CN213110657U - Maintenance storage device and humidity control mechanism thereof - Google Patents

Abstract

The utility model relates to a maintain storage device and humidity control mechanism thereof, maintain storage device's humidity control mechanism is including the cover body, humidity control subassembly, inductor and prompting device. The cover body is provided with an air outlet which is communicated with the curing box. The humidity adjusting component is communicated with the cover body and is used for adjusting the relative humidity in the cover body. The inductor is arranged at the air outlet and used for inducing the relative humidity at the air outlet. The prompter is used for prompting when the difference value of the relative humidity acquired by the sensor in the preset time interval is smaller than a preset value. The relative humidity of the air outlet department of the cover body can be acquireed to the inductor, and the prompter then acquires the relative humidity and carries out the suggestion action when being less than the default (for example 10%) at the difference of predetermineeing time interval, so can indicate humidity control mechanism's adjustment humidity ability in time to the suggestion staff in time maintains work, thereby can improve the maintenance effect.

Description

Maintenance storage device and humidity control mechanism thereof

Technical Field

The utility model relates to a storage facilities technical field especially relates to a maintain storage device and humidity control mechanism thereof.

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. The traditional cigar curing and storing device comprises a curing box and a humidity adjusting mechanism arranged in the curing box. The humidity adjusting mechanism can adjust the relative humidity of the environment in the curing box. However, after the conventional cigar curing and storing device is used for a long time, the humidity adjusting capability of the humidity adjusting mechanism is reduced, so that the relative humidity in the curing box cannot be adjusted to a preset value, and the cigar curing and storing effect is not good.

SUMMERY OF THE UTILITY MODEL

Accordingly, there is a need to overcome the drawbacks of the prior art and to provide a maintenance storage device and a humidity control mechanism thereof, which can detect the humidity adjustment capability of the humidity control mechanism in time and perform maintenance work in time, thereby improving the maintenance effect.

The technical scheme is as follows: a humidity adjustment mechanism for a maintenance storage device, the humidity adjustment mechanism comprising: the cover body is provided with an air outlet which is communicated with the curing box; the humidity adjusting assembly is communicated with the cover body and is used for adjusting the relative humidity in the cover body; the air conditioner comprises an inductor and a prompter, wherein the inductor is arranged at the air outlet and used for inducing the relative humidity at the air outlet, and the prompter is used for prompting when the inductor acquires that the difference value of the relative humidity in a preset time interval is smaller than a preset value.

When the humidity adjusting mechanism of the maintenance storage device judges that the relative humidity in the maintenance box is not within the preset range (specifically, for example, lower than 60% or higher than 75%), the humidity adjusting assembly is turned on, the humidity adjusting assembly works to adjust the relative humidity in the cover body, and the relative humidity adjusted air flow enters the maintenance box to change the relative humidity in the maintenance box to the preset range. The relative humidity of the air outlet department of the cover body can be acquireed to the inductor, and the prompter then acquires the relative humidity and carries out the suggestion action when being less than the default (for example 10%) at the difference of predetermineeing time interval, so can indicate humidity control mechanism's adjustment humidity ability in time to the suggestion staff in time maintains work, thereby can improve the maintenance effect.

In one embodiment, the enclosure comprises a humidification system enclosure provided with a first air outlet; the humidity control assembly comprises a humidification control assembly, and the humidification control assembly is arranged in the humidification system cover.

In one embodiment, the sensor includes a first sensor disposed at the first air outlet, and the first sensor is configured to acquire a relative humidity at the first air outlet; the prompter is an alarm and is used for giving an alarm when the difference value of the relative humidity acquired by the first sensor is smaller than a preset value.

In one embodiment, the humidity adjusting assembly comprises a humidification adjusting assembly, and the humidification adjusting assembly comprises an atomization humidifying assembly, an evaporation assembly and a humidifying fan; the atomization humidification component is provided with a humidification airflow output end; the evaporation assembly comprises a shell and a water molecule attachment arranged in the shell, the shell is provided with two second air inlets and two second air outlets, and one of the second air inlets is communicated with the humidified airflow output end; and the air outlet of the humidifying fan is in butt joint with the other second air inlet, and the humidifying fan is used for discharging the evaporation air flow in the shell into the maintenance box through the second air outlet.

In one embodiment, the water molecule attachment is a silver ion or a nanomaterial.

In one embodiment, the water molecule attachment is a silver ion or a nanomaterial; the shell is a silver ion box or a nano material box.

In one embodiment, the cover body comprises a dehumidification system cover, and the dehumidification system cover is provided with a third air inlet and a third air outlet; the humidity adjusting assembly comprises a dehumidification adjusting assembly, and the dehumidification adjusting assembly is arranged in the dehumidification system cover; the sensor comprises a third sensor, and the third sensor is arranged at the third air outlet and used for acquiring the relative humidity at the third air outlet.

