CN111237966B - Control method and device of environmental parameters, storage medium and air conditioning system - Google Patents

Control method and device of environmental parameters, storage medium and air conditioning system Download PDF

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Publication number
CN111237966B
CN111237966B CN202010048222.6A CN202010048222A CN111237966B CN 111237966 B CN111237966 B CN 111237966B CN 202010048222 A CN202010048222 A CN 202010048222A CN 111237966 B CN111237966 B CN 111237966B
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room
mode
air conditioner
environmental parameter
pet
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CN111237966A (en
Inventor
赵宁
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Gree Electric Appliances Inc of Zhuhai
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Gree Electric Appliances Inc of Zhuhai
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    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F24HEATING; RANGES; VENTILATING
    • F24FAIR-CONDITIONING; AIR-HUMIDIFICATION; VENTILATION; USE OF AIR CURRENTS FOR SCREENING
    • F24F11/00Control or safety arrangements
    • F24F11/30Control or safety arrangements for purposes related to the operation of the system, e.g. for safety or monitoring
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F24HEATING; RANGES; VENTILATING
    • F24FAIR-CONDITIONING; AIR-HUMIDIFICATION; VENTILATION; USE OF AIR CURRENTS FOR SCREENING
    • F24F11/00Control or safety arrangements
    • F24F11/62Control or safety arrangements characterised by the type of control or by internal processing, e.g. using fuzzy logic, adaptive control or estimation of values
    • F24F11/63Electronic processing
    • F24F11/64Electronic processing using pre-stored data
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F24HEATING; RANGES; VENTILATING
    • F24FAIR-CONDITIONING; AIR-HUMIDIFICATION; VENTILATION; USE OF AIR CURRENTS FOR SCREENING
    • F24F11/00Control or safety arrangements
    • F24F11/62Control or safety arrangements characterised by the type of control or by internal processing, e.g. using fuzzy logic, adaptive control or estimation of values
    • F24F11/63Electronic processing
    • F24F11/65Electronic processing for selecting an operating mode
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F24HEATING; RANGES; VENTILATING
    • F24FAIR-CONDITIONING; AIR-HUMIDIFICATION; VENTILATION; USE OF AIR CURRENTS FOR SCREENING
    • F24F11/00Control or safety arrangements
    • F24F11/70Control systems characterised by their outputs; Constructional details thereof
    • F24F11/72Control systems characterised by their outputs; Constructional details thereof for controlling the supply of treated air, e.g. its pressure
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F24HEATING; RANGES; VENTILATING
    • F24FAIR-CONDITIONING; AIR-HUMIDIFICATION; VENTILATION; USE OF AIR CURRENTS FOR SCREENING
    • F24F11/00Control or safety arrangements
    • F24F11/70Control systems characterised by their outputs; Constructional details thereof
    • F24F11/72Control systems characterised by their outputs; Constructional details thereof for controlling the supply of treated air, e.g. its pressure
    • F24F11/79Control systems characterised by their outputs; Constructional details thereof for controlling the supply of treated air, e.g. its pressure for controlling the direction of the supplied air
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F24HEATING; RANGES; VENTILATING
    • F24FAIR-CONDITIONING; AIR-HUMIDIFICATION; VENTILATION; USE OF AIR CURRENTS FOR SCREENING
    • F24F11/00Control or safety arrangements
    • F24F11/70Control systems characterised by their outputs; Constructional details thereof
    • F24F11/80Control systems characterised by their outputs; Constructional details thereof for controlling the temperature of the supplied air
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F24HEATING; RANGES; VENTILATING
    • F24FAIR-CONDITIONING; AIR-HUMIDIFICATION; VENTILATION; USE OF AIR CURRENTS FOR SCREENING
    • F24F11/00Control or safety arrangements
    • F24F11/88Electrical aspects, e.g. circuits
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F24HEATING; RANGES; VENTILATING
    • F24FAIR-CONDITIONING; AIR-HUMIDIFICATION; VENTILATION; USE OF AIR CURRENTS FOR SCREENING
    • F24F2110/00Control inputs relating to air properties
    • F24F2110/10Temperature
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F24HEATING; RANGES; VENTILATING
    • F24FAIR-CONDITIONING; AIR-HUMIDIFICATION; VENTILATION; USE OF AIR CURRENTS FOR SCREENING
    • F24F2120/00Control inputs relating to users or occupants
    • F24F2120/20Feedback from users

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  • Engineering & Computer Science (AREA)
  • Chemical & Material Sciences (AREA)
  • Combustion & Propulsion (AREA)
  • Mechanical Engineering (AREA)
  • General Engineering & Computer Science (AREA)
  • Signal Processing (AREA)
  • Physics & Mathematics (AREA)
  • Fuzzy Systems (AREA)
  • Mathematical Physics (AREA)
  • Air Conditioning Control Device (AREA)

Abstract

The invention discloses a method and a device for controlling environmental parameters, a storage medium and an air conditioning system, wherein the method comprises the following steps: acquiring indoor environmental parameters of a first room; determining a control mode of the environmental parameters of the first room according to the acquired indoor environmental parameters; controlling the indoor environment parameter of the first room according to the determined control mode so that the indoor environment parameter of the first room reaches the target environment parameter of the first room; wherein the determined control mode comprises: a ventilation mode, a transmission mode and/or a regulation mode; a ventilation mode which is a control mode for naturally ventilating the first room; a transfer mode which is a control mode for transferring air of the second room to the first room; the adjustment mode is a control mode for allowing the first room to adjust its indoor air by itself. The scheme of the invention can solve the problem that the health of the pet is influenced when the environment of the pet room is not comfortable enough, and achieves the effect of improving the environmental comfort of the pet room to be beneficial to the health of the pet.

Description

Control method and device of environmental parameters, storage medium and air conditioning system
Technical Field
The invention belongs to the technical field of air conditioners, and particularly relates to a control method and device of environmental parameters, a storage medium and an air conditioning system, in particular to a control method and device of a pet air conditioning system, a storage medium and an air conditioning system.
Background
Nowadays, pets become an integral part of many families, the health of the pets is rather a heart of each owner, and the pets are sick and have huge expenses, so that many families cannot bear the pets easily. It is to be understood that a healthy body is closely inseparable from a good living environment, and a comfortable temperature environment will provide certain guarantee for the health of pets.
The above is only for the purpose of assisting understanding of the technical aspects of the present invention, and does not represent an admission that the above is prior art.
Disclosure of Invention
The invention aims to provide a method and a device for controlling environmental parameters, a storage medium and an air conditioning system, aiming at overcoming the defects that the environment of a pet room is not comfortable enough and the health of the pet is affected, and achieving the effect of improving the environmental comfort of the pet room and being beneficial to the health of the pet.
The invention provides a method for controlling environmental parameters, which comprises the following steps: acquiring indoor environmental parameters of a first room; determining a control mode of the environmental parameter of the first room according to the indoor environmental parameter of the first room; controlling the indoor environmental parameters of the first room according to the control mode of the environmental parameters of the first room, so that the indoor environmental parameters of the first room reach the target environmental parameters of the first room; wherein the control mode of the environmental parameter of the first room comprises: a ventilation mode, a transmission mode and/or a regulation mode; a ventilation mode which is a control mode for naturally ventilating the first room; a transfer mode which is a control mode for transferring air of the second room to the first room; the adjustment mode is a control mode for allowing the first room to adjust its indoor air by itself.
Optionally, the indoor environmental parameters of the first room comprise: an indoor ambient temperature, an indoor ambient humidity, an indoor ambient PM2.5, and/or an indoor ambient oxygen content of the first room.
Optionally, determining a control pattern of an environmental parameter of the first room comprises: determining a relationship between an indoor environmental parameter of a first room and a set environmental parameter range; if the indoor environmental parameter of the first room is smaller than or equal to the lower limit of the set environmental parameter range, determining that the control mode of the environmental parameter of the first room is the ventilation mode; if the indoor environmental parameter of the first room is larger than the lower limit of the set environmental parameter range and smaller than or equal to the upper limit of the set environmental parameter range, determining that the control mode of the environmental parameter of the first room is the transmission mode; and if the indoor environmental parameter of the first room is larger than the upper limit of the set environmental parameter range, determining that the control mode of the environmental parameter of the first room is the adjusting mode.
Optionally, controlling an indoor environmental parameter of the first room comprises: controlling the ventilation opening of the first room under the condition that the control mode of the environmental parameters of the first room is a ventilation mode, so that the first room controls the environmental parameters of the first room through natural ventilation; under the condition that the control mode of the environmental parameters of the first room is the transmission mode, controlling the opening of a transmission channel between the first room and the second room so as to transmit the air regulated by the second air conditioner in the second room to the first room through the transmission channel between the first room and the second room, and controlling the environmental parameters of the first room through the air regulated by the second air conditioner in the second room; and controlling the first air conditioner in the first room to be started to adjust the environmental parameters in the first room through the first air conditioner in the first room under the condition that the control mode of the environmental parameters of the first room is the adjusting mode.
