CN114353270A - Remote regulation and control method and system for dehumidification system - Google Patents

Abstract

The invention relates to a remote regulation and control method and a remote regulation and control system for a dehumidification system, wherein in the method, the number of dehumidifiers, air cabinets and water pumps in the dehumidification system is dynamically regulated and controlled, so that the whole dehumidification system is cooperatively linked, the defects that the traditional dehumidification system cannot be controlled in a linkage manner, equipment generates mutual influence, the dehumidification efficiency is influenced, meanwhile, the whole dehumidification system is kept in an optimal energy-saving state, and the operation cost is reduced; and each equipment in the dehumidification system can realize alternate finishing, so that the equipment in the whole dehumidification system can work alternately, and the service life of the equipment is prevented from being influenced by long-time operation.

Description

Remote regulation and control method and system for dehumidification system

Technical Field

The invention belongs to the technical field of remote control of equipment, and relates to a remote control method and a remote control system of a dehumidification system.

Background

The dehumidifier can condense water molecules in the air into water drops, then the treated dry air is discharged out of the dehumidifier, the indoor humidity can be kept at a proper humidity through repeated circulation of the above processes, the existing dehumidifier is generally divided into a civil dehumidifier and an industrial dehumidifier, particularly along with rapid development of the existing industry, the environmental humidity of each large factory in a workshop is higher and higher, the quality problem of products can be influenced due to overhigh humidity of the workshop, mechanical equipment is damaged, the physical health of workers is influenced, the factory environment is too dry due to overlow humidity, a large amount of static phenomena are generated, and particularly, irreversible loss can be caused for some precise electronic products. Therefore, the maintenance of the humidity stability of the internal environment of the factory is vital, for some large-scale factories, a plurality of dehumidifiers and related equipment are distributed in the factory, the plurality of dehumidifiers are used for adjusting the humidity of the internal environment of the factory to keep the internal humidity of the factory stable, but the internal environment of the factory is often in space intercommunication in a workshop, when the plurality of dehumidifiers are adopted for adjustment and control, the operation state of the dehumidifiers is greatly fluctuated, and the corresponding related equipment is required to be changed, so that a unified adjustment and control mode is needed to keep the dynamic balance among the equipment, the temperature and the humidity of the workshop are adjusted and controlled together, the interference among the plurality of equipment is avoided, the energy efficiency of the equipment is reduced, and the temperature and the humidity of the workshop are not stably adjusted and controlled.

Meanwhile, for some workshops which have severe requirements on the environment, the workshop environment needs to be kept stable for 24 hours, so that the dehumidifier equipment needs to be continuously started for 24 hours to keep the environment stable, for the dehumidifier equipment, the long-time starting can seriously affect the service life of the dehumidifier, different losses are generated in the equipment due to the long-time starting, the energy consumption of the equipment is increased, and the use cost is increased.

Disclosure of Invention

Aiming at the problems in the prior art, the invention discloses a remote regulation and control method and a remote regulation and control system for a dehumidification system, which are characterized in that the number of dehumidifiers, air cabinets and water pumps in the dehumidification system is dynamically regulated and controlled, so that the whole dehumidification system is cooperatively linked, the defects that the traditional dehumidification system cannot be linked and controlled, equipment is influenced mutually and the dehumidification efficiency is influenced are avoided, meanwhile, the whole dehumidification system is kept in an optimal energy-saving state, and the operation cost is reduced.

The invention discloses a remote regulation and control method of a dehumidification system, which comprises the following steps:

s100, respectively acquiring actual operation parameters including operation data of a dehumidifier, a wind cabinet and a water pump and temperature data and humidity data in an actual environment through a data acquisition unit;

s200, setting a humidity range and a temperature range which are expected to be reached, and controlling the dehumidifier, the air cabinet and the water pump to work in a linkage manner by using the controller;

s300, setting load regulation and control thresholds of the dehumidifier, the air cabinet and the water pump respectively, and generating a corresponding regulation and control strategy by a remote regulation and control unit according to actual operation parameters of the dehumidifier, the air cabinet and the water pump and the load regulation and control thresholds, wherein the regulation and control strategy is used for controlling the load operation states of the dehumidifier, the air cabinet and the water pump;

and S400, generating a corresponding regulation and control instruction according to the generated regulation and control strategy, and controlling the running state changes of the dehumidifier, the air cabinet and the water pump by the controller respectively to enable the dehumidification system to reach an optimal energy-saving state.