In one embodiment, the humidity adjusting assembly comprises a dehumidification adjusting assembly, and the dehumidification adjusting assembly comprises a dehumidification box and a dehumidification fan; the inside of dehumidification box has been installed the dehumidification thing, the dehumidification box is equipped with fourth air intake and fourth air outlet, the air outlet of dehumidification fan with the butt joint of fourth air intake sets up, the dehumidification fan be used for with the air current suction in the maintenance box arrives in the dehumidification box.

A maintenance storage device comprises a humidity adjusting mechanism of the maintenance storage device, a maintenance box, a controller and a second sensor; the humidity adjusting mechanism, the controller and the second sensor of the maintenance storage device are all arranged on the maintenance box; the controller is electrically connected with the humidity adjusting assembly, the sensor and the second sensor respectively; the second sensor is used for acquiring the relative humidity of the environment in the curing box.

When the humidity adjusting mechanism of the maintenance storage device judges that the relative humidity in the maintenance box is not within the preset range (specifically, for example, lower than 60% or higher than 75%), the humidity adjusting assembly is turned on, the humidity adjusting assembly works to adjust the relative humidity in the cover body, and the relative humidity adjusted air flow enters the maintenance box to change the relative humidity in the maintenance box to the preset range. The relative humidity of the air outlet department of the cover body can be acquireed to the inductor, and the prompter then acquires the relative humidity and carries out the suggestion action when being less than the default (for example 10%) at the difference of predetermineeing time interval, so can indicate humidity control mechanism's adjustment humidity ability in time to the suggestion staff in time maintains work, thereby can improve the maintenance effect.

In one embodiment, the maintenance storage device further includes a circulation fan disposed in the maintenance box, and the circulation fan is electrically connected to the controller.

Drawings

The accompanying drawings, which are incorporated in and constitute a part of this application, are included to provide a further understanding of the invention, and are incorporated in and constitute a part of this specification.

In order to more clearly illustrate the technical solutions in the embodiments of the present invention, the drawings needed to be used in the description of the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art to obtain other drawings without creative efforts.

Fig. 1 is a view showing a structure of a maintenance storage device according to an embodiment of the present invention after a cover is opened;

fig. 2 is an exploded view of a humidification adjustment assembly of a maintenance storage device according to an embodiment of the present invention;

fig. 3 is a schematic structural view of a humidification adjusting assembly of a maintenance storage device according to an embodiment of the present invention;

fig. 4 is an exploded view of a dehumidification regulation assembly of a maintenance storage device according to an embodiment of the present invention;

fig. 5 is a schematic view of a dehumidifying regulation assembly of a maintenance storage device according to an embodiment of the present invention;

fig. 6 is a schematic view of another perspective structure of the dehumidifying regulation assembly of the maintenance storage device according to an embodiment of the present invention.

10. A humidification adjustment assembly; 11. an atomization humidification component; 111. a water box; 112. a humidifier; 113. a spray head; 114. a blocking member; 12. an evaporation assembly; 121. a housing; 122. a second air inlet; 13. a humidifying fan; 14. a humidification system cover; 141. a first air outlet; 142. a first air inlet; 15. a first sensor; 20. a curing box; 21. a box body; 22. a cover body; 30. a second sensor; 40. a dehumidification regulation assembly; 41. a dehumidification box; 411. a fourth air inlet; 412. a fourth air outlet; 42. a dehumidifying fan; 43. a dehumidification system housing; 431. a third air inlet; 432. a third air outlet; 433. a fifth air inlet; 434. a fifth air outlet; 435. a wind-proof plate; 44. a third sensor; 50. a circulating fan.

Detailed Description

In order to make the above objects, features and advantages of the present invention more comprehensible, embodiments of the present invention 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 invention. The present invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein, as those skilled in the art will be able to make similar modifications without departing from the spirit and scope of the present invention.

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 the environment at each part 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.

With reference to fig. 1, fig. 1 is a schematic structural view illustrating the maintenance storage device in an embodiment of the present invention when the cover 22 is opened, and fig. 2 is an exploded schematic view illustrating the humidification control module 10 of the maintenance storage device in an embodiment of the present invention; fig. 4 is an exploded view of the dehumidification regulation assembly 40 of the maintenance storage device according to an embodiment of the present invention. An embodiment of the utility model provides a humidity control mechanism who maintains storage device, including the cover body (14, 43), humidity control assembly (10, 40), inductor and prompting device. The cover body is provided with an air outlet for communicating with the curing box 20. The humidity adjusting component is communicated with the cover body and is used for adjusting the relative humidity in the cover body. The inductor is arranged at the air outlet and used for inducing the relative humidity at the air outlet. The prompter is used for prompting when the difference value of the relative humidity acquired by the sensor in the preset time interval is smaller than a preset value.