Optionally, adjusting an environmental parameter in the first room by a first air conditioner in the first room comprises: determining the current time of a time zone to which the first room belongs, and determining whether the current time is a set rest period; if the current time belongs to the set rest period, performing first control on a first air conditioner in the first room so as to adjust the environmental parameters in the first room in the rest period; and if the current time does not belong to the set rest period, performing second control on the first air conditioner in the first room so as to realize the adjustment of the environmental parameters in the first room in the non-rest period.
Optionally, the first controlling the first air conditioner in the first room includes: determining whether a user is in the first room; if a user exists in the first room, controlling a first air conditioner in the first room to be started after the door of the first room is controlled to be closed so as to adjust the environmental parameters in the first room to target environmental parameters at least through the first air conditioner; the air supply mode of the air deflector of the first air conditioner adopts an air supply mode of avoiding a user from blowing air; if no user exists in the first room, the first air conditioner is not started, and a reminding message of no user exists in the first room is initiated.
Optionally, the second controlling the first air conditioner in the first room includes: determining whether a user is in the first room; if a user exists in the first room, controlling the air conditioner to be started so as to adjust the environmental parameters in the first room to target environmental parameters at least through the first air conditioner; if no user is in the first room, whether the current time is the set rest period or not is continuously determined.
In accordance with the above method, another aspect of the present invention provides an apparatus for controlling environmental parameters, comprising: an acquisition unit for acquiring an indoor environmental parameter of a first room; a determination unit for determining a control mode of an environmental parameter of the first room according to an indoor environmental parameter of the first room; a control unit for controlling the indoor environmental parameter of the first room according to the control mode of the environmental parameter of the first room so that the indoor environmental parameter of the first room reaches the target environmental parameter of the first room; wherein the control mode of the environmental parameter of the first room comprises: a ventilation mode, a transmission mode and/or a regulation mode; a ventilation mode which is a control mode for naturally ventilating the first room; a transfer mode which is a control mode for transferring air of the second room to the first room; the adjustment mode is a control mode for allowing the first room to adjust its indoor air by itself.
Optionally, the indoor environmental parameters of the first room comprise: an indoor ambient temperature, an indoor ambient humidity, an indoor ambient PM2.5, and/or an indoor ambient oxygen content of the first room.
Optionally, the control unit determines a control mode of the environmental parameter of the first room, comprising: determining a relationship between an indoor environmental parameter of a first room and a set environmental parameter range; if the indoor environmental parameter of the first room is smaller than or equal to the lower limit of the set environmental parameter range, determining that the control mode of the environmental parameter of the first room is the ventilation mode; if the indoor environmental parameter of the first room is larger than the lower limit of the set environmental parameter range and smaller than or equal to the upper limit of the set environmental parameter range, determining that the control mode of the environmental parameter of the first room is the transmission mode; and if the indoor environmental parameter of the first room is larger than the upper limit of the set environmental parameter range, determining that the control mode of the environmental parameter of the first room is the adjusting mode.
Optionally, the control unit controls an indoor environmental parameter of the first room, including: controlling the ventilation opening of the first room under the condition that the control mode of the environmental parameters of the first room is a ventilation mode, so that the first room controls the environmental parameters of the first room through natural ventilation; under the condition that the control mode of the environmental parameters of the first room is the transmission mode, controlling the opening of a transmission channel between the first room and the second room so as to transmit the air regulated by the second air conditioner in the second room to the first room through the transmission channel between the first room and the second room, and controlling the environmental parameters of the first room through the air regulated by the second air conditioner in the second room; and controlling the first air conditioner in the first room to be started to adjust the environmental parameters in the first room through the first air conditioner in the first room under the condition that the control mode of the environmental parameters of the first room is the adjusting mode.
Optionally, the control unit adjusts the environmental parameter in the first room by a first air conditioner in the first room, including: determining the current time of a time zone to which the first room belongs, and determining whether the current time is a set rest period; if the current time belongs to the set rest period, performing first control on a first air conditioner in the first room so as to adjust the environmental parameters in the first room in the rest period; and if the current time does not belong to the set rest period, performing second control on the first air conditioner in the first room so as to realize the adjustment of the environmental parameters in the first room in the non-rest period.
Optionally, the control unit performs a first control on the first air conditioner in the first room, including: determining whether a user is in the first room; if a user exists in the first room, controlling a first air conditioner in the first room to be started after the door of the first room is controlled to be closed so as to adjust the environmental parameters in the first room to target environmental parameters at least through the first air conditioner; the air supply mode of the air deflector of the first air conditioner adopts an air supply mode of avoiding a user from blowing air; if no user exists in the first room, the first air conditioner is not started, and a reminding message of no user exists in the first room is initiated.
Optionally, the control unit performs a second control on the first air conditioner in the first room, including: determining whether a user is in the first room; if a user exists in the first room, controlling the air conditioner to be started so as to adjust the environmental parameters in the first room to target environmental parameters at least through the first air conditioner; if no user is in the first room, whether the current time is the set rest period or not is continuously determined.
In accordance with another aspect of the present invention, there is provided an air conditioning system including: the control device of the environmental parameter.
In accordance with the above method, a further aspect of the present invention provides a storage medium comprising: the storage medium has stored therein a plurality of instructions; the plurality of instructions are used for loading and executing the control method of the environment parameters by the processor.
In accordance with the above method, another aspect of the present invention provides an air conditioning system, comprising: a processor for executing a plurality of instructions; a memory to store a plurality of instructions; wherein the instructions are stored in the memory, and loaded by the processor and execute the control method of the environmental parameter.
According to the scheme, the air conditioner is applied to the environment regulation of the pet room, so that the comfort of the living environment of the pet can be improved.
Furthermore, according to the scheme of the invention, the air conditioner is applied to the environment regulation of the pet room, and the selection of multiple modes is carried out through the detection of the indoor temperature, so that the energy-saving effect of the pet air conditioner is favorably improved.
Furthermore, according to the scheme of the invention, the air conditioner is applied to environment regulation of a pet room, and is controlled in an intelligent mode of setting initial rest time, detecting temperature difference, feeding back by an infrared sensor, automatically regulating the direction of the air deflector and the like, so that the comfort of the living environment of the pet can be improved, and the energy-saving effect of the air conditioner of the pet can be improved.
Furthermore, according to the scheme of the invention, the air conditioner is applied to the environment regulation of the pet room, and the air treated by the user room is introduced into the pet house by directly opening the pet house door, so that the comfort of the living environment of the pet can be improved under the condition that the external environment is not particularly hot.
Furthermore, according to the scheme of the invention, the air conditioner is applied to the environment regulation of the pet room, and the comfort of the living environment of the pet is improved to a certain extent in the modes of upward blowing by the air deflector during the rest time and the like, so that the comfort of the living environment of the pet is improved.
Therefore, according to the scheme of the invention, the air conditioner is applied to the environment regulation of the pet room to improve the environmental comfort of the pet room, the problem that the health of the pet is influenced when the environment of the pet room is not comfortable enough is solved, and the effect of improving the environmental comfort of the pet room to be beneficial to the health of the pet is achieved.
Additional features and advantages of the invention will be set forth in the description which follows, and in part will be obvious from the description, or may be learned by practice of the invention.
The technical solution of the present invention is further described in detail by the accompanying drawings and embodiments.
Drawings
FIG. 1 is a flowchart illustrating a method for controlling environmental parameters according to an embodiment of the present invention;
FIG. 2 is a schematic flow chart illustrating one embodiment of a control scheme for determining an environmental parameter of a first room in the method of the present invention;
FIG. 3 is a schematic flow chart illustrating an embodiment of adjusting environmental parameters in a first room by a first air conditioner in the first room according to the method of the present invention;
FIG. 4 is a flowchart illustrating an embodiment of a method of performing a first control of a first air conditioner in a first room according to the present invention;
FIG. 5 is a flowchart illustrating an embodiment of a second control of the first air conditioner in the first room according to the method of the present invention;
FIG. 6 is a schematic structural diagram of an exemplary embodiment of an apparatus for controlling environmental parameters;
FIG. 7 is a schematic control flow chart of a pet air conditioning control system according to an embodiment of the present invention;
FIG. 8 is a schematic view of a user room and pet room duct connection for one embodiment of the air conditioning system of the present invention;
fig. 9 is a schematic flow chart illustrating a cooling mode of an embodiment of the air conditioning system of the present invention.
The reference numbers in the embodiments of the present invention are as follows, in combination with the accompanying drawings:
1-user air conditioning; 2-a fan; 3-air pipe; 4-pet air conditioning; 102-an obtaining unit; 104-a determination unit; 106-control unit.
