CN117128589B - Low-power consumption control method and system of intelligent humidifier system - Google Patents

Low-power consumption control method and system of intelligent humidifier system Download PDF

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Publication number
CN117128589B
CN117128589B CN202311394942.8A CN202311394942A CN117128589B CN 117128589 B CN117128589 B CN 117128589B CN 202311394942 A CN202311394942 A CN 202311394942A CN 117128589 B CN117128589 B CN 117128589B
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humidity
value
preset
electric quantity
intelligent humidifier
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CN117128589A (en
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张立雄
张立志
吴忠义
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Huato System Co ltd
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Huato System Co ltd
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    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F24HEATING; RANGES; VENTILATING
    • F24FAIR-CONDITIONING; AIR-HUMIDIFICATION; VENTILATION; USE OF AIR CURRENTS FOR SCREENING
    • F24F6/00Air-humidification, e.g. cooling by humidification
    • F24F6/02Air-humidification, e.g. cooling by humidification by evaporation of water in the 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
    • F24F11/30Control or safety arrangements for purposes related to the operation of the system, e.g. for safety or monitoring
    • F24F11/32Responding to malfunctions or emergencies
    • 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
    • F24F11/46Improving electric energy efficiency or saving
    • 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
    • F24F11/70Control 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
    • F24F11/74Control systems characterised by their outputs; Constructional details thereof for controlling the supply of treated air, e.g. its pressure for controlling air flow rate or air velocity
    • F24F11/77Control systems characterised by their outputs; Constructional details thereof for controlling the supply of treated air, e.g. its pressure for controlling air flow rate or air velocity by controlling the speed of ventilators
    • 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
    • F24F2110/20Humidity
    • 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
    • F24F2110/30Velocity
    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y02TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
    • Y02BCLIMATE CHANGE MITIGATION TECHNOLOGIES RELATED TO BUILDINGS, e.g. HOUSING, HOUSE APPLIANCES OR RELATED END-USER APPLICATIONS
    • Y02B30/00Energy efficient heating, ventilation or air conditioning [HVAC]
    • Y02B30/70Efficient control or regulation technologies, e.g. for control of refrigerant flow, motor or heating

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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)
  • Fluid Mechanics (AREA)
  • Air Conditioning Control Device (AREA)

Abstract

The invention relates to the field of low power consumption control, in particular to a low power consumption control method and system of an intelligent humidifier system, wherein humidity average values of the intelligent humidifier system are detected through humidity sensors arranged at different positions of the intelligent humidifier system; detecting a first voltage value and an open-circuit voltage of a power supply through different voltage sensors respectively; calculating a percent charge average based on the first voltage value and the open circuit voltage; if the electric quantity percentage average value is larger than a preset electric quantity threshold value, executing first low-power consumption regulation; and if the electric quantity percentage average value is not greater than the preset electric quantity threshold value, executing second low-power consumption regulation and control, so that low-power consumption control of the intelligent humidifier system is realized.

Description

Low-power consumption control method and system of intelligent humidifier system
Technical Field
The invention relates to the technical field of low power consumption control, in particular to a low power consumption control method and system of an intelligent humidifier system.
Background
An intelligent humidifier system (simply called a humidifier) is a system that can humidify the environment. Humidifiers are receiving attention and favor from more and more consumers as important home appliances for improving indoor air quality. However, the conventional humidifiers currently on the market have some problems, such as excessive energy consumption, inaccurate humidity control, and the like. In order to solve the problems, it is important to develop a method for dynamically adjusting the power consumption of the runner device of the intelligent humidifier system. Conventional humidifier systems have some problems in terms of power supply to the wheel assembly. On the one hand, since the wheel device needs to rotate continuously, continuous power supply is required, resulting in larger power consumption. On the other hand, due to the change in indoor humidity, the humidifier sometimes needs to be operated for a long time, and sometimes only needs to be operated for a short time. Therefore, the conventional fixed power supply does not meet the requirements of the humidifier system.
Meanwhile, the conventional humidifier cannot consider the efficiency condition of the humidifier system, and thus cannot determine the most appropriate power and operation time to meet the demand in consideration of the efficiency condition.
In order to solve the technical problems in the prior art, a low-power consumption control method and system of an intelligent humidifier system are needed.
Disclosure of Invention
The main objective of the present application is to provide a low power consumption control method and system for an intelligent humidifier system, so as to solve the problem of how to reduce the power of the intelligent humidifier system.
The first aspect of the present invention provides a low power consumption control method of an intelligent humidifier system, which is characterized in that the intelligent humidifier system at least comprises a power supply and a rotating wheel device, and the low power consumption control method of the intelligent humidifier system comprises:
detecting the humidity average value of the intelligent humidifier system through humidity sensors arranged at different positions of the intelligent humidifier system;
detecting a first voltage value and an open-circuit voltage of a power supply through different voltage sensors respectively;
calculating a percent charge average based on the first voltage value and the open circuit voltage;
if the electric quantity percentage average value is larger than a preset electric quantity threshold value, executing first low-power consumption regulation;
If the electric quantity percentage average value is not larger than a preset electric quantity threshold value, executing second low-power consumption regulation;
the first low power regulation includes: controlling a runner device to operate at a preset first power for a first time period, acquiring a current environment humidity value of the surrounding environment of the intelligent humidifier system after the runner device operates for the first time period, and determining a first operation time based on a humidity average value and the current environment humidity value; controlling the intelligent humidifier system to operate the first operation time with the first power, and outputting the first power and the first operation time through a preset output end;
the second low power regulation includes: acquiring the rotating speed of the rotating wheel device and the wind speed around the rotating wheel device, and calculating the wind speed conversion ratio based on the wind speed and the rotating speed; and determining a reference humidification time according to the humidity average value, calculating a second running time based on the wind speed conversion ratio and the reference humidification time, controlling the intelligent humidifier system to run at a preset second power, continuing the second running time, and outputting the second power and the second running time through a preset output end.
