CN116725227A - Humidity stability adjusting method, system and computer storage medium - Google Patents

Abstract

The invention discloses a humidity stability adjusting method, a system and a computer storage medium, wherein the humidity stability adjusting method comprises the following steps of S1, acquiring a humidity setting range of a storage cavity; s2, starting a humidifying system and executing humidifying action, acquiring initial dehumidifying power at the same time, starting the dehumidifying system, adjusting the running power of the semiconductor refrigerating sheet to the initial dehumidifying power, and executing dehumidifying action; s3, judging whether the current humidity in the storage cavity accords with a humidity setting range; if not, executing the step S4; if yes, executing step S5; s4, adjusting the running power of the semiconductor refrigerating sheet, and continuously acquiring the real-time indoor humidity of the storage cavity; s5, the humidifying system executes humidifying action, and meanwhile, the dehumidifying system executes dehumidifying action according to the current dehumidifying power. The humidity stability adjusting method can simply realize accurate adjustment of the humidity in the storage cavity, avoid larger fluctuation of the humidity in the cavity, and improve the storage and maintenance effects of the maintenance storage device.

Description

Humidity stability adjusting method, system and computer storage medium

Technical Field

The present invention relates to the field of storage devices, and in particular, to a humidity stability adjustment method, system, and computer storage medium.

Background

With the increasing level of living, the number of people consuming tobacco products is increasing, and tobacco products generally include cigars and cigarettes, which are described herein as cigars.

In general, cigar storage and curing requires placing under specific temperature and humidity conditions, and in general, the cigar storage and curing conditions are that the temperature is between 16 ℃ and 20 ℃ and the humidity is between 60% and 70%. At present, most cigars are stored in wooden cigar boxes or wine cabinets, but the existing cigar boxes or wine cabinets cannot well control and regulate the temperature and humidity in the boxes or cabinets, so that the purpose of storing and maintaining the cigars for a long time cannot be achieved.

In order to preserve cigars for a long period of time, storage boxes for curing and storing cigars specially are developed on the market, and generally comprise a refrigerating system, a humidifying system and a dehumidifying system. The existing dehumidifying system in the cigar storage box generally adopts a physical dehumidifying mode, namely, dehumidifying materials such as a desiccant are adopted for dehumidification, the dehumidifying effect of the dehumidifying materials such as the desiccant is weakened along with the increase of the service time, and the dehumidifying effect is unstable, so that the desiccant in the dehumidifying component has to be replaced frequently in order to ensure the dehumidifying effect of the maintenance storage cabinet; in addition, the dehumidification effect controllability of the dehumidification component utilizing the drying agent is poor, and the dehumidification effect of the storage box is difficult to adjust according to factors such as storage requirements, so that the use requirements are not met.

Disclosure of Invention

The invention aims to provide a humidity stable adjustment method, a humidity stable adjustment system and a computer storage medium, which can simply realize accurate adjustment of humidity in a storage cavity, avoid larger fluctuation of the humidity in the cavity, and improve the storage and maintenance effects of a maintenance storage device so as to overcome the defects in the prior art.

To achieve the purpose, the invention adopts the following technical scheme:

the humidity stability adjusting method is applied to a maintenance storage device, and the maintenance storage device comprises a storage box body, a humidifying system and a dehumidifying system, wherein a storage cavity is formed in the storage box body;

the dehumidification system is arranged on the storage box body and comprises a semiconductor refrigeration sheet, a condensation assembly and a heat dissipation assembly which are sequentially connected from inside to outside, wherein the semiconductor refrigeration sheet comprises a cold end face and a hot end face, the cold end face is mutually attached to the condensation assembly, and the hot end face is mutually attached to the heat dissipation assembly; the condensing assembly faces the storage cavity, and the heat dissipation assembly faces the outside of the storage box body;

the method comprises the following steps:

s1, acquiring a humidity setting range of the storage cavity;

s2, starting the humidifying system, executing humidifying action, acquiring initial dehumidifying power at the same time, starting the dehumidifying system, adjusting the running power of the semiconductor refrigerating sheet to the initial dehumidifying power, and executing dehumidifying action;

s3, acquiring the current humidity in the storage cavity, and judging whether the current humidity in the storage cavity accords with a humidity setting range;

if the current humidity in the storage cavity does not accord with the humidity setting range, executing step S4;

if the current humidity in the storage cavity accords with the humidity setting range, executing step S5;

s4, adjusting the running power of the semiconductor refrigerating sheet, continuously obtaining the real-time indoor humidity of the storage cavity until the real-time indoor humidity of the storage cavity accords with a humidity setting range, and executing a step S5;

s5, the humidifying system executes humidifying action, and meanwhile, the dehumidifying system executes dehumidifying action according to the current dehumidifying power.

