CN109915974B - Humidification system and control method thereof - Google Patents

Abstract

The invention discloses a humidification system and a control method thereof, wherein the system comprises: a plurality of humidification modules located at different locations within the chamber for performing humidification operations according to humidification protocols determined by environmental parameters at the different locations. The invention solves the problem that the humidity detection and control of the humidifier in the prior art are not accurate enough, realizes the overall accurate monitoring and the multidirectional precise control of the indoor temperature and humidity, and simultaneously improves the user experience.

Description

Humidification system and control method thereof

Technical Field

The invention relates to the technical field of humidification, in particular to a humidification system and a control method thereof.

Background

The moisture in the air is less and dry in autumn and winter, and the use of heating equipment makes the moisture in the air be less, and people easily breathe unsmoothly, and it becomes necessary to humidify the air. Humidifier in the market is various, and product quality and humidification effect are also uneven, have a general problem, and local humidification to the indoor environment is comparatively target in place, but hardly covers holistic indoor, causes near humidity of indoor humidifier comparatively big, just can not cover a little far away from the humidifier slightly, need wait that the circulation of air can let indoor whole humidity promote for a long time, and the efficiency of humidification is very slow. Meanwhile, only a single temperature and humidity sensor is used for detecting, so that the indoor accurate average temperature and humidity cannot be accurately monitored. These ordinary humidifiers are inefficient in humidification and inaccurate in controlling indoor temperature and humidity.

Aiming at the problem that the humidity detection and control of a humidifier in the related art are not accurate enough, an effective solution is not provided at present.

Disclosure of Invention

The invention provides a humidification system and a control method thereof, which at least solve the problem that a humidifier in the prior art is not accurate enough in humidity detection and control.

To solve the above technical problem, according to an aspect of an embodiment of the present invention, there is provided a humidification system including: a plurality of humidification modules located at different locations within the chamber for performing humidification operations according to humidification protocols determined by environmental parameters at the different locations.

Further, environmental parameters of different positions are acquired through a plurality of humidifying modules, or acquired through sensors arranged at different positions.

Further, the humidification scheme is determined by the humidification module, or determined by the control terminal.

Further, when the humidification schedule is determined by the humidification modules, the plurality of humidification modules includes: a master humidification module and at least one slave humidification module; the main humidification module is used for receiving the environmental parameters sent by the slave humidification module, determining a humidification scheme according to the environmental parameters acquired by the main humidification module and the environmental parameters sent by the slave humidification module, and controlling the main humidification module and the slave humidification module to execute humidification operation according to the humidification scheme; and the slave humidification module is used for acquiring environmental parameters of the self position, sending the parameters to the main humidification module, receiving the humidification scheme sent by the main humidification module and executing humidification operation according to the humidification scheme.

Furthermore, the main humidification module comprises a calculation unit which is used for calculating indoor actual environmental parameters according to the environmental parameters collected by the main humidification module and the environmental parameters sent by the auxiliary humidification module, and determining control parameters of the humidification module according to the actual environmental parameters.

Further, each of the plurality of humidification modules includes a communication sensor; the communication sensor of the master humidification module is used for receiving the environmental parameters sent by the slave humidification module and sending control parameters to the slave humidification module so as to control the slave humidification module to carry out humidification; and the communication sensor of the slave humidification module is used for sending the environmental parameters of the self position to the master humidification module and receiving the control parameters sent by the master humidification module so as to carry out humidification according to the control parameters.

Further, each of the plurality of humidification modules includes a communication sensor; the communication sensor of the master humidification module is used for sending a roll call instruction to the slave humidification module and establishing communication connection with the slave humidification module after receiving response data fed back by the slave humidification module; the communication sensor of the slave humidification module is also used for receiving the roll call instruction sent by the master humidification module and feeding back response data of the roll call instruction to the master humidification module.

Further, the plurality of humidification modules each include: an atomizing device or a fan; when the humidification module includes the atomizing device, the control parameter includes the operating frequency of the atomizing device, and when the humidification module includes the fan, the control parameter includes the rotational speed of the fan.

Further, the environmental parameter is ambient humidity, or ambient humidity and temperature; the plurality of humidification modules comprise temperature and humidity sensors for detecting the environment humidity, or the environment humidity and the temperature.

Further, when the humidification scheme is determined by the control terminal, the control terminal determines the humidification scheme according to the environmental parameters of different positions, and respectively controls the plurality of humidification modules to execute humidification operation according to the humidification scheme.