A second aspect of the present invention provides a low power consumption control system for an intelligent humidifier system, comprising:
the humidity detection module is used for detecting the humidity average value of the intelligent humidifier system through humidity sensors arranged at different positions of the intelligent humidifier system;
the voltage detection module is used for respectively detecting a first voltage value and an open-circuit voltage of the power supply through different voltage sensors;
a calculation module for calculating a percent charge average based on the first voltage value and the open circuit voltage;
the first execution module is used for executing first low-power consumption regulation and control when the electric quantity percentage average value is larger than a preset electric quantity threshold value; the first low power regulation includes: controlling a runner device to operate at a preset first power for a first time period, acquiring a current environment humidity value of the surrounding environment of the intelligent humidifier system after the runner device operates for the first time period, and determining a first operation time based on a humidity average value and the current environment humidity value; controlling the intelligent humidifier system to operate the first operation time with the first power, and outputting the first power and the first operation time through a preset output end;
The second execution module is used for executing second low-power consumption regulation and control when the electric quantity percentage average value is not larger than a preset electric quantity threshold value; the second low power regulation includes: acquiring the rotating speed of the rotating wheel device and the wind speed around the rotating wheel device, and calculating the wind speed conversion ratio based on the wind speed and the rotating speed; and determining a reference humidification time according to the humidity average value, calculating a second running time based on the wind speed conversion ratio and the reference humidification time, controlling the intelligent humidifier system to run at a preset second power, continuing the second running time, and outputting the second power and the second running time through a preset output end.
According to the technical scheme, the humidity average value of the intelligent humidifier system is detected through humidity sensors arranged at different positions of the intelligent humidifier system; detecting a first voltage value and an open-circuit voltage of a power supply through different voltage sensors respectively; calculating a percent charge average based on the first voltage value and the open circuit voltage; if the electric quantity percentage average value is larger than a preset electric quantity threshold value, executing first low-power consumption regulation; if the electric quantity percentage average value is not greater than the preset electric quantity threshold value, executing the second low-power consumption regulation, and above, the invention carries out different treatments on different data (for example, calculating the electric quantity percentage average value based on a first voltage value and an open-circuit voltage and judging whether the electric quantity percentage average value is greater than the preset electric quantity threshold value) by acquiring data (for example, rotating speed and wind speed) which can reflect the working state of the intelligent humidifier system, adopts different powers to control the intelligent humidifier system to operate for different times under different states, can reduce power consumption under the condition of not influencing the normal use of the intelligent humidifier system, for example, determines the first operation time based on the humidity proportion state, the humidity change value in the first time period and the preset normal humidity range, which is the minimum time for enabling the intelligent humidifier system to operate and humidify to the preset normal humidity range, and achieves the effect of low-power consumption control through the control of the power and the operation time; for another example, the second operation time is calculated based on the wind speed conversion ratio and the reference humidification time, the intelligent humidifier system is controlled to operate at the preset second power, the second power and the second operation time are output through the preset output end after the second operation time is continued, the most proper power and the operation time which meet the requirements are determined on the premise of considering the efficiency condition by considering the reference humidification time and the wind speed conversion ratio (reflecting the efficiency condition of the intelligent humidifier system), so that the energy waste is avoided, and the problem of how to reduce the power of the intelligent humidifier system is solved.
Drawings
Fig. 1 is a schematic diagram of an embodiment of a method for controlling low power consumption of an intelligent humidifier system according to an embodiment of the present invention;
fig. 2 is a schematic diagram of another embodiment of a method for controlling low power consumption of the intelligent humidifier system according to an embodiment of the present invention;
FIG. 3 is a schematic diagram of one embodiment of a low power control system for a smart humidifier system according to an embodiment of the present invention;
FIG. 4 is a schematic diagram of another embodiment of a low power control system for a smart humidifier system according to an embodiment of the present invention;
FIG. 5 is a schematic view of a scene in an embodiment of the invention;
fig. 6 is a schematic diagram of another scenario in an embodiment of the present invention.
Detailed Description
The following description of the technical solutions according to the embodiments of the present invention will be given with reference to the accompanying drawings in the embodiments of the present invention, and it is apparent that the described embodiments are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.
In order to solve the problem of how to reduce the power of an intelligent humidifier system in the prior art, the application provides a low-power consumption control method and system of the intelligent humidifier system, wherein humidity average values of the intelligent humidifier system are detected through humidity sensors arranged at different positions of the intelligent humidifier system; detecting a first voltage value and an open-circuit voltage of a power supply through different voltage sensors respectively; calculating a percent charge average based on the first voltage value and the open circuit voltage; if the electric quantity percentage average value is larger than a preset electric quantity threshold value, executing first low-power consumption regulation; if the electric quantity percentage average value is not greater than the preset electric quantity threshold value, executing the second low-power consumption regulation, and above, the invention carries out different treatments on different data (for example, calculating the electric quantity percentage average value based on a first voltage value and an open-circuit voltage and judging whether the electric quantity percentage average value is greater than the preset electric quantity threshold value) by acquiring data (for example, rotating speed and wind speed) which can reflect the working state of the intelligent humidifier system, adopts different powers to control the intelligent humidifier system to operate for different times under different states, can reduce power consumption under the condition of not influencing the normal use of the intelligent humidifier system, for example, determines the first operation time based on the humidity proportion state, the humidity change value in the first time period and the preset normal humidity range, which is the minimum time for enabling the intelligent humidifier system to operate and humidify to the preset normal humidity range, and achieves the effect of low-power consumption control through the control of the power and the operation time; for another example, the second operation time is calculated based on the wind speed conversion ratio and the reference humidification time, the intelligent humidifier system is controlled to operate at the preset second power, the second power and the second operation time are output through the preset output end after the second operation time is continued, the most proper power and the operation time which meet the requirements are determined on the premise of considering the efficiency condition by considering the reference humidification time and the wind speed conversion ratio (reflecting the efficiency condition of the intelligent humidifier system), so that the energy waste is avoided, and the problem of how to reduce the power of the intelligent humidifier system is solved.
The terms "first," "second," "third," "fourth" and the like in the description and in the claims and in the above drawings, if any, are used for distinguishing between similar objects and not necessarily for describing a particular sequential or chronological order. It is to be understood that the data so used may be interchanged where appropriate such that the embodiments described herein may be implemented in other sequences than those illustrated or otherwise described herein. Furthermore, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, system, article, or apparatus that comprises a list of steps or elements is not necessarily limited to those steps or elements expressly listed or inherent to such process, method, article, or apparatus.
For ease of understanding, a specific flow of an embodiment of the present invention is described below, referring to fig. 1, in an embodiment of a method for controlling low power consumption of an intelligent humidifier system according to the present invention, the method includes the following implementation steps:
step 101, detecting humidity average values of an intelligent humidifier system through humidity sensors arranged at different positions of the intelligent humidifier system;
Humidity average value through setting up the humidity transducer in intelligent humidifier system different positions, detect intelligent humidifier system includes:
acquiring a first humidity value detected by a first humidity sensor arranged on the intelligent humidifier system;
acquiring a second humidity value detected by a second humidity sensor arranged in a preset range around the intelligent humidifier system;
and determining an average value of the first humidity value and the second humidity value as a humidity average value.
