CN112224673B - Humidity control method, humidity control device, storage medium, and maintenance storage device - Google Patents
Humidity control method, humidity control device, storage medium, and maintenance storage device Download PDFInfo
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- CN112224673B CN112224673B CN202010681280.2A CN202010681280A CN112224673B CN 112224673 B CN112224673 B CN 112224673B CN 202010681280 A CN202010681280 A CN 202010681280A CN 112224673 B CN112224673 B CN 112224673B
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B65—CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
- B65D—CONTAINERS FOR STORAGE OR TRANSPORT OF ARTICLES OR MATERIALS, e.g. BAGS, BARRELS, BOTTLES, BOXES, CANS, CARTONS, CRATES, DRUMS, JARS, TANKS, HOPPERS, FORWARDING CONTAINERS; ACCESSORIES, CLOSURES, OR FITTINGS THEREFOR; PACKAGING ELEMENTS; PACKAGES
- B65D81/00—Containers, packaging elements, or packages, for contents presenting particular transport or storage problems, or adapted to be used for non-packaging purposes after removal of contents
- B65D81/18—Containers, packaging elements, or packages, for contents presenting particular transport or storage problems, or adapted to be used for non-packaging purposes after removal of contents providing specific environment for contents, e.g. temperature above or below ambient
- B65D81/22—Containers, packaging elements, or packages, for contents presenting particular transport or storage problems, or adapted to be used for non-packaging purposes after removal of contents providing specific environment for contents, e.g. temperature above or below ambient in moist conditions or immersed in liquids
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B65—CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
- B65D—CONTAINERS FOR STORAGE OR TRANSPORT OF ARTICLES OR MATERIALS, e.g. BAGS, BARRELS, BOTTLES, BOXES, CANS, CARTONS, CRATES, DRUMS, JARS, TANKS, HOPPERS, FORWARDING CONTAINERS; ACCESSORIES, CLOSURES, OR FITTINGS THEREFOR; PACKAGING ELEMENTS; PACKAGES
- B65D25/00—Details of other kinds or types of rigid or semi-rigid containers
- B65D25/02—Internal fittings
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B65—CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
- B65D—CONTAINERS FOR STORAGE OR TRANSPORT OF ARTICLES OR MATERIALS, e.g. BAGS, BARRELS, BOTTLES, BOXES, CANS, CARTONS, CRATES, DRUMS, JARS, TANKS, HOPPERS, FORWARDING CONTAINERS; ACCESSORIES, CLOSURES, OR FITTINGS THEREFOR; PACKAGING ELEMENTS; PACKAGES
- B65D85/00—Containers, packaging elements or packages, specially adapted for particular articles or materials
- B65D85/07—Containers, packaging elements or packages, specially adapted for particular articles or materials for compressible or flexible articles
- B65D85/08—Containers, packaging elements or packages, specially adapted for particular articles or materials for compressible or flexible articles rod-shaped or tubular
- B65D85/12—Containers, packaging elements or packages, specially adapted for particular articles or materials for compressible or flexible articles rod-shaped or tubular for cigars
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Abstract
The application relates to a humidity control method and device, a storage medium and a maintenance storage device. The method comprises the following steps: acquiring the relative humidity in the curing box; when the difference value between the relative humidity in the curing box and the preset humidity range is smaller than a preset difference value threshold value, circularly executing the following steps until the relative humidity in the curing box accords with the preset humidity range; controlling a humidity adjusting mechanism to execute a humidity adjusting action; the humidity adjusting mechanism is arranged on the inner wall of the curing box; when the time length of the humidity adjusting mechanism for executing the humidity adjusting action reaches a first preset time length, the humidity adjusting mechanism is stopped to execute the humidity adjusting action; and returning to the step of controlling the humidity adjusting mechanism to execute the humidity adjusting action when the time for suspending the humidity adjusting mechanism to execute the humidity adjusting action reaches a second preset time. By adopting the method, the storage and maintenance effects of the cigar maintenance and storage device on cigars can be improved.
Description
Technical Field
The present disclosure relates to storage devices, and particularly to a humidity control method and device for a storage device, a storage medium and a storage device.
Background
Along with the improvement of living standard of people, the number of people who take tobacco products is more and more. Examples of tobacco products are cigars, cigarettes and the like, and cigars are used as examples herein. Generally, after the cigar is produced, the cigar needs to be maintained and cured for a period of time under the environment with proper temperature (16-20 ℃) and proper relative humidity (60-70%), and the cigar has mellow taste and is suitable for being smoked by people. And thus the demand for devices for storing cigars is increasing.
Although the traditional cigar maintenance and storage device can adjust the humidity in the storage cabinet, the humidity in the box tends to show dynamic distribution nonuniformity, and the traditional cigar maintenance and storage device tends to lack fine control on the humidity in the box, so that the traditional cigar maintenance and storage device has poor effect on the storage and maintenance of cigars.
Disclosure of Invention
In view of the above, it is necessary to provide a humidity control method and device, a storage medium, and a curing and storing device applied to the curing and storing device, which can improve the effect of storing and curing cigars by the curing and storing device.
A humidity control method for a curing storage device including a curing box, the method comprising:
acquiring the relative humidity in the curing box;
when the difference value between the relative humidity in the curing box and the preset humidity range is smaller than a preset difference value threshold value, circularly executing the following steps until the relative humidity in the curing box accords with the preset humidity range;
controlling a humidity adjusting mechanism to execute a humidity adjusting action; the humidity adjusting mechanism is arranged on the inner wall of the curing box;
when the time length of the humidity adjusting mechanism for executing the humidity adjusting action reaches a first preset time length, the humidity adjusting mechanism is stopped to execute the humidity adjusting action;
and returning to the step of controlling the humidity adjusting mechanism to execute the humidity adjusting action when the time for suspending the humidity adjusting mechanism to execute the humidity adjusting action reaches a second preset time.
A humidity control device is applied to a maintenance storage device comprising a maintenance box, and comprises:
the acquisition module is used for acquiring the relative humidity in the curing box;
the circulating execution module is used for circularly executing the following steps when the difference value between the relative humidity in the curing box and the preset humidity range is smaller than a preset difference threshold value until the relative humidity in the curing box accords with the preset humidity range;
the control module is used for controlling the humidity adjusting mechanism to execute the humidity adjusting action; the humidity adjusting mechanism is arranged on the inner wall of the maintenance box;
the suspension module is used for suspending the humidity adjusting mechanism to execute the humidity adjusting action when the time length of the humidity adjusting mechanism to execute the humidity adjusting action reaches a first preset time length;
and the returning module is used for returning to the step of controlling the humidity adjusting mechanism to execute the humidity adjusting action when the time for suspending the humidity adjusting mechanism to execute the humidity adjusting action reaches a second preset time.
A maintenance storage device, the maintenance storage device comprising:
a curing box;
the humidity adjusting mechanism is arranged on the inner wall of the curing box and is used for adjusting the relative humidity in the curing box;
the controller is electrically connected with the humidity adjusting mechanism and comprises a memory and a processor, the memory stores a computer program, and the processor executes the computer program to realize the steps of the method.
A computer-readable storage medium, on which a computer program is stored which, when being executed by a processor, carries out the steps of the method as described above.
According to the humidity control method, the humidity control device, the computer equipment and the storage medium, by acquiring the relative humidity in the curing box, when the difference value between the relative humidity in the curing box and the preset humidity range is judged to be smaller than the preset difference value threshold value, the humidity adjusting mechanism arranged on the inner wall of the curing box is controlled to execute the humidity adjusting action, when the time length for executing the humidity adjusting action by the humidity adjusting mechanism reaches a first preset time length, the humidity adjusting mechanism is paused to execute the humidity adjusting action, when the time length for executing the humidity adjusting action by the humidity adjusting mechanism is paused reaches a second preset time length, the step of controlling the humidity adjusting mechanism to execute the humidity adjusting action is returned, and the steps are continuously and circularly executed until the controller detects that the relative humidity in the curing box accords with the preset humidity range; therefore, when the relative humidity in the curing box is close to the preset humidity range, the relative humidity in the curing box can be adjusted in a small range by adopting an intermittent humidification/dehumidification + delay balance mode, so that the humidity in the box gradually reaches a set value, the relative humidity in the curing box is finely controlled, and the storage and maintenance effects of the curing and storing device for storing cigars on cigars are improved.