Further, the regulation and control strategies generated by the remote regulation and control unit according to the actual operation parameters of the dehumidifier, the air cabinet and the water pump and the regulation and control threshold respectively include: a dehumidifier adding and subtracting machine regulation strategy, a wind cabinet adding and subtracting machine regulation strategy and a water pump adding and subtracting machine regulation strategy.

Further, the specific regulation and control method of the dehumidifier plus-minus machine regulation and control strategy comprises the following steps:

s11, setting an expected humidity range, and setting an adding load threshold and a subtracting load threshold of the dehumidifier;

s12, machining: when the actual environment humidity exceeds the set humidity range, frequency conversion adjustment is sequentially carried out on the current dehumidifier, the dehumidification capacity is increased, when the actual load of the current dehumidifier exceeds the set adding load threshold of the dehumidifier, the actual environment humidity still exceeds the set humidity parameter range, the next dehumidifier is started, and meanwhile, the current dehumidifier keeps the set adding load threshold to operate.

S13, sequentially carrying out dehumidifier startup operation according to the startup steps until the actual environment humidity is within a set humidity parameter range;

s14, machine reduction: when the real-time environment humidity is lower than the set humidity parameter range, frequency conversion adjustment is sequentially carried out on the running dehumidifier to reduce the dehumidification capacity, when the actual load of a single dehumidifier is lower than the set dehumidifier load threshold value, the actual environment humidity is still lower than the set humidity parameter range, the next running dehumidifier is subjected to frequency conversion adjustment, and meanwhile, the current dehumidifier stops running;

and S15, sequentially carrying out dehumidifier reduction operation according to the dehumidifier reduction steps until the actual environment humidity is within the set humidity parameter range.

Further, the specific regulation and control method of the regulation and control strategy of the air cabinet plus-minus machine comprises the following steps:

s21, setting an expected temperature range, and setting a machine adding load threshold value and a machine subtracting load threshold value of a single air cabinet;

s22, machining: when the actual environment temperature does not meet the set temperature range, sequentially carrying out variable frequency adjustment on the load of the wind cabinets, and when the actual load of the current wind cabinet exceeds the set load threshold value of the wind cabinet and the actual environment temperature does not meet the set temperature range, starting the next wind cabinet, and simultaneously keeping the current wind cabinet running at the load threshold value of the wind cabinet;

s23, sequentially carrying out air cabinet machining operation according to the machining steps until the actual environment temperature is within a set temperature range;

s24, machine reduction: when the actual environment temperature does not meet the set temperature range, sequentially carrying out variable frequency adjustment on the load of the wind cabinet, and when the actual load of the current wind cabinet is lower than the set load reduction threshold value of the wind cabinet and the actual environment temperature does not meet the set temperature range, closing the current wind cabinet and simultaneously carrying out variable frequency adjustment on the load of the wind cabinet in the next operation;

and S25, sequentially carrying out air cabinet machine reduction operation according to the machine reduction steps until the actual environment temperature is within the set temperature range.

Further, the concrete regulation and control method of the water pump plus-minus machine regulation and control strategy comprises the following steps:

s31, calculating an expected pump body flow range, and setting a machine adding load threshold value and a machine subtracting load threshold value of a single water pump;

s32, machining: when the actual pump body flow is lower than the expected pump body flow range, sequentially carrying out variable frequency regulation on the water pump load to improve the water pump outflow, and when the actual load of a single water pump exceeds a set engine adding load threshold value of the water pump, and the actual pump body flow is still lower than the expected pump body flow range, starting the next water pump, and simultaneously keeping the engine adding load threshold value of the current water pump to continuously operate;

s33, sequentially carrying out water pump machining operation according to the machining steps until the actual pump body flow is within the expected pump body flow range;

s34, machine reduction: when the actual pump body flow is higher than the expected pump body flow parameter range, sequentially carrying out variable frequency regulation on the water pump load to reduce the water pump outflow, and when the actual load of a single water pump is lower than a set engine reduction load threshold value of the water pump, and the actual pump body flow is still higher than the expected pump body flow range, closing the current water pump, and simultaneously carrying out variable frequency regulation on the next running water pump load;

and S35, sequentially reducing the pump according to the reducing steps until the actual pump flow is within the expected pump flow range.