The method for determining the first running time based on the humidity average value and the current environment humidity value comprises the steps of:
acquiring a humidity value detected by a second humidity sensor for the ambient environment of the intelligent humidifier system after the rotating wheel device operates for a first period of time, and determining the humidity value as a second current ambient humidity value;
determining a ratio between a humidity average value and a preset normal humidity value as a humidity proportion state, and determining a difference value between the second current humidity value and the second humidity value as a humidity change value in a first time period;
the first operating time is determined based on the humidity ratio status, the humidity change value over the first time period, and a preset normal humidity range.
After the second humidity value detected by the second humidity sensor arranged in the preset range around the intelligent humidifier system is obtained, the method further comprises:
calculating a humidity difference value, wherein the humidity difference value is a difference value between the second humidity value and the first humidity value;
judging whether the humidity difference value is larger than a preset difference value threshold value or not;
if the humidity difference value is larger than a preset difference value threshold, determining a ponding alarm based on the humidity difference value, and outputting the ponding alarm and the humidity difference value through a preset output end;
and if the humidity difference value is not greater than a preset difference value threshold, outputting the humidity difference value through a preset output end.
102, respectively detecting a first voltage value and an open-circuit voltage of a power supply through different voltage sensors;
the detecting, by different voltage sensors, a first voltage value and an open circuit voltage of a power supply, respectively, includes:
acquiring a first voltage value detected by a first voltage sensor aiming at a power supply;
controlling a preset open-circuit device to operate so that the intelligent humidifier system is in an open-circuit state;
and when the intelligent humidifier system is in an open circuit state, acquiring the open circuit voltage detected by the second voltage sensor aiming at the power supply.
Step 103, calculating a percent electric quantity average value based on the first voltage value and the open circuit voltage;
the calculating a percent charge average based on the first voltage value and the open circuit voltage includes:
determining a first power supply electric quantity based on the first voltage value, the corresponding relation among the first voltage value and the power supply electric quantity;
determining a second power supply capacity based on the correspondence between the open circuit voltage, and the power supply capacity;
calculating an average value between the first power supply electric quantity and the second power supply electric quantity to obtain an average power supply electric quantity;
dividing the electric quantity average power supply electric quantity by a preset rated electric quantity to obtain an electric quantity percentage average value.
After said calculating a percent charge average based on said first voltage value and said open circuit voltage, further comprising:
judging whether the electric quantity percentage average value is smaller than a preset second electric quantity threshold value or not, wherein the second electric quantity threshold value is smaller than the electric quantity threshold value;
if the electric quantity percentage average value is smaller than a preset second electric quantity threshold value, outputting an electric quantity deficiency alarm and the electric quantity percentage average value through a preset output end;
and if the electric quantity percentage average value is not smaller than a preset second electric quantity threshold value, outputting the electric quantity percentage average value through a preset output end.
104, if the electric quantity percentage average value is larger than a preset electric quantity threshold value, executing first low-power consumption regulation;
the first low power regulation includes: controlling a runner device to operate at a preset first power for a first time period, acquiring a current environment humidity value of the surrounding environment of the intelligent humidifier system after the runner device operates for the first time period, and determining a first operation time based on a humidity average value and the current environment humidity value; controlling the intelligent humidifier system to operate the first operation time with the first power, and outputting the first power and the first operation time through a preset output end;
step 105, if the electric quantity percentage average value is not greater than a preset electric quantity threshold value, executing a second low-power consumption regulation;
the second low power regulation includes: acquiring the rotating speed of the rotating wheel device and the wind speed around the rotating wheel device, and calculating the wind speed conversion ratio based on the wind speed and the rotating speed; and determining a reference humidification time according to the humidity average value, calculating a second running time based on the wind speed conversion ratio and the reference humidification time, controlling the intelligent humidifier system to run at a preset second power, continuing the second running time, and outputting the second power and the second running time through a preset output end.
The method for determining the reference humidification time according to the humidity average value, calculating the second running time based on the wind speed conversion ratio and the reference humidification time, comprises the following steps:
determining the ratio between the humidity average value and a preset normal humidity value as a humidity proportion state;
dividing the rotating speed by a preset maximum rotating speed to obtain a rotating speed proportion;
determining the time corresponding relation based on the rotating speed proportion;
determining a reference humidification time based on a humidity proportion state and a preset time corresponding relation, wherein the time corresponding relation is a corresponding relation between the humidity proportion state and the reference humidification time;
and multiplying the wind speed conversion ratio by the reference humidification time to obtain a second running time.
After said calculating a wind speed conversion ratio based on said wind speed and said rotational speed, further comprising:
judging whether the wind speed conversion ratio is smaller than a preset ratio threshold value or not;
if the wind speed conversion ratio is smaller than the preset value, determining a wind speed abnormality alarm based on the wind speed conversion ratio, and outputting the wind speed abnormality alarm and the wind speed conversion ratio through a preset output end;
and if not, outputting the wind speed conversion ratio through a preset output end.
Through implementation of the method, humidity average values of the intelligent humidifier system are detected through humidity sensors arranged at different positions of the intelligent humidifier system; detecting a first voltage value and an open-circuit voltage of a power supply through different voltage sensors respectively; calculating a percent charge average based on the first voltage value and the open circuit voltage; if the electric quantity percentage average value is larger than a preset electric quantity threshold value, executing first low-power consumption regulation; if the electric quantity percentage average value is not greater than the preset electric quantity threshold value, executing the second low-power consumption regulation, and above, the invention carries out different treatments on different data (for example, calculating the electric quantity percentage average value based on a first voltage value and an open-circuit voltage and judging whether the electric quantity percentage average value is greater than the preset electric quantity threshold value) by acquiring data (for example, rotating speed and wind speed) which can reflect the working state of the intelligent humidifier system, adopts different powers to control the intelligent humidifier system to operate for different times under different states, can reduce power consumption under the condition of not influencing the normal use of the intelligent humidifier system, for example, determines the first operation time based on the humidity proportion state, the humidity change value in the first time period and the preset normal humidity range, which is the minimum time for enabling the intelligent humidifier system to operate and humidify to the preset normal humidity range, and achieves the effect of low-power consumption control through the control of the power and the operation time; for another example, the second operation time is calculated based on the wind speed conversion ratio and the reference humidification time, the intelligent humidifier system is controlled to operate at the preset second power, the second power and the second operation time are output through the preset output end after the second operation time is continued, the most proper power and the operation time which meet the requirements are determined on the premise of considering the efficiency condition by considering the reference humidification time and the wind speed conversion ratio (reflecting the efficiency condition of the intelligent humidifier system), so that the energy waste is avoided, and the problem of how to reduce the power of the intelligent humidifier system is solved.