According to another aspect of the embodiments of the present invention, there is provided a humidification system control method, applied to the humidification system as described above, including: collecting environmental parameters of different positions in a room; determining a humidification scheme according to the collected environmental parameters of different positions; controlling a plurality of humidification modules to execute humidification operation according to a humidification scheme; wherein, a plurality of humidification modules are located indoor different positions.

Further, before determining the humidification scheme according to the collected environmental parameters of different positions, the method further comprises the following steps: calculating indoor actual environmental parameters according to the collected environmental parameters at different positions; judging whether the actual environment parameters meet preset starting conditions or not; and if so, triggering to determine a humidification scheme according to the acquired environmental parameters of different positions.

Further, determining a humidification scheme according to the collected environmental parameters of different positions comprises: and determining a humidification scheme according to the actual environmental parameters.

Further, determining a humidification scheme according to the actual environmental parameters includes: determining a corresponding humidification parameter according to the actual environment parameter; a control parameter of the humidification module is determined based on the humidification parameter.

Further, the humidification parameters comprise water yield and/or water yield rate; the control parameters include: the operating frequency of the atomizing device and/or the rotational speed of the fan.

Further, after controlling the plurality of humidification modules to perform humidification operation according to the humidification scheme, the method further includes: re-collecting the environmental parameters of different positions at preset time intervals; and adjusting the humidification scheme according to the re-collected environmental parameters at different positions until the environmental parameters at different positions reach preset environmental parameters.

According to a further aspect of embodiments of the present invention, there is provided a computer apparatus comprising a memory, a processor and a computer program stored on the memory and executable on the processor, the processor implementing the humidification system control method as described above when executing the program.

According to a further aspect of embodiments of the present invention, there is provided a storage medium containing computer executable instructions which, when executed by a computer processor, are adapted to perform a humidification system control method as described above.

In the present invention, a humidification system is provided, comprising a plurality of humidification modules located at different locations within a chamber for performing humidification operations according to humidification schemes determined by environmental parameters at the different locations. Through this system, effectively solved among the prior art problem that the humidifier is not accurate enough to the detection and the control of humidity, can realize providing balanced comfortable environment for the user to the holistic accurate control of indoor humiture and diversified humidification accurate control, promote user experience.

Drawings

FIG. 1 is an alternative layout of a humidification system according to an embodiment of the invention;

FIG. 2 is an alternative flow chart of a humidification system control method according to an embodiment of the present invention; and

fig. 3 is another alternative flow chart of a humidification system control method according to an embodiment of the present invention.

Detailed Description

Reference will now be made in detail to the exemplary embodiments, examples of which are illustrated in the accompanying drawings. When the following description refers to the accompanying drawings, like numbers in different drawings represent the same or similar elements unless otherwise indicated. The embodiments described in the following exemplary embodiments do not represent all embodiments consistent with the present invention. Rather, they are merely examples of apparatus and methods consistent with certain aspects of the invention, as detailed in the appended claims.

Example 1

In a preferred embodiment 1 of the present invention, there is provided a humidification system comprising a plurality of humidification modules, the plurality of humidification modules being located at different locations within a chamber, the plurality of humidification modules being located at different locations within the chamber for performing humidification operations according to a humidification schedule determined by environmental parameters at the different locations.

Wherein, the environmental parameter of different positions is gathered through a plurality of humidification modules and is acquireed, perhaps, gathers through the sensor that sets up in different positions and acquirees. The humidification scheme is determined by the humidification module or determined by the control terminal.

In a preferred embodiment 1 of the present invention, a humidification system with a humidification scheme determined by humidification modules is provided, and specifically, fig. 1 shows an alternative layout of the system, as shown in fig. 1, the method includes 3 humidification modules, where the 3 humidification modules are located at different positions in a room, and of course, the method is limited to include only 3 humidification modules in this application, and the number of specific humidification modules may be determined according to actual needs, such as parameters of a room area, a user humidification demand, and the like. A small-range communication network is formed by three or even a plurality of small humidifying modules, so that indoor temperature and humidity environment parameters can be accurately and effectively monitored.