Detailed Description
In order to make the objects, technical solutions and advantages of the present invention more apparent, the technical solutions of the present invention will be clearly and completely described below with reference to the specific embodiments of the present invention and the accompanying drawings. It is to be understood that the described embodiments are merely exemplary of the invention, and not restrictive of the full scope of the invention. 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.
According to an embodiment of the present invention, a method for controlling an environmental parameter is provided, as shown in fig. 1, which is a schematic flow chart of an embodiment of the method of the present invention. The method for controlling environmental parameters may be applied to a first room such as a pet room, which may be a small space independent of a second room such as a user room, and may include: step S110 to step S130.
Step S110, an indoor environmental parameter of the first room is acquired. Wherein the first room, such as a pet room. An indoor environmental parameter of the first room, such as an indoor ambient temperature of the pet room.
Optionally, the indoor environmental parameter of the first room may include: an indoor ambient temperature, an indoor ambient humidity, an indoor ambient PM2.5, and/or an indoor ambient oxygen content of the first room.
For example: the temperature sensor detects an indoor ambient temperature.
Therefore, the comfort degree of the environment in the first room is improved by adjusting the indoor environment parameters of the first room in various forms, and the physical health of a user such as a pet in the first room is further improved.
Step S120, determining a control mode of the environmental parameter of the first room according to the indoor environmental parameter of the first room.
Alternatively, a specific process of determining the control mode of the environmental parameter of the first room according to the indoor environmental parameter of the first room in step S120 may be as follows.
The following further describes a specific process of determining the control mode of the environmental parameter of the first room in step S120, with reference to a flowchart of an embodiment of the control mode of determining the environmental parameter of the first room in the method of the present invention shown in fig. 2, and the specific process may include: step S210 to step S240.
Step S210, determining a relationship between the indoor environmental parameter of the first room and the set environmental parameter range.
For example: the environmental parameter range can be 26-30 ℃. The lower limit of the set environmental parameter range may be 26 deg.c and the upper limit of the set environmental parameter range may be 30 deg.c.
In step S220, if the indoor environmental parameter of the first room is less than or equal to the lower limit of the set environmental parameter range, it is determined that the control mode of the environmental parameter of the first room is the ventilation mode.
For example: the temperature sensor detects the indoor ambient temperature, and the transition season mode is started if the detected indoor ambient temperature is 15-26 ℃.
In step S230, if the indoor environment parameter of the first room is greater than the lower limit of the set environment parameter range and less than or equal to the upper limit of the set environment parameter range, the control mode of the environment parameter of the first room is determined to be the transmission mode.
For example: the temperature sensor detects the indoor environment temperature, and if the detected indoor environment temperature is 26-30 ℃, the air supply mode of the user room is started.
In step S240, if the indoor environmental parameter of the first room is greater than the upper limit of the set environmental parameter range, it is determined that the control mode of the environmental parameter of the first room is the adjustment mode.
For example: the temperature sensor detects the indoor environment temperature, and if the detected indoor environment temperature is more than 30 ℃, the pet air-conditioning refrigeration mode is started.
Therefore, the corresponding control mode is determined through different environment parameter areas where the detected indoor environment parameters of the first room are compared with the set environment parameter range, and energy can be properly saved under the condition that the indoor environment parameters of the first room are guaranteed to reach the target environment parameters as far as possible.
Step S130, controlling the indoor environmental parameter of the first room according to the control mode of the environmental parameter of the first room, so that the indoor environmental parameter of the first room reaches the target environmental parameter of the first room.
The control mode of the environmental parameter of the first room may include: a ventilation mode, a transmission mode and/or a regulation mode. The ventilation mode is a control mode for naturally ventilating the first room. The transfer mode is a control mode for transferring air in the second room to the first room. The adjustment mode is a control mode for allowing the first room to adjust its indoor air by itself. Wherein, a ventilation mode, such as an over mode; a transmission mode, such as a user room air supply mode; and adjusting modes, such as a pet air conditioning and cooling mode.
For example: a pet air conditioning system can apply an air conditioner to pet feeding, and three modes are selected by detecting indoor temperature; if the transition mode, the user room air supply mode and the pet air-conditioning refrigeration mode can be selected by detecting the indoor temperature, the comfort of the living environment of the pet can be improved.
Therefore, the control mode of the environmental parameters of the first room is determined through the indoor environmental parameters of the first room, and then different control can be performed according to different degrees of the indoor environmental parameters of the first room, so that the comfort of the environmental parameters of the first room is improved to different degrees.
Alternatively, the specific process of controlling the indoor environment parameter of the first room according to the control mode of the environment parameter of the first room in step S130 may include a control situation in any one of the following control modes.
Control scenario in the first control mode: and in the case that the control mode of the environmental parameters of the first room is the ventilation mode, controlling the ventilation opening of the first room to open so that the first room controls the environmental parameters of the first room through natural ventilation. That is, in the ventilation mode, the ventilation opening of the first room is controlled to achieve natural ventilation.
For example: in the transition mode, the pocket door may be opened for ventilation.
For example: the temperature sensor detects the indoor environment temperature, if the detected indoor environment temperature is 15-26 ℃, the transition season mode is started, the nest door is normally opened to keep ventilation, and the comfort of the pet can be improved while the energy is effectively saved.
Control scenario in the second control mode: and under the condition that the control mode of the environmental parameters of the first room is the transmission mode, controlling the opening of a transmission channel between the first room and the second room so as to transmit the air regulated by the second air conditioner in the second room to the first room through the transmission channel between the first room and the second room, and controlling the environmental parameters of the first room through the air regulated by the second air conditioner in the second room. That is, in the transmission mode, the transmission channel between the first room and the second room is controlled to be opened, so that the air conditioned by the second air conditioner in the second room is transmitted into the first room through the transmission channel.
Specifically, the user room is communicated with the pet room through a pipeline. Wherein, the pet air conditioner 4 needs to be additionally provided with an air duct hole which is connected with the air duct 3. Correspondingly, the user room is also provided with an air duct hole at the fan 2 and connected with the air duct 3. In order to adapt to the special condition that the volume of the pet nest is small, the size of the pet air conditioner 4 is small. After the air supply mode of the user room is started, the fan 2 of the user room is started to transmit the processed air into the pet nest through the air pipe 3 so as to realize cooling, and the air pipe 3 can generate heat rise in the process of transmitting low-temperature air, so that the cooling can be considered when the outdoor temperature is not particularly high but the comfort is improved by refrigeration.
For example: in the air supply mode of the user room, the air treated in the user room can be led into the pet house by directly opening the door of the pet house to a certain extent.
For example: the temperature sensor detects the indoor environment temperature, if the detected indoor environment temperature is 26-30 ℃, the air supply mode of the user room is started, and the user room transmits the processed air into the pet nest to realize cooling.
Control scenario in the third control mode: and controlling the first air conditioner in the first room to be started to adjust the environmental parameters in the first room through the first air conditioner in the first room under the condition that the control mode of the environmental parameters of the first room is the adjusting mode. That is, in the adjusting mode, the first air conditioner in the first room is controlled to be turned on to adjust the environmental parameter in the first room by the first air conditioner in the first room.
For example: the temperature sensor detects the indoor environment temperature, and if the detected indoor environment temperature is higher than 30 ℃, the pet air conditioner refrigeration mode is started to adjust the temperature in the pet nest by using the pet air conditioner.
Therefore, the control of the environmental parameters in the first room is realized through different environmental parameter control modes in different modes, so that on one hand, the timely control of the environmental parameters in the first room is ensured, and the environmental comfort in the first room is improved; on the other hand, the energy can be properly saved, and the environment is protected.
More optionally, the specific process of adjusting the environmental parameter in the first room by the first air conditioner in the first room may be referred to the following exemplary description.
Referring to fig. 3, a flowchart of an embodiment of the method for adjusting the environmental parameter in the first room by the first air conditioner in the first room according to the present invention further illustrates a specific process for adjusting the environmental parameter in the first room by the first air conditioner in the first room, which may include: step S310 to step S330.
Step S310, determining the current time of the time zone to which the first room belongs, and determining whether the current time is the set rest period. For example: and under the refrigeration mode of the pet air conditioner, after the refrigeration mode is started, judging the current time period according to the rest period set by the user. The rest time is initially set by a user, and generally referred to herein as sleep time, and generally set as night time.
Step S320, if the current time belongs to the set rest period, performing a first control on the first air conditioner in the first room, so as to adjust the environmental parameter in the first room during the rest period. For example: and under the refrigeration mode of the pet air conditioner, after the refrigeration mode is started, judging the current time period according to the rest period set by the user. If the current time period is the rest time, the system is started in a rest mode, whether alarm feedback is carried out is further determined according to whether the pet is detected currently, and automatic air supply adjustment is carried out.
Still alternatively, a specific process of performing the first control on the first air conditioner in the first room in the case that the current time belongs to the set rest period in step S320 may be referred to as the following exemplary description.