When the humidity adjusting mechanism of the maintenance storage device determines that the relative humidity in the maintenance box 20 is not within the preset range (specifically, for example, lower than 60% or higher than 75%), the humidity adjusting assembly is turned on, the humidity adjusting assembly operates to adjust the relative humidity in the housing, and the relative humidity adjusted air flow enters the maintenance box 20 to change the relative humidity in the maintenance box 20 to the preset range. The relative humidity of the air outlet department of the cover body can be acquireed to the inductor, and the prompter then acquires the relative humidity and carries out the suggestion action when being less than the default (for example 10%) at the difference of predetermineeing time interval, so can indicate humidity control mechanism's adjustment humidity ability in time to the suggestion staff in time maintains work, thereby can improve the maintenance effect.

Referring to fig. 2 and 3, fig. 3 is a view structure diagram of a humidification adjusting assembly 10 for a maintenance storage device according to an embodiment of the present invention; further, the cover body includes a humidification system cover 14, and the humidification system cover 14 is provided with a first air outlet 141. The humidity conditioning assembly includes a humidification conditioning assembly 10, the humidification conditioning assembly 10 being disposed within a humidification system housing 14. In this way, the airflow generated by the humidification adjusting assembly 10 is discharged to the outside through the first air outlet 141 into the curing box 20, and the humidification system cover 14 can play a role in protection.

Referring to fig. 2 and fig. 3, further, the sensor includes a first sensor 15, the first sensor 15 is disposed at the first air outlet 141, and the first sensor 15 is used for acquiring the relative humidity at the first air outlet 141. The prompter is an alarm, and the alarm is used for giving an alarm when the difference value of the relative humidity acquired by the first sensor 15 is smaller than a preset value. Optionally, the prompting device may also be a display or a vibrator, which prompts through displaying or vibrating, or may also be other functional devices, which are not limited herein.

Referring to fig. 2 and 3, in one embodiment, the humidity conditioning assembly includes a humidification conditioning assembly 10. The humidification adjusting assembly 10 comprises an atomization humidification assembly 11, an evaporation assembly 12 and a humidification fan 13. The atomizing humidification module 11 is provided with a humidified airflow output end. The evaporation assembly 12 includes a housing 121 and a water molecule attachment disposed in the housing 121, the housing 121 has two second inlets 122 and two second outlets (not shown), wherein one of the second inlets 122 is communicated with the humidified airflow output end. An air outlet of the humidifying fan 13 is connected with another second air inlet 122, and the humidifying fan 13 is used for discharging the evaporated air flow in the casing 121 to the curing box 20 through the second air outlet.

When judging that the relative humidity in the curing box 20 is low (specifically, for example, lower than 60%) and humidification is required, the atomizing and humidifying assembly 11 is turned on, the atomizing and humidifying assembly 11 sends the humidified atomized water molecule airflow into the casing 121 through the humidified airflow output end, and attaches the atomized water molecules to the water molecule attachment, and the water molecule attachment is used for absorbing the atomized water molecules and blocking the atomized water molecules from directly entering the inner cavity of the curing box 20. After the atomization humidification component 11 stops working, the humidification fan 13 is started again, air flow generated by the humidification fan 13 is used for carrying out secondary evaporation on water molecules adsorbed on the water molecule attachment body, and the air flow generated by the humidification fan 13 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 20 is improved, the diameter of water molecules in the air in the curing box 20 is smaller, the water molecules are easy to uniformly diffuse into the curing box 20, the humidity in the curing box 20 is more balanced, and the curing effect can be improved.

Referring to fig. 2 and fig. 3, in detail, the humidification system cover 14 has a first air outlet 141 and a first air inlet 142. The first outlet 141 and the second outlet are disposed correspondingly, and the first inlet 142 and the inlet of the humidifying fan 13 are disposed correspondingly.

Referring to fig. 2 and 3, the atomizing and humidifying assembly 11 further includes a water box 111, a humidifier 112 and a nozzle 113. The humidifier 112 is disposed on the water tank 111, and the humidifier 112 is connected to the shower head 113. The nozzle 113 is communicated with the second air inlet 122. Specifically, the humidifier 112 is an ultrasonic humidifier, which includes an ultrasonic generator, an atomizing sheet, and an auxiliary connecting member connecting the ultrasonic generator and the atomizing sheet. The atomization plate generates high-frequency oscillation by using the ultrasonic generator, water guided into the atomization plate from the water box 111 is thrown away from the water surface in the high-frequency oscillation process of the atomization plate to generate elegant water mist, and the water mist is sprayed into the shell 121 through the spray head 113.