Furthermore, in the process of regulating and controlling the dehumidifier, the air cabinet and the water pump respectively according to the corresponding regulating and controlling strategies, when the load of a single dehumidifier, the air cabinet and the water pump changes, the corresponding dehumidifier, the air cabinet and the water pump are firstly kept running for a certain time, and the data acquisition unit acquires the temperature and humidity data in the environment.

Further, the remote control method of the dehumidification system further comprises the following steps:

s500, the remote control unit carries out alternate operation on the dehumidifier, the air cabinet and the water pump respectively according to the running states of the dehumidifier, the air cabinet and the water pump.

Further, 8, the step of performing replacement on the dehumidifier, the air cabinet and the water pump respectively by the remote control unit according to the operation states of the dehumidifier, the air cabinet and the water pump is as follows:

s501, a remote control unit records the operation time, the shutdown time and the start-stop state of each dehumidifier, each air cabinet and each water pump respectively;

s502, the remote control unit divides the dehumidifier, the air cabinet and the water pump into an operating unit and a standby unit respectively according to the starting and stopping states;

s503, sequencing the dehumidifier, the air cabinet and the water pump in the running unit from multiple to multiple according to the running time, and sequencing the dehumidifier, the air cabinet and the water pump in the standby unit from multiple to multiple according to the shutdown time;

s504, setting operation time length threshold values of the dehumidifier, the air cabinet and the water pump, and when the actual operation time length in the operation unit meets the operation time length threshold values, recording the load of the current operation unit by a remote control unit, starting a corresponding standby unit with the largest shutdown time length and adjusting the standby unit to the same load;

s505, when the started standby unit operates stably, the operating unit meeting the operating duration threshold value stops;

and S506, updating the running time, the shutdown time and the start-stop state of the dehumidifier, the air cabinet and the water pump.

In addition, the invention also discloses a remote regulation and control system of the dehumidification system, which comprises a dehumidifier, a wind cabinet, a water pump, a controller, a data acquisition unit and a remote regulation and control unit;

the dehumidifier is used for dehumidifying the environment;

the air cabinet is used for maintaining the constant ambient temperature after dehumidification;

the water pump is used for supplying water to the dehumidifier and the air cabinet at the same time so as to maintain the normal work of the dehumidifier and the air cabinet;

the data acquisition unit is used for acquiring environmental temperature data and humidity data;

the remote control unit is used for analyzing the data acquired by the data acquisition unit and generating a control command;

the controller is used for controlling the working states of the corresponding dehumidifier, the air cabinet and the water pump according to the control command.

Furthermore, the dehumidifier, the air cabinet and the water pump are respectively connected with the controller by signal lines, and the controller is connected with the remote control unit by signal lines or wireless communication; the data acquisition unit is in communication connection with the controller and the remote control unit through signal lines or wireless transmission modes.

Compared with the prior art, the invention has the following advantages:

the remote control system is used for dynamically controlling the dehumidifier, the air cabinet and the water pump in the dehumidification system, dynamically controlling the number of the devices in the running state by respectively collecting load data of the devices, and automatically controlling other devices through environmental feedback when one device in the devices is changed, so that the whole dehumidification system is in cooperative linkage, and the phenomenon that the traditional dehumidification system cannot be in linkage control, the devices are mutually influenced and the dehumidification efficiency is influenced is avoided; in addition, the equipment can realize alternate finishing, so that the equipment in the whole dehumidification system can alternately work, and the service life of the equipment is prevented from being influenced by long-time operation.