In the above embodiments, there is provided a humidification system comprising a plurality of humidification modules located at different locations within a chamber for performing humidification operations according to a humidification scheme determined by environmental parameters at the different locations. Through this system, effectively solved among the prior art problem that the humidifier is not accurate enough to the detection and the control of humidity, can realize providing balanced comfortable environment for the user to the holistic accurate control of indoor humiture and diversified humidification accurate control, promote user experience.

In the present invention, when the humidification scheme is determined by the humidification modules, the plurality of humidification modules include: a master humidification module and at least one slave humidification module; the main humidification module is used for receiving the environmental parameters sent by the slave humidification module, determining a humidification scheme according to the environmental parameters acquired by the main humidification module and the environmental parameters sent by the slave humidification module, and controlling the main humidification module and the slave humidification module to execute humidification operation according to the humidification scheme; and the slave humidification module is used for acquiring environmental parameters of the self position, sending the parameters to the main humidification module, receiving the humidification scheme sent by the main humidification module and executing humidification operation according to the humidification scheme.

The main humidification module performs the functions of the humidification module and simultaneously performs control functions as all humidification modules, namely a host of the whole system.

The main humidification module comprises a calculation unit used for calculating indoor actual environment parameters according to the environment parameters collected by the main humidification module and the environment parameters sent by the auxiliary humidification module, and determining control parameters of the humidification module according to the actual environment parameters.

Further, each of the plurality of humidification modules includes a communication sensor; the communication sensor of the master humidification module is used for receiving the environmental parameters sent by the slave humidification module and sending control parameters to the slave humidification module so as to control the slave humidification module to carry out humidification; and the communication sensor of the slave humidification module is used for sending the environmental parameters of the self position to the master humidification module and receiving the control parameters sent by the master humidification module so as to carry out humidification according to the control parameters.

The communication sensor of the master humidification module is used for sending a roll call instruction to the slave humidification module and establishing communication connection with the slave humidification module after receiving response data fed back by the slave humidification module; the communication sensor of the slave humidification module is also used for receiving the roll call instruction sent by the master humidification module and feeding back response data of the roll call instruction to the master humidification module.

Three humidification modules are taken as examples and are respectively referred to as a module 1, a module 2 and a module 3. Each module is provided with an independent temperature and humidity detection sensor and a communication sensor, the module 1 is a humidifying function block in the system and is also an upper computer of the module 2 and the module 3, the system is powered on for the first time, and the host of the module 1 sends roll call instructions to the lower computers of the module 2 and the module 3 and establishes connection after receiving responses. Meanwhile, the three modules respectively detect the ambient temperature and humidity, the detected data are sent to the host at regular intervals, the host receives the data of each module, and the data are processed through the computing unit to obtain the accurate indoor temperature and humidity.

Further, the plurality of humidification modules each include: an atomizing device or a fan; when the humidification module includes the atomizing device, the control parameter includes the operating frequency of the atomizing device, and when the humidification module includes the fan, the control parameter includes the rotational speed of the fan.

Further, the environmental parameter is ambient humidity, or ambient humidity and temperature; the plurality of humidification modules comprise temperature and humidity sensors for detecting the environment humidity, or the environment humidity and the temperature.

The equipment directly controlled by detecting the temperature and humidity information is an atomizing device and a fan of the humidifying module. The upper computer processes the temperature and humidity data, compares the temperature and humidity data according to a pre-stored database to obtain a control device mode, and sends the control frequency and the fan rotating speed of the corresponding atomization device to the lower computer, namely communication devices of the module 2 and the module 3, and the module 2 and the module 3 respectively control the operation of the device according to the received parameters. The module 1 sends remote control instructions to other equipment and directly sends control signals to the equipment, and the whole system operates cooperatively to achieve the purpose of optimal indoor temperature and humidity treatment. Indoor humiture changes in real time, and module 1 receives the detection information of module 2, module 3 at this moment, reprocesses, and at the control parameter of sending equipment, reaches a closed loop feedback control system.

The communication equipment can use an NRF24L01 wireless module which is a master-slave all-in-one machine, at most 6 slave machines can be provided, the signal sending speed is high, the size is small, and the requirement of short-distance real-time communication can be completely met. The communication method is not limited to NRF24L01 wireless transmission, but other communication methods are also possible, such as bluetooth communication, which has a short transmission distance, but has high data security and is not easily interfered.