Furthermore, the water box 111 may be designed separately, for example, fastened to the humidification system cover 14 by a snap-fit method, or integrated directly with the humidification system cover 14. In this embodiment, water box 111 can independent design, convenient dismantlement, removal and water injection. The upper portion of water box 111 is provided with the water filling port for water box 111 adds water, has shutoff piece 114 on the water filling port, like the plug for water box 111's is sealed after the water injection is accomplished, satisfies the humidification adjusting part 10 that adds the maintenance storage device and in portable removal process water seal requirement. In order to improve the water atomization effect and prolong the service life of the atomization sheet, the water in the water box 111 is preferably purified water or distilled water.

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. Therefore, when the silver ion particles or the nano particles are arranged in the shell 121, airflow gaps are formed among the particles, and after humidified airflow of atomized water molecules enters the shell 121, on one hand, the atomized water molecules can be favorably contacted with and adsorbed by the outer surfaces of the particles; on the other hand, the water molecule attachment provided in the housing 121 has a certain blocking effect on the atomized water molecule airflow, but can be discharged to the inside of the curing box 20 through the second outlet of the housing 121 by the suction effect of the humidifying fan 13.

In one embodiment, the housing 121 is a silver ion box or a nano-material box. Thus, after the atomized water molecules enter the housing 121, the atomized water molecules can be adsorbed not only by the water molecule attachment but also by the inner wall of the housing 121. In this embodiment, the housing 121 is a silver ion box.

Referring to fig. 2 and 3, in one embodiment, the atomizing and humidifying device 11, the evaporating device 12 and the humidifying fan 13 are all housed inside the humidifying system housing 14. Specifically, the silver ion cassette of the evaporation assembly 12 is detachably mounted inside the humidification system cover 14, 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 14, or may be separately designed and placed inside the humidification system cover 14, which is not limited herein.

Referring to fig. 4 to 6, fig. 5 and 6 respectively illustrate different view structure diagrams of the dehumidification regulation assembly of the maintenance storage device according to an embodiment of the present invention. In one embodiment, the enclosure comprises a dehumidification system enclosure 43. The dehumidification system cover 43 has a third air inlet 431 and a third air outlet 432. The humidity conditioning assembly includes a dehumidification conditioning assembly 40, and the dehumidification conditioning assembly 40 is disposed within a dehumidification system housing 43. The sensor includes a third sensor 44. The third sensor 44 is disposed at the third air outlet 432 for acquiring the relative humidity at the third air outlet 432. Specifically, the alarm is also used for performing an alarm action when the difference value of the relative humidity acquired by the third sensor 44 is smaller than a preset value.

The third sensor 44 can sense the humidity of the air processed by the dehumidifying box 41, and is mainly used for determining whether the adsorption capacity of the dehumidified substance in the dehumidifying box 41 is disabled. One specific judgment method is as follows: judging the change of the two humidity sensing values in a preset time interval (for example, 60s), namely the difference value of the two humidity values, and when the change is smaller than a certain value (for example, 10 percent, the value depends on the precision of a humidity sensor), determining that the water absorption characteristic of the dehumidified object in the dehumidification box 41 is invalid, controlling the action of an alarm by the controller, and alarming to replace the dehumidified object in the dehumidification box 41. Alternatively, in order to facilitate replacement of the dehumidified contents in the dehumidification cassette 41, the dehumidification cassette 41 may be detachably fixed to the dehumidification system cover 43 using, for example, a snap-fit structure.

Referring to fig. 4 and 6, in one embodiment, the humidity conditioning assembly includes a dehumidification conditioning assembly 40. The dehumidifying regulation assembly 40 includes a dehumidifying box 41 and a dehumidifying fan 42. The dehumidifying box 41 is provided with a dehumidifying object therein, the dehumidifying box 41 is provided with a fourth air inlet 411 and a fourth air outlet 412, an air outlet of the dehumidifying fan 42 is connected to the fourth air inlet 411, and the dehumidifying fan 42 is used for drawing the air flow in the curing box 20 into the dehumidifying box 41. Specifically, the dehumidifying fan 42 is electrically connected to the controller.

Referring to fig. 1, 2 and 4, in one embodiment, a maintenance storage device includes a humidity adjusting mechanism of the maintenance storage device according to any one of the above embodiments, and further includes a maintenance box 20, a controller and a second sensor 30. The humidity control mechanism, the controller and the second sensor 30 of the curing and storing device are all disposed on the curing box 20. The controller is electrically connected to the humidity adjustment assembly, the sensor and the second sensor 30. The second sensor 30 is used to obtain the relative humidity of the environment within the curing box 20.