Drawings
The accompanying drawings, which are incorporated in and constitute a part of this application, illustrate embodiments of the application and, together with the description, serve to explain the application and are not intended to limit the application.
In order to more clearly illustrate the technical solutions in the embodiments of the present application, the drawings needed to be used in the description of the embodiments will be briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present application, and it is obvious for those skilled in the art to obtain other drawings based on these drawings without creative efforts.
Fig. 1 is a view showing a structure of a maintenance storage device according to an embodiment from a perspective when a cover is opened;
FIG. 2 is an exploded view of a humidifying adjustment assembly of a maintenance storage device according to one embodiment;
FIG. 3 is a schematic view of a humidifying adjustment assembly of a maintenance storage device according to an embodiment;
FIG. 4 is an exploded view of a dehumidification regulation assembly of a maintenance storage device according to one embodiment;
FIG. 5 is a schematic view of a dehumidifying regulation unit of a maintenance storage device according to an embodiment;
fig. 6 is a schematic view of another perspective structure of the dehumidifying regulation assembly of the maintenance storage device according to an embodiment.
FIG. 7 is a schematic flow chart of a humidity control method in one embodiment;
FIG. 8 is a schematic flow chart of a humidity control method according to another embodiment;
FIG. 9 is a block diagram of a humidity control device in accordance with one embodiment;
FIG. 10 is a humidity control flow diagram of a humidity control method in one embodiment;
FIG. 11 is a block diagram illustrating a dehumidification control flow of a humidity control method according to an exemplary embodiment;
FIG. 12 is a block diagram of a humidification control flow for a humidity control method in one embodiment;
FIG. 13 is a diagram illustrating an internal structure of a computer device according to an embodiment.
Detailed Description
To facilitate an understanding of the present application, the present application will now be described more fully with reference to the accompanying drawings. Embodiments of the present application are set forth in the accompanying drawings. This application may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete.
Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this application belongs. The terminology used herein in the description of the present application is for the purpose of describing particular embodiments only and is not intended to be limiting of the application.
Spatial relational terms, such as "under," "below," "beneath," "under," "over," and the like may be used herein to describe one element or feature's relationship to another element or feature as illustrated in the figures. It will be understood that the spatially relative terms are intended to encompass different orientations of the device in use or operation in addition to the orientation depicted in the figures. For example, if the device in the figures is turned over, elements or features described as "below" or "beneath" other elements or features would then be oriented "above" the other elements or features. Thus, the exemplary terms "under" and "under" can encompass both an orientation of above and below. In addition, the device may also include additional orientations (e.g., rotated 90 degrees or other orientations) and the spatial descriptors used herein interpreted accordingly.
It will be understood that when an element is referred to as being "connected" to another element, it can be directly connected to the other element or be connected to the other element through intervening elements. Further, "connection" in the following embodiments is understood to mean "electrical connection", "communication connection", or the like, if there is a transfer of electrical signals or data between the connected objects.
As used herein, the singular forms "a", "an" and "the" may include the plural forms as well, unless the context clearly indicates otherwise. It will be further understood that the terms "comprises/comprising," "includes" or "including," etc., specify the presence of stated features, integers, steps, operations, components, parts, or combinations thereof, but do not preclude the presence or addition of one or more other features, integers, steps, operations, components, parts, or combinations thereof.
In order to make the aforementioned objects, features and advantages of the present application more comprehensible, embodiments accompanying the present application are described in detail below with reference to the accompanying drawings. In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present application. This application is capable of embodiments in many different forms than those described herein and that modifications may be made by one skilled in the art without departing from the spirit and scope of the application and it is therefore not intended to be limited to the specific embodiments disclosed below.
Because the relative humidity in the curing box is smaller in the adjusting process, the smaller the diameter of the atomized water molecular group is, the more balanced the relative humidity of each part environment in the curing box is adjusted, and the curing box inner cavity environment with uniformly distributed humidity is more beneficial to the cigar storage and curing process.
Based on this, fig. 1 shows a schematic structural diagram of the maintenance storage device in an embodiment of the present application when the cover is opened, and further, the humidity adjustment mechanism includes a humidification adjustment assembly 80 and a dehumidification adjustment assembly 90. It should be noted that the humidification adjusting device 80 and the dehumidification adjusting device 90 may be provided independently or integrated together. Furthermore, the humidity control mechanisms which are arranged independently can reduce the mutual influence between the humidity control mechanisms and the maintenance storage device, and can reduce the overall size of the maintenance storage device.
Referring to fig. 1, 2 and 3, fig. 2 is a schematic structural diagram illustrating a humidifying adjusting assembly and a humidifying system cover of a maintenance storage device according to an embodiment; fig. 3 is a schematic structural view illustrating a humidifying adjustment assembly of a maintenance storage device according to an embodiment, which is mounted on a humidifying system cover. In one embodiment, humidification adjustment assembly 80 includes an atomizing humidification assembly 81, an evaporation assembly 82, and a humidification fan 83. The atomizing humidification module 81 is provided with a humidified gas flow output. The evaporation assembly 82 includes an evaporation housing 821 and a water molecule attachment disposed in the evaporation housing 821, the evaporation housing 821 is provided with two first air inlets 822 and a first air outlet (not shown), and one of the first air inlets 822 is communicated with the humidified air output end. An air outlet of the humidifying fan 83 is connected to another first air inlet 822, and the humidifying fan 83 is used for discharging the evaporation air in the evaporation housing 821 into the curing box 10 through the first air outlet.
When it is determined that the relative humidity in the curing box 10 is low (specifically, for example, lower than 60%) and humidification is required, the atomizing and humidifying assembly 81 is turned on, the atomizing and humidifying assembly 81 sends the humidified atomized water molecule airflow into the evaporation housing 821 through the humidified airflow output end, and attaches the atomized water molecules to the water molecule attachment, which is used for absorbing the atomized water molecules and blocking the atomized water molecules from directly entering the inner cavity of the curing box 10. After the atomization humidification component 81 stops working, the humidification fan 83 is started again, air flow generated by the humidification fan 83 is used for carrying out secondary evaporation on water molecules adsorbed on the water molecule attachment body, and air flow generated by the humidification fan 83 flows into the box, so that the humidity in the box is improved. In addition, the diameter of molecular clusters in the air flow is effectively reduced while the humidity of the air flow in the curing box 10 is improved, the diameter of the molecular clusters in the air in the curing box 10 is smaller, and the molecular clusters are easy to uniformly diffuse into the curing box 10, so that the humidity in the curing box 10 is more balanced, and the curing effect can be improved.
Referring to fig. 2 and 3, the atomizing and humidifying assembly 81 further includes a water box 811, a humidifier and a nozzle 813. The humidifier comprises a humidifying casing 812 communicated with a water box 811, and an atomizing sheet arranged in the humidifying casing 812. Humidification housing 812 is coupled to showerhead 813. The nozzle 813 is in communication with a first air inlet 822. Specifically, the humidifier is an ultrasonic humidifier, and the ultrasonic humidifier further includes an ultrasonic generator, and the ultrasonic generator is, for example, integrally provided in the controller, but may be separately provided. The atomizing plate generates high-frequency oscillation by using the ultrasonic generator, water guided into the atomizing plate from the water box 811 is thrown away from the water surface to generate elegant water mist in the high-frequency oscillation process of the atomizing plate, and the water mist is sprayed into the evaporation shell 821 through the spray head 813.
In one embodiment, the water molecule attachment is a silver ion or a nanomaterial. The silver ion substance and the nano material body have better functions of adsorbing atomized water molecules and realizing secondary evaporation. In this embodiment, the water molecule attachment is silver ion, which not only can effectively adsorb atomized water molecules, but also has the function of sterilization.