Drawings

FIG. 1 is a schematic structural diagram of a remote control system for a dehumidification system in this embodiment;

FIG. 2 is a flowchart of an add-subtract set regulation strategy of a dehumidifier in the present embodiment;

fig. 3 is a flowchart of a wind chest set-up and set-down regulation strategy in the present embodiment;

fig. 4 is a flowchart of a regulation strategy for the water pump control system in this embodiment.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention more apparent, the technical solutions of the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings of the embodiments of the present invention, and it is obvious that the described embodiments are some, but not all embodiments of the present invention. All other embodiments, which can be obtained by a person skilled in the art without any inventive step based on the embodiments of the present invention, are within the scope of the present invention.

Thus, the following detailed description of the embodiments of the present invention, presented in the figures, is not intended to limit the scope of the invention, as claimed, but is merely representative of selected embodiments of the invention. All other embodiments, which can be obtained by a person skilled in the art without any inventive step based on the embodiments of the present invention, are within the scope of the present invention.

It should be noted that: like reference numbers and letters refer to like items in the following figures, and thus, once an item is defined in one figure, it need not be further defined and explained in subsequent figures.

In the present invention, unless otherwise expressly stated or limited, the terms "mounted," "connected," "secured," and the like are to be construed broadly and can, for example, be fixedly connected, detachably connected, or integrally formed; either directly or indirectly through intervening media, either internally or in any other relationship. The specific meanings of the above terms in the present invention can be understood by those skilled in the art according to specific situations.

Example (b):

as shown in fig. 1, the embodiment discloses a remote control system for a dehumidification system, which specifically includes a dehumidifier, a wind cabinet, a water pump, a controller, a data acquisition unit and a remote control unit, wherein the dehumidifier, the wind cabinet and the water pump belong to main working equipment of the dehumidification system, when dehumidification is performed, the dehumidifier is started to work, water molecules in air are condensed, and treated dry air is discharged to reduce air humidity, but in the condensation process, the temperature of the air is reduced along with the reduction of the temperature, in order to keep the air temperature stable, the wind cabinet is required to be used for temperature control, the dehumidified air flows through the interior of the wind cabinet, circulation temperature control is performed, and when the air temperature reaches a set temperature range, the air is discharged from the wind cabinet; the water pump is used for supplying water to the dehumidifier and the air cabinet at the same time so as to maintain the normal work of the dehumidifier and the air cabinet, and the temperature and the humidity of the air can be maintained within a fixed range and the temperature and the humidity of the environment can be kept stable through the cooperative work of the three devices. And other equipment in the dehumidification system, such as the data acquisition unit is used for gathering ambient temperature parameter and ambient humidity parameter, and remote control unit is used for analyzing the parameter of data acquisition unit collection and generating control command, and the controller is used for controlling the operating condition of corresponding dehumidifier, wind cabinet and water pump according to control command.

In this embodiment, the dehumidifier, the air cabinet and the water pump are respectively and directly connected with the controller through signal lines, the controller and the remote control unit can be connected through signal lines or wireless communication, and the data acquisition unit is used as a main information acquisition device in the dehumidification system, on one hand, the data acquisition unit needs to perform environmental state feedback with the controller, and on the other hand, the data acquisition unit needs to transmit data to the remote control unit in real time for data analysis, so that the data acquisition unit is respectively in communication connection with the controller and the remote control unit, and the specific communication connection mode can adopt signal lines or wireless transmission communication.

When the humidity control system of the embodiment is used in a factory workshop environment, because the area of a field is large, a plurality of dehumidifiers, a wind cabinet and a water pump are generally arranged respectively, and how to perform coordination control on the devices is crucial, and the coordination process is more difficult than that of a single device, so that the embodiment discloses a remote regulation and control method of the dehumidification system.

Specifically, the method for remotely controlling the dehumidification system in this embodiment includes the following steps:

s100, respectively acquiring actual operation parameters including operation data of a dehumidifier, a wind cabinet and a water pump and temperature data and humidity data in an actual environment through a data acquisition unit;

s200, setting a humidity range and a temperature range which are expected to be reached, and controlling the dehumidifier, the air cabinet and the water pump to work in a linkage manner by using the controller;

s300, setting load regulation and control thresholds of the dehumidifier, the air cabinet and the water pump respectively, and generating a corresponding regulation and control strategy by a remote regulation and control unit according to actual operation parameters of the dehumidifier, the air cabinet and the water pump and the load regulation and control thresholds, wherein the regulation and control strategy is used for controlling the load operation states of the dehumidifier, the air cabinet and the water pump;

s400, generating a corresponding regulation and control instruction according to the generated regulation and control strategy, and controlling the running state changes of the dehumidifier, the air cabinet and the water pump by the controller respectively to enable the dehumidification system to reach an optimal energy-saving state;

s500, the remote control unit carries out alternate operation on the dehumidifier, the air cabinet and the water pump respectively according to the running states of the dehumidifier, the air cabinet and the water pump.