Preferably, in step S4, adjusting the operating power of the semiconductor refrigeration sheet includes:

s41, comparing the current humidity in the storage cavity with a humidity setting range;

s42, if the current humidity in the storage cavity is greater than the upper limit value of the humidity setting range, the running power of the semiconductor refrigerating sheet is increased; and if the current humidity in the storage cavity is smaller than the lower limit value of the humidity setting range, reducing the running power of the semiconductor refrigerating sheet.

Preferably, step S42 includes:

if the current humidity in the storage cavity is larger than the upper limit value of the humidity setting range, gradually increasing the running power of the semiconductor refrigerating sheet; and if the current humidity in the storage cavity is smaller than the lower limit value of the humidity setting range, gradually reducing the running power of the semiconductor refrigerating sheet.

Preferably, step S2 includes:

the humidifying system is started and executes humidifying action, and meanwhile initial dehumidifying power is obtained, the dehumidifying system is started, the running power of the semiconductor refrigerating sheet is adjusted to the initial dehumidifying power, and dehumidifying action is executed;

after the first preset time, step S3 is entered.

Preferably, step S5 includes:

the humidifying system executes humidifying action, and the dehumidifying system executes dehumidifying action according to the current dehumidifying power;

after the second preset time, step S3 is entered.

Preferably, in step S2, the humidification system starts and performs a humidification operation, including:

the humidifying system is started, and humidifying actions are executed according to preset humidifying parameters.

Preferably, in step S5, the humidification system performs a humidification operation, including:

and the humidifying system executes humidifying action according to preset humidifying parameters.

The humidity stability adjusting system is applied to a maintenance storage device, and the maintenance storage device comprises a storage box body, a humidifying system and a dehumidifying system, wherein a storage cavity is formed in the storage box body;

the dehumidification system is arranged on the storage box body and comprises a semiconductor refrigeration sheet, a condensation assembly and a heat dissipation assembly which are sequentially connected from inside to outside, wherein the semiconductor refrigeration sheet comprises a cold end face and a hot end face, the cold end face is mutually attached to the condensation assembly, and the hot end face is mutually attached to the heat dissipation assembly; the condensing assembly faces the storage cavity, and the heat dissipation assembly faces the outside of the storage box body;

the device comprises an acquisition module, a comparison module, a humidity adjusting module and an execution module;

the acquisition module is used for acquiring the humidity setting range of the storage cavity;

the comparison module is used for acquiring the current humidity in the storage cavity and judging whether the current humidity in the storage cavity accords with a humidity setting range or not;

the humidity adjusting module is used for adjusting the running power of the semiconductor refrigerating sheet, and continuously acquiring the real-time indoor humidity of the storage cavity until the real-time indoor humidity of the storage cavity accords with a humidity setting range;

the execution module is used for enabling the humidification system to start and execute humidification action, acquiring initial dehumidification power, enabling the dehumidification system to start, adjusting the running power of the semiconductor refrigerating sheet to the initial dehumidification power and executing dehumidification action; and the humidifying system is used for executing the humidifying action, and simultaneously, the dehumidifying system is used for executing the dehumidifying action according to the current dehumidifying power.

Preferably, the humidity adjusting module comprises an action judging unit and a power adjusting unit;

the action judging unit is used for comparing the current humidity in the storage cavity with the humidity setting range;

the power adjusting unit is used for increasing the running power of the semiconductor refrigerating sheet if the current humidity in the storage cavity is greater than the upper limit value of the humidity setting range; and if the current humidity in the storage cavity is smaller than the lower limit value of the humidity setting range, reducing the running power of the semiconductor refrigerating sheet.

A computer readable storage medium having stored thereon a computer program which, when executed by a processor, implements the steps of the humidity stability adjustment method described above.