Further, the water molecule attachment is silver ion particles or nanoparticles. Thus, when the silver ion particles or nanoparticles are disposed in the evaporation housing 821, airflow gaps are formed between the particles, and after the humidified airflow of atomized water molecules enters the evaporation housing 821, on one hand, the atomized water molecules can contact the outer surfaces of the particles and are adsorbed by the outer surfaces of the particles; on the other hand, although the water molecule attachment installed in the evaporation housing 821 has a certain blocking effect on the atomized water molecule airflow, the water molecule attachment can be discharged to the inside of the curing box 10 through the first air outlet of the evaporation housing 821 by the humidifying fan 83.
In one embodiment, the evaporation housing 821 is a silver ion cartridge or a nano-material cartridge. In this way, atomized water molecules are adsorbed not only by the water molecule attachment but also by the inner wall of the evaporation case 821 after entering the evaporation case 821. In this embodiment, the evaporation case 821 is a silver ion cartridge.
Referring to fig. 1, fig. 2 and fig. 3, the humidity adjustment mechanism further includes a second sensor 51 and a humidification system cover 52. The controller includes a reminder. The humidification system cover 52 has a second air outlet 521 and a second air inlet 522, the humidification adjusting assembly 80 is disposed in the humidification system cover 52, and the air inlet of the humidification fan is disposed corresponding to the second air inlet 522. The first air outlet and the second air outlet 521 are correspondingly arranged, and the humidified gas is directly discharged outwards through the second air outlet 521 by the first air outlet. In one embodiment, the atomizing humidification module 81, the evaporation module 82 and the humidification fan 83 are housed inside the humidification system housing 52. Specifically, the silver ion cassette of the evaporation assembly 82 is detachably mounted inside the humidification system cover 52, so that the silver ion cassette can be taken out for replacing silver ion particles. Of course, the silver ion box may be integrated with the humidification system cover 52, or may be separately designed and placed inside the humidification system cover 52, which is not limited herein.
Referring to fig. 1, 2 and 3, in addition, the water box 811 may be designed independently, for example, fastened to the humidification system cover 52 by a snap-fit manner, or integrated with the humidification system cover 52 directly. In this embodiment, water box 811 can independent design, convenient dismantlement, removal and water injection. The water box 811 upper portion is provided with the water filling port for add water for water box 811, has shutoff piece 814 on the water filling port, like the plug, be used for the sealed of water box 811 after the water injection is accomplished, satisfy and add maintenance storage device's humidification mechanism and remove the in-process water seal requirement in portable. In order to improve the water atomization effect and prolong the service life of the atomization sheet, the water in the water box 811 is preferably purified water or distilled water.
Referring to fig. 1, fig. 2 and fig. 3, further, the second sensor 51 is disposed at the second air outlet 521, and the second sensor 51 is used for acquiring the relative humidity at the second air outlet 521. The prompter is used for performing a prompting action when the difference value of the relative humidity acquired by the second sensor 51 is smaller than a preset value. Further, the prompter is specifically an alarm or a display, and the alarm is used for performing an alarm action when the difference value of the relative humidity acquired by the second sensor 51 is smaller than a preset value. The display is used for displaying when the difference value of the relative humidity acquired by the second sensor 51 is smaller than a preset value.
The second sensor 51 may be disposed at the second outlet 521, or may be disposed at a position adjacent to the second outlet 521, in order to obtain the relative humidity of the gas discharged from the second outlet 521.
Referring to fig. 4 to 6, fig. 4 is a schematic structural view illustrating a dehumidifying regulation assembly and a dehumidifying system cover of a maintenance storage device according to an embodiment; FIG. 5 is a schematic view of a dehumidifying regulation module of a curing and storing device installed in a dehumidifying system cover according to an embodiment; fig. 6 is a schematic view of another perspective view of the dehumidifying regulation module of the curing and storing device installed in the dehumidifying system cover according to an embodiment. In one embodiment, the dehumidification regulation assembly 90 includes a dehumidification box 91 and a dehumidification fan 92. The dehumidifying box 91 is provided with a dehumidifying object therein, the dehumidifying box 91 is provided with a third air inlet and a third air outlet, the air outlet of the dehumidifying fan 92 is connected to the third air inlet, and the dehumidifying fan 92 is used for drawing the air flow in the curing box 10 (as shown in fig. 2) into the dehumidifying box 91. Specifically, the dehumidifying fan 92 is electrically connected to a controller (not shown).
Referring to fig. 4 to 6, in one embodiment, the humidity adjustment mechanism further includes a dehumidification system cover 53 and a third sensor 56. The dehumidification system cover 53 has a fourth air inlet 531 and a fourth air outlet 532. The dehumidification regulation assembly 90 is disposed in the dehumidification system housing 53. The third sensor 56 is disposed at the fourth wind outlet 532 for obtaining the relative humidity at the fourth wind outlet 532. Specifically, the alarm is also used for performing an alarm action when the difference of the relative humidity acquired by the third sensor 56 is smaller than a preset value.
The third sensor 56 can sense the humidity of the air processed by the dehumidifying box 91, and is mainly used for determining whether the adsorption capacity of the dehumidified substances in the dehumidifying box 91 is invalid. One specific judgment method is as follows: judging the change of the humidity sensing value twice in a preset time interval (for example, 60s), namely the difference value of the humidity values twice, and when the change is smaller than a certain value (for example, 10 percent, the value depends on the precision of the humidity sensor), judging that the water absorption characteristic of the dehumidified object in the dehumidification box 91 is invalid, controlling the action of an alarm by the controller, and alarming to replace the dehumidified object in the dehumidification box 91. Alternatively, in order to facilitate replacement of the dehumidification inside the dehumidification box 91, the dehumidification box 91 is detachably fixed to the dehumidification system cover 53 using, for example, a snap structure.
The third sensor 56 may be disposed at other positions, for example, at the side adjacent to the circulation fan 54 illustrated in fig. 5, and after the circulation fan 54 sucks the dehumidified air into the dehumidification system cover 53, the third sensor 56 senses the humidity of the air processed by the dehumidification box 91 to determine whether the adsorption capacity of the dehumidified material in the dehumidification box 91 is disabled.
Referring to fig. 2, 4 and 5, further, an air-isolating plate 55 is disposed in the dehumidifying system cover 53, the dehumidifying system cover 53 is divided into two spaces by the air-isolating plate 55, the dehumidifying box 91 and the dehumidifying fan 92 are disposed in one of the spaces, and the fourth air inlet 531 and the fourth air outlet 532 on the dehumidifying system cover 53 are communicated with the space. The circulating fan 54 is disposed in another space, the dehumidifying system cover 53 is further provided with a fifth air inlet 533 and a fifth air outlet 534 communicated with the another space, when the circulating fan 54 works, the air flow in the curing box 10 enters through the fifth air inlet 533 and is discharged from the fifth air outlet 534, so that the air flow in the curing box 10 can be driven to circularly flow.
In one embodiment, as shown in fig. 7, a humidity control method is provided, which is exemplified by a controller applied to a curing storage device including a curing box, and includes the following steps:
step S710, acquiring the relative humidity in the curing box.
Wherein, the relative humidity can be the percentage of the water vapor pressure in the air and the saturated water vapor pressure at the same temperature.
In the concrete realization, the controller is at the in-process that controls the relative humidity in the curing box, and the relative humidity in the curing box is acquireed through the sensor in real time to the controller.
Step S720, when the difference value between the relative humidity in the curing box and the preset humidity range is smaller than the preset difference value threshold value, the following steps are executed in a circulating manner until the relative humidity in the curing box accords with the preset humidity range.
In practical applications, the predetermined humidity range may refer to a relative humidity of 60% to 70%.
In the concrete implementation, after the controller is acquiring the relative humidity in the curing box, the controller firstly judges whether the relative humidity in the curing box accords with the preset humidity range. When the controller judges that the relative humidity in the curing box does not accord with the preset humidity range, the controller acquires the difference value between the relative humidity in the curing box and the preset humidity range.
When the controller judges that the difference value between the relative humidity in the curing box and the preset humidity range is smaller than the preset difference value threshold value, the controller executes the following steps in a circulating mode until the controller detects that the relative humidity in the curing box accords with the preset humidity range.
In step S730, the humidity control mechanism is controlled to perform a humidity control operation. The humidity control mechanism is arranged on the inner wall of the curing box.