For ease of understanding, referring to fig. 2, in another embodiment of the method for controlling low power consumption of the intelligent humidifier system according to the present invention, the method is implemented as follows:
step 201, acquiring a first humidity value detected by a first humidity sensor aiming at the surrounding environment of the intelligent humidifier system, wherein the first humidity sensor is arranged on the intelligent humidifier system;
in this step, the intelligent humidifier system includes at least a power supply and a wheel arrangement; the rotating wheel device can be composed of a motor and fan blades, wherein the motor is connected with a power supply, and when the motor operates, the fan blades are driven to rotate to generate wind; in practical application, the intelligent humidifier system can further comprise a water tank or a humidifying device and is arranged at the position where wind driven by rotation of the fan blades passes through, so that water evaporation in the water tank or the humidifying device is promoted by the wind, and the humidifying effect is achieved.
Step 202, acquiring a second humidity value detected by a second humidity sensor aiming at the surrounding environment of the intelligent humidifier system, and calculating a humidity average value based on the first humidity value and the second humidity value, wherein the second humidity sensor is arranged in a preset range around the intelligent humidifier system, and the humidity average value is an average value of the first humidity value and the second humidity value;
In this embodiment, as shown in fig. 5, taking a surrounding area as an example, the first humidity sensor is disposed on the intelligent humidifier system, and the second humidity sensor is disposed in the surrounding area.
In practical application, second humidity transducer still includes the humidity transducer who sets up on the intelligent fan, and the humidity transducer who sets up on the intelligent air conditioner can connect the humidity transducer equipment that the region exists in the family and control it and carry out humidity detection through the thing networking, can take the average value as the second humidity value to the humidity value that a plurality of humidity transducer detected.
In an actual application, after the second humidity value detected by the second humidity sensor for the ambient environment of the intelligent humidifier system is obtained, the method further includes:
calculating a humidity difference value, wherein the humidity difference value is a difference value between the second humidity value and the first humidity value;
judging whether the humidity difference value is larger than a preset difference value threshold value or not; for example, the variance threshold may be set to 10% rh;
if the humidity difference value is larger than a preset difference value threshold, determining a ponding alarm based on the humidity difference value, and outputting the ponding alarm and the humidity difference value through a preset output end;
And if the humidity difference value is not greater than a preset difference value threshold, outputting the humidity difference value through a preset output end.
Specifically, the determining the ponding alarm based on the humidity difference value comprises connecting the humidity difference value with a ponding alarm character string through a connector to obtain the ponding alarm;
the output may be provided as at least one of a speaker, a display screen, a data transmission device, or a combination thereof.
Step 203, acquiring a first voltage value detected by a first voltage sensor aiming at a power supply;
in practical application, the voltage sensor can detect the voltage value at two ends of the current power supply through the corresponding detection pins, and if the voltage value of the power supply is not within the preset voltage range in the intelligent humidifier, the power supply is judged to have a problem, and the intelligent humidifier system controls the intelligent humidifier alarm device to alarm.
Step 204, obtaining an open circuit voltage detected by a second voltage sensor aiming at a power supply;
the acquiring the open circuit voltage detected by the second voltage sensor for the power supply includes:
controlling a preset open-circuit device to operate so that the intelligent humidifier system is in an open-circuit state;
And when the intelligent humidifier system is in an open circuit state, acquiring the open circuit voltage detected by the second voltage sensor aiming at the power supply.
In practice, the open circuit means may be provided as a transistor (a transistor is a semiconductor device that generates an open circuit voltage during operation).
Step 205, calculating an electric quantity percentage average value based on a first voltage value and an open-circuit voltage according to a preset voltage electric quantity relation, wherein the voltage electric quantity relation at least comprises a corresponding relation between the first voltage value and the power supply electric quantity and a corresponding relation between the open-circuit voltage and the power supply electric quantity;
the calculating the electric quantity percentage average value based on the first voltage value and the open-circuit voltage according to the preset voltage-electric quantity relation comprises the following steps:
determining a first power supply electric quantity based on the first voltage value, a corresponding relation among the first voltage value and the power supply electric quantity;
determining a second power supply capacity based on the open circuit voltage, a correspondence between the open circuit voltage and the power supply capacity;
calculating an average value between the first power supply electric quantity and the second power supply electric quantity to obtain an average power supply electric quantity;
dividing the electric quantity average power supply electric quantity by a preset rated electric quantity to obtain an electric quantity percentage average value.
The first power supply electric quantity is recorded as a first electric quantity percentage, the second power supply electric quantity is recorded as a second electric quantity percentage, and in practical application, the steps further comprise the following steps:
and matching the first electric quantity percentage with the second electric quantity percentage, and if the first electric quantity percentage is greater than 107% of the second electric quantity percentage or less than 93% of the second electric quantity percentage. And if the voltage sensor detects abnormality, switching the standby voltage sensor to perform detection in steps S101-102, and if the standby detection is also abnormal, controlling the intelligent humidifier alarm device to alarm and remind by the intelligent humidifier system, and sending the abnormality detection to a mobile terminal of a user to remind, wherein the reminding can be vibration, message or voice, or any combination of the vibration, message or voice. If the first electric quantity percentage is less than or equal to 107% of the second electric quantity percentage, and is more than or equal to 93% of the second electric quantity percentage. And determining that the voltage sensor detects normal. The first electric quantity percentage and the second electric quantity percentage are calculated as an average value, and the result is determined as a third electric quantity percentage (electric quantity percentage average value).
In an actual application, after calculating the electric quantity percentage average value based on the first voltage value and the open circuit voltage, the method further includes:
Judging whether the electric quantity percentage average value is smaller than a preset second electric quantity threshold value or not, wherein the second electric quantity threshold value is smaller than the electric quantity threshold value; for example, the second charge threshold may be set to 35% or 15%;
if the electric quantity percentage average value is smaller than a preset second electric quantity threshold value, outputting an electric quantity deficiency alarm and the electric quantity percentage average value through a preset output end;
and if the electric quantity percentage average value is not smaller than a preset second electric quantity threshold value, outputting the electric quantity percentage average value through a preset output end.