The specific regulation and control strategy for the dehumidifier, the air cabinet and the water pump in the embodiment comprises the following steps:

a. as shown in fig. 2, the adjustment and control strategy of the dehumidifier is as follows:

s11, setting an expected humidity range, and setting an adding load threshold and a subtracting load threshold of the dehumidifier;

s12, machining: when the actual environment humidity exceeds the set humidity range, frequency conversion adjustment is sequentially carried out on the current dehumidifier, the dehumidification capacity is increased, when the actual load of the current dehumidifier exceeds the set adding load threshold of the dehumidifier, the actual environment humidity still exceeds the set humidity parameter range, the next dehumidifier is started, and meanwhile, the current dehumidifier keeps the set adding load threshold to operate.

S13, sequentially carrying out dehumidifier startup operation according to the startup steps until the actual environment humidity is within a set humidity parameter range;

s14, machine reduction: when the real-time environment humidity is lower than the set humidity parameter range, frequency conversion adjustment is sequentially carried out on the running dehumidifier to reduce the dehumidification capacity, when the actual load of a single dehumidifier is lower than the set dehumidifier load threshold value, the actual environment humidity is still lower than the set humidity parameter range, the next running dehumidifier is subjected to frequency conversion adjustment, and meanwhile, the current dehumidifier stops running;

and S15, sequentially carrying out dehumidifier reduction operation according to the dehumidifier reduction steps until the actual environment humidity is within the set humidity parameter range.

b. As shown in fig. 3, the regulation and control strategy of the air cabinet for adding and subtracting the air cabinet is as follows:

s21, setting an expected temperature range, and setting a machine adding load threshold value and a machine subtracting load threshold value of a single air cabinet;

s22, machining: when the actual environment temperature does not meet the set temperature range, sequentially carrying out variable frequency adjustment on the load of the wind cabinets, and when the actual load of the current wind cabinet exceeds the set load threshold value of the wind cabinet and the actual environment temperature does not meet the set temperature range, starting the next wind cabinet, and simultaneously keeping the current wind cabinet running at the load threshold value of the wind cabinet;

s23, sequentially carrying out air cabinet machining operation according to the machining steps until the actual environment temperature is within a set temperature range;

s24, machine reduction: when the actual environment temperature does not meet the set temperature range, sequentially carrying out variable frequency adjustment on the load of the wind cabinet, and when the actual load of the current wind cabinet is lower than the set load reduction threshold value of the wind cabinet and the actual environment temperature does not meet the set temperature range, closing the current wind cabinet and simultaneously carrying out variable frequency adjustment on the load of the wind cabinet in the next operation;

and S25, sequentially carrying out air cabinet machine reduction operation according to the machine reduction steps until the actual environment temperature is within the set temperature range.

c. As shown in fig. 4, the water pump performs a regulation and control strategy of adding and subtracting the machine:

s31, setting an expected pump body flow range, and setting a machine adding load threshold value and a machine subtracting load threshold value of a single water pump;

s32, machining: when the actual pump body flow is lower than the set pump body flow range, frequency conversion adjustment is sequentially carried out on the water pump load, the water pump outflow is improved, when the actual load of a single water pump exceeds the set pump body flow threshold value of the water pump, the actual pump body flow is still lower than the set pump body flow range, the next water pump is started, and meanwhile, the current water pump keeps the pump body flow threshold value to continue to operate;

s33, sequentially carrying out water pump machining operation according to the machining steps until the actual pump body flow is within the set pump body flow range;

s34, machine reduction: when the actual pump body flow is higher than the set pump body flow parameter range, sequentially carrying out variable frequency regulation on the water pump load to reduce the water pump outflow, and when the actual load of a single water pump is lower than a set engine reduction load threshold value of the water pump, the actual pump body flow is still lower than the set pump body flow range, closing the current water pump, and simultaneously carrying out variable frequency regulation on the next running water pump load;

and S35, sequentially reducing the pump according to the reducing steps until the actual pump flow is within the set pump flow range.