The technical scheme provided by the embodiment of the invention can have the following beneficial effects:

the control method can adjust the relative humidity of the storage cavity by adjusting the running power of the semiconductor refrigerating sheet in the dehumidification system in the humidity adjusting process, and the adjusting method is quite simple. In addition, in the operation process of maintaining the storage device, the temperature in the storage cavity is unchanged or slightly changed, and the temperature and the humidity of the external environment are also unchanged or slightly changed, so that the humidity regulating method fully considers and reflects the temperature of the storage cavity, the temperature of the external environment and the humidity of the external environment in the dehumidification process, and is favorable for realizing the accurate control of the humidity in the storage cavity, and the error is smaller.

Drawings

Fig. 1 is a schematic structural diagram of a maintenance and storage device applied in the humidity stabilizing and adjusting method of the present invention.

Fig. 2 is a schematic view of a partial structure of a maintenance and storage device applied in the humidity stabilizing and adjusting method of the present invention.

Fig. 3 is a schematic structural diagram of a dehumidifying system in a maintenance storage device applied in the humidity stabilizing and adjusting method of the present invention.

Fig. 4 is a schematic flow chart of a humidity stabilizing adjustment method according to the present invention.

Fig. 5 is a block diagram showing a humidity stabilizing adjustment method according to the present invention.

Wherein: the storage box comprises a storage box body 1, a storage cavity 101, a humidifying system 3, a dehumidifying system 4, a semiconductor refrigerating plate 41, a condensing assembly 42 and a radiating assembly 43.

Detailed Description

Embodiments of the present invention are described in detail below, examples of which are illustrated in the accompanying drawings, wherein like or similar reference numerals refer to like or similar elements or elements having like or similar functions throughout. The embodiments described below by referring to the drawings are illustrative only and are not to be construed as limiting the invention.

The technical scheme provides a humidity stability adjusting method which is applied to a maintenance storage device, wherein the maintenance storage device comprises a storage box body 1, a humidifying system 3 and a dehumidifying system 4, and a storage cavity 101 is formed in the storage box body 1;

the dehumidification system 4 is installed on the storage box body 1, the dehumidification system 4 comprises a semiconductor refrigeration sheet 41, a condensation assembly 42 and a heat dissipation assembly 43 which are sequentially connected from inside to outside, the semiconductor refrigeration sheet 41 comprises a cold end face and a hot end face, the cold end face is mutually attached to the condensation assembly 42, and the hot end face is mutually attached to the heat dissipation assembly 43; the condensing assembly 42 faces the storage chamber 101, and the heat dissipating assembly 43 faces the outside of the storage box body 1;

the method comprises the following steps:

s1, acquiring a humidity setting range of the storage cavity 101;

s2, starting and executing a humidifying action by the humidifying system 3, acquiring initial dehumidifying power at the same time, starting the dehumidifying system 4, adjusting the running power of the semiconductor refrigerating chip 41 to the initial dehumidifying power, and executing the dehumidifying action;

s3, acquiring the current humidity in the storage cavity 101, and judging whether the current humidity in the storage cavity 101 accords with a humidity setting range;

if the current humidity in the storage cavity 101 does not accord with the humidity setting range, executing step S4;

if the current humidity in the storage cavity 101 accords with the humidity setting range, executing step S5;

s4, adjusting the running power of the semiconductor refrigeration piece 41, continuously acquiring the real-time indoor humidity of the storage cavity 101 until the real-time indoor humidity of the storage cavity 101 accords with a humidity setting range, and executing step S5;

s5, the humidifying system 3 executes humidifying action, and meanwhile, the dehumidifying system 4 executes dehumidifying action according to the current dehumidifying power.

In order to fully consider the influence of the external environment temperature and humidity of the curing storage device on the humidity in the storage cavity so as to improve the storage curing effect of the curing storage device, the scheme provides a humidity rapid adjusting method applied to the curing storage device, and the curing storage device comprises a storage box body 1, a humidifying system 3 and a dehumidifying system 4, as shown in fig. 1-4, wherein the humidifying system 3 is used for increasing the humidity in the storage cavity 101, and the dehumidifying system 4 is used for reducing the humidity in the storage cavity 101 so as to be convenient for adjusting the humidity of the curing storage device (namely the relative humidity in the storage cavity 101) as required.