Specifically, the electric quantity shortage alarm comprises the steps of connecting the electric quantity percentage average value with an electric quantity shortage alarm character string through a connector to obtain an electric quantity shortage alarm;
in particular, the output may be provided as at least one of a speaker, a display screen, a data transmission device, or a combination thereof.
Step 206, judging whether the electric quantity percentage average value is larger than a preset electric quantity threshold value;
the charge threshold may be set to 76% or 50%;
step 207, if the average value of the electric quantity percentages is greater than a preset electric quantity threshold value, controlling the rotating wheel device to operate at a preset first power and for a preset first time period;
The first power is the power of the rotating wheel device when the rotating wheel device operates at a preset maximum rotating speed.
In practical applications, the first power may be set to a rated power of the rotating wheel device, and may also be set to a power that enables the rotating wheel device to reach a maximum rotation speed;
the first period of time may be set to 1 minute, and may also be set to 5 minutes.
Step 208, acquiring a second current humidity value detected by a second humidity sensor aiming at the surrounding environment of the intelligent humidifier system after the rotating wheel device operates for a first period of time;
step 209, determining a first operation time based on the humidity ratio state, the humidity change value in the first period of time, and the preset normal humidity range, wherein the humidity ratio state is a ratio between a humidity average value and the preset normal humidity value, the humidity change value in the first period of time is a difference value between the second current humidity value and the second humidity value, and the first operation time is a time required for humidifying the ambient environment to the normal humidity range through the intelligent humidifier system based on the humidity ratio state and the humidity change value in the first period of time;
in this embodiment, the humidity ratio state is a ratio between a humidity average value and a preset normal humidity value, the humidity change value in the first period is a difference value between the second current humidity value and the second humidity value, and the first running time is a time determined based on the humidity ratio state and the humidity change value in the first period and required by the intelligent humidifier system to humidify the humidity of the ambient environment to the normal humidity range;
The determining of the first operation time based on the humidity proportion state, the humidity change value in the first time period and the preset normal humidity range can be realized based on a preset corresponding relation, and in practical application, the corresponding relation can be set as a corresponding table of three data of the humidity proportion state, the humidity change value in the first time period and the preset normal humidity range and the first operation time; for example, if the three data of the humidity ratio status, the humidity variation value in the first period of time, and the preset normal humidity range are respectively 0.5, 10% rh, and 50% rh-60% rh, the first operation time is obtained to be 10 minutes based on the correspondence table.
Step 210, controlling the intelligent humidifier system to operate at a first power, and continuing the first operation time, and outputting the first power and the first operation time through a preset output end;
the output end can be set as at least one of a loudspeaker, a display screen and a data transmission device or a combination thereof; for example, the speaker and the display may be disposed on an intelligent humidifier system, and the first power and the first operation time may be output through the speaker and the display, and the data transmission device may be disposed as a wireless communication device, and the first power and the first operation time may be transmitted to the mobile terminal of the user through the wireless communication device to remind;
In practical application, the alarm device can also be used for alarming and reminding, and the abnormal detection is sent to the mobile terminal of the user for reminding, wherein the reminding can be vibration, message or voice, or any combination of the vibration, message or voice.
Step 211, if the electric quantity percentage average value is not greater than a preset electric quantity threshold value, acquiring the rotating speed detected by the rotating speed sensor aiming at the rotating wheel device;
in this embodiment, the rotation speed sensor may be configured as a rotation speed sensor using a magneto-resistor as the sensing element;
the rotation speed sensor uses a magneto resistor as an induction element, and is a novel rotation speed sensor. The core component adopts a magneto resistor as a detection element, and then the noise is reduced by a brand new signal processing circuit, so that the function is more perfect. The sensing object is magnetic material or magnetic conductive material, such as magnetic steel, iron, electrical steel, etc. When the measured object is rotated, the sensor outputs pulse signal related to rotation frequency to reach the aim of speed measurement or displacement detection.
212, acquiring wind speed detected by a wind speed sensor aiming at the periphery of the rotating wheel device, and calculating a wind speed conversion ratio based on the wind speed and the rotating speed, wherein the wind speed conversion ratio is a ratio of the wind speed to the rotating speed;
in this embodiment, the wind speed sensor may be configured as an ultrasonic wind speed sensor;
ultrasonic wind speed sensor principle: the air flows through the measuring area of the sensor probe, 2 pairs of ultrasonic probes (generally in cross arrangement) are arranged in the measuring area, and the speed of the air outlet can be calculated by calculating the transmission time difference of the ultrasonic waves between two points, so that the influence of humidity on the sound velocity can be avoided.
As shown in fig. 6, the rotation speed sensor may be disposed on the rotor apparatus, and the wind speed sensor may be disposed at a peripheral region of the rotor apparatus, in which an arrow represents a wind direction.
After said calculating a wind speed conversion ratio based on said wind speed and said rotational speed, further comprising:
judging whether the wind speed conversion ratio is smaller than a preset ratio threshold value or not;
if the wind speed conversion ratio is smaller than the preset value, determining a wind speed abnormality alarm based on the wind speed conversion ratio, and outputting the wind speed abnormality alarm and the wind speed conversion ratio through a preset output end;
And if not, outputting the wind speed conversion ratio through a preset output end.
Specifically, the step of determining the wind speed abnormality alarm based on the wind speed conversion ratio comprises the steps of connecting the wind speed conversion ratio with a wind speed abnormality alarm character string through a connector to obtain a wind speed abnormality alarm;
in particular, the output may be provided as at least one of a speaker, a display screen, a data transmission device, or a combination thereof.
Step 213, determining a reference humidification time based on a humidity proportion state and a preset time corresponding relation, wherein the humidity proportion state is a ratio between a humidity average value and a preset normal humidity value, and the time corresponding relation is a corresponding relation between the humidity proportion state and the reference humidification time;
in an actual application, before the reference humidification time is determined based on the humidity ratio state and the preset time correspondence, the method further includes:
dividing the rotating speed by a preset maximum rotating speed to obtain a rotating speed proportion;
determining the time corresponding relation based on the rotating speed proportion; for example, a preset storage place is provided with a rotation speed proportion and a plurality of time corresponding relations, the rotation speed proportion and the plurality of time corresponding relations are stored in a second corresponding table, and the corresponding time corresponding relations are searched in the second corresponding table based on the rotation speed proportion.