When the humidity adjusting mechanism of the maintenance storage device determines that the relative humidity in the maintenance box 20 is not within the preset range (specifically, for example, lower than 60% or higher than 75%), the humidity adjusting assembly is turned on, the humidity adjusting assembly operates to adjust the relative humidity in the housing, and the relative humidity adjusted air flow enters the maintenance box 20 to change the relative humidity in the maintenance box 20 to the preset range. The relative humidity of the air outlet department of the cover body can be acquireed to the inductor, and the prompter then acquires the relative humidity and carries out the suggestion action when being less than the default (for example 10%) at the difference of predetermineeing time interval, so can indicate humidity control mechanism's adjustment humidity ability in time to the suggestion staff in time maintains work, thereby can improve the maintenance effect.

When the space of the inner cavity of the curing box 20 is large, the flow of the air flow on each inner wall and space is enhanced in order to ensure the uniformity of the temperature and humidity distribution inside the whole curing box 20. In one embodiment, the maintenance storage device further comprises a circulation fan 50. The circulating fan 50 is disposed in the curing box 20, and the circulating fan 50 is electrically connected to the controller. Thus, the controller controls the circulating fan 50 to work, so that the airflow in the curing box 20 circularly flows to fill the whole curing box 20, and the relative humidity in the curing box 20 is balanced.

Referring to fig. 1, fig. 2 and fig. 4, specifically, the first sensor 15 and the alarm are electrically connected to the controller, the controller receives the relative humidity sensed by the first sensor 15 at the first air outlet 141, and if the relative humidity change value at the preset time interval (for example, 60S) is determined to be smaller than a preset value (for example, 10%), the water box 111 is prompted to lack of water or the atomizing and humidifying assembly 11 is in a fault, at this time, the atomizing and humidifying assembly 11 is controlled to stop working, so as to replenish the water source or maintain the atomizing and humidifying assembly 11, thereby timely reminding the worker. If it is determined that the value of the change in relative humidity is greater than the predetermined value for the predetermined time interval (e.g., 60S), the humidifying fan 13 is turned on to circulate the humidified flow into the entire curing box 20 by the humidifying fan 13 to lower the relative humidity in the entire curing box 20.

It should be noted that the relative humidity change value of the preset time interval (for example, 60S) is a difference between the relative humidity acquired by the first sensor 15 at the 0 th time, for example, at the first outlet 141 and the relative humidity acquired at the first outlet 141 at the 60 th time, for example.

Specifically, the first sensor 15 is a temperature and humidity probe, and the first sensor 15 can not only acquire the relative humidity at the first air outlet 141, but also be used to acquire the ambient temperature at the first air outlet 141.

Specifically, the second sensor 30 is a temperature and humidity probe, and the second sensor 30 can be used to acquire not only the relative humidity in the curing box 20 but also the ambient temperature in the curing box 20.

Specifically, the third sensor 44 is a temperature and humidity probe, and the third sensor 44 can acquire not only the relative humidity at the third air outlet 432, but also the ambient temperature at the third air outlet 432.

When the controller determines that the relative humidity in the curing box 20 is relatively high (for example, the relative humidity is greater than 80%), the dehumidifying fan 42 is controlled to operate accordingly, the dehumidifying fan 42 draws the air with relatively high humidity in the curing box 20 into the dehumidifying box 41, and discharges the air into the curing box 20 after the dehumidifying process is performed by the dehumidifying box 41, so as to reduce the relative humidity in the curing box 20. Specifically, the dehumidification material is dry particles, dry powder, or the like, and may also be hydrophilic particles such as activated alumina spheres, molecular sieves, or the like.

Further, the circulation fan 50 has an independent air inlet and an independent air outlet. The circulation fan 50 may be disposed at a front end or a rear end of the dehumidification system cover 43, which is not limited herein. The circulating fan 50 is not controlled by the relative humidity parameter in the curing box 20, and always keeps a constant pressure working state, and functions to enhance the flow of the air flow in the inner cavity of the curing box 20. In the non-dehumidification mode, since the dehumidification fan 42 does not operate, the air flow in the curing box 20 does not pass through the dehumidifiers of the dehumidification box 41, and the humidity of the air flow in the curing box 20 is not changed; when the dehumidification mode is activated, the dehumidification fan 42 is operated, and the air flow passes through the dehumidification box 41, so as to reduce the relative humidity of the air flow, thereby achieving the purpose of changing the humidity. Furthermore, the humidification system cover 14 and the dehumidification system cover 43 are plastic covers, and are fixed on the inner wall of the box 21 by using tapping screws or a snap structure, and the humidification system cover 14 and the dehumidification system cover 43 may be made of other materials or may be fixed on the inner wall of the curing box 20 by other methods.