In step S740, when the time length for the humidity adjustment mechanism to perform the humidity adjustment operation reaches a first preset time length, the humidity adjustment mechanism is suspended from performing the humidity adjustment operation.
And step S750, when the time for suspending the humidity adjusting mechanism to execute the humidity adjusting action reaches a second preset time, returning to the step of controlling the humidity adjusting mechanism to execute the humidity adjusting action.
Specifically, when the controller judges that the difference value between the relative humidity in the curing box and the preset humidity range is smaller than the preset difference value threshold value, the controller controls the humidity adjusting mechanism arranged on the inner wall of the curing box to execute a humidity adjusting action, so that the relative humidity in the curing box is adjusted. And when the time length of the humidity adjusting mechanism executing the humidity adjusting action reaches a first preset time length, the humidity adjusting mechanism is stopped executing the humidity adjusting action. And when the time for suspending the humidity adjusting mechanism to execute the humidity adjusting action reaches a second preset time, returning to the step of controlling the humidity adjusting mechanism to execute the humidity adjusting action until the controller detects that the relative humidity in the curing box accords with a preset humidity range, and ending the circulation.
In practical applications, the first preset time period may be 5S. The second preset duration may be 30S. The preset difference threshold may be 2%.
For example, if it is required to control the relative humidity in the curing box to be 60% to 70%, when the controller detects that the relative humidity in the curing box is 58.2%, a difference value between the relative humidity in the curing box and a preset humidity range of 1.8% is smaller than a preset difference threshold value of 2%, which indicates that the difference between the humidity in the inner cavity of the box and the set value is small. Therefore, the controller can control the humidity adjusting mechanism to perform the humidifying action for 5S, then pause the humidity adjusting mechanism to perform the humidifying action for 30S, then control the humidity adjusting mechanism to perform the humidifying action for 5S, and continuously and circularly perform the steps until the relative humidity in the curing box is controlled to be 60-70%.
According to the humidity control method, by acquiring the relative humidity in the curing box, when the difference value between the relative humidity in the curing box and the preset humidity range is smaller than the preset difference threshold value, the humidity adjusting mechanism arranged on the inner wall of the curing box is controlled to execute the humidity adjusting action, when the time length for executing the humidity adjusting action by the humidity adjusting mechanism reaches a first preset time length, the humidity adjusting mechanism is paused to execute the humidity adjusting action, when the time length for executing the humidity adjusting action by the pause humidity adjusting mechanism reaches a second preset time length, the step of controlling the humidity adjusting mechanism to execute the humidity adjusting action is returned, and the steps are continuously and circularly executed until the controller detects that the relative humidity in the curing box 20 meets the preset humidity range; so, when the relative humidity in the curing box is close to and predetermines the humidity scope, through taking intermittent humidification/dehumidification + time delay balanced mode, can adjust the relative humidity in the curing box by the minizone, make incasement humidity reach the setting value gradually to realize controlling the relative humidity in the curing box more meticulously, improved the maintenance storage device who is used for depositing the cigar and to the storage maintenance effect of cigar.
In another embodiment, after the step of obtaining the relative humidity inside the curing box, the method further comprises: judging whether the difference value between the relative humidity in the curing box and the preset humidity range is smaller than a preset difference threshold value or not; if not, controlling the humidity adjusting mechanism to continuously perform the humidity adjusting action until the difference value between the relative humidity in the curing box and the preset humidity range is smaller than the preset difference value threshold value.
In the concrete implementation, after the controller acquires the relative humidity in the curing box, the controller judges whether the difference value between the relative humidity in the curing box and the preset humidity range is smaller than a preset difference threshold value, if not, the controller controls the humidity adjusting mechanism to continuously perform the humidity adjusting action until the difference value between the relative humidity in the curing box and the preset humidity range is smaller than the preset difference threshold value.
For example, if it is required to control the relative humidity in the curing box to be 60% to 70%, when the controller detects that the relative humidity in the curing box is 50%, a difference value between the relative humidity in the curing box and a preset humidity range is not less than 10% and is not less than 2% of a preset difference value threshold, which indicates that the difference between the humidity in the inner cavity of the box body and a set value is larger, the controller controls the humidity adjusting mechanism to continuously perform the humidifying operation until the difference value between the relative humidity in the curing box and the preset humidity range is less than the preset difference value threshold.
According to the technical scheme, when the difference value between the relative humidity in the curing box and the preset humidity range is not smaller than the preset difference value threshold value, the humidity adjusting mechanism is controlled to continuously execute the humidity adjusting action, so that the relative humidity in the curing box can be quickly close to the preset humidity range, and the relative humidity in the curing box can be efficiently adjusted.
In another embodiment, controlling the humidity adjustment mechanism to perform a humidity adjustment action includes: when the relative humidity in the curing box is judged to be smaller than a first humidity set value, controlling a humidity adjusting mechanism to perform a humidifying action; and when the relative humidity in the curing box is judged to be greater than the second humidity set value, controlling the humidity adjusting mechanism to execute a dehumidifying action.
In practice, the first humidity set point is less than the second humidity set point. For example, the first humidity set point may be 60%. The second humidity set point may refer to 70%.
In a specific implementation, the controller may specifically include the following steps in a process of controlling the humidity adjustment mechanism to perform the humidity adjustment action: when the controller judges that the relative humidity in the curing box is smaller than the first humidity set value, the humidity adjusting mechanism is controlled to execute the humidifying action. And when the controller judges that the relative humidity in the curing box is greater than the second humidity set value, controlling the humidity adjusting mechanism to execute dehumidification action.
According to the technical scheme of the embodiment, in the process of controlling the humidity adjusting mechanism to adjust the relative humidity in the curing box to the preset humidity range, when the relative humidity in the curing box is judged to be lower than a first humidity set value, the humidity adjusting mechanism is controlled to execute a humidifying action; when the relative humidity in the curing box is judged to be higher than the second humidity set value, the humidity adjusting mechanism is controlled to execute the dehumidifying action, so that the relative humidity in the curing box can be finely controlled, and the storage and curing effects of the curing and storing device for storing cigars on cigars are improved.
In another embodiment, the humidity adjusting mechanism comprises an atomizing and humidifying component and a humidifying fan, and the humidity adjusting mechanism is controlled to perform humidifying actions, including: when the relative humidity in the curing box is smaller than the humidification starting limit value, controlling the atomization humidification assembly to operate to generate atomized water molecules, and controlling the humidification fan to be in a stop state; wherein the humidification starting limit value is smaller than the first humidity set value; the difference value between the humidification starting limit value and the first humidity set value meets a preset first difference value threshold value; judging whether the relative humidity in the curing box is greater than a third humidity set value or not; wherein the third humidity set value is greater than the first humidity set value; if so, controlling the atomization humidification assembly to stop running and controlling the humidification fan to be in a running state again. And after a preset first waiting time, executing a step of judging whether the relative humidity in the curing box is smaller than a humidification starting limit value or not. In practical applications, the first waiting time may be 30S.
Wherein, humidity control mechanism includes atomizing humidification subassembly and humidification fan.
Wherein the humidification starting limit value is smaller than the first humidity set value; the difference between the humidification starting limit value and the first humidity set value meets a preset first difference threshold value. For example, assume that the first humidity set point is RHsetWhen the first difference threshold is Δ RH, the humidification start limit value may be expressed as RHset-ΔRH。
It should be noted that, a person skilled in the art may adaptively adjust the magnitude of the first difference threshold according to the actual control accuracy, and the magnitude of the first difference threshold is not specifically limited herein.
Wherein the third humidity set point is greater than the first humidity set point. And the difference value between the third humidity set value and the first humidity set value meets a preset second difference value threshold value. In practice, the third humidity set point may be 80% rh.
In a specific implementation, when the controller controls the humidity adjustment mechanism to perform the humidification action, the method may specifically include: the controller may determine whether the relative humidity within the curing box is less than a humidification start limit. When the relative humidity in the curing box is judged to be smaller than the humidifying starting limit value, the controller controls the atomizing and humidifying component to operate to generate atomized water molecules; meanwhile, the atomization humidification component and the humidification fan are in an alternate working state; therefore, when the controller controls the operation of the atomizing and humidifying component to generate the atomized water molecules, the controller simultaneously controls the humidifying fan to be in a stop state.