Referring to fig. 4, a flowchart of an embodiment of performing the first control on the first air conditioner in the first room in the method of the present invention is further illustrated, where the specific process of performing the first control on the first air conditioner in the first room in step S320 may include: step S410 to step S430.
Step S410, in a rest period, determines whether there is a user in the first room.
For example: the first room may be a pet's nest. The user, may be a pet.
For example: the pet can be judged whether to return to the nest at night through the feedback of the infrared sensor. Such as: whether the pet is in the nest or not can be detected through an infrared sensor, the temperature is higher, the infrared wavelength is shorter, the body temperature of the pet is about 37.5 degrees, the wavelength is generally shorter than that of surrounding objects, the peak value of the wavelength of the emitted infrared ray is about 10 microns, and whether the pet is in the nest or not is judged through the wavelength.
Step S420, in the rest period, if there is a user in the first room, after controlling the door of the first room to be closed, controlling the first air conditioner in the first room to be opened, so as to adjust the environmental parameter in the first room to the target environmental parameter at least through the first air conditioner.
For example: under the air-conditioning refrigeration mode for the pet, the temperature in the pet nest can be controlled through the detection of the temperature difference, and a comfortable living environment is brought to the pet.
The air supply mode of the air deflector of the first air conditioner adopts an air supply mode of avoiding users from wind.
For example: under the refrigeration mode of the pet air conditioner, the comfort of the living environment of the pet can be improved to a certain extent by the modes of upward blowing of the air deflector during the rest time and the like, and the comfort of the living environment of the pet is further improved. Specifically, the user needs to have a rest at night, the requirement of the pet on the air conditioner can be continuously met through one-time setting, the user does not need to operate at night, and the air deflector upward mode needs to be executed for ensuring the comfort of the pet in the sleep state at night. That is, when the pet is in the rest mode and the pet is in the nest, the door can be automatically locked for saving energy of the air conditioner; and the mode of keeping away from the pet by the wind is started, and the air deflector blows upwards to adjust the temperature difference. Because the height of the pet nest is not high usually, the angle of the air deflector is selected to be smaller to avoid direct blowing, the default initial value is set to be 30 degrees, and the value can be manually input by a user according to factors such as environment and the like.
For example: and under the refrigeration mode of the pet air conditioner, after the refrigeration mode is started, judging the current time period according to the rest period set by the user. If the pet is detected to be in the nest, the air conditioner for the pet is started after the nest door is controlled to be closed and locked, the temperature in the pet nest is detected, the target temperature of the air conditioner for the pet is adjusted to be proper according to the detection result, and the air deflector of the air conditioner for the pet is controlled to blow air upwards.
Step S430, in the rest period, if there is no user in the first room, the first air conditioner is not turned on, and a reminding message indicating that there is no user in the first room is initiated.
For example: under the refrigeration mode of the air conditioner for the pet, the modes such as the on-off of the air conditioner can be determined by detecting whether the pet is in the house, and the energy-saving effect of the air conditioner is greatly improved to a certain extent.
For example: whether the pet is in the nest or not is judged to remind the owner in time, and the nest door is closed in time, so that the energy-saving effect is improved while the safety of the pet is ensured. Specifically, whether the pet returns to the nest at night can be judged through feedback of the infrared sensor, a certain feedback is given to the owner, and automatic door locking can be achieved. Such as:
for example: and under the refrigeration mode of the pet air conditioner, after the refrigeration mode is started, judging the current time period according to the rest period set by the user. If the pet is detected not to be in the nest, a reminding message that the pet is not in the nest is initiated, if an alarm is sent to inform the owner that the pet is not in the nest, and then the method returns to continuously detect whether the pet is in the nest. That is to say, when the pet is in the rest mode and the pet is not in the nest, the alarm gives an alarm to give physical feedback to the user, which is a circulation process, the process is not finished until the infrared sensor detects and confirms that the pet is in the nest, and the air deflector is started to be in the upward mode, so that the comfort of the pet is further ensured.
Therefore, under the condition that the current time belongs to the set rest period, the first air conditioner in the first room is controlled according to whether the user exists in the first room or not, and the use comfort and the safety of the user can be guaranteed.
Step S330, if the current time does not belong to the set rest period, performing a second control on the first air conditioner in the first room, so as to adjust the environmental parameter in the first room in the non-rest period. For example: and under the refrigeration mode of the pet air conditioner, after the refrigeration mode is started, judging the current time period according to the rest period set by the user. If the current time is in the non-rest time, the pet detection device is started in the non-rest mode, and further determines whether to start the air conditioner for temperature difference adjustment or to restart the program according to whether the pet is detected currently.
For example: under the refrigeration mode of the pet air conditioner, the air conditioner can be controlled in intelligent modes such as setting of initial rest time, detection of temperature difference, feedback of an infrared sensor, automatic adjustment of air deflector direction and the like, the comfort of the living environment of a pet can be improved, and the energy-saving effect of the pet air conditioner is also facilitated to be improved.
Therefore, under the condition that the first air conditioner is used for adjusting the environmental parameters in the first room, the rest time period and the non-rest time period are distinguished to perform corresponding control, so that the comfort of the environment in the first room can be guaranteed, and on the other hand, the waste of energy caused by the fact that the first air conditioner is started when a user is not in the first room can be avoided.
Still alternatively, in step S330, when the current time does not belong to the set rest period, the specific process of performing the second control on the first air conditioner in the first room may be as follows.
Referring to fig. 5, a flowchart of an embodiment of performing the second control on the first air conditioner in the first room in the method of the present invention is further described below, where the specific process of performing the second control on the first air conditioner in the first room in step S330 may include: step S510 to step S530.
Step S510, in a non-rest period, determines whether there is a user in the first room.
For example: the first room may be a pet's nest. The user, may be a pet. For example, the pet can be judged whether to return to the nest at night through the feedback of the infrared sensor.
Step S520, in the non-rest period, if there is a user in the first room, the air conditioner is controlled to be turned on, so as to adjust the environmental parameter in the first room to the target environmental parameter at least through the first air conditioner.
For example: and under the refrigeration mode of the pet air conditioner, after the refrigeration mode is started, judging the current time period according to the rest period set by the user. If the pet is in the non-rest time at the current moment, the air conditioner of the pet is controlled to be started and the temperature in the pet is adjusted to be at the proper temperature according to the detection result after the pet is in the pet house. That is, the pet needs to move freely during the daytime, and the air conditioner automatically adjusts to a proper temperature according to the difference between the indoor temperature and the set temperature corresponding to the situation that the pet is in the house. Specifically, when the pet is in the non-rest mode and the pet is in the house, the air-conditioning refrigeration is determined according to the difference between the detection result of the indoor temperature and the set temperature. Since the body temperature of a dog is typically 37.5-38.5 degrees and the most comfortable ambient temperature is 25-26 degrees, the default temperature set for the system is 26 degrees, which may be manually entered by the user depending on other factors.
Step S530, in the non-rest period, if there is no user in the first room, continuously determining whether the current time is the set rest period.
For example: and under the refrigeration mode of the pet air conditioner, after the refrigeration mode is started, judging the current time period according to the rest period set by the user. If the current time is in the non-rest time, if the pet is not in the nest, the air conditioner of the pet does not need to be controlled to be started, and the pet returns to continuously detect whether the pet is in the nest or not. That is, the pet needs to move freely during the day, and the procedure is restarted in response to the pet not being detected.
Therefore, under the condition that the current time does not belong to the set rest period, the second control is carried out on the first air conditioner in the first room according to whether the user exists in the first room, and the use comfort and the safety of the user can be guaranteed.
A large number of tests prove that the technical scheme of the embodiment is adopted, and the comfort of the living environment of the pet can be improved by applying the air conditioner to the environment regulation of the pet room.
According to the embodiment of the invention, the control device of the environmental parameter corresponding to the control method of the environmental parameter is also provided. Referring to fig. 6, a schematic diagram of an embodiment of the apparatus of the present invention is shown. The control device of the environmental parameter may be applied to a first room such as a pet room, which may be a small space independent of a second room such as a user room, and the control device of the environmental parameter of the pet room may include: an acquisition unit 102, a determination unit 104, and a control unit 106.
In an alternative example, the obtaining unit 102 may be configured to obtain an indoor environment parameter of the first room. Wherein the first room, such as a pet room. An indoor environmental parameter of the first room, such as an indoor ambient temperature of the pet room. The specific functions and processes of the acquiring unit 102 are referred to in step S110.
Optionally, the indoor environmental parameter of the first room may include: an indoor ambient temperature, an indoor ambient humidity, an indoor ambient PM2.5, and/or an indoor ambient oxygen content of the first room.
For example: the temperature sensor detects an indoor ambient temperature.
Therefore, the comfort degree of the environment in the first room is improved by adjusting the indoor environment parameters of the first room in various forms, and the physical health of a user such as a pet in the first room is further improved.
In an alternative example, the determining unit 104 may be configured to determine the control mode of the environmental parameter of the first room according to the indoor environmental parameter of the first room. The specific function and processing of the determination unit 104 are referred to in step S120.