Step 214, calculating a second operation time based on the wind speed conversion ratio and the reference humidification time, controlling the intelligent humidifier system to operate at a preset second power, and continuing the second operation time, and outputting the second power and the second operation time through a preset output end.
The calculating a second operation time based on the wind speed conversion ratio and the reference humidification time includes:
and multiplying the wind speed conversion ratio by the reference humidification time to obtain a second running time.
Through implementation of the method, humidity average values of the intelligent humidifier system are detected through humidity sensors arranged at different positions of the intelligent humidifier system; detecting a first voltage value and an open-circuit voltage of a power supply through different voltage sensors respectively; calculating a percent charge average based on the first voltage value and the open circuit voltage; if the electric quantity percentage average value is larger than a preset electric quantity threshold value, executing first low-power consumption regulation; if the electric quantity percentage average value is not greater than the preset electric quantity threshold value, executing the second low-power consumption regulation, and above, the invention carries out different treatments on different data (for example, calculating the electric quantity percentage average value based on a first voltage value and an open-circuit voltage and judging whether the electric quantity percentage average value is greater than the preset electric quantity threshold value) by acquiring data (for example, rotating speed and wind speed) which can reflect the working state of the intelligent humidifier system, adopts different powers to control the intelligent humidifier system to operate for different times under different states, can reduce power consumption under the condition of not influencing the normal use of the intelligent humidifier system, for example, determines the first operation time based on the humidity proportion state, the humidity change value in the first time period and the preset normal humidity range, which is the minimum time for enabling the intelligent humidifier system to operate and humidify to the preset normal humidity range, and achieves the effect of low-power consumption control through the control of the power and the operation time; for another example, the second operation time is calculated based on the wind speed conversion ratio and the reference humidification time, the intelligent humidifier system is controlled to operate at the preset second power, the second power and the second operation time are output through the preset output end after the second operation time is continued, the most proper power and the operation time which meet the requirements are determined on the premise of considering the efficiency condition by considering the reference humidification time and the wind speed conversion ratio (reflecting the efficiency condition of the intelligent humidifier system), so that the energy waste is avoided, and the problem of how to reduce the power of the intelligent humidifier system is solved.
Referring to fig. 3, in one embodiment of the low power consumption control system of the intelligent humidifier system according to the present invention, the low power consumption control system of the intelligent humidifier system includes:
the humidity detection module 301 is configured to detect a humidity average value of the intelligent humidifier system through humidity sensors disposed at different positions of the intelligent humidifier system;
the voltage detection module 302 is configured to detect a first voltage value and an open circuit voltage of the power supply through different voltage sensors, respectively;
a calculating module 303, configured to calculate a percentage average value of the electric quantity based on the first voltage value and the open circuit voltage;
the first execution module 304 is configured to execute a first low-power consumption regulation when the electric quantity percentage average value is greater than a preset electric quantity threshold value; the first low power regulation includes: controlling a runner device to operate at a preset first power for a first time period, acquiring a current environment humidity value of the surrounding environment of the intelligent humidifier system after the runner device operates for the first time period, and determining a first operation time based on a humidity average value and the current environment humidity value; controlling the intelligent humidifier system to operate the first operation time with the first power, and outputting the first power and the first operation time through a preset output end;
The second execution module 305 is configured to execute a second low-power consumption regulation when the electric quantity percentage average value is not greater than a preset electric quantity threshold value; the second low power regulation includes: acquiring the rotating speed of the rotating wheel device and the wind speed around the rotating wheel device, and calculating the wind speed conversion ratio based on the wind speed and the rotating speed; and determining a reference humidification time according to the humidity average value, calculating a second running time based on the wind speed conversion ratio and the reference humidification time, controlling the intelligent humidifier system to run at a preset second power, continuing the second running time, and outputting the second power and the second running time through a preset output end.
Through implementation of the low-power consumption control system of the intelligent humidifier system, humidity average values of the intelligent humidifier system are detected through humidity sensors arranged at different positions of the intelligent humidifier system; detecting a first voltage value and an open-circuit voltage of a power supply through different voltage sensors respectively; calculating a percent charge average based on the first voltage value and the open circuit voltage; if the electric quantity percentage average value is larger than a preset electric quantity threshold value, executing first low-power consumption regulation; if the electric quantity percentage average value is not greater than the preset electric quantity threshold value, executing the second low-power consumption regulation, and above, the invention carries out different treatments on different data (for example, calculating the electric quantity percentage average value based on a first voltage value and an open-circuit voltage and judging whether the electric quantity percentage average value is greater than the preset electric quantity threshold value) by acquiring data (for example, rotating speed and wind speed) which can reflect the working state of the intelligent humidifier system, adopts different powers to control the intelligent humidifier system to operate for different times under different states, can reduce power consumption under the condition of not influencing the normal use of the intelligent humidifier system, for example, determines the first operation time based on the humidity proportion state, the humidity change value in the first time period and the preset normal humidity range, which is the minimum time for enabling the intelligent humidifier system to operate and humidify to the preset normal humidity range, and achieves the effect of low-power consumption control through the control of the power and the operation time; for another example, the second operation time is calculated based on the wind speed conversion ratio and the reference humidification time, the intelligent humidifier system is controlled to operate at the preset second power, the second power and the second operation time are output through the preset output end after the second operation time is continued, the most proper power and the operation time which meet the requirements are determined on the premise of considering the efficiency condition by considering the reference humidification time and the wind speed conversion ratio (reflecting the efficiency condition of the intelligent humidifier system), so that the energy waste is avoided, and the problem of how to reduce the power of the intelligent humidifier system is solved.