Meanwhile, when the controller detects that the relative humidity in the curing box is greater than a third humidity set value, the controller controls the atomization humidification assembly to stop running, after the atomization humidification assembly stops running, because the atomization humidification assembly and the humidification fan are in alternative working states, therefore, after the controller controls the atomization humidification assembly to stop running, the controller simultaneously controls the humidification fan to be in a running state again, secondary evaporation is carried out on water molecules adsorbed on a water molecule attachment body by utilizing air flow generated by the humidification fan, and the air flow generated along with the humidification fan flows into the box, so that the humidity in the box is improved. In addition, the diameter of molecular groups in the air flow is effectively reduced while the humidity of the air flow in the curing box is improved, the diameter of water molecules in the air in the curing box is smaller, the water molecules are easy to uniformly diffuse into the curing box, the humidity in the curing box is more balanced, and the curing effect can be improved. After delaying for 30 seconds, the controller re-executes the step of determining whether the relative humidity in the curing box is less than the humidification start limit.
According to the technical scheme of the embodiment, when the relative humidity in the curing box is smaller than the humidification starting limit value, the atomization and humidification component is controlled to operate to generate atomized water molecules, and the humidification fan is controlled to be in a stop state; judging whether the relative humidity in the curing box is greater than a third humidity set value or not; if so, controlling the atomization humidification assembly to stop running and controlling the humidification fan to be in a running state again. So, can accurately carry out the adjustment that becomes more meticulous to the relative humidity in the curing box, improve the maintenance that is used for depositing the maintenance of cigar and stores up the storage curing effect of device to the cigar.
Meanwhile, whether the relative humidity in the maintenance box is smaller than a humidification starting limit value or not is judged, whether the operation of the atomization and humidification component is controlled to generate atomized water molecules or not is determined, the humidity lower limit value for triggering the humidity adjusting mechanism to execute humidification action is further improved, the phenomenon that humidity adjustment overshoots occur when the humidity adjusting mechanism is close to a set humidity value, dehumidification and humidification work alternately is caused, the humidification and the dehumidification form vicious circle in the inner cavity of the box body, and finally the conditions that water in the humidification water box is exhausted and dehumidification adsorbing substances are invalid are caused.
In another embodiment, after the steps of controlling the atomizing humidification assembly to operate to generate atomized water molecules and controlling the humidification fan to be in a stop state, the method further comprises: and when the relative humidity in the curing box is smaller than or equal to the third humidity set value, determining the first humidity variation in the curing box when the atomization and humidification assembly is in the working state.
And when the first humidity change value is larger than or equal to a preset first change value threshold value, controlling the atomization humidification assembly to stop running, controlling the humidification fan to be in a running state, returning to the step of controlling the atomization humidification assembly to run to generate atomized water molecules after a preset second waiting time, and controlling the humidification fan to be in a stop running state.
When the first humidity change value is smaller than the first change value threshold value, generating a humidification component abnormity alarm; and the humidification component abnormity warning is used for prompting a user to carry out water adding operation on the atomization humidification component.
In a specific implementation, the controller may further include, after the step of controlling the operation of the atomizing and humidifying assembly to generate atomized water molecules and controlling the humidifying fan to be in a stall state: when the controller judges that the relative humidity in the curing box is smaller than or equal to the third humidity set value, the controller determines the first humidity variation in the curing box when the atomizing and humidifying assembly is in the working state.
Specifically, the controller may record the adjusted relative humidity in the curing box before the atomizing and humidifying component is in the working state, and then record the adjusted relative humidity in the curing box after waiting for a preset waiting time period, for example, 3S; then, the controller determines a first humidity variation in the curing box when the atomization humidification assembly is in the working state according to the adjusted relative humidity and the adjusted relative humidity.
When the controller judges that the first humidity change value is larger than or equal to the preset first change value threshold value, the controller controls the atomization humidification component to stop running, and after the atomization humidification component stops working, the atomization humidification component and the humidification fan are in an alternative working state, so that after the controller controls the atomization humidification component to stop running, the controller simultaneously controls the humidification fan to be in a running state again. Then, the controller returns to the step of controlling the atomization humidification assembly to operate to generate atomized water molecules and controlling the humidification fan to be in a stop state after the preset second waiting time.
When the controller judges that the first humidity change value is smaller than the first change value threshold value, the controller generates a humidification component abnormity warning; the humidifying component abnormity warning is used for prompting a user to carry out water adding operation on the atomizing and humidifying component.
According to the technical scheme of the embodiment, when the relative humidity in the curing box is smaller than or equal to a third humidity set value, the first humidity variation in the curing box when the atomizing and humidifying component is in the working state is determined; when the first humidity change value is larger than or equal to the preset first change value threshold value, the atomization humidification component is controlled to stop running, and the humidification fan is controlled to be in a running state, so that the diameter of water molecules in air is smaller, the water molecules can be easily and uniformly diffused into the box, and the humidity adjustment in the box is more balanced. Meanwhile, when the first humidity change value is smaller than the first change value threshold value, a humidification component abnormity warning for prompting a user to add water to the atomization humidification component is generated in time, and the situation that the humidification adjustment cannot be performed on the maintenance box due to water shortage of the atomization humidification component is avoided.
In another embodiment, the method further comprises: judging whether the relative humidity in the curing box is smaller than a first humidity set value or not; if not, judging whether the relative humidity in the curing box is smaller than a second humidity set value or not; when the relative humidity in the curing box is judged to be not less than the second humidity set value, returning to the step of controlling the atomization and humidification component to stop running and controlling the humidification fan to be in a running state again; and when the relative humidity in the curing box is judged to be smaller than the second humidity set value, executing the step of judging whether the relative humidity in the curing box is smaller than the humidification starting limit value.
In the concrete implementation, the controller judges whether the relative humidity in the curing box is smaller than a first humidity set value or not; when the controller judges that the relative humidity in the curing box is greater than or equal to a first humidity set value, the controller judges whether the relative humidity in the curing box is smaller than a second humidity set value or not; when the controller judges that the relative humidity in the curing box is greater than or equal to the second humidity set value, the controller controls the atomizing and humidifying assembly to stop running and controls the humidifying fan to be in a normal rotation state again. When the controller judges that the relative humidity in the curing box is smaller than the second humidity set value, the controller executes the step of judging whether the relative humidity in the curing box is smaller than the humidification starting limit value again.
According to the technical scheme of the embodiment, when the relative humidity in the curing box is equal to or equal to a first humidity set value, whether the relative humidity in the curing box is smaller than a second humidity set value is judged; if not, returning to the step of controlling the atomization and humidification component to stop running and controlling the humidification fan to be in a normal rotation state again; if so, returning to the step of judging whether the relative humidity in the curing box is smaller than a first humidity set value; so, can in time control atomizing humidification subassembly bring to rest when the relative humidity in the curing box surpassed the second humidity set value to control the humidification fan and be in the normal state of changeing again, avoid making the relative humidity in the curing box too high.
In another embodiment, the humidity adjusting mechanism comprises a dehumidifying fan and a dehumidifying box, the dehumidifying fan is used for drawing the air flow in the curing box into the dehumidifying box, and the humidity adjusting mechanism is controlled to execute dehumidifying action, which comprises: when the relative humidity in the curing box is greater than the dehumidification starting limit value, controlling the dehumidification fan to be in a running state; wherein the dehumidification start limit is greater than the second humidity set value; the difference value between the dehumidification starting limit value and the second humidity set value meets a preset third difference value threshold value; when the operation length of the dehumidifying fan is larger than a preset operation length threshold value, judging whether the relative humidity in the curing box is smaller than a second humidity set value or not; if so, controlling the dehumidifying fan to be in a stop state, and returning to the step of judging whether the relative humidity in the curing box is greater than the dehumidifying start limit value.
The humidity adjusting mechanism comprises a dehumidifying fan and a dehumidifying box, and the dehumidifying fan is used for drawing the airflow in the curing box into the dehumidifying box.