Alternatively, the determining, by the control unit 106, the control mode of the environmental parameter of the first room according to the indoor environmental parameter of the first room may include:
the control unit 106 may be further configured to determine a relationship between the indoor environment parameter of the first room and the set environment parameter range. The specific functions and processes of the control unit 106 are also referred to in step S210.
For example: the environmental parameter range can be 26-30 ℃. The lower limit of the set environmental parameter range may be 26 deg.c and the upper limit of the set environmental parameter range may be 30 deg.c.
The control unit 106 may be further configured to determine that the control mode of the environmental parameter of the first room is the ventilation mode if the indoor environmental parameter of the first room is less than or equal to the lower limit of the set environmental parameter range. The specific function and processing of the control unit 106 are also referred to in step S220.
For example: the temperature sensor detects the indoor ambient temperature, and the transition season mode is started if the detected indoor ambient temperature is 15-26 ℃.
The control unit 106 may be further specifically configured to determine that the control mode of the environmental parameter of the first room is the transmission mode if the indoor environmental parameter of the first room is greater than the lower limit of the set environmental parameter range and is less than or equal to the upper limit of the set environmental parameter range. The specific function and processing of the control unit 106 are also referred to in step S230.
For example: the temperature sensor detects the indoor environment temperature, and if the detected indoor environment temperature is 26-30 ℃, the air supply mode of the user room is started.
The control unit 106 may be further configured to determine that the control mode of the environmental parameter of the first room is the adjustment mode if the indoor environmental parameter of the first room is greater than the upper limit of the set environmental parameter range. The specific function and processing of the control unit 106 are also referred to in step S240.
For example: the temperature sensor detects the indoor environment temperature, and if the detected indoor environment temperature is more than 30 ℃, the pet air-conditioning refrigeration mode is started.
Therefore, the corresponding control mode is determined through different environment parameter areas where the detected indoor environment parameters of the first room are compared with the set environment parameter range, and energy can be properly saved under the condition that the indoor environment parameters of the first room are guaranteed to reach the target environment parameters as far as possible.
In an alternative example, the control unit 106 may be configured to control the indoor environment parameter of the first room according to a control mode of the environment parameter of the first room, so that the indoor environment parameter of the first room reaches the target environment parameter of the first room. The specific function and processing of the control unit 106 are shown in step S130.
The control mode of the environmental parameter of the first room may include: a ventilation mode, a transmission mode and/or a regulation mode. The ventilation mode is a control mode for naturally ventilating the first room. The transfer mode is a control mode for transferring air in the second room to the first room. The adjustment mode is a control mode for allowing the first room to adjust its indoor air by itself. Wherein, a ventilation mode, such as an over mode; a transmission mode, such as a user room air supply mode; and adjusting modes, such as a pet air conditioning and cooling mode.
For example: a pet air conditioning system can apply an air conditioner to pet feeding, and three modes are selected by detecting indoor temperature; if the transition mode, the user room air supply mode and the pet air-conditioning refrigeration mode can be selected by detecting the indoor temperature, the comfort of the living environment of the pet can be improved.
Therefore, the control mode of the environmental parameters of the first room is determined through the indoor environmental parameters of the first room, and then different control can be performed according to different degrees of the indoor environmental parameters of the first room, so that the comfort of the environmental parameters of the first room is improved to different degrees.
Alternatively, the control unit 106 controls the indoor environment parameter of the first room according to the control mode of the environment parameter of the first room, and may include a control situation in any one of the following control modes.
Control scenario in the first control mode: the control unit 106 may be further configured to, when the control mode of the environmental parameter of the first room is the ventilation mode, control the opening of the ventilation opening of the first room, so that the first room controls the environmental parameter of the first room through natural ventilation. That is, in the ventilation mode, the ventilation opening of the first room is controlled to achieve natural ventilation.
For example: in the transition mode, the pocket door may be opened for ventilation.
For example: the temperature sensor detects the indoor environment temperature, if the detected indoor environment temperature is 15-26 ℃, the transition season mode is started, the nest door is normally opened to keep ventilation, and the comfort of the pet can be improved while the energy is effectively saved.
Control scenario in the second control mode: the control unit 106 may be further configured to, when the control mode of the environmental parameter of the first room is the transmission mode, control a transmission channel between the first room and the second room to be opened, so as to transmit the air conditioned by the second air conditioner in the second room to the first room through the transmission channel between the first room and the second room, so as to control the environmental parameter of the first room through the air conditioned by the second air conditioner in the second room. That is, in the transmission mode, the transmission channel between the first room and the second room is controlled to be opened, so that the air conditioned by the second air conditioner in the second room is transmitted into the first room through the transmission channel.
Specifically, the user room is communicated with the pet room through a pipeline. Wherein, the pet air conditioner 4 needs to be additionally provided with an air duct hole which is connected with the air duct 3. Correspondingly, the user room is also provided with an air duct hole at the fan 2 and connected with the air duct 3. In order to adapt to the special condition that the volume of the pet nest is small, the size of the pet air conditioner 4 is small. After the air supply mode of the user room is started, the fan 2 of the user room is started to transmit the processed air into the pet nest through the air pipe 3 so as to realize cooling, and the air pipe 3 can generate heat rise in the process of transmitting low-temperature air, so that the cooling can be considered when the outdoor temperature is not particularly high but the comfort is improved by refrigeration.
For example: in the air supply mode of the user room, the air treated in the user room can be led into the pet house by directly opening the door of the pet house to a certain extent.
For example: the temperature sensor detects the indoor environment temperature, if the detected indoor environment temperature is 26-30 ℃, the air supply mode of the user room is started, and the user room transmits the processed air into the pet nest to realize cooling.
Control scenario in the third control mode: the control unit 106 may be further configured to, when the control mode of the environmental parameter of the first room is the adjustment mode, control the first air conditioner in the first room to be turned on, so as to adjust the environmental parameter in the first room through the first air conditioner in the first room. That is, in the adjusting mode, the first air conditioner in the first room is controlled to be turned on to adjust the environmental parameter in the first room by the first air conditioner in the first room.
For example: the temperature sensor detects the indoor environment temperature, and if the detected indoor environment temperature is higher than 30 ℃, the pet air conditioner refrigeration mode is started to adjust the temperature in the pet nest by using the pet air conditioner.
Therefore, the control of the environmental parameters in the first room is realized through different environmental parameter control modes in different modes, so that on one hand, the timely control of the environmental parameters in the first room is ensured, and the environmental comfort in the first room is improved; on the other hand, the energy can be properly saved, and the environment is protected.
More optionally, the controlling unit 106 adjusting the environmental parameter in the first room through the first air conditioner in the first room may include:
the control unit 106 may be further configured to determine a current time of a time zone to which the first room belongs, and determine whether the current time is a set rest period. The specific functions and processes of the control unit 106 are also referred to in step S310. For example: and under the refrigeration mode of the pet air conditioner, after the refrigeration mode is started, judging the current time period according to the rest period set by the user. The rest time is initially set by a user, and generally referred to herein as sleep time, and generally set as night time.
The control unit 106 may be further configured to perform a first control on the first air conditioner in the first room if the current time belongs to the set rest period, so as to adjust the environmental parameter in the first room during the rest period. The specific functions and processes of the control unit 106 are also referred to in step S320. For example: and under the refrigeration mode of the pet air conditioner, after the refrigeration mode is started, judging the current time period according to the rest period set by the user. If the current time period is the rest time, the system is started in a rest mode, whether alarm feedback is carried out is further determined according to whether the pet is detected currently, and automatic air supply adjustment is carried out.
Still further alternatively, the controlling unit 106 may perform the first control on the first air conditioner in the first room in a case where the current time belongs to the set rest period, and may include:
the control unit 106 may be further configured to determine whether there is a user in the first room during the rest period. The specific functions and processes of the control unit 106 are also referred to in step S410.
For example: the first room may be a pet's nest. The user, may be a pet.
For example: the pet can be judged whether to return to the nest at night through the feedback of the infrared sensor. Such as: whether the pet is in the nest or not can be detected through an infrared sensor, the temperature is higher, the infrared wavelength is shorter, the body temperature of the pet is about 37.5 degrees, the wavelength is generally shorter than that of surrounding objects, the peak value of the wavelength of the emitted infrared ray is about 10 microns, and whether the pet is in the nest or not is judged through the wavelength.
The control unit 106 may be further configured to, during the rest period, control the first air conditioner in the first room to be turned on after the door of the first room is closed if there is a user in the first room, so as to adjust the environmental parameter in the first room to the target environmental parameter through at least the first air conditioner. The specific function and processing of the control unit 106 are also referred to in step S420.
For example: under the air-conditioning refrigeration mode for the pet, the temperature in the pet nest can be controlled through the detection of the temperature difference, and a comfortable living environment is brought to the pet.