Referring to fig. 1, 4 and 6, further, an air-isolating plate 435 is disposed in the dehumidification system cover 43, the air-isolating plate 435 divides the dehumidification system cover 43 into two spaces, the dehumidification box 41 and the dehumidification fan 42 are disposed in one of the two spaces, and the third air inlet 431 and the third air outlet 432 of the dehumidification system cover 43 are communicated with the space. The circulating fan 50 is disposed in another space, the dehumidifying system cover 43 is further provided with a fifth air inlet 433 and a fifth air outlet 434 communicated with the another space, when the circulating fan 50 works, the air flow in the curing box 20 enters through the fifth air inlet 433 and is discharged from the fifth air outlet 434, so that the air flow in the curing box 20 can be driven to circularly flow.

Referring to fig. 2 and fig. 3, further, the third sensor 44 is not limited to be disposed at the third air outlet 432, and may be disposed in the dehumidification system cover 43 and located adjacent to the circulation fan 50, for example, and can be used to obtain the relative humidity at the third air outlet 432.

Referring to fig. 1, 2 and 4, in one embodiment, a humidifying method for maintaining a storage device according to any one of the above embodiments includes the following steps:

s10, acquiring the relative humidity in the curing box 20;

s20, when the relative humidity in the curing box 20 is judged to be lower than the first preset value, the atomizing and humidifying component 11 is started to enable humidifying and atomizing water molecules to enter the shell 121;

and S30, closing the humidifying component, starting the humidifying fan 13 to evaporate the water molecules adsorbed on the water molecule attachment for the second time, and discharging the water molecules into the curing box 20. The first preset value is, for example, 60%.

In the humidifying method of the maintenance storage device, when humidification is required, the atomizing and humidifying component 11 is turned on, the atomizing and humidifying component 11 sends the humidified atomized water molecule airflow into the shell 121 through the humidified airflow output end, and the atomized water molecules are attached to the water molecule attachment body, and the water molecule attachment body is used for absorbing the atomized water molecules and preventing the atomized water molecules from directly entering the inner cavity of the maintenance box 20. After the atomization humidification component 11 stops working, the humidification fan 13 is started again, air flow generated by the humidification fan 13 is used for carrying out secondary evaporation on water molecules adsorbed on the water molecule attachment body, and the water molecules flow into the box along with air flow generated by the humidification fan 13, so that the humidity in the box is improved, and the relative humidity in the maintenance box 20 is controlled to be 60% -70%.

Further, before turning on the humidifying/atomizing assembly 11, the method includes step S12: acquiring the relative humidity in the humidification system cover 14, and recording as a first detection value;

after the humidifying device 11 is turned on, and before the humidifying device is turned off, the method further comprises the following steps:

s22, when the atomizing and humidifying component 11 is turned on for a first preset operating time, acquiring the relative humidity inside the humidifying system cover 14, recording the relative humidity as a second detection value, and determining whether the relative humidity inside the humidifying system cover 14 (the second detection value) is higher than a first preset value;

the first preset working time is set according to actual conditions, is related to the humidifying capacity of the atomizing and humidifying assembly 11, and is not limited. The first default value is, for example, 80% and is not limited.

If the relative humidity in the humidification system cover 14 is higher than the first preset value, the process proceeds to step S30; if the relative humidity in the humidification system cover 14 is lower than the first preset value, the process proceeds to step S24.

Further, the humidifying method for the maintenance storage device further includes:

step S24, continuing to delay the work of the atomization humidification component 11 for a second preset work time, and obtaining the relative humidity in the humidification system cover 14 again, and recording the relative humidity as a third detection value;

the second preset working time is, for example, 2S to 4S, specifically, for example, 3S.

Step S25, obtaining a relative humidity change value in the humidification system cover 14 based on the third detection value and the first detection value;

and step S26, judging whether the water box 111 is lack of water or the atomizing humidification assembly 11 is in failure according to the relative humidity change value.

Specifically, if the change value of the relative humidity at the preset time interval (for example, 60S) is determined to be smaller than the preset value (for example, 10%), it is prompted that the water tank 111 is short of water or the atomizing and humidifying assembly 11 is in a fault, at this time, the atomizing and humidifying assembly 11 is controlled to stop working, so as to replenish the water source or maintain the atomizing and humidifying assembly 11, and thus, the worker can be reminded in time. If it is judged that the value of the change in relative humidity for the preset time interval (for example, 60S) is greater than the preset value, the humidifying fan 13 is turned on, and the humidified airflow is circulated into the entire curing box 20 by the humidifying fan 13 to lower the relative humidity in the entire curing box 20, and the process proceeds to step S12.

