhairing of the pet is effectively solved, and the comfort of the indoor air environment of the user is further improved.

As shown in fig. 5, which is a schematic structural diagram of embodiment 2 of an air circulation control system disclosed in the present invention, the system may include:

an image sensor 501 for acquiring an image of a pet in an indoor environment and transmitting the image of the pet to an application program so that the application program determines a kind of the pet and a depilation cycle based on the image of the pet;

firstly, the image of a pet in an indoor environment is collected through the image sensor 501, after the image of the pet is collected, the collected image of the pet is transmitted to an APP (Application), image information of different pets (such as a Cocky dog, a French bulldog, a Chinese countryside cat, a Persian cat and the like) and a corresponding depilation cycle are stored in the APP in advance, after the collected image of the pet is received by the APP, the received image of the pet is compared with the prestored image information of the different pets and the corresponding depilation cycle, the type and the depilation cycle of the pet corresponding to the collected image of the pet are determined, and then the determined type and the depilation cycle of the pet are fed back.

A dehumidifying device 502 for receiving the pet type and depilation cycle fed back by the application;

then, the dehumidifying apparatus 502 receives the pet type and the depilation period corresponding to the collected pet image fed back by the APP.

The dehumidifying device 502 is further used for judging whether the pet is currently in the unhairing period based on the type of the pet and the unhairing period;

then, the dehumidifying device 502 determines whether the pet whose image is captured indoors is currently in the depilation cycle according to the received type of the pet and the depilation cycle.

A humidity sensor 503 for detecting the indoor environmental humidity when the pet is currently in the depilation cycle;

when it is determined that the pet whose image is captured in the room is currently in the depilation cycle, the further humidity sensor 403 detects the ambient humidity in the room.

The dehumidification device 502 is further configured to determine whether the indoor environment humidity is greater than a preset value;

then, the dehumidifying apparatus 502 determines whether the detected indoor ambient humidity is greater than a preset value, for example, whether the indoor ambient humidity is greater than 40%.

An infrared sensor 504 for detecting the position of a pet and/or a person in the indoor environment when the humidity of the indoor environment is greater than a preset value;

when the indoor environment humidity is greater than the preset value, the position of the pet and/or the person in the environment is further detected through the infrared sensor 504.

The dehumidifying equipment 502 is specifically used for starting a dehumidifying mode, dehumidifying and sweeping the positions of pets and/or people in the indoor environment until the humidity of the indoor environment is less than or equal to the preset value;

when indoor environment humidity is greater than the default, it indicates that this moment indoor environment humidity is great, the hair that the pet drops glues easily on ground or furniture, at this moment, dehumidification mode is further started to dehumidification equipment 502, dehumidify the indoor environment and sweep wind to reduce indoor environment humidity, it needs to explain that, when carrying out the dehumidification to the indoor environment and sweep wind, in order to avoid blowing people and/or the pet in the indoor environment, bypass people and/or the pet when the dehumidification is swept wind, in order to promote user's experience. In addition, in the process of dehumidifying and sweeping the indoor environment, the indoor environment humidity is detected in real time, and when the detected indoor environment humidity is smaller than or equal to a preset value, for example, when the indoor environment humidity is smaller than or equal to 40%, the dehumidification mode is stopped.

The dehumidifying device 502 is further configured to send a signal for starting the purifier to the application program, so that the application program sends the signal for starting the purifier to control the operation of the purifier;

then the dehumidification device 502 sends a signal for starting the purifier to the application program, and the application program sends the signal for starting the purifier to the purifier, and the purifier starts to perform purification after receiving the signal for starting the purifier.

The dehumidification device 502 is also used for receiving the position information of the purifier fed back by the application program;

the application-fed purifier position information may be further received by the dehumidification device 502.

The dehumidifying device 502 is further configured to start an air supply mode based on the position information of the purifier, and to sweep air to the position of the purifier.

In the process of purifier work, dehumidification equipment 502 further starts the air supply mode based on the positional information of purifier to sweep wind to the position of purifier, through sweeping wind to the position of purifier, can blow the hair of pet to purifier department in the indoor environment, more utilize the purifier to clear up the pet hair.