The air supply mode of the air deflector of the first air conditioner adopts an air supply mode of avoiding users from wind.
For example: under the refrigeration mode of the pet air conditioner, the comfort of the living environment of the pet can be improved to a certain extent by the modes of upward blowing of the air deflector during the rest time and the like, and the comfort of the living environment of the pet is further improved. Specifically, the user needs to have a rest at night, the requirement of the pet on the air conditioner can be continuously met through one-time setting, the user does not need to operate at night, and the air deflector upward mode needs to be executed for ensuring the comfort of the pet in the sleep state at night. That is, when the pet is in the rest mode and the pet is in the nest, the door can be automatically locked for saving energy of the air conditioner; and the mode of keeping away from the pet by the wind is started, and the air deflector blows upwards to adjust the temperature difference. Because the height of the pet nest is not high usually, the angle of the air deflector is selected to be smaller to avoid direct blowing, the default initial value is set to be 30 degrees, and the value can be manually input by a user according to factors such as environment and the like.
For example: and under the refrigeration mode of the pet air conditioner, after the refrigeration mode is started, judging the current time period according to the rest period set by the user. If the pet is detected to be in the nest, the air conditioner for the pet is started after the nest door is controlled to be closed and locked, the temperature in the pet nest is detected, the target temperature of the air conditioner for the pet is adjusted to be proper according to the detection result, and the air deflector of the air conditioner for the pet is controlled to blow air upwards.
The control unit 106 may be further configured to, in the rest period, not start the first air conditioner and initiate a reminding message that there is no user in the first room if there is no user in the first room. The specific function and processing of the control unit 106 are also referred to in step S430.
For example: under the refrigeration mode of the air conditioner for the pet, the modes such as the on-off of the air conditioner can be determined by detecting whether the pet is in the house, and the energy-saving effect of the air conditioner is greatly improved to a certain extent.
For example: whether the pet is in the nest or not is judged to remind the owner in time, and the nest door is closed in time, so that the energy-saving effect is improved while the safety of the pet is ensured. Specifically, whether the pet returns to the nest at night can be judged through feedback of the infrared sensor, a certain feedback is given to the owner, and automatic door locking can be achieved. Such as:
for example: and under the refrigeration mode of the pet air conditioner, after the refrigeration mode is started, judging the current time period according to the rest period set by the user. If the pet is detected not to be in the nest, a reminding message that the pet is not in the nest is initiated, if an alarm is sent to inform the owner that the pet is not in the nest, and then the method returns to continuously detect whether the pet is in the nest. That is to say, when the pet is in the rest mode and the pet is not in the nest, the alarm gives an alarm to give physical feedback to the user, which is a circulation process, the process is not finished until the infrared sensor detects and confirms that the pet is in the nest, and the air deflector is started to be in the upward mode, so that the comfort of the pet is further ensured.
Therefore, under the condition that the current time belongs to the set rest period, the first air conditioner in the first room is controlled according to whether the user exists in the first room or not, and the use comfort and the safety of the user can be guaranteed.
The control unit 106 may be further configured to perform a second control on the first air conditioner in the first room if the current time does not belong to the set rest period, so as to adjust the environmental parameter in the first room in the non-rest period. The specific function and processing of the control unit 106 are also referred to in step S330. For example: and under the refrigeration mode of the pet air conditioner, after the refrigeration mode is started, judging the current time period according to the rest period set by the user. If the current time is in the non-rest time, the pet detection device is started in the non-rest mode, and further determines whether to start the air conditioner for temperature difference adjustment or to restart the program according to whether the pet is detected currently.
For example: under the refrigeration mode of the pet air conditioner, the air conditioner can be controlled in intelligent modes such as setting of initial rest time, detection of temperature difference, feedback of an infrared sensor, automatic adjustment of air deflector direction and the like, the comfort of the living environment of a pet can be improved, and the energy-saving effect of the pet air conditioner is also facilitated to be improved.
Therefore, under the condition that the first air conditioner is used for adjusting the environmental parameters in the first room, the rest time period and the non-rest time period are distinguished to perform corresponding control, so that the comfort of the environment in the first room can be guaranteed, and on the other hand, the waste of energy caused by the fact that the first air conditioner is started when a user is not in the first room can be avoided.
Still further alternatively, the second controlling of the first air conditioner in the first room by the control unit 106 in case that the current time does not belong to the set rest period may include:
the control unit 106 may be further configured to determine whether there is a user in the first room during the non-rest period. The specific functions and processes of the control unit 106 are also referred to in step S510.
For example: the first room may be a pet's nest. The user, may be a pet. For example, the pet can be judged whether to return to the nest at night through the feedback of the infrared sensor.
The control unit 106 may be further configured to, in a non-rest period, control the air conditioner to be turned on if there is a user in the first room, so as to adjust the environmental parameter in the first room to the target environmental parameter through at least the first air conditioner. The specific function and processing of the control unit 106 are also referred to in step S520.
For example: and under the refrigeration mode of the pet air conditioner, after the refrigeration mode is started, judging the current time period according to the rest period set by the user. If the pet is in the non-rest time at the current moment, the air conditioner of the pet is controlled to be started and the temperature in the pet is adjusted to be at the proper temperature according to the detection result after the pet is in the pet house. That is, the pet needs to move freely during the daytime, and the air conditioner automatically adjusts to a proper temperature according to the difference between the indoor temperature and the set temperature corresponding to the situation that the pet is in the house. Specifically, when the pet is in the non-rest mode and the pet is in the house, the air-conditioning refrigeration is determined according to the difference between the detection result of the indoor temperature and the set temperature. Since the body temperature of a dog is typically 37.5-38.5 degrees and the most comfortable ambient temperature is 25-26 degrees, the default temperature set for the system is 26 degrees, which may be manually entered by the user depending on other factors.
The control unit 106 may be further configured to, in the non-rest period, if there is no user in the first room, continuously determine whether the current time is the set rest period. The specific functions and processes of the control unit 106 are also referred to in step S530.
For example: and under the refrigeration mode of the pet air conditioner, after the refrigeration mode is started, judging the current time period according to the rest period set by the user. If the current time is in the non-rest time, if the pet is not in the nest, the air conditioner of the pet does not need to be controlled to be started, and the pet returns to continuously detect whether the pet is in the nest or not. That is, the pet needs to move freely during the day, and the procedure is restarted in response to the pet not being detected.
Therefore, under the condition that the current time does not belong to the set rest period, the second control is carried out on the first air conditioner in the first room according to whether the user exists in the first room, and the use comfort and the safety of the user can be guaranteed.
Since the processes and functions implemented by the apparatus of this embodiment substantially correspond to the embodiments, principles and examples of the method shown in fig. 1 to 5, the description of this embodiment is not detailed, and reference may be made to the related descriptions in the foregoing embodiments, which are not repeated herein.
Through a large number of tests, the technical scheme of the invention is adopted, the air conditioner is applied to the environment regulation of a pet room, and the selection of various modes is carried out through the detection of the indoor temperature, so that the energy-saving effect of the pet air conditioner is favorably improved.
According to an embodiment of the invention, an air conditioning system corresponding to the control device of the environmental parameter is also provided. The air conditioning system may include: the control device of the environmental parameter.
In an optional embodiment, the invention provides a pet air conditioning system, which can apply an air conditioner to pet feeding and select three modes through detecting indoor temperature; for example, the transition mode, the user room air supply mode and the pet air conditioning and cooling mode can be selected by detecting the indoor temperature.
In an alternative example, in the transition mode, the door of the nest may be opened for ventilation.
In an alternative example, in the user room blowing mode, the air treated in the user room may be introduced into the pet house to some extent by directly opening the door of the pet house.
In an optional example, in the refrigeration mode of the pet air conditioner, the air conditioner can be controlled in intelligent modes such as setting of initial rest time, detection of temperature difference, feedback of an infrared sensor, automatic adjustment of the direction of an air deflector and the like, so that the comfort of the living environment of the pet can be improved, and the energy-saving effect of the pet air conditioner is also favorably improved.
Optionally, under the refrigeration mode of the pet air conditioner, the comfort of the living environment of the pet can be improved to a certain extent by the modes of upward blowing of the air deflector during the rest time and the like, and then the comfort of the living environment of the pet is improved.
Optionally, under the pet air conditioner refrigeration mode, the mode such as the switch of air conditioner can be decided through whether the detection pet is in the nest, has improved the energy-conserving effect of air conditioner to a certain extent greatly.
For example: the on-off of the air conditioner can be decided by detecting whether the pet is in the house or not.
For another example: whether the pet is in the nest or not is judged to remind the owner in time, and the nest door is closed in time, so that the energy-saving effect is improved while the safety of the pet is ensured. Specifically, whether the pet returns to the nest at night can be judged through feedback of the infrared sensor, a certain feedback is given to the owner, and automatic door locking can be achieved.