Wherein the other auxiliary equipment of the humidifier in the method comprises the following steps: the water shortage protection device adopts a photoelectric switch or an ultrasonic sensor to protect when water is in shortage; the water quality filtering device adopts an active carbon filter element to filter a water body; the air freshening device controls the addition of air freshening substances into the water body entering the atomizing device, for example, environment-friendly ester substances are automatically added into the water before humidification and atomization of the water, and the atomized air has a faint scent effect.

Through this scheme, can let indoor humidifier accuracy gather indoor whole humiture level, the parameter of gathering the multimode piece is integrated and is calculated and obtain accurate indoor humiture, sends humidification equipment again, can not cause the too high or low condition of low excessively of local humiture, reaches balanced comfortable environment, gives other people comfortable family environment and enjoys, promotes the life enjoyment, improves work learning efficiency indirectly.

In a preferred embodiment 1 of the present invention, there is provided a humidification system having another humidification scheme determined by a control terminal, including: the plurality of humidifying modules are positioned at different indoor positions and used for acquiring environmental parameters of different positions; and the control terminal determines a humidification scheme according to the collected environmental parameters of different positions and respectively controls the plurality of humidification modules to execute humidification operation according to the humidification scheme. In the invention, the control mode is not limited to the automatic control of the system, the system can be accessed to the Internet or a local area network for terminal monitoring, the mobile phone and the system are in the local area network, and the operation of each module can be directly controlled through the mobile phone APP, so that the aim of point-to-point rapid humidification is fulfilled.

Example 2

Based on the humidification system provided in the above embodiment 1, in a preferred embodiment 2 of the present invention, there is further provided a humidification system control method, specifically, fig. 2 shows an optional flowchart of the method, and as shown in fig. 2, the method includes the following steps S202 to S206:

s202: collecting environmental parameters of different positions in a room;

s204: determining a humidification scheme according to the collected environmental parameters of different positions;

s206: controlling a plurality of humidification modules to execute humidification operation according to a humidification scheme; wherein, a plurality of humidification modules are located indoor different positions.

In the foregoing embodiment, a humidification system control method is provided, in which environmental parameters at different locations are collected to determine a humidification scheme according to the environmental parameters at the different locations and control a plurality of humidification modules to perform humidification operations according to the humidification scheme. By the method, the problem that the humidity detection and control of the humidifier in the prior art are not accurate enough is effectively solved, the overall accurate monitoring and multidirectional humidification accurate control of indoor temperature and humidity can be achieved, a balanced and comfortable environment is provided for a user, and user experience is improved.

In a preferred embodiment of the present invention, before determining the humidification scheme according to the collected environmental parameters of different locations, the method further comprises: calculating indoor actual environmental parameters according to the collected environmental parameters at different positions; judging whether the actual environment parameters meet preset starting conditions or not; and if so, triggering to determine a humidification scheme according to the acquired environmental parameters of different positions.

Further, determining a humidification scheme according to the collected environmental parameters of different positions comprises: and determining a humidification scheme according to the actual environmental parameters. Determining a humidification scheme according to actual environmental parameters, comprising: determining a corresponding humidification parameter according to the actual environment parameter; a control parameter of the humidification module is determined based on the humidification parameter.

Optionally, determining a humidification scheme according to the collected environmental parameters of different locations includes: calculating indoor actual environmental parameters according to the collected environmental parameters at different positions; judging whether the actual environment parameters meet preset starting conditions or not; if yes, the humidification scheme is further determined according to the actual environmental parameters.

Further, the humidification parameters comprise water yield and/or water yield rate; the control parameters include: the operating frequency of the atomizing device and/or the rotational speed of the fan.

The humidifier generally adopts ultrasonic vibration to atomize water, and blows out water mist through a fan, so that the effect of humidifying air is achieved. The water yield or the water outlet rate of the humidifier can be controlled by controlling the operating frequency of the atomization device, and the water yield or the water outlet rate of the humidifier can also be adjusted by controlling the rotating speed of the fan. For example, if the rotation speed of the blower or the operating frequency of the atomizing device is increased, the water output or the water output rate of the humidifier is correspondingly increased, and similarly, if the rotation speed of the blower or the operating frequency of the atomizing device is decreased, the water output or the water output rate of the humidifier is also decreased.