In summary, on the basis of the above embodiments, when the indoor environment humidity is greater than the preset value, the position of the pet and/or the person in the indoor environment is further detected, and after the dehumidification mode is started, the position of the pet and/or the person in the indoor environment is dehumidified and swept, so that the pet and/or the person are prevented from being directly blown when the dehumidification and the sweep are performed, and the user experience is further improved.

As shown in fig. 6, which is a schematic structural diagram of an embodiment 3 of the air circulation control system disclosed in the present invention, the system may include:

an image sensor 601 for acquiring an image of the pet in the indoor environment and transmitting the image of the pet to an application program, so that the application program determines the type and depilation cycle of the pet based on the image of the pet;

firstly, the image of a pet in an indoor environment is collected through an image sensor 601, after the image of the pet is collected, the collected image of the pet is transmitted to an APP (Application), image information of different pets (such as a Cocky dog, a French bulldog, a Chinese countryside cat, a Persian cat and the like) and a corresponding depilation cycle are stored in the APP in advance, after the collected image of the pet is received by the APP, the received image of the pet is compared with the prestored image information of the different pets and the corresponding depilation cycle, the type and the depilation cycle of the pet corresponding to the collected image of the pet are determined, and then the determined type and the depilation cycle of the pet are fed back.

A dehumidifying device 602 for receiving the pet type and depilation period fed back by the application;

then, the dehumidifying apparatus 602 receives the pet type corresponding to the collected pet image and the depilation period fed back by the APP.

The dehumidifying device 602 is further configured to determine whether the pet is currently in the depilation cycle based on the type of the pet and the depilation cycle;

then, according to the type of the pet received by the dehumidifying device 602 and the depilation cycle, it is determined whether the pet whose image is captured indoors is currently in the depilation cycle.

A humidity sensor 603 for detecting the indoor environmental humidity;

when it is determined that the pet whose image is captured in the room is currently in the depilation cycle, the humidity of the environment in the room is further detected by the humidity sensor 603.

The dehumidifying device 602 is further configured to determine whether the indoor environment humidity is greater than a preset value;

then, the dehumidifying apparatus 602 determines whether the detected indoor ambient humidity is greater than a preset value, for example, whether the indoor ambient humidity is greater than 40%.

The dehumidification equipment 602 is further configured to start an air supply mode to sweep air for a preset time in the indoor environment when the humidity of the indoor environment is less than or equal to a preset value;

when the humidity of the indoor environment is less than or equal to the preset value, the dehumidifying device 602 starts the air supply mode to sweep the indoor environment for the preset time. For example, the air blowing mode is activated to automatically sweep the environment for 30 minutes.

The dehumidifying device 602 is further configured to send a signal for turning on the purifier to the application program, so that the application program sends the signal for turning on the purifier to control the operation of the purifier;

then the dehumidifying device 602 sends a signal for starting the purifier to the application program, and the signal for starting the purifier is sent to the purifier through the application program, and the purifier starts to perform purification after receiving the signal for starting the purifier.

The dehumidification device 602 is further used for receiving the position information of the purifier fed back by the application program;

the dehumidifying apparatus 602 may further receive the position information of the scrubber fed back by the application.

The dehumidifying device 602 is further configured to start an air supply mode based on the position information of the purifier, and perform air sweeping to the position of the purifier.

In the working process of the purifier, the dehumidifying device 602 further starts an air supply mode based on the position information of the purifier, and blows air to the position of the purifier, and the hair of the pet in the indoor environment can be blown to the purifier by blowing air to the position of the purifier, and the hair of the pet can be cleaned by the purifier.

In summary, on the basis of the above embodiments, when the humidity of the indoor environment is less than or equal to the preset value, the air supply mode can be directly started to sweep the air for the preset time without dehumidifying the environment.