And in the process that the dehumidifier, the air cabinet and the water pump are respectively regulated and controlled according to the regulation and control strategy, when the load of a single dehumidifier, the air cabinet and the water pump is changed, the corresponding dehumidifier, the air cabinet and the water pump are firstly kept to operate for a certain time, and the data acquisition unit acquires the temperature and humidity data in the environment. The purpose of the step is to enable the dehumidifier, the air cabinet and the water pump to fully operate, enable the dehumidifier and the air cabinet to fully change the temperature and the humidity in the environment and keep stable, then carry out data acquisition, and judge the subsequent step, thereby avoiding overlarge or undersize equipment load change and larger equipment load fluctuation caused by slow reaction speed of the dehumidifier, the air cabinet and the water pump due to larger environment space.

In order to further prolong the service life of the dehumidifier, the air cabinet and the water pump, the remote control unit respectively carries out alternate operation on the dehumidifier, the air cabinet and the water pump according to the operation states of the dehumidifier, the air cabinet and the water pump, and the specific operation steps are as follows:

s501, a remote control unit records the operation time, the shutdown time and the start-stop state of each dehumidifier, each air cabinet and each water pump respectively;

s502, the remote control unit divides the dehumidifier, the air cabinet and the water pump into an operating unit and a standby unit respectively according to the starting and stopping states; for example, multiple dehumidifiers can be arranged in a workshop or a factory according to dehumidifier equipment, the dehumidifiers are started to work according to the environmental conditions in the dehumidification process, the unopened dehumidifiers are automatically divided into standby units, and when the load of the dehumidifier in the running state reaches an adding load threshold value, the dehumidifier is selected from the standby units to be started; when the environmental condition is basically stable, the humidity control system keeps a certain amount of dehumidifiers to stably operate, and the operating dehumidifiers are divided into operating units.

S503, sequencing the dehumidifier, the air cabinet and the water pump in the running unit from multiple to multiple according to the running time, and sequencing the dehumidifier, the air cabinet and the water pump in the standby unit from multiple to multiple according to the shutdown time;

s504, setting operation time length threshold values of the dehumidifier, the air cabinet and the water pump, and when the actual operation time length in the operation unit meets the operation time length threshold values, recording the load of the current operation unit by a remote control unit, starting a corresponding standby unit with the largest shutdown time length and adjusting the standby unit to the same load;

s505, when the started standby unit operates stably, the operating unit meeting the operating duration threshold value stops;

and S506, updating the running time, the shutdown time and the start-stop state of the dehumidifier, the air cabinet and the water pump.

The dehumidifier, the air cabinet and the water pump are switched by the steps, so that the devices can be started, stopped and maintained in turn, the stable humidity and temperature of a workshop or a factory all day long can be kept, the long-time running of the single device is avoided, the service life of the device is shortened, the starting and stopping processes of the dehumidifier, the air cabinet and the water pump are dynamically adjusted by switching on and off, each device can be stopped and maintained, and the environment cannot be greatly fluctuated and changed.

In addition, a plurality of dehumidifier, air cabinet and water pump devices can be started in the running process of the dehumidification system, and the devices can be dynamically started and stopped aiming at the temperature and humidity environment with dynamic change so as to adjust the total load of the devices in the running state, so that the running quantities of the dehumidifier, the air cabinet and the water pump respectively reach the optimal state, and meanwhile, the total devices can be ensured to be at the lowest energy consumption, so that the purpose of energy conservation is achieved.

The above description is only a preferred embodiment of the present invention and is not intended to limit the present invention, and various modifications and changes may be made by those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention shall fall within the protection scope of the present invention.