Calculating values acquired by temperature and humidity sensors of different humidification modules through an algorithm to obtain an indoor actual temperature and humidity: and T and W, determining corresponding humidification parameters according to the actual environment parameters, wherein a corresponding relation table of the actual environment parameters and the humidification parameters is preset in the database, and the corresponding humidification parameters can be determined in a table look-up mode, and are equivalent to humidification target parameters and used for determining a humidification target to be achieved. And further determining control parameters of the components for performing the humidifying operation, namely the atomizing device and the fan, according to the humidifying parameters, namely the operating frequency of the atomizing device and the rotating speed of the fan. And the parameters are respectively sent to the humidifying module, the water yield and the water outlet rate are adjusted and controlled according to the parameters, and the indoor environment change is monitored in real time after the humidifying module is started, so that the running state of the equipment is corrected.

After controlling the plurality of humidification modules to execute humidification operation according to the humidification scheme, the method further comprises the following steps: controlling a plurality of humidifying modules to acquire environmental parameters again at preset intervals; and adjusting the humidification scheme according to the acquired environmental parameters until the environmental parameters reach preset optimal environmental parameters. Specifically, the actual environmental parameter may reach an optimal value or the environmental parameters at the positions of the plurality of humidification modules may reach respective optimal values.

In a preferred embodiment 2 of the present invention, another optional humidification system control method is further provided, specifically, fig. 3 shows an optional flowchart of the method, and as shown in fig. 3, the method includes the following steps:

starting;

the module 1 is respectively communicated with the module 2 and the module 3, and the module 2 and the module 3 send detected temperature and humidity data to the module 1;

carrying out data processing on the temperature and humidity data of the 3 modules;

judging whether the starting condition is met;

if yes, starting the humidifying module, otherwise, re-executing the steps;

after the humidifying module is started, monitoring the environmental parameters in real time to reach preset optimal environmental parameters;

and respectively adjusting each humidifying module according to the detection result so as to enable the environmental parameters to reach preset optimal environmental parameters.

Through above-mentioned embodiment, gather the environmental parameter of different positions to confirm the humidification scheme and carry out the humidification operation according to the environmental parameter of different positions, effectively solved among the prior art problem that the humidifier is not accurate enough to the detection and the control of humidity, can realize providing balanced comfortable environment for the user to the holistic accurate control of indoor humiture and diversified accurate control of humidification, promote user experience.

Example 3

Based on the humidification system control method provided in the above embodiment 2, there is also provided in a preferred embodiment 3 of the present invention a computer device comprising a memory, a processor and a computer program stored on the memory and executable on the processor, the processor implementing the humidification system control method as described above when executing the program.

In the foregoing embodiment, a humidification system control method is provided, in which environmental parameters at different locations are collected to determine a humidification scheme according to the environmental parameters at the different locations and control a plurality of humidification modules to perform humidification operations according to the humidification scheme. By the method, the problem that the humidity detection and control of the humidifier in the prior art are not accurate enough is effectively solved, the overall accurate monitoring and multidirectional humidification accurate control of indoor temperature and humidity can be achieved, a balanced and comfortable environment is provided for a user, and user experience is improved.

Example 4

Based on the humidification system control method provided in embodiment 2 above, there is also provided in a preferred embodiment 4 of the present invention a storage medium containing computer executable instructions for performing the humidification system control method as described above when executed by a computer processor.

In the foregoing embodiment, a humidification system control method is provided, in which environmental parameters at different locations are collected to determine a humidification scheme according to the environmental parameters at the different locations and control a plurality of humidification modules to perform humidification operations according to the humidification scheme. By the method, the problem that the humidity detection and control of the humidifier in the prior art are not accurate enough is effectively solved, the overall accurate monitoring and multidirectional humidification accurate control of indoor temperature and humidity can be achieved, a balanced and comfortable environment is provided for a user, and user experience is improved.

Other embodiments of the invention will be apparent to those skilled in the art from consideration of the specification and practice of the invention disclosed herein. This application is intended to cover any variations, uses, or adaptations of the invention following, in general, the principles of the invention and including such departures from the present disclosure as come within known or customary practice within the art to which the invention pertains. It is intended that the specification and examples be considered as exemplary only, with a true scope and spirit of the invention being indicated by the following claims.