Wherein the dehumidification start limit is greater than the second humidity set value; the difference between the dehumidification start limit and the second humidity set value meets a preset second difference threshold. For example, assume that the second humidity set point is RHsetWhen the third difference threshold is Δ RH, the dehumidification start limit may be expressed as RHset+ΔRH。
It should be noted that, a person skilled in the art may adaptively adjust the magnitude of the third difference threshold according to the actual control accuracy, and the magnitude of the third difference threshold is not specifically limited herein.
In practical applications, the operation duration threshold may be 60S.
In a specific implementation, the controlling the humidity adjusting mechanism to execute the dehumidifying action by the controller may specifically include: the controller judges whether the relative humidity in the curing box is larger than a dehumidification starting limit value or not. When the relative humidity in the curing box is greater than the dehumidification starting limit value, controlling the dehumidification fan to be in a running state; when the operation time of the dehumidifying fan is longer than a preset operation time threshold, judging whether the relative humidity in the curing box is smaller than a second humidity set value; if so, controlling the dehumidifying fan to be in a stop state, and returning to the step of judging whether the relative humidity in the curing box is greater than the dehumidifying start limit value.
In another embodiment, in the process of the humidity adjusting mechanism executing the humidifying action, when the humidity adjusting mechanism is judged to be required to be controlled to execute the dehumidifying action, the humidity adjusting mechanism is controlled to stop executing the humidifying action, and after a preset first delay time, the humidity adjusting mechanism is controlled to execute the dehumidifying action; and in the process of executing the dehumidification action by the humidity adjusting mechanism, when judging that the humidity adjusting mechanism needs to be controlled to execute the humidification action, controlling the humidity adjusting mechanism to stop executing the dehumidification action, and controlling the humidity adjusting mechanism to execute the humidification action after a preset second delay time.
Furthermore, the controller can also increase time delay when the humidity adjusting mechanism is switched between the dehumidification mode and the humidification mode, namely, the humidification mode or the dehumidification mode is switched to the other mode, firstly, the mode is stopped to work for a period of time (for example, 5min), and then whether the mode is switched is determined according to the humidity parameters in the box, so that the humidity in the curing box is fully ensured to be in a stable state, and the vicious cycle problem of the dehumidification and the humidification is effectively solved.
Specifically, in the process of the humidity adjusting mechanism performing the humidifying action, when the controller determines that the humidity adjusting mechanism needs to be controlled to perform the dehumidifying action, the controller controls the humidity adjusting mechanism to stop performing the humidifying action, and after a preset first delay time (for example, 5min), the controller controls the humidity adjusting mechanism to perform the dehumidifying action. In the process that the humidity adjusting mechanism executes the dehumidifying action, when the controller judges that the humidity adjusting mechanism needs to be controlled to execute the humidifying action, the controller controls the humidity adjusting mechanism to stop executing the dehumidifying action, and after a preset second delay time (such as 5min), the controller controls the humidity adjusting mechanism to execute the humidifying action.
According to the technical scheme of the embodiment, when the relative humidity in the curing box is greater than the dehumidification starting limit value, the dehumidification fan is controlled to be in the running state, and when the running time of the dehumidification fan is greater than the preset running time threshold value, whether the relative humidity in the curing box is smaller than a second humidity set value is judged; if so, controlling the dehumidifying fan to be in a stop state, and returning to the step of judging whether the relative humidity in the curing box is greater than the dehumidifying start limit value, so that the relative humidity in the curing box is accurately and finely adjusted, and the effect of storing and curing the cigars by the curing and storing device for storing the cigars can be improved.
Meanwhile, whether the relative humidity in the maintenance box is larger than a dehumidification starting limit value or not is judged, whether the dehumidification fan is controlled to be in the running state or not is determined, the humidity upper limit value for triggering the humidity adjusting mechanism to execute the dehumidification action is further improved, the phenomenon of overshoot of humidity adjustment when the humidity adjusting mechanism is close to a set humidity value is avoided, dehumidification and humidification work alternately is caused, the humidification and the dehumidification form vicious circle in the inner cavity of the box body, and finally, the conditions that water in the humidification water box is exhausted and dehumidification adsorbing substances are invalid are caused.
In another embodiment, when the operation time of the dehumidifying fan is greater than the preset operation time threshold, the method further includes: acquiring a second humidity variable quantity in the curing box when the dehumidifying fan is in a running state; when the second humidity variation is smaller than a preset second variation threshold, generating a dehumidification box abnormity alarm; the dehumidification box abnormity warning is used for prompting a user to replace the dehumidification box.
In practical applications, the second variation threshold may be 10%.
In specific implementation, when the controller detects that the operation time of the dehumidifying fan is greater than a preset operation time threshold, the controller acquires a second humidity variable quantity in the curing box when the dehumidifying fan is in an operation state; the controller judges whether the second humidity variation is smaller than a preset second variation threshold value so as to judge whether the adsorption capacity of the dehumidified substances in the dehumidifying box is invalid.
Specifically, the controller may record the pre-adjustment relative humidity in the curing box before the dehumidifying fan is in an operating state, and then record the post-adjustment relative humidity in the curing box after delaying for a preset time period, for example, 30S; then, the controller determines a second humidity variation amount in the curing box when the dehumidifying fan is in the operating state according to the adjusted relative humidity and the adjusted relative humidity.
When the controller judges that the second humidity variation is smaller than a preset second variation threshold, the adsorption capacity of the dehumidified substances in the dehumidifying box is in failure; and generating a dehumidification box abnormity alarm for prompting a user to replace the dehumidification box. Specifically, the controller can control the action of the alarm to alarm the replacement of the dehumidification objects in the dehumidification box. Optionally, to facilitate replacement of dehumidified items within the dehumidification cassette, the dehumidification cassette may be removably secured to the dehumidification system housing, such as by a snap-fit arrangement.
The technical scheme of this embodiment, through obtaining the second humidity change volume in the maintenance case when the dehumidification fan is in running state to judge whether this second humidity change volume is less than predetermined second change volume threshold value, and then judge accurately whether the adsorption efficiency of the dehumidification thing in the dehumidification box is inefficacy, thereby in time generate and be used for the suggestion user to carry out the dehumidification box exception warning of changing the operation to the dehumidification box.
In another embodiment, as shown in fig. 8, there is provided a temperature and humidity control method applied to a maintenance storage device including a maintenance box, including the steps of: and step S810, acquiring the relative humidity in the curing box. Step S820, when the difference between the relative humidity in the curing box and the preset humidity range is smaller than a preset difference threshold, circularly executing the following steps until the relative humidity in the curing box meets the preset humidity range. Step S830, when the relative humidity in the curing box is judged to be smaller than a first humidity set value, controlling a humidity adjusting mechanism arranged on the inner wall of the curing box to perform a humidifying action; and when the relative humidity in the curing box is judged to be greater than a second humidity set value, controlling the humidity adjusting mechanism to execute dehumidification action. And step 840, when the time length of the humidity adjusting mechanism executing the humidity adjusting action reaches a first preset time length, suspending the humidity adjusting mechanism executing the humidity adjusting action. And step S850, returning to the step of controlling the humidity adjusting mechanism to execute the humidity adjusting action when the time for suspending the humidity adjusting mechanism to execute the humidity adjusting action reaches a second preset time. The specific limitations of the above steps can be referred to the above specific limitations of a humidity control method, which are not described herein again.
It should be understood that, although the steps in the flowcharts of fig. 7 and 8 are shown in order as indicated by the arrows, the steps are not necessarily performed in order as indicated by the arrows. The steps are not performed in the exact order shown and described, and may be performed in other orders, unless explicitly stated otherwise. Moreover, at least some of the steps in fig. 7 and 8 may include multiple steps or multiple stages, which are not necessarily performed at the same time, but may be performed at different times, and the order of performing the steps or stages is not necessarily sequential, but may be performed alternately or alternately with other steps or at least some of the other steps or stages.