Claims (10)

1. A dehumidification system remote regulation and control method is characterized by comprising the following steps:

s100, respectively acquiring actual operation parameters including operation data of a dehumidifier, a wind cabinet and a water pump and temperature data and humidity data in an actual environment through a data acquisition unit;

s200, setting a humidity range and a temperature range which are expected to be reached, and controlling the dehumidifier, the air cabinet and the water pump to work in a linkage manner by using the controller;

s300, setting load regulation and control thresholds of the dehumidifier, the air cabinet and the water pump respectively, and generating a corresponding regulation and control strategy by a remote regulation and control unit according to actual operation parameters of the dehumidifier, the air cabinet and the water pump and the load regulation and control thresholds, wherein the regulation and control strategy is used for controlling the load operation states of the dehumidifier, the air cabinet and the water pump;

and S400, generating a corresponding regulation and control instruction according to the generated regulation and control strategy, and controlling the running state changes of the dehumidifier, the air cabinet and the water pump by the controller respectively to enable the dehumidification system to reach an optimal energy-saving state.

2. The method for remotely controlling the dehumidification system according to claim 1, wherein the control strategies generated by the remote control unit according to the actual operation parameters and the control thresholds of the dehumidifier, the wind cabinet and the water pump respectively comprise: a dehumidifier adding and subtracting machine regulation strategy, a wind cabinet adding and subtracting machine regulation strategy and a water pump adding and subtracting machine regulation strategy.

3. The remote regulation and control method of the dehumidification system according to claim 2, wherein the specific regulation and control method of the regulation and control strategy of the plus-minus machine of the dehumidifier is as follows:

s11, setting an expected humidity range, and setting an adding load threshold and a subtracting load threshold of the dehumidifier;

s12, machining: when the actual environment humidity exceeds a set humidity range, sequentially carrying out frequency conversion adjustment on the current dehumidifier to increase the dehumidification capacity, and when the actual load of the current dehumidifier exceeds a set adding load threshold of the dehumidifier and the actual environment humidity still exceeds a set humidity parameter range, starting the next dehumidifier, and simultaneously keeping the current dehumidifier running at the set adding load threshold;

s13, sequentially carrying out dehumidifier startup operation according to the startup steps until the actual environment humidity is within a set humidity parameter range;

s14, machine reduction: when the real-time environment humidity is lower than the set humidity parameter range, frequency conversion adjustment is sequentially carried out on the running dehumidifier to reduce the dehumidification capacity, when the actual load of a single dehumidifier is lower than the set dehumidifier load threshold value, the actual environment humidity is still lower than the set humidity parameter range, the next running dehumidifier is subjected to frequency conversion adjustment, and meanwhile, the current dehumidifier stops running;

and S15, sequentially carrying out dehumidifier reduction operation according to the dehumidifier reduction steps until the actual environment humidity is within the set humidity parameter range.

4. The remote control method of the dehumidification system as claimed in claim 2, wherein the specific control method of the control strategy of the plus-minus machine of the wind cabinet is as follows:

s21, setting an expected temperature range, and setting a machine adding load threshold value and a machine subtracting load threshold value of a single air cabinet;

s22, machining: when the actual environment temperature does not meet the set temperature range, sequentially carrying out variable frequency adjustment on the load of the wind cabinets, and when the actual load of the current wind cabinet exceeds the set load threshold value of the wind cabinet and the actual environment temperature does not meet the set temperature range, starting the next wind cabinet, and simultaneously keeping the current wind cabinet running at the load threshold value of the wind cabinet;

s23, sequentially carrying out air cabinet machining operation according to the machining steps until the actual environment temperature is within a set temperature range;

s24, machine reduction: when the actual environment temperature does not meet the set temperature range, sequentially carrying out variable frequency adjustment on the load of the wind cabinet, and when the actual load of the current wind cabinet is lower than the set load reduction threshold value of the wind cabinet and the actual environment temperature does not meet the set temperature range, closing the current wind cabinet and simultaneously carrying out variable frequency adjustment on the load of the wind cabinet in the next operation;

and S25, sequentially carrying out air cabinet machine reduction operation according to the machine reduction steps until the actual environment temperature is within the set temperature range.