Referring to fig. 4, in another embodiment of a low power consumption control system of an intelligent humidifier system according to an embodiment of the present invention, the low power consumption control system of the intelligent humidifier system includes:
a first obtaining module 401, configured to obtain a first humidity value detected by a first humidity sensor for an ambient environment of the intelligent humidifier system, where the first humidity sensor is disposed on the intelligent humidifier system;
a second obtaining module 402, configured to obtain a second humidity value detected by a second humidity sensor for an ambient environment of the intelligent humidifier system, and calculate a humidity average value based on the first humidity value and the second humidity value, where the second humidity sensor is set in a preset range around the intelligent humidifier system, and the humidity average value is an average value of the first humidity value and the second humidity value;
a third obtaining module 403, configured to obtain a first voltage value detected by the first voltage sensor for the power supply;
a fourth obtaining module 404, configured to obtain an open circuit voltage detected by the second voltage sensor for the power supply;
the first calculating module 405 is configured to calculate an average value of the electric quantity percentages based on the first voltage value and the open-circuit voltage according to a preset voltage-electric quantity relation, where the voltage-electric quantity relation at least includes a corresponding relation between the first voltage value and the power supply electric quantity, and a corresponding relation between the open-circuit voltage and the power supply electric quantity;
A judging module 406, configured to judge whether the electric quantity percentage average value is greater than a preset electric quantity threshold value;
a first control module 407, configured to control the wheel device to operate at a preset first power and for a preset first period of time when the electric quantity percentage average value is greater than a preset electric quantity threshold value;
a fifth obtaining module 408, configured to obtain, after the first period of time for which the wheel apparatus is operated, a second current humidity value detected by a second humidity sensor for an ambient environment of the intelligent humidifier system;
a first determining module 409, configured to determine a first operation time based on a humidity ratio state, a humidity change value in a first period of time, and a preset normal humidity range, where the humidity ratio state is a ratio between the humidity average value and the preset normal humidity value, the humidity change value in the first period of time is a difference value between the second current humidity value and the second humidity value, and the first operation time is a time determined based on the humidity ratio state and the humidity change value in the first period of time and required for humidifying, by the intelligent humidifier system, ambient humidity to be within the normal humidity range;
A second control module 410, configured to control the intelligent humidifier system to operate at the first power, and to continue the first operation time, and output the first power and the first operation time through a preset output terminal;
a sixth obtaining module 411, configured to obtain, when the percentage average value of electric quantity is not greater than a preset electric quantity threshold value, a rotation speed detected by a rotation speed sensor for the rotating wheel device;
a second calculation module 412, configured to obtain a wind speed detected by a wind speed sensor for a periphery of the rotating wheel device, and calculate a wind speed conversion ratio based on the wind speed and the rotating speed, where the wind speed conversion ratio is a ratio of the wind speed to the rotating speed;
a second determining module 413, configured to determine a reference humidification time based on a humidity proportion state and a preset time correspondence, where the humidity proportion state is a ratio between the humidity average value and a preset normal humidity value, and the time correspondence is a correspondence between the humidity proportion state and the reference humidification time;
and a third calculation module 414, configured to calculate a second operation time based on the wind speed conversion ratio and the reference humidification time, control the intelligent humidifier system to operate with a preset second power, and continue the second operation time, and output the second power and the second operation time through a preset output terminal.
Through implementation of the low-power consumption control system of the intelligent humidifier system, humidity average values of the intelligent humidifier system are detected through humidity sensors arranged at different positions of the intelligent humidifier system; detecting a first voltage value and an open-circuit voltage of a power supply through different voltage sensors respectively; calculating a percent charge average based on the first voltage value and the open circuit voltage; if the electric quantity percentage average value is larger than a preset electric quantity threshold value, executing first low-power consumption regulation; if the electric quantity percentage average value is not greater than the preset electric quantity threshold value, executing the second low-power consumption regulation, and above, the invention carries out different treatments on different data (for example, calculating the electric quantity percentage average value based on a first voltage value and an open-circuit voltage and judging whether the electric quantity percentage average value is greater than the preset electric quantity threshold value) by acquiring data (for example, rotating speed and wind speed) which can reflect the working state of the intelligent humidifier system, adopts different powers to control the intelligent humidifier system to operate for different times under different states, can reduce power consumption under the condition of not influencing the normal use of the intelligent humidifier system, for example, determines the first operation time based on the humidity proportion state, the humidity change value in the first time period and the preset normal humidity range, which is the minimum time for enabling the intelligent humidifier system to operate and humidify to the preset normal humidity range, and achieves the effect of low-power consumption control through the control of the power and the operation time; for another example, the second operation time is calculated based on the wind speed conversion ratio and the reference humidification time, the intelligent humidifier system is controlled to operate at the preset second power, the second power and the second operation time are output through the preset output end after the second operation time is continued, the most proper power and the operation time which meet the requirements are determined on the premise of considering the efficiency condition by considering the reference humidification time and the wind speed conversion ratio (reflecting the efficiency condition of the intelligent humidifier system), so that the energy waste is avoided, and the problem of how to reduce the power of the intelligent humidifier system is solved.
It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential characteristics thereof. The present embodiments are, therefore, to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein.

Claims (10)

1. The low power consumption control method of the intelligent humidifier system is characterized in that the intelligent humidifier system at least comprises a power supply and a rotating wheel device, and the low power consumption control method of the intelligent humidifier system comprises the following steps:
detecting the humidity average value of the intelligent humidifier system through humidity sensors arranged at different positions of the intelligent humidifier system;
detecting a first voltage value and an open-circuit voltage of a power supply through different voltage sensors respectively;
calculating a percent charge average based on the first voltage value and the open circuit voltage;
if the electric quantity percentage average value is larger than a preset electric quantity threshold value, executing first low-power consumption regulation;
If the electric quantity percentage average value is not larger than a preset electric quantity threshold value, executing second low-power consumption regulation;
the first low power regulation includes: controlling a runner device to operate at a preset first power for a first time period, acquiring a current environment humidity value of the surrounding environment of the intelligent humidifier system after the runner device operates for the first time period, and determining a first operation time based on a humidity average value and the current environment humidity value; controlling the intelligent humidifier system to operate the first operation time with the first power, and outputting the first power and the first operation time through a preset output end;
the second low power regulation includes: acquiring the rotating speed of the rotating wheel device and the wind speed around the rotating wheel device, and calculating the wind speed conversion ratio based on the wind speed and the rotating speed; and determining a reference humidification time according to the humidity average value, calculating a second running time based on the wind speed conversion ratio and the reference humidification time, controlling the intelligent humidifier system to run at a preset second power, continuing the second running time, and outputting the second power and the second running time through a preset output end.
2. The method for controlling low power consumption of an intelligent humidifier system according to claim 1, wherein detecting the humidity average value of the intelligent humidifier system by humidity sensors provided at different positions of the intelligent humidifier system comprises:
acquiring a first humidity value detected by a first humidity sensor arranged on the intelligent humidifier system;
acquiring a second humidity value detected by a second humidity sensor arranged in a preset range around the intelligent humidifier system;
and determining an average value of the first humidity value and the second humidity value as a humidity average value.