Optionally, in the air-conditioning refrigeration mode for the pet, the temperature in the pet nest can be controlled through the detection of the temperature difference, so that a comfortable living environment is brought to the pet.
In an alternative embodiment, a specific implementation process of the scheme of the present invention can be exemplarily described with reference to the examples shown in fig. 7 to 9.
FIG. 7 is a control flow diagram of a pet air conditioning control system according to an embodiment of the present invention.
As shown in fig. 7, the control flow of the pet air conditioning control system may include:
step 11, the temperature sensor detects the indoor environment temperature, and step 12, step 13 or step 14 is executed.
And step 12, if the detected indoor environment temperature is 15-26 ℃, starting the transitional seasonal mode, and keeping the nest door to be normally open for ventilation, so that the comfort of the pet can be improved while the energy is effectively saved.
And step 13, if the detected indoor environment temperature is 26-30 ℃, starting an air supply mode of the user room, and transmitting the processed air to the pet nest by the user room to realize cooling.
And 14, if the detected indoor environment temperature is more than 30 ℃, starting the air-conditioning refrigeration mode of the pet.
FIG. 8 is a schematic diagram of the duct connection between the user room and the pet room of the air conditioning system according to an embodiment of the present invention.
As shown in fig. 8, the user room communicates with the pet room through a duct. Wherein, the user air conditioner 1 in the user room is connected with the pet air conditioner 4 in the pet room through the air pipe 3. Specifically, one end of the air duct 3 is connected to the fan 2 of the user air conditioner 1, and the other end of the air duct 3 is connected to the pet air conditioner 4.
In practical implementation, compared with a general air conditioner structure, the pet air conditioner 4 needs to be additionally provided with an air duct hole which is connected with the air duct 3. Correspondingly, the user room is also provided with an air duct hole at the fan 2 and connected with the air duct 3. In order to adapt to the special condition that the volume of the pet nest is small, the size of the pet air conditioner 4 is small. After the air supply mode of the user room is started, the fan 2 of the user room is started to transmit the processed air into the pet nest through the air pipe 3 so as to realize cooling, and the air pipe 3 can generate heat rise in the process of transmitting low-temperature air, so that the cooling can be considered when the outdoor temperature is not particularly high but the comfort is improved by refrigeration.
Fig. 9 is a schematic flow chart illustrating a cooling mode of an embodiment of the air conditioning system of the present invention.
As shown in fig. 9, the flow of the pet air-conditioning cooling mode may include:
and step 21, after the refrigeration mode is started, judging the current time period according to the rest period set by the user, and executing step 22 or step 23.
The rest time is initially set by a user, and generally referred to herein as sleep time, and generally set as night time.
Step 22, if the current time period is the rest time, starting in the rest mode, further determining whether to perform alarm feedback according to whether the pet is detected currently, and performing automatic air supply adjustment, specifically, steps 221 to 226 may be performed.
For example: under the rest mode, when detecting that the pet is in the nest, will send air conditioner feedback signal to make the air conditioner open and adjust to 26 degrees to guarantee the travelling comfort in room. The transition mode is a natural draft mode that opens at 26 degrees. The user room air supply mode is a mode for transmitting air generated by air-conditioning and refrigerating the user room to the pet room at 26-30 degrees. The air-conditioning refrigeration mode of the pet comprises a rest mode and a non-rest mode, and the pet is mainly distinguished by judging whether the pet is in the nest or not.
Step 221, if the pet is detected to be in the nest, the nest door is controlled to be closed and locked, and then step 222 is executed.
Step 222, after the pet air conditioner is turned on, step 223 is executed.
And 223, adjusting the target temperature of the pet air conditioner to a proper temperature according to the detection result, and executing 224.
And step 224, after the air deflector of the pet air conditioner is controlled to blow air upwards, executing step 225.
Specifically, the user needs to have a rest at night, the requirement of the pet on the air conditioner can be continuously met through one-time setting, the user does not need to operate at night, and the air deflector upward mode needs to be executed for ensuring the comfort of the pet in the sleep state at night.
That is, when the pet is in the rest mode and the pet is in the nest, the door can be automatically locked for saving energy of the air conditioner; and the mode of keeping away from the pet by the wind is started, and the air deflector blows upwards to adjust the temperature difference. Because the height of the pet nest is not high usually, the angle of the air deflector is selected to be smaller to avoid direct blowing, the default initial value is set to be 30 degrees, and the value can be manually input by a user according to factors such as environment and the like.
And step 225, controlling the air conditioner of the pet to be closed.
In step 225, the air conditioner may be set to operate for an additional time, which is set by the user.
And step 226, if the pet is detected not to be in the nest, initiating a reminding message that the pet is not in the nest, such as sending an alarm to inform the owner that the pet is not in the nest, and then returning to the step 22 to continuously detect whether the pet is in the nest. That is to say, when the pet is in the rest mode and the pet is not in the nest, the alarm gives an alarm to give physical feedback to the user, which is a circulation process, the process is not finished until the infrared sensor detects and confirms that the pet is in the nest, and the air deflector is started to be in the upward mode, so that the comfort of the pet is further ensured.
Step 23, if the current time is in the non-rest time, the pet detection device is started in the non-rest mode, and further determines whether to turn on the air conditioner for temperature difference adjustment or to restart the program according to whether the pet is detected currently, and steps 231 to 234 may be executed.
For example: the operation mode of the air conditioner in the non-rest mode is similar to that in the rest mode. When the pet is detected to be in the nest in the rest mode, a feedback signal is transmitted to the air conditioner to enable the air conditioner to be started and adjusted to 26 degrees.
And 231, if the pet is in the house, controlling the air conditioner of the pet to be started, and then executing the step 232.
Step 232, after the temperature in the house is adjusted to the proper temperature according to the detection result, step 233 is executed. That is, the pet needs to move freely during the daytime, and the air conditioner automatically adjusts to a proper temperature according to the difference between the indoor temperature and the set temperature corresponding to the situation that the pet is in the house.
Specifically, when the pet is in the non-rest mode and the pet is in the house, the air-conditioning refrigeration is determined according to the difference between the detection result of the indoor temperature and the set temperature. Since the body temperature of a dog is typically 37.5-38.5 degrees and the most comfortable ambient temperature is 25-26 degrees, the default temperature set for the system is 26 degrees, which may be manually entered by the user depending on other factors.
And step 233, controlling the air conditioner of the pet to be closed.
And 234, if the pet is not in the nest, the air conditioner of the pet does not need to be controlled to be started, and the step 23 is returned to continuously detect whether the pet is in the nest. That is, the pet needs to move freely during the day, and the procedure is restarted in response to the pet not being detected.
Optionally, in step 22 or step 23, the pet's presence in the nest may be detected by an infrared sensor, the temperature is higher, the wavelength of infrared rays is shorter, the body temperature of the pet is about 37.5 degrees, the wavelength is generally shorter than that of surrounding objects, the peak value of the wavelength of the emitted infrared rays is about 10 microns, and the pet's presence in the nest is determined by the wavelength.
Since the processing and functions of the air conditioning system of this embodiment are basically corresponding to the embodiments, principles and examples of the apparatus shown in fig. 6, the description of this embodiment is not given in detail, and reference may be made to the related descriptions in the embodiments, which are not described herein again.
Through a large number of tests, the technical scheme of the invention is adopted, the air conditioner is controlled in an intelligent mode of setting the initial rest time, detecting the temperature difference, feeding back the infrared sensor, automatically adjusting the direction of the air deflector and the like by applying the air conditioner to the environment adjustment of a pet room, the comfort of the living environment of the pet can be improved, and the energy-saving effect of the air conditioner of the pet can be improved.
According to an embodiment of the present invention, there is also provided a storage medium corresponding to a control method of an environmental parameter. The storage medium may include: the storage medium has stored therein a plurality of instructions; the plurality of instructions are used for loading and executing the control method of the environment parameters by the processor.
Since the processing and functions implemented by the storage medium of this embodiment substantially correspond to the embodiments, principles, and examples of the methods shown in fig. 1 to fig. 5, details are not described in the description of this embodiment, and reference may be made to the related descriptions in the foregoing embodiments, which are not described herein again.
Through a large number of tests, the technical scheme of the invention is adopted, the air conditioner is applied to the environment regulation of the pet room, and the air treated by the user room is introduced into the pet house by directly opening the pet house door, so that the comfort of the living environment of the pet can be improved under the condition that the external environment is not particularly hot.
According to an embodiment of the invention, an air conditioning system corresponding to the control method of the environmental parameter is also provided. The air conditioning system may include: a processor for executing a plurality of instructions; a memory to store a plurality of instructions; wherein the instructions are stored in the memory, and loaded by the processor and execute the control method of the environmental parameter.
Since the processing and functions of the air conditioning system of this embodiment are basically corresponding to the embodiments, principles and examples of the methods shown in fig. 1 to 5, the description of this embodiment is not detailed, and reference may be made to the related descriptions in the foregoing embodiments, which are not repeated herein.