5. The remote control method of the dehumidification system according to claim 2, wherein the specific control method of the control strategy of the water pump plus-minus machine is as follows:

s31, calculating an expected pump body flow range, and setting a machine adding load threshold value and a machine subtracting load threshold value of a single water pump;

s32, machining: when the actual pump body flow is lower than the expected pump body flow range, sequentially carrying out variable frequency regulation on the water pump load to improve the water pump outflow, and when the actual load of a single water pump exceeds a set engine adding load threshold value of the water pump, and the actual pump body flow is still lower than the expected pump body flow range, starting the next water pump, and simultaneously keeping the engine adding load threshold value of the current water pump to continuously operate;

s33, sequentially carrying out water pump machining operation according to the machining steps until the actual pump body flow is within the expected pump body flow range;

s34, machine reduction: when the actual pump body flow is higher than the expected pump body flow parameter range, sequentially carrying out variable frequency regulation on the water pump load to reduce the water pump outflow, and when the actual load of a single water pump is lower than a set engine reduction load threshold value of the water pump, and the actual pump body flow is still higher than the expected pump body flow range, closing the current water pump, and simultaneously carrying out variable frequency regulation on the next running water pump load;

and S35, sequentially reducing the pump according to the reducing steps until the actual pump flow is within the expected pump flow range.

6. The remote control method of the dehumidification system according to claim 2, wherein in the control process of the dehumidifier, the wind cabinet and the water pump according to the corresponding control strategies, when the load of a single dehumidifier, the wind cabinet and the water pump changes, the corresponding dehumidifier, the wind cabinet and the water pump are kept running for a certain time, and the data acquisition unit acquires the temperature and humidity data in the environment.

7. A dehumidification system remote regulation method as claimed in claim 1, further comprising the steps of:

s500, the remote control unit carries out alternate operation on the dehumidifier, the air cabinet and the water pump respectively according to the running states of the dehumidifier, the air cabinet and the water pump.

8. The remote control method of the dehumidification system according to claim 7, wherein the remote control unit performs the switching steps for the dehumidifier, the wind cabinet and the water pump respectively according to the operation states of the dehumidifier, the wind cabinet and the water pump by:

s501, a remote control unit records the operation time, the shutdown time and the start-stop state of each dehumidifier, each air cabinet and each water pump respectively;

s502, the remote control unit divides the dehumidifier, the air cabinet and the water pump into an operating unit and a standby unit respectively according to the starting and stopping states;

s503, sequencing the dehumidifier, the air cabinet and the water pump in the running unit from multiple to multiple according to the running time, and sequencing the dehumidifier, the air cabinet and the water pump in the standby unit from multiple to multiple according to the shutdown time;

s504, setting operation time length threshold values of the dehumidifier, the air cabinet and the water pump, and when the actual operation time length in the operation unit meets the operation time length threshold values, recording the load of the current operation unit by a remote control unit, starting a corresponding standby unit with the largest shutdown time length and adjusting the standby unit to the same load;

s505, when the started standby unit operates stably, the operating unit meeting the operating duration threshold value stops;

and S506, updating the running time, the shutdown time and the start-stop state of the dehumidifier, the air cabinet and the water pump.

9. A remote regulation and control system of a dehumidification system is characterized by comprising a dehumidifier, a wind cabinet, a water pump, a controller, a data acquisition unit and a remote regulation and control unit;

the dehumidifier is used for dehumidifying the environment;

the air cabinet is used for maintaining the constant ambient temperature after dehumidification;

the water pump is used for supplying water to the dehumidifier and the air cabinet at the same time so as to maintain the normal work of the dehumidifier and the air cabinet;

the data acquisition unit is used for acquiring environmental temperature data and humidity data;

the remote control unit is used for analyzing the data acquired by the data acquisition unit and generating a control command;

the controller is used for controlling the working states of the corresponding dehumidifier, the air cabinet and the water pump according to the control command.

10. The remote control method of the dehumidification system according to claim 9, wherein the dehumidifier, the wind cabinet and the water pump are respectively connected with the controller by signal lines, and the controller is connected with the remote control unit by signal lines or wireless communication; the data acquisition unit is in communication connection with the controller and the remote control unit through signal lines or wireless transmission modes.

Images