As shown in fig. 7, which is a schematic structural diagram of an embodiment of an air circulation control device disclosed in the present invention, the device may include: an image sensor 701, an application 702, a dehumidification device 703, a humidity sensor 704, an infrared sensor 705, and a purifier 706; wherein:

an image sensor 701 for acquiring an image of a pet in an indoor environment and transmitting the image of the pet to an application 702;

an application 702 for determining a kind of the pet and a depilation cycle based on the image of the pet;

a dehumidifying device 703 for receiving the pet type and the depilation cycle fed back by the application 702;

the dehumidifying device 703 is further configured to determine whether the pet is currently in the unhairing period based on the type of the pet and the unhairing period;

a humidity sensor 704 for detecting the indoor ambient humidity when the pet is currently in the depilation cycle;

the dehumidification device 703 is further configured to determine whether the indoor environment humidity is greater than a preset value;

the infrared sensor 705 is used for detecting the position of a pet and/or a person in the indoor environment when the indoor environment humidity is larger than a preset value;

the dehumidification equipment 703 is further configured to start a dehumidification mode when the indoor environment humidity is greater than a preset value, and perform dehumidification and air sweeping on the pet and/or human removal position in the indoor environment until the indoor environment humidity is less than or equal to the preset value;

the dehumidification device 703 is further configured to send a signal to start the purifier to the application;

application 702, further configured to send a signal to the scrubber 706 to turn on the scrubber;

a scrubber 706 for starting a scrubbing operation based on the received signal to turn on the scrubber;

application 702, which is also used to obtain location information for scrubber 706;

the dehumidification device 703 is further configured to receive the position information of the purifier fed back by the application;

the dehumidifying device 703 is further configured to start an air supply mode based on the position information of the purifier, and to sweep air to the position of the purifier.

The working principle of the air circulation control device disclosed in this embodiment is the same as that of the air circulation control method, and is not described herein again.

It should be noted that, in the above embodiments, the image sensor, the humidity sensor and the infrared sensor may be respectively disposed on the dehumidification device; the dehumidifying device may include, but is not limited to, a humidity control device such as an air conditioner, a dehumidifier, etc.

The embodiments in the present description 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. The device disclosed by the embodiment corresponds to the method disclosed by the embodiment, so that the description is simple, and the relevant points can be referred to the method part for description.

Those of skill would further appreciate that the various illustrative elements and algorithm steps described in connection with the embodiments disclosed herein may be implemented as electronic hardware, computer software, or combinations of both, and that the various illustrative components and steps have been described above generally in terms of their functionality in order to clearly illustrate this interchangeability of hardware and software. 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.

The steps of a method or algorithm described in connection with the embodiments disclosed herein may be embodied directly in hardware, in a software module executed by a processor, or in a combination of the two. A software module may reside in Random Access Memory (RAM), memory, Read Only Memory (ROM), electrically programmable ROM, electrically erasable programmable ROM, registers, hard disk, a removable disk, a CD-ROM, or any other form of storage medium known in the art.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present invention. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the invention. Thus, the present invention is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims (8)

1. An air circulation control method, comprising:

acquiring an image of a pet in an indoor environment, and transmitting the image of the pet to an application program so that the application program determines the type and the unhairing period of the pet based on the image of the pet;

receiving the pet type and the depilation period fed back by the application program;

judging whether the pet is in the unhairing period currently or not based on the type of the pet and the unhairing period, if so:

detecting the indoor environment humidity;

judging whether the indoor environment humidity is greater than a preset value, if so, then:

detecting a location of a pet and/or a person in an indoor environment;

starting a dehumidification mode to dehumidify and sweep air for the positions of pets and/or people in the indoor environment until the humidity of the indoor environment is less than or equal to the preset value, so as to avoid that the too high humidity of the indoor environment affects the purification of pet hair;

sending a signal for starting a purifier to the application program so that the application program sends the signal for starting the purifier to the purifier;

receiving a signal for starting the purifier, and controlling the purifier to work based on the signal for starting the purifier;

receiving the position information of the purifier fed back by the application program;

and starting an air supply mode based on the position information of the purifier, and blowing air to the position of the purifier to blow the hair of the pet in the indoor environment to the purifier.

2. The method of claim 1, further comprising:

when the humidity of the indoor environment is smaller than or equal to a preset value, starting an air supply mode to sweep air for preset time for the indoor environment;

sending a signal for starting a purifier to the application program, so that the application program sends the signal for starting the purifier to control the purifier to work;

receiving the position information of the purifier fed back by the application program;

and starting an air supply mode based on the position information of the purifier, and sweeping air to the position of the purifier.