Through a large number of tests, the technical scheme of the invention improves the comfort of the living environment of the pet to a certain extent by applying the air conditioner to the environment regulation of the pet room and by blowing upwards through the air deflector during the rest time and the like, thereby improving the comfort of the living environment of the pet.
In summary, it is readily understood by those skilled in the art that the advantageous modes described above can be freely combined and superimposed without conflict.
The above description is only an example of the present invention, and is not intended to limit the present invention, and it is obvious to those skilled in the art that various modifications and variations can be made in the present invention. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the scope of the claims of the present invention.

Claims (10)

1. A method for controlling environmental parameters, comprising:
acquiring indoor environmental parameters of a first room;
determining a control mode of the environmental parameter of the first room according to the indoor environmental parameter of the first room;
controlling the indoor environmental parameters of the first room according to the control mode of the environmental parameters of the first room, so that the indoor environmental parameters of the first room reach the target environmental parameters of the first room; controlling an indoor environmental parameter of a first room, comprising: controlling the ventilation opening of the first room under the condition that the control mode of the environmental parameters of the first room is a ventilation mode, so that the first room controls the environmental parameters of the first room through natural ventilation; under the condition that the control mode of the environmental parameters of the first room is the transmission mode, controlling the opening of a transmission channel between the first room and the second room so as to transmit the air regulated by the second air conditioner in the second room to the first room through the transmission channel between the first room and the second room, and controlling the environmental parameters of the first room through the air regulated by the second air conditioner in the second room; controlling a first air conditioner in the first room to be started to adjust the environmental parameters in the first room through the first air conditioner in the first room under the condition that the control mode of the environmental parameters in the first room is the adjusting mode; adjusting an environmental parameter in a first room by a first air conditioner in the first room, comprising: determining the current time of a time zone to which the first room belongs, and determining whether the current time is a set rest period; if the current time belongs to the set rest period, performing first control on a first air conditioner in the first room so as to adjust the environmental parameters in the first room in the rest period; performing a first control on a first air conditioner in a first room, including: determining whether a user is in the first room; if a user exists in the first room, controlling a first air conditioner in the first room to be started after the door of the first room is controlled to be closed so as to adjust the environmental parameters in the first room to target environmental parameters at least through the first air conditioner; the air supply mode of the air deflector of the first air conditioner adopts an air supply mode of avoiding a user from blowing air; if no user exists in the first room, the first air conditioner is not started, and a reminding message of no user exists in the first room is initiated;
wherein the control mode of the environmental parameter of the first room comprises: a ventilation mode, a transmission mode and/or a regulation mode; a ventilation mode which is a control mode for naturally ventilating the first room; a transfer mode which is a control mode for transferring air of the second room to the first room; the adjustment mode is a control mode for allowing the first room to adjust its indoor air by itself.
2. The method of controlling environmental parameters of claim 1, wherein the indoor environmental parameters of the first room comprise: an indoor ambient temperature, an indoor ambient humidity, an indoor ambient PM2.5, and/or an indoor ambient oxygen content of the first room.
3. The method of controlling environmental parameters according to claim 1 or 2, wherein determining the control mode of the environmental parameters of the first room comprises:
determining a relationship between an indoor environmental parameter of a first room and a set environmental parameter range;
if the indoor environmental parameter of the first room is smaller than or equal to the lower limit of the set environmental parameter range, determining that the control mode of the environmental parameter of the first room is the ventilation mode;
if the indoor environmental parameter of the first room is larger than the lower limit of the set environmental parameter range and smaller than or equal to the upper limit of the set environmental parameter range, determining that the control mode of the environmental parameter of the first room is the transmission mode;
and if the indoor environmental parameter of the first room is larger than the upper limit of the set environmental parameter range, determining that the control mode of the environmental parameter of the first room is the adjusting mode.
4. The method of claim 1, wherein the environmental parameter in the first room is adjusted by a first air conditioner in the first room, further comprising:
if the current time does not belong to the set rest period, performing second control on the first air conditioner in the first room so as to adjust the environmental parameters in the first room in the non-rest period; performing a second control on a first air conditioner in a first room, including: determining whether a user is in the first room; if a user exists in the first room, controlling the air conditioner to be started so as to adjust the environmental parameters in the first room to target environmental parameters at least through the first air conditioner; if no user is in the first room, whether the current time is the set rest period or not is continuously determined.
5. An apparatus for controlling environmental parameters, comprising:
an acquisition unit for acquiring an indoor environmental parameter of a first room;
a determination unit for determining a control mode of an environmental parameter of the first room according to an indoor environmental parameter of the first room;
a control unit for controlling the indoor environmental parameter of the first room according to the control mode of the environmental parameter of the first room so that the indoor environmental parameter of the first room reaches the target environmental parameter of the first room; the control unit controls an indoor environmental parameter of the first room, including: controlling the ventilation opening of the first room under the condition that the control mode of the environmental parameters of the first room is a ventilation mode, so that the first room controls the environmental parameters of the first room through natural ventilation; under the condition that the control mode of the environmental parameters of the first room is the transmission mode, controlling the opening of a transmission channel between the first room and the second room so as to transmit the air regulated by the second air conditioner in the second room to the first room through the transmission channel between the first room and the second room, and controlling the environmental parameters of the first room through the air regulated by the second air conditioner in the second room; controlling a first air conditioner in the first room to be started to adjust the environmental parameters in the first room through the first air conditioner in the first room under the condition that the control mode of the environmental parameters in the first room is the adjusting mode; the control unit adjusts an environmental parameter in a first room through a first air conditioner in the first room, including: determining the current time of a time zone to which the first room belongs, and determining whether the current time is a set rest period; if the current time belongs to the set rest period, performing first control on a first air conditioner in the first room so as to adjust the environmental parameters in the first room in the rest period; the control unit performs a first control of a first air conditioner in a first room, including: determining whether a user is in the first room; if a user exists in the first room, controlling a first air conditioner in the first room to be started after the door of the first room is controlled to be closed so as to adjust the environmental parameters in the first room to target environmental parameters at least through the first air conditioner; the air supply mode of the air deflector of the first air conditioner adopts an air supply mode of avoiding a user from blowing air; if no user exists in the first room, the first air conditioner is not started, and a reminding message of no user exists in the first room is initiated;
wherein the control mode of the environmental parameter of the first room comprises: a ventilation mode, a transmission mode and/or a regulation mode; a ventilation mode which is a control mode for naturally ventilating the first room; a transfer mode which is a control mode for transferring air of the second room to the first room; the adjustment mode is a control mode for allowing the first room to adjust its indoor air by itself.
6. The apparatus for controlling environmental parameters of claim 5, wherein the indoor environmental parameters of the first room comprise: an indoor ambient temperature, an indoor ambient humidity, an indoor ambient PM2.5, and/or an indoor ambient oxygen content of the first room.
7. The apparatus for controlling environmental parameters according to claim 5 or 6, wherein the control unit determines a control mode of the environmental parameter of the first room, including:
determining a relationship between an indoor environmental parameter of a first room and a set environmental parameter range;
if the indoor environmental parameter of the first room is smaller than or equal to the lower limit of the set environmental parameter range, determining that the control mode of the environmental parameter of the first room is the ventilation mode;
if the indoor environmental parameter of the first room is larger than the lower limit of the set environmental parameter range and smaller than or equal to the upper limit of the set environmental parameter range, determining that the control mode of the environmental parameter of the first room is the transmission mode;
and if the indoor environmental parameter of the first room is larger than the upper limit of the set environmental parameter range, determining that the control mode of the environmental parameter of the first room is the adjusting mode.
8. The apparatus for controlling environmental parameters according to claim 5, wherein the control unit adjusts the environmental parameters in the first room by the first air conditioner in the first room, further comprising:
if the current time does not belong to the set rest period, performing second control on the first air conditioner in the first room so as to adjust the environmental parameters in the first room in the non-rest period; the control unit performs second control on the first air conditioner in the first room, including: determining whether a user is in the first room; if a user exists in the first room, controlling the air conditioner to be started so as to adjust the environmental parameters in the first room to target environmental parameters at least through the first air conditioner; if no user is in the first room, whether the current time is the set rest period or not is continuously determined.
9. An air conditioning system, comprising: -control means of the environmental parameter according to any one of claims 5 to 8;
alternatively, it comprises:
a processor for executing a plurality of instructions;
a memory to store a plurality of instructions;
wherein the plurality of instructions are for being stored by the memory and loaded and executed by the processor to perform the method of controlling an environmental parameter of any one of claims 1 to 4.
10. A storage medium having a plurality of instructions stored therein; the plurality of instructions for being loaded by a processor and for performing the method of controlling an environmental parameter of any one of claims 1 to 4.
CN202010048222.6A 2020-01-16 2020-01-16 Control method and device of environmental parameters, storage medium and air conditioning system Active CN111237966B (en)

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