Further, the following steps are also included after step S30: the humidifying fan 13 is turned off after being turned on for the third preset operation time, and returns to step S10. The third preset operation time is, for example, 25S to 35S, specifically, 30S.

Further, the humidifying method for maintaining the storage device further comprises the following steps: when it is judged that the relative humidity inside the curing box 20 is higher than the second preset value, the dehumidifying fan 42 is turned on to increase the relative humidity inside the curing box 20. The second preset value is, for example, 75%, that is, when it is determined that the relative humidity in the curing box 20 is higher than 75%, a dehumidifying operation is performed to control the relative humidity in the curing box 20 to be 60% to 70%.

Along with the increase of the volume of the inner cavity of the curing box 20 and the position difference between the first air outlet 141 of the humidifying system cover 14 and the third air outlet 432 of the dehumidifying system cover 43 and the second sensor 30, when the humidifying or dehumidifying mode is started, the humidity in the curing box 20 can be dynamically distributed and non-uniformly distributed along with the change of the air flow in the inner cavity of the curing box 20, until the humidifying or dehumidifying mode is stopped for a certain time, the humidity in the curing box 20 can gradually tend to be uniformly and statically distributed, that is, a delay balancing process exists from the start of humidifying or dehumidifying to the final static balance distribution. Since the humidity to be finally achieved is the humidity in the curing box 20 which is finally statically balanced, it is necessary to accurately identify whether the humidity sensing value in the curing box 20 is a statically balanced value or a dynamically changing value, so as to correctly apply the humidification/dehumidification mode. Based on this, further, the humidifying method for maintaining the storage device further comprises the following steps:

when the humidity of the inner cavity of the curing box 20 is greatly different from the set value, a continuous humidifying or dehumidifying mode is adopted;

when the humidity value in the curing box 20 is close to the set value (for example, within 2%), the intermittent humidification or intermittent dehumidification, and the delay balance mode are adopted.

Specifically, the humidification or dehumidification operation 5S, the equalization 30S, and the re-humidification or dehumidification operation are repeated to gradually reach the set humidity in the curing box 20.

In order to avoid overshoot of humidity adjustment when the humidity value is close to the set humidity value, which causes alternate work of dehumidification and humidification, namely, immediately after humidification is finished, the humidity adjustment system is switched to a dehumidification mode when the humidity exceeds the set value, and the overshoot of dehumidification humidity enters humidification again, so that vicious circle is formed in the inner cavity of the box body 21 by humidification and dehumidification, and finally, water in the humidification water box 111 is exhausted and dehumidification adsorption substances are invalid. Based on this, further, the humidifying method for maintaining the storage device further comprises the following steps:

if the difference between the upper and lower limits of humidification and dehumidification is increased, that is, if the humidity value is set to RHset, the humidification limit is RHset- Δ RH (from low humidity humidification to the end of the value, the upper limit of starting humidification is set at the same time, and the humidification is started up below the value), the dehumidification limit is RHset + Δ RH (from high humidity dehumidification to the end of the value, the lower limit of starting dehumidification is set at the same time, and the dehumidification is started up above the value), Δ RH (which is related to the required humidity control accuracy) is increased, the switching value between the two different modes of humidification and dehumidification is increased, and the risk of forming a vicious cycle of dehumidification-humidification is reduced.

Furthermore, time delay is added when the dehumidification mode and the humidification mode are switched, namely, the humidification mode or the dehumidification mode is switched to the other mode, the mode is firstly stopped to work for a period of time (for example, 5min), and whether the mode is switched is determined according to the humidity parameter in the box, so that the humidity in the curing box 20 is fully ensured to be in a stable state, and the vicious cycle problem of the dehumidification and the humidification is effectively solved.

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, but should be considered as the scope of the present specification as long as there is no contradiction between the combinations of the technical features.

The above-mentioned embodiments only represent some embodiments of the present invention, and the description thereof is specific and detailed, but not to be construed as limiting the scope of the present invention. It should be noted that, for those skilled in the art, without departing from the spirit of the present invention, several variations and modifications can be made, which are within the scope of the present invention. Therefore, the protection scope of the present invention should be subject to the appended claims.

In the description of the present invention, it is to be understood that the terms "center", "longitudinal", "lateral", "length", "width", "thickness", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", "clockwise", "counterclockwise", "axial", "radial", "circumferential", and the like, indicate the orientation or positional relationship based on the orientation or positional relationship shown in the drawings, and are only for convenience of description and simplicity of description, and do not indicate or imply that the device or element referred to must have a particular orientation, be constructed and operated in a particular orientation, and therefore, should not be construed as limiting the present invention.