3. An air circulation control system, comprising:

the system comprises an image sensor, an application program and a control module, wherein the image sensor is used for acquiring an image of a pet in an indoor environment and transmitting the image of the pet to the application program so that the application program can determine the type and the depilation cycle of the pet based on the image of the pet;

the dehumidifying equipment is used for receiving the pet type and the unhairing period fed back by the application program; the dehumidifying equipment is also used for judging whether the pet is currently in the unhairing period or not based on the type of the pet and the unhairing period;

the humidity sensor is used for detecting the indoor environment humidity when the pet is currently in the unhairing period;

the infrared sensor is used for detecting the position of a pet and/or a person in the indoor environment when the indoor environment humidity is larger than a preset value;

the dehumidification equipment is also specifically used for starting a dehumidification mode, dehumidifying and sweeping the positions of the pets and/or people in the indoor environment until the humidity of the indoor environment is less than or equal to the preset value, and is used for avoiding that the too high humidity of the indoor environment affects the purification of the pet hair;

the dehumidification equipment is also used for judging whether the indoor environment humidity is greater than a preset value;

the dehumidification equipment is also used for starting a dehumidification mode to dehumidify and sweep air for the indoor environment when the humidity of the indoor environment is greater than a preset value until the humidity of the indoor environment is less than or equal to the preset value;

the dehumidification equipment is also used for sending a signal for starting the purifier to the application program so that the application program sends the signal for starting the purifier to the purifier;

the purifier is used for receiving the signal for starting the purifier and controlling the purifier to work based on the signal for starting the purifier;

the dehumidification equipment is also used for receiving the position information of the purifier fed back by the application program;

the dehumidification equipment is also used for starting an air supply mode based on the position information of the purifier, and sweeping air to the position of the purifier to blow the hair of the pet in the indoor environment to the purifier.

4. The system of claim 3, wherein the dehumidifying device is further configured to start the air supply mode to sweep the indoor environment for a preset time when the humidity of the indoor environment is less than or equal to a preset value;

the dehumidification equipment is also used for sending a signal for starting the purifier to the application program so that the application program sends the signal for starting the purifier to control the purifier to work;

the dehumidification equipment is also used for receiving the position information of the purifier fed back by the application program;

and the dehumidification equipment is also used for starting an air supply mode based on the position information of the purifier and sweeping air to the position of the purifier.

5. The system of any of claims 3-4, wherein the image sensor is disposed on the dehumidification device.

6. The system of any one of claims 3-4, wherein the humidity sensor is disposed on the dehumidification device.

7. The system of claim 3, wherein the infrared sensor is disposed on the dehumidification device.

8. An air circulation control device, comprising: the system comprises an image sensor, an application program, a dehumidification device, an infrared sensor, a humidity sensor and a purifier; wherein:

the image sensor is used for acquiring an image of a pet in an indoor environment and transmitting the image of the pet to the application program;

the application program is used for determining the type and the unhairing period of the pet based on the image of the pet;

the dehumidifying equipment is used for receiving the pet type and the unhairing period fed back by the application program;

the dehumidifying equipment is also used for judging whether the pet is currently in the unhairing period or not based on the type of the pet and the unhairing period;

the humidity sensor is used for detecting the indoor environment humidity when the pet is currently in the unhairing period;

the dehumidification equipment is also used for judging whether the indoor environment humidity is greater than a preset value;

the dehumidification equipment is also used for starting a dehumidification mode to dehumidify and sweep air for the indoor environment when the humidity of the indoor environment is greater than a preset value until the humidity of the indoor environment is less than or equal to the preset value;

the dehumidification equipment is also used for sending a signal for starting the purifier to the application program;

the infrared sensor is used for detecting the position of a pet and/or a person in the indoor environment when the indoor environment humidity is larger than a preset value;

the dehumidification equipment is also specifically used for starting a dehumidification mode, dehumidifying and sweeping the positions of the pets and/or people in the indoor environment until the humidity of the indoor environment is less than or equal to the preset value, and is used for avoiding that the too high humidity of the indoor environment affects the purification of pet hair;

the application program is also used for sending the signal for starting the purifier to the purifier;

the purifier is used for starting purification work based on the received signal for starting the purifier;

the application program is also used for acquiring the position information of the purifier;

the dehumidification equipment is also used for receiving the position information of the purifier fed back by the application program;

and the dehumidification equipment is also used for starting an air supply mode based on the position information of the purifier and sweeping air to the position of the purifier.

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