Specifically, the dehumidification system 4 in the curing storage device to which the present solution is applied includes a semiconductor refrigeration sheet 41, a condensation assembly 42 and a heat dissipation assembly 43, and the cold end surface of the semiconductor refrigeration sheet 41 and the condensation assembly 42 are mutually attached, and the hot end surface of the semiconductor refrigeration sheet 41 and the heat dissipation assembly 43 are mutually attached, as shown in fig. 4. When the dehumidification system 4 is started, the gas to be dehumidified positioned in the storage cavity 101 enters the condensation assembly 42 through the dehumidification inlet, so that the water vapor in the gas to be dehumidified is condensed into liquid beads due to low-temperature cooling, the purpose of condensation and dehumidification is achieved, and then the dehumidified dry air is discharged out of the condensation assembly 42 through the dehumidification outlet and flows back to the storage cavity 101.

It should be noted that, the semiconductor refrigeration piece 41 of the present embodiment is made by using the peltier effect, which refers to a phenomenon that when a direct current passes through a couple composed of two semiconductor materials, one end of the couple absorbs heat and the other end releases heat; in other words, the semiconductor refrigerator piece 41 is made of two semiconductor materials, forming a hot end and a cold end, and the cold end continuously absorbs heat to realize refrigeration; the hot end continuously releases heat, the technical scheme dehumidifies the gas in a semiconductor refrigeration condensation mode, a complex mechanical structure is omitted, the structure and the compression volume can be effectively simplified, mute dehumidification is convenient to realize, and the semiconductor refrigeration dehumidification device is safe, reliable, convenient, practical, low in manufacturing cost and wide in application range.

It should be further noted that, in step S1, the acquisition of the humidity setting range of the storage cavity 101 is included, and in one embodiment, the humidity setting range may be a default range of the humidity control system of the curing storage device, which is generally a factory setting of a product of the curing storage device; the user may input and set the information through an intelligent terminal such as a control panel or a smart phone, and the control method is not limited herein.

The humidity regulating process in the humidity stabilizing and regulating method comprises the following steps:

first, the humidification system 3 and the dehumidification system 4 in the maintenance storage device are simultaneously turned on, that is, the humidification operation and the dehumidification operation are simultaneously performed. It should be noted that, the initial dehumidification power in the dehumidification system 4 may be a default setting value of the humidity control system of the maintenance storage device, which is usually a factory setting of a product of the maintenance storage device; the user may input and set the information through an intelligent terminal such as a control panel or a smart phone, and the control method is not limited herein.

Then, comparing the current humidity in the storage cavity 101 with the humidity setting range, and if the current humidity in the storage cavity 101 does not meet the humidity setting range, executing the operation power adjusting step of the semiconductor refrigeration sheet 41 in step S4 according to the requirement; if the current humidity in the storage chamber 101 accords with the humidity setting range, the humidification and dehumidification operations are continued to be performed simultaneously according to the current dehumidification parameters.

In the control method, the relative humidity of the storage cavity 101 can be adjusted by only adjusting the operation power of the semiconductor refrigerating sheet 41 in the dehumidification system, and the adjustment method is quite simple. In addition, during the operation of the maintenance storage device, the temperature in the storage cavity 101 is unchanged or slightly changed, and the temperature and humidity of the external environment are also unchanged or slightly changed, so that the humidity control method of the embodiment fully considers and reflects the temperature of the storage cavity 101, the external environment temperature and the external environment humidity during the dehumidification process, thereby being beneficial to realizing the accurate control of the humidity in the storage cavity 101 and having smaller error.

Further describing, in step S4, adjusting the operating power of the semiconductor refrigeration sheet 41 includes:

s41, comparing the current humidity in the storage cavity 101 with a humidity setting range;

s42, if the current humidity in the storage cavity 101 is greater than the upper limit value of the humidity setting range, the operation power of the semiconductor refrigeration sheet 41 is increased; if the current humidity in the storage chamber 101 is less than the lower limit value of the humidity setting range, the operation power of the semiconductor refrigeration sheet 41 is reduced.

Further describing, step S42 includes:

if the current humidity in the storage cavity 101 is greater than the upper limit value of the humidity setting range, the operation power of the semiconductor refrigeration sheet 41 is gradually increased; if the current humidity in the storage chamber 101 is less than the lower limit value of the humidity setting range, the operation power of the semiconductor refrigeration sheet 41 is gradually reduced.