Furthermore, the terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include at least one such feature. In the description of the present invention, "a plurality" means at least two, e.g., two, three, etc., unless specifically limited otherwise.

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

In the present application, unless expressly stated or limited otherwise, the first feature may be directly on or directly under the second feature or indirectly via intermediate members. Also, a first feature "on," "over," and "above" a second feature may be directly or diagonally above the second feature, or may simply indicate that the first feature is at a higher level than the second feature. A first feature being "under," "below," and "beneath" a second feature may be directly under or obliquely under the first feature, or may simply mean that the first feature is at a lesser elevation than the second feature.

It will be understood that when an element is referred to as being "secured to" or "disposed on" another element, it can be directly on the other element or intervening elements may also be present. When an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present. The terms "vertical," "horizontal," "upper," "lower," "left," "right," and the like as used herein are for illustrative purposes only and do not denote a unique embodiment.

Claims (10)

1. A humidity control mechanism for a maintenance storage device, the humidity control mechanism comprising:

the cover body is provided with an air outlet which is communicated with the curing box;

the humidity adjusting assembly is communicated with the cover body and is used for adjusting the relative humidity in the cover body;

the air conditioner comprises an inductor and a prompter, wherein the inductor is arranged at the air outlet and used for inducing the relative humidity at the air outlet, and the prompter is used for prompting when the inductor acquires that the difference value of the relative humidity in a preset time interval is smaller than a preset value.

2. The humidity adjustment mechanism of a maintenance storage device according to claim 1, wherein the cover body includes a humidification system cover provided with a first air outlet; the humidity control assembly comprises a humidification control assembly, and the humidification control assembly is arranged in the humidification system cover.

3. The humidity adjustment mechanism of a maintenance storage device according to claim 2, wherein the sensor includes a first sensor disposed at the first air outlet, the first sensor being configured to obtain a relative humidity at the first air outlet; the prompter is an alarm and is used for giving an alarm when the difference value of the relative humidity acquired by the first sensor is smaller than a preset value.

4. The humidity adjustment mechanism of a maintenance storage device according to claim 1, wherein the humidity adjustment assembly includes a humidification adjustment assembly including an atomizing humidification assembly, an evaporation assembly, and a humidification fan; the atomization humidification component is provided with a humidification airflow output end; the evaporation assembly comprises a shell and a water molecule attachment arranged in the shell, the shell is provided with two second air inlets and two second air outlets, and one of the second air inlets is communicated with the humidified airflow output end; and the air outlet of the humidifying fan is in butt joint with the other second air inlet, and the humidifying fan is used for discharging the evaporation air flow in the shell into the maintenance box through the second air outlet.

5. The maintenance storage device humidity adjustment mechanism of claim 4, wherein the water molecule attachment is a silver ion or a nano material.

6. The maintenance storage device humidity adjustment mechanism of claim 5, wherein the water molecule attachment is a silver ion or a nano material; the shell is a silver ion box or a nano material box.

7. The humidity adjustment mechanism of a maintenance storage device according to claim 1, wherein the cover body includes a dehumidifying system cover provided with a third air inlet and a third air outlet; the humidity adjusting assembly comprises a dehumidification adjusting assembly, and the dehumidification adjusting assembly is arranged in the dehumidification system cover; the sensor comprises a third sensor, and the third sensor is arranged at the third air outlet and used for acquiring the relative humidity at the third air outlet.

8. The maintenance storage device humidity adjustment mechanism of claim 1, wherein the humidity adjustment assembly includes a dehumidification adjustment assembly, the dehumidification adjustment assembly includes a dehumidification box and a dehumidification fan; the inside of dehumidification box has been installed the dehumidification thing, the dehumidification box is equipped with fourth air intake and fourth air outlet, the air outlet of dehumidification fan with the butt joint of fourth air intake sets up, the dehumidification fan be used for with the air current suction in the maintenance box arrives in the dehumidification box.

9. A maintenance storage device comprising the humidity control mechanism of the maintenance storage device according to any one of claims 1 to 8, further comprising a maintenance box, a controller and a second sensor; the humidity adjusting mechanism, the controller and the second sensor of the maintenance storage device are all arranged on the maintenance box; the controller is electrically connected with the humidity adjusting assembly, the sensor and the second sensor respectively; the second sensor is used for acquiring the relative humidity of the environment in the curing box.

10. The maintenance storage device of claim 9, further comprising a circulation fan disposed in the maintenance box, the circulation fan being electrically connected to the controller.

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