In one embodiment, as shown in fig. 9, there is provided a humidity control apparatus for a curing storage apparatus including a curing box, including:
an obtaining module 910, configured to obtain a relative humidity inside the curing box;
a circulating execution module 920, configured to, when a difference between the relative humidity in the curing box and a preset humidity range is smaller than a preset difference threshold, circularly execute the following steps until the relative humidity in the curing box meets the preset humidity range;
a control module 930 for controlling the humidity adjustment mechanism to perform a humidity adjustment action; the humidity adjusting mechanism is arranged on the inner wall of the curing box;
a suspending module 940, configured to suspend the humidity adjusting mechanism from executing the humidity adjusting action when a duration of the humidity adjusting mechanism executing the humidity adjusting action reaches a first preset duration;
a returning module 950, configured to return to the step of controlling the humidity adjusting mechanism to execute the humidity adjusting action when the time length for suspending the humidity adjusting mechanism to execute the humidity adjusting action reaches a second preset time length.
In one embodiment, the humidity control apparatus further includes: judging whether the difference value between the relative humidity in the curing box and the preset humidity range is smaller than the preset difference value threshold value or not; if not, controlling the humidity adjusting mechanism to continuously execute the humidity adjusting action until the difference value between the relative humidity in the curing box and the preset humidity range is smaller than the preset difference value threshold value.
In one embodiment, the control module 930 is specifically configured to control the humidity adjusting mechanism to perform a humidifying action when the relative humidity in the curing box is determined to be less than a first humidity set value; and when the relative humidity in the curing box is judged to be greater than a second humidity set value, controlling the humidity adjusting mechanism to execute a dehumidifying action.
In one embodiment, the humidity adjustment mechanism includes an atomizing and humidifying component and a humidifying fan, and the control module 930 is specifically configured to control the atomizing and humidifying component to operate to generate atomized water molecules and control the humidifying fan to be in a stop state when the relative humidity in the curing box is less than a humidifying start limit; wherein the humidification start limit is less than the first humidity set value; the difference value between the humidification starting limit value and the first humidity set value meets a preset first difference value threshold value; judging whether the relative humidity in the curing box is greater than a third humidity set value or not; wherein the third humidity set value is greater than the first humidity set value; the difference value between the third humidity set value and the first humidity set value meets a preset second difference value threshold value; if so, controlling the atomization and humidification component to stop running, and controlling the humidification fan to be in a running state again; and after a preset first waiting time, executing a step of judging whether the relative humidity in the curing box is smaller than the humidification starting limit value.
In one embodiment, the control module 930 is specifically configured to determine a first humidity change amount in the curing box when the atomizing and humidifying component is in the working state when the relative humidity in the curing box is less than or equal to the third humidity set value; when the first humidity change value is larger than or equal to a preset first change value threshold value, controlling the atomization humidification assembly to stop running, controlling the humidification fan to be in a running state, returning to the step of controlling the atomization humidification assembly to run after a preset second waiting time so as to generate atomized water molecules, and controlling the humidification fan to be in a stop state; when the first humidity change value is smaller than the first change value threshold, generating a humidification component abnormity alarm; the humidification component abnormal alarm is used for prompting a user to add water to the atomization humidification component.
In one embodiment, the control module 930 is specifically configured to determine whether the relative humidity in the curing box is less than the first humidity set value; if not, judging whether the relative humidity in the curing box is smaller than the second humidity set value or not; when the relative humidity in the curing box is judged to be not less than the second humidity set value, returning to the step of controlling the atomization humidification component to stop running and controlling the humidification fan to be in a running state again; and when the relative humidity in the curing box is judged to be smaller than the second humidity set value, executing a step of judging whether the relative humidity in the curing box is smaller than the humidification starting limit value.
In one embodiment, the humidity adjusting mechanism includes a dehumidifying fan and a dehumidifying box, the dehumidifying fan is used for drawing the airflow in the curing box into the dehumidifying box, and the control module 930 is specifically used for controlling the dehumidifying fan to be in an operating state when the relative humidity in the curing box is greater than a dehumidifying start limit value; wherein the dehumidification initiation limit is greater than the second humidity set point; the difference value between the dehumidification starting limit value and the second humidity set value meets a preset third difference value threshold value; when the operation time of the dehumidifying fan is longer than a preset operation time threshold, judging whether the relative humidity in the curing box is smaller than the second humidity set value; and if so, controlling the dehumidifying fan to be in a stop state, and returning to the step of judging whether the relative humidity in the curing box is greater than the dehumidifying starting limit value.
In one embodiment, the control module 930 is specifically configured to obtain a second humidity variation in the curing box when the dehumidifying fan is in an operating state; when the second humidity variation is smaller than a preset second variation threshold, generating a dehumidification box abnormity alarm; and the dehumidification box abnormity alarm is used for prompting a user to replace the dehumidification box.
In one embodiment, the control module 930 is specifically configured to, in a process that the humidity adjustment mechanism performs a humidification action, control the humidity adjustment mechanism to stop performing the humidification action when it is determined that the humidity adjustment mechanism needs to be controlled to perform the dehumidification action, and control the humidity adjustment mechanism to perform the dehumidification action after a preset first delay time; and in the process of executing the dehumidification action by the humidity adjusting mechanism, when the humidity adjusting mechanism is judged to be required to be controlled to execute the humidification action, the humidity adjusting mechanism is controlled to stop executing the dehumidification action, and the humidity adjusting mechanism is controlled to execute the humidification action after a preset second delay time.
For a specific limitation of a humidity control device, reference may be made to the above definition of a humidity control method, which is not described in detail herein. The various modules of the humidity control device described above may be implemented in whole or in part by software, hardware, and combinations thereof. The modules can be embedded in a hardware form or independent from a processor in the computer device, and can also be stored in a memory in the computer device in a software form, so that the processor can call and execute operations corresponding to the modules.
To facilitate understanding by those skilled in the art, FIG. 10 provides a humidity control flow diagram of a humidity control method; FIG. 11 provides a dehumidification control flow diagram of a humidity control method; FIG. 12 provides a humidification control flow block diagram of a humidity control method; it should be noted that, for the specific limitation of the above humidity control method, reference may be made to the specific limitation of the above humidity control method, and details are not repeated here.
In one embodiment, a computer device is provided, which may be a server, and its internal structure diagram may be as shown in fig. 13. The computer device includes a processor, a memory, and a network interface connected by a system bus. Wherein the processor of the computer device is configured to provide computing and control capabilities. The memory of the computer device comprises a nonvolatile storage medium and an internal memory. The non-volatile storage medium stores an operating system, a computer program, and a database. The internal memory provides an environment for the operation of an operating system and computer programs in the non-volatile storage medium. The network interface of the computer device is used for communicating with an external terminal through a network connection. The computer program is executed by a processor to implement a humidity control method.
Those skilled in the art will appreciate that the architecture shown in fig. 13 is merely a block diagram of some of the structures associated with the disclosed aspects and is not intended to limit the computing devices to which the disclosed aspects apply, as particular computing devices may include more or less components than those shown, or may combine certain components, or have a different arrangement of components.
In an embodiment, a computer device is provided, comprising a memory and a processor, the memory storing a computer program which, when executed by the processor, causes the processor to perform the steps of a humidity control method as described above. The steps of a humidity control method herein may be steps of a humidity control method of the various embodiments described above.
In one embodiment, a computer readable storage medium is provided, storing a computer program which, when executed by a processor, causes the processor to perform the steps of a humidity control method as described above. Here, the steps of a humidity control method may be the steps of a humidity control method of the above-described respective embodiments.
It will be understood by those skilled in the art that all or part of the processes of the methods of the above embodiments may be implemented by hardware instructions of a computer program, which may be stored in a non-volatile computer readable storage medium, and when executed, may include the processes of the above embodiments of the methods. Any reference to memory, storage, database, or other medium used in the embodiments provided herein can include at least one of non-volatile and volatile memory. Non-volatile Memory may include Read-Only Memory (ROM), magnetic tape, floppy disk, flash Memory, optical storage, or the like. Volatile Memory can include Random Access Memory (RAM) or external cache Memory. By way of illustration and not limitation, RAM can take many forms, such as Static Random Access Memory (SRAM) or Dynamic Random Access Memory (DRAM), among others.
The technical features of the above embodiments can be arbitrarily combined, and for the sake of brevity, all possible combinations of the technical features in the above embodiments are not described, however, as long as there is no contradiction between the combinations of the technical features, the technical features should be considered as the scope of the present description.