Since the adjustment process of the operation power of the semiconductor refrigeration piece 41 in the dehumidification method is gradual adjustment, that is, the dehumidification system 4 can gradually increase and decrease the operation power of the semiconductor refrigeration piece 41 according to the humidity adjustment interval set by the system, the humidity in the cavity of the storage cavity 101 is more stable, and the condition that the fluctuation of the humidity in the cavity is too large is avoided.

To further illustrate, step S2 includes:

the humidifying system 3 starts and executes humidifying action, and at the same time obtains initial dehumidifying power, the dehumidifying system 4 starts, and adjusts the running power of the semiconductor refrigerating chip 41 to the initial dehumidifying power, and executes dehumidifying action;

after the first preset time, step S3 is entered.

To further illustrate, step S5 includes:

the humidifying system 3 executes humidifying action, and the dehumidifying system 4 executes dehumidifying action according to the current dehumidifying power;

after the second preset time, step S3 is entered.

In addition, in the humidity adjusting process of the adjusting method, the first preset time and the second preset time are also introduced to serve as the acting time of the humidifying system 3 and the dehumidifying system 4.

After the first preset time, the humidity in the storage cavity 101 fully reflects the effect of the humidification system 3 when the humidification system performs the humidification according to the preset humidification parameters, and the dehumidification system 4 performs the dehumidification according to the initial dehumidification power, so that the comparison step is performed at this time, which is more beneficial to improving the accuracy of the comparison.

After step S5, i.e. during the first stage of humidity adjustment of the storage chamber 101, the humidity in the chamber of the storage chamber 101 now fully reflects the humidity adjustment effect of the humidification system 3 and the dehumidification system 4 in the first stage. In order to avoid the temperature of the storage cavity 101 from greatly changing after humidity adjustment, thereby affecting the humidity in the cavity, and simultaneously preventing the user from moving the maintenance storage device to another use environment after humidity adjustment, thereby affecting the humidity of the maintenance storage device, the control method reenters the step S3 for comparison after the second preset time, thereby being more beneficial to ensuring the maintenance of the humidity in the cavity.

It should be noted that, the first preset time and the second preset time in the control method may be default times of a humidity control system of the maintenance storage device, which are usually factory settings of products of the maintenance storage device; the user may input and set the information through an intelligent terminal such as a control panel or a smart phone, and the control method is not limited herein.

Further describing, in step S2, the humidification system 3 starts and performs a humidification operation, including:

the humidifying system 3 is started and executes humidifying action according to preset humidifying parameters.

Further describing, in step S5, the humidification system 3 performs a humidification operation, including:

the humidifying system 3 executes humidifying actions according to preset humidifying parameters.

It should be noted that, the humidification parameter of the humidification system 3 may be a default set value of the humidity control system of the maintenance storage device, which is usually a factory setting of a product of the maintenance storage device; the user may input and set the information through an intelligent terminal such as a control panel or a smart phone, and the control method is not limited herein.

The scheme also provides a humidity stability adjusting system which is applied to a maintenance storage device, wherein the maintenance storage device comprises a storage box body 1, a humidifying system 3 and a dehumidifying system 4, and a storage cavity 101 is formed in the storage box body 1;

the dehumidification system 4 is installed on the storage box body 1, the dehumidification system 4 comprises a semiconductor refrigeration sheet 41, a condensation assembly 42 and a heat dissipation assembly 43 which are sequentially connected from inside to outside, the semiconductor refrigeration sheet 41 comprises a cold end face and a hot end face, the cold end face is mutually attached to the condensation assembly 42, and the hot end face is mutually attached to the heat dissipation assembly 43; the condensing assembly 42 faces the storage chamber 101, and the heat dissipating assembly 43 faces the outside of the storage box body 1;

the device comprises an acquisition module, a comparison module, a humidity adjusting module and an execution module;

an acquisition module, configured to acquire a humidity setting range of the storage cavity 101;

the comparison module is used for acquiring the current humidity in the storage cavity 101 and judging whether the current humidity in the storage cavity 101 accords with a humidity setting range or not;

if the current humidity in the storage cavity 101 does not accord with the humidity setting range, executing step S4;

if the current humidity in the storage cavity 101 accords with the humidity setting range, executing step S5;