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

Claims (14)

1. A humidification system, comprising:

a plurality of humidification modules located at different locations within the chamber for performing humidification operations according to a humidification schedule determined by environmental parameters at the different locations;

the humidification schedule is determined by a humidification module; when the humidification schedule is determined by a humidification module, the plurality of humidification modules comprises: a master humidification module and at least one slave humidification module; wherein,

the main humidification module is used for receiving the environmental parameters sent by the auxiliary humidification module, determining a humidification scheme according to the environmental parameters acquired by the main humidification module and the environmental parameters sent by the auxiliary humidification module, and controlling the main humidification module and the auxiliary humidification module to execute humidification operation according to the humidification scheme;

the slave humidification module is used for acquiring environmental parameters of the self position, sending the environmental parameters to the main humidification module, receiving the humidification scheme sent by the main humidification module, and executing humidification operation according to the humidification scheme;

wherein the plurality of humidification modules each comprise a communication sensor;

the communication sensor of the master humidification module is used for receiving the environmental parameters sent by the slave humidification module and sending control parameters to the slave humidification module so as to control the slave humidification module to carry out humidification;

the main humidification module further comprises a calculation unit which is used for calculating indoor actual environmental parameters according to the environmental parameters collected by the main humidification module and the environmental parameters sent by the auxiliary humidification module, and determining control parameters of the humidification module according to the actual environmental parameters.

2. The system of claim 1, wherein the environmental parameters of different locations are collected and obtained by the plurality of humidification modules, or by sensors disposed at different locations.

3. The system of claim 1,

and the communication sensor of the slave humidification module is used for sending the environmental parameters of the self position to the master humidification module and receiving the control parameters sent by the master humidification module so as to humidify according to the control parameters.

4. The system of claim 1, wherein the plurality of humidification modules each comprise a communication sensor;

the communication sensor of the master humidification module is used for sending a roll call instruction to the slave humidification module and establishing communication connection with the slave humidification module after receiving response data fed back by the slave humidification module;

the communication sensor of the slave humidification module is also used for receiving the roll call instruction sent by the master humidification module and feeding back response data of the roll call instruction to the master humidification module.

5. The system of claim 1, wherein the plurality of humidification modules each comprise: an atomizing device or a fan; when the humidification module comprises the atomization device, the control parameter comprises the operating frequency of the atomization device, and when the humidification module comprises the fan, the control parameter comprises the rotating speed of the fan.

6. The system of claim 1, wherein the environmental parameter is ambient humidity, or ambient humidity and temperature;

the plurality of humidification modules comprise temperature and humidity sensors and are used for detecting the environment humidity, or the environment humidity and the temperature.

7. The system of claim 1, wherein the humidification scheme is determined by a control terminal; and when the humidification scheme is determined by the control terminal, the control terminal determines the humidification scheme according to the environmental parameters of the different positions and respectively controls the plurality of humidification modules to execute humidification operation according to the humidification scheme.

8. A humidification system control method applied to the humidification system as set forth in any one of claims 1 to 7, characterized by comprising:

collecting environmental parameters of different positions in a room;

determining a humidification scheme according to the collected environmental parameters of different positions;

controlling a plurality of humidification modules to execute humidification operation according to the humidification scheme; wherein the plurality of humidification modules are located at different locations within the chamber;

before determining the humidification scheme according to the acquired environmental parameters of different positions, the method further comprises the following steps:

calculating indoor actual environmental parameters according to the collected environmental parameters at different positions;

judging whether the actual environment parameters meet preset starting conditions or not;

and if so, triggering the humidification scheme determined according to the acquired environmental parameters of different positions.

9. The method of claim 8, wherein determining a humidification schedule from the collected environmental parameters at the different locations comprises:

and determining a humidification scheme according to the actual environment parameters.

10. The method of claim 9, wherein determining a humidification schedule from the actual environmental parameters comprises:

determining a corresponding humidifying parameter according to the actual environment parameter;

determining a control parameter of the humidification module based on the humidification parameter.

11. The method of claim 10, wherein the humidification parameters include water output and/or water output rate; the control parameters include: the operating frequency of the atomizing device and/or the rotational speed of the fan.

12. The method of claim 8, further comprising, after controlling the plurality of humidification modules to perform humidification operations in accordance with the humidification schedule:

re-collecting the environmental parameters of different positions at preset time intervals;

and adjusting the humidification scheme according to the re-acquired environmental parameters of different positions until the environmental parameters of different positions reach preset environmental parameters.

13. A computer device comprising a memory, a processor and a computer program stored on the memory and executable on the processor, wherein the processor when executing the program implements a humidification system control method as claimed in any one of claims 8 to 12.

14. A storage medium containing computer executable instructions which when executed by a computer processor are for performing the humidification system control method of any one of claims 8 to 12.

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