The above-mentioned embodiments only express several embodiments of the present application, and the description thereof is more specific and detailed, but not construed as limiting the scope of the invention. It should be noted that, for a person skilled in the art, several variations and modifications can be made without departing from the concept of the present application, which falls within the scope of protection of the present application. Therefore, the protection scope of the present patent application shall be subject to the appended claims.
Claims (12)
1. A humidity control method applied to a curing storage device including a curing box, the method comprising:
acquiring the relative humidity in the curing box;
when the difference value between the relative humidity in the curing box and the preset humidity range is smaller than a preset difference value threshold value, circularly executing the following steps until the relative humidity in the curing box accords with the preset humidity range;
controlling a humidity adjusting mechanism to execute a humidity adjusting action; the humidity adjusting mechanism is arranged on the inner wall of the curing box;
when the time length of the humidity adjusting mechanism for executing the humidity adjusting action reaches a first preset time length, the humidity adjusting mechanism is stopped to execute the humidity adjusting action;
when the time for suspending the humidity adjusting mechanism to execute the humidity adjusting action reaches a second preset time, returning to the step of controlling the humidity adjusting mechanism to execute the humidity adjusting action;
the humidity adjusting mechanism comprises an atomizing and humidifying component and a humidifying fan; the controlling the humidity adjustment mechanism to perform the humidity adjustment action includes,
when the relative humidity in the curing box is judged to be smaller than a first humidity set value, controlling the humidity adjusting mechanism to perform a humidifying action, and when the relative humidity in the curing box is smaller than a humidifying starting limit value, controlling the atomizing and humidifying component to operate to generate atomized water molecules and controlling the humidifying fan to be in a stop state; and when the relative humidity in the curing box is greater than a third humidity set value, controlling the atomization and humidification assembly to stop running, controlling the humidification fan to be in a running state again, and after a preset first waiting time, executing a step of judging whether the relative humidity in the curing box is smaller than a humidification starting limit value or not.
2. The method of claim 1, further comprising, after the step of obtaining the relative humidity within the curing box:
judging whether the difference value between the relative humidity in the curing box and the preset humidity range is smaller than the preset difference threshold value or not;
if not, controlling the humidity adjusting mechanism to continuously execute the humidity adjusting action until the difference value between the relative humidity in the curing box and the preset humidity range is smaller than the preset difference value threshold.
3. The method of claim 1, wherein controlling the humidity adjustment mechanism to perform a humidity adjustment action further comprises:
and when the relative humidity in the curing box is judged to be greater than a second humidity set value, controlling the humidity adjusting mechanism to execute a dehumidifying action.
4. The method of claim 1,
the humidification starting limit value is smaller than the first humidity set value; the difference value between the humidification starting limit value and the first humidity set value meets a preset first difference value threshold value;
the third humidity set value is greater than the first humidity set value; and the difference value between the third humidity set value and the first humidity set value meets a preset second difference value threshold value.
5. The method of claim 1, further comprising, after the step of controlling operation of the atomizing humidification assembly to generate atomized water molecules:
when the relative humidity in the curing box is smaller than or equal to the third humidity set value, determining a first humidity variation in the curing box when the atomization and humidification assembly is in a working state;
when the first humidity change value is larger than or equal to a preset first change value threshold value, controlling the atomization humidification component to stop running, controlling the humidification fan to be in a running state, returning to the step of controlling the atomization humidification component to run to generate atomized water molecules after a preset second waiting time, and controlling the humidification fan to be in a stop running state;
when the first humidity change value is smaller than the first change value threshold, generating a humidification component abnormity alarm; and the humidification component abnormity alarm is used for prompting a user to add water to the atomization humidification component.
6. The method of claim 3, further comprising:
judging whether the relative humidity in the curing box is smaller than the first humidity set value or not;
if not, judging whether the relative humidity in the curing box is smaller than the second humidity set value or not;
when the relative humidity in the curing box is judged to be not less than the second humidity set value, returning to the step of controlling the atomization and humidification component to stop running and controlling the humidification fan to be in a running state again;
and when the relative humidity in the curing box is judged to be smaller than the second humidity set value, executing the step of judging whether the relative humidity in the curing box is smaller than the humidification starting limit value.
7. The method of claim 3, wherein the humidity adjustment mechanism comprises a dehumidification fan and a dehumidification box, the dehumidification fan is used for drawing the airflow in the curing box into the dehumidification box, and the controlling of the humidity adjustment mechanism to perform the dehumidification action comprises:
when the relative humidity in the curing box is larger than a dehumidification starting limit value, controlling the dehumidification fan to be in a running state; wherein the dehumidification initiation limit is greater than the second humidity set point; the difference value between the dehumidification starting limit value and the second humidity set value meets a preset third difference value threshold value;
when the operation time of the dehumidifying fan is longer than a preset operation time threshold, judging whether the relative humidity in the curing box is smaller than the second humidity set value;
and if so, controlling the dehumidifying fan to be in a stop state, and returning to the step of judging whether the relative humidity in the curing box is greater than the dehumidifying starting limit value.
8. The method of claim 7, wherein when the operating time period of the dehumidifying fan is greater than a preset operating time period threshold, further comprising:
acquiring a second humidity variation in the curing box when the dehumidifying fan is in a running state;
when the second humidity variation is smaller than a preset second variation threshold, generating a dehumidification box abnormity alarm; and the dehumidification box abnormity alarm is used for prompting a user to replace the dehumidification box.
9. The method of claim 1, further comprising:
in the process that the humidity adjusting mechanism executes the humidifying action, when the humidity adjusting mechanism is judged to be required to be controlled to execute the dehumidifying action, the humidity adjusting mechanism is controlled to stop executing the humidifying action, and after a preset first delay time, the humidity adjusting mechanism is controlled to execute the dehumidifying action;
and in the process of executing the dehumidification action by the humidity adjusting mechanism, when the humidity adjusting mechanism is judged to be required to be controlled to execute the humidification action, the humidity adjusting mechanism is controlled to stop executing the dehumidification action, and the humidity adjusting mechanism is controlled to execute the humidification action after a preset second delay time.
10. A humidity control device is applied to a maintenance storage device comprising a maintenance box, and comprises:
the acquisition module is used for acquiring the relative humidity in the curing box;
the circulating execution module is used for circularly executing the following steps when the difference value between the relative humidity in the curing box and a preset humidity range is smaller than a preset difference value threshold value until the relative humidity in the curing box accords with the preset humidity range;
the control module is used for controlling the humidity adjusting mechanism to execute the humidity adjusting action; the humidity adjusting mechanism is arranged on the inner wall of the curing box;
the suspension module is used for suspending the humidity adjusting mechanism to execute the humidity adjusting action when the time length of the humidity adjusting mechanism to execute the humidity adjusting action reaches a first preset time length;
the return module is used for returning to the step of controlling the humidity adjusting mechanism to execute the humidity adjusting action when the time for suspending the humidity adjusting mechanism to execute the humidity adjusting action reaches a second preset time;
the humidity adjusting mechanism comprises an atomizing and humidifying component and a humidifying fan; the control module is further used for controlling the humidity adjusting mechanism to perform a humidifying action when the relative humidity in the curing box is judged to be smaller than a first humidity set value, and controlling the atomizing and humidifying assembly to operate to generate atomized water molecules and controlling the humidifying fan to be in a stop state when the relative humidity in the curing box is smaller than a humidifying starting limit value; and when the relative humidity in the curing box is greater than a third humidity set value, controlling the atomization and humidification assembly to stop running, controlling the humidification fan to be in a running state again, and after a preset first waiting time, executing a step of judging whether the relative humidity in the curing box is smaller than a humidification starting limit value or not.
11. A maintenance storage device, characterized in that said maintenance storage device comprises:
a curing box;
the humidity adjusting mechanism is arranged on the inner wall of the curing box and is used for adjusting the relative humidity in the curing box;
a controller electrically connected to the humidity adjustment mechanism, the controller comprising a memory and a processor, the memory storing a computer program, the processor implementing the steps of the method of any one of claims 1 to 9 when executing the computer program.
12. A computer-readable storage medium, on which a computer program is stored, which, when being executed by a processor, carries out the steps of the method of any one of claims 1 to 9.
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