the humidity adjusting module is configured to adjust the operation power of the semiconductor refrigeration sheet 41, continuously obtain the real-time indoor humidity of the storage cavity 101 until the real-time indoor humidity of the storage cavity 101 meets a humidity setting range, and execute step S5;

the execution module is used for enabling the humidification system 3 to start and execute humidification actions, acquiring initial dehumidification power at the same time, enabling the dehumidification system 4 to start, adjusting the operation power of the semiconductor refrigeration piece 41 to the initial dehumidification power and executing the dehumidification actions; and is configured to cause the humidification system 3 to perform a humidification operation, and simultaneously cause the dehumidification system 4 to perform a dehumidification operation according to the current dehumidification power.

As shown in fig. 5, the present disclosure further provides a humidity stability adjustment system, which is configured to execute the above-mentioned humidity fast adjustment method, and includes an obtaining module, a comparing module, a humidity adjustment module, and an executing module.

Further described, the humidity adjusting module comprises an action judging unit and a power adjusting unit;

the action judging unit is used for comparing the current humidity in the storage cavity 101 with the humidity setting range;

a power adjustment unit, configured to increase the operating power of the semiconductor refrigeration sheet 41 if the current humidity in the storage cavity 101 is greater than the upper limit value of the humidity setting range; if the current humidity in the storage chamber 101 is less than the lower limit value of the humidity setting range, the operation power of the semiconductor refrigeration sheet 41 is reduced.

The present solution also proposes a computer-readable storage medium, on which a computer program is stored, which, when being executed by a processor, implements the steps of the humidity stability adjustment method described above.

The technical principle of the present invention is described above in connection with the specific embodiments. The description is made for the purpose of illustrating the general principles of the invention and should not be taken in any way as limiting the scope of the invention. Other embodiments of the invention will be apparent to those skilled in the art from consideration of this specification without undue burden.

Claims (10)

1. The humidity stability adjusting method is characterized by being applied to a maintenance storage device, wherein the maintenance storage device comprises a storage box body, a humidifying system and a dehumidifying system, and a storage cavity is formed in the storage box body;

the dehumidification system is arranged on the storage box body and comprises a semiconductor refrigeration sheet, a condensation assembly and a heat dissipation assembly which are sequentially connected from inside to outside, wherein the semiconductor refrigeration sheet comprises a cold end face and a hot end face, the cold end face is mutually attached to the condensation assembly, and the hot end face is mutually attached to the heat dissipation assembly; the condensing assembly faces the storage cavity, and the heat dissipation assembly faces the outside of the storage box body;

the method comprises the following steps:

s1, acquiring a humidity setting range of the storage cavity;

s2, starting the humidifying system, executing humidifying action, acquiring initial dehumidifying power at the same time, starting the dehumidifying system, adjusting the running power of the semiconductor refrigerating sheet to the initial dehumidifying power, and executing dehumidifying action;

s3, acquiring the current humidity in the storage cavity, and judging whether the current humidity in the storage cavity accords with a humidity setting range;

if the current humidity in the storage cavity does not accord with the humidity setting range, executing step S4;

if the current humidity in the storage cavity accords with the humidity setting range, executing step S5;

s4, adjusting the running power of the semiconductor refrigerating sheet, continuously obtaining the real-time indoor humidity of the storage cavity until the real-time indoor humidity of the storage cavity accords with a humidity setting range, and executing a step S5;

s5, the humidifying system executes humidifying action, and meanwhile, the dehumidifying system executes dehumidifying action according to the current dehumidifying power.

2. The humidity stabilizing adjustment method according to claim 1, wherein in step S4, adjusting the operation power of the semiconductor cooling sheet comprises:

s41, comparing the current humidity in the storage cavity with a humidity setting range;

s42, if the current humidity in the storage cavity is greater than the upper limit value of the humidity setting range, the running power of the semiconductor refrigerating sheet is increased; and if the current humidity in the storage cavity is smaller than the lower limit value of the humidity setting range, reducing the running power of the semiconductor refrigerating sheet.

3. The humidity stabilizing adjustment method according to claim 2, wherein step S42 comprises:

if the current humidity in the storage cavity is larger than the upper limit value of the humidity setting range, gradually increasing the running power of the semiconductor refrigerating sheet