3. The method of claim 2, wherein the obtaining a second current ambient humidity value of the ambient environment surrounding the intelligent humidifier system after the wheel assembly is operated for a first period of time, determining the first run time based on the humidity average and the current ambient humidity value, comprises:
acquiring a humidity value detected by a second humidity sensor for the ambient environment of the intelligent humidifier system after the rotating wheel device operates for a first period of time, and determining the humidity value as a second current ambient humidity value;
determining a ratio between a humidity average value and a preset normal humidity value as a humidity proportion state, and determining a difference value between the second current environment humidity value and the second humidity value as a humidity change value in a first time period;
The first operating time is determined based on the humidity ratio status, the humidity change value over the first time period, and a preset normal humidity range.
4. The method according to claim 2, further comprising, after the acquiring the second humidity value detected by the second humidity sensor disposed within a preset range around the intelligent humidifier system:
calculating a humidity difference value, wherein the humidity difference value is a difference value between the second humidity value and the first humidity value;
judging whether the humidity difference value is larger than a preset difference value threshold value or not;
if the humidity difference value is larger than a preset difference value threshold, determining a ponding alarm based on the humidity difference value, and outputting the ponding alarm and the humidity difference value through a preset output end;
and if the humidity difference value is not greater than a preset difference value threshold, outputting the humidity difference value through a preset output end.
5. The method of claim 2, wherein the determining a reference humidification time from the humidity average value, calculating a second run time based on the wind speed conversion ratio and the reference humidification time, comprises:
Determining the ratio between the humidity average value and a preset normal humidity value as a humidity proportion state;
dividing the rotating speed by a preset maximum rotating speed to obtain a rotating speed proportion;
determining a time correspondence based on the rotation speed ratio;
determining a reference humidification time based on a humidity proportion state and a preset time corresponding relation, wherein the time corresponding relation is a corresponding relation between the humidity proportion state and the reference humidification time;
and multiplying the wind speed conversion ratio by the reference humidification time to obtain a second running time.
6. The method of claim 1, wherein calculating a percent average of charge based on the first voltage value and the open circuit voltage comprises:
determining a first power supply electric quantity based on the first voltage value, the corresponding relation among the first voltage value and the power supply electric quantity;
determining a second power supply capacity based on the correspondence between the open circuit voltage, and the power supply capacity;
calculating an average value between the first power supply electric quantity and the second power supply electric quantity to obtain an average power supply electric quantity;
and dividing the average power supply electric quantity by a preset rated electric quantity to obtain an electric quantity percentage average value.
7. The method of claim 1, further comprising, after said calculating a percent charge average based on said first voltage value and said open circuit voltage:
judging whether the electric quantity percentage average value is smaller than a preset second electric quantity threshold value or not, wherein the second electric quantity threshold value is smaller than the electric quantity threshold value;
if the electric quantity percentage average value is smaller than a preset second electric quantity threshold value, outputting an electric quantity deficiency alarm and the electric quantity percentage average value through a preset output end;
and if the electric quantity percentage average value is not smaller than a preset second electric quantity threshold value, outputting the electric quantity percentage average value through a preset output end.
8. The method for controlling low power consumption of an intelligent humidifier system according to claim 1, wherein the detecting the first voltage value and the open circuit voltage of the power supply by the different voltage sensors, respectively, comprises:
acquiring a first voltage value detected by a first voltage sensor aiming at a power supply;
controlling a preset open-circuit device to operate so that the intelligent humidifier system is in an open-circuit state;
and when the intelligent humidifier system is in an open circuit state, acquiring the open circuit voltage detected by the second voltage sensor aiming at the power supply.
9. The method of controlling low power consumption of an intelligent humidifier system according to claim 1, further comprising, after said calculating a wind speed conversion ratio based on said wind speed and said rotational speed:
judging whether the wind speed conversion ratio is smaller than a preset ratio threshold value or not;
if the wind speed conversion ratio is smaller than the preset value, determining a wind speed abnormality alarm based on the wind speed conversion ratio, and outputting the wind speed abnormality alarm and the wind speed conversion ratio through a preset output end;
and if not, outputting the wind speed conversion ratio through a preset output end.
10. A low power control system for an intelligent humidifier system, comprising:
the humidity detection module is used for detecting the humidity average value of the intelligent humidifier system through humidity sensors arranged at different positions of the intelligent humidifier system;
the voltage detection module is used for respectively detecting a first voltage value and an open-circuit voltage of the power supply through different voltage sensors;
a calculation module for calculating a percent charge average based on the first voltage value and the open circuit voltage;
the first execution module is used for executing first low-power consumption regulation and control when the electric quantity percentage average value is larger than a preset electric quantity threshold value; the first low power regulation includes: controlling a runner device to operate at a preset first power for a first time period, acquiring a current environment humidity value of the surrounding environment of the intelligent humidifier system after the runner device operates for the first time period, and determining a first operation time based on a humidity average value and the current environment humidity value; controlling the intelligent humidifier system to operate the first operation time with the first power, and outputting the first power and the first operation time through a preset output end;
The second execution module is used for executing second low-power consumption regulation and control when the electric quantity percentage average value is not larger than a preset electric quantity threshold value; the second low power regulation includes: acquiring the rotating speed of the rotating wheel device and the wind speed around the rotating wheel device, and calculating the wind speed conversion ratio based on the wind speed and the rotating speed; and determining a reference humidification time according to the humidity average value, calculating a second running time based on the wind speed conversion ratio and the reference humidification time, controlling the intelligent humidifier system to run at a preset second power, continuing the second running time, and outputting the second power and the second running time through a preset output end.
CN202311394942.8A 2023-10-26 2023-10-26 Low-power consumption control method and system of intelligent humidifier system Active CN117128589B (en)

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Citations (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CA2789613A1 (en) * 2012-09-12 2014-03-12 Fisher & Paykel Healthcare Limited Surgical humidifier control
CN109729698A (en) * 2018-12-19 2019-05-07 泰康保险集团股份有限公司 Building environment control method, device and electronic equipment
CN114353269A (en) * 2021-12-24 2022-04-15 深圳市晨北科技有限公司 Humidifier coordinated work control method and device, humidifier and storage medium

Patent Citations (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CA2789613A1 (en) * 2012-09-12 2014-03-12 Fisher & Paykel Healthcare Limited Surgical humidifier control
CN109729698A (en) * 2018-12-19 2019-05-07 泰康保险集团股份有限公司 Building environment control method, device and electronic equipment
CN114353269A (en) * 2021-12-24 2022-04-15 深圳市晨北科技有限公司 Humidifier coordinated work control method and device, humidifier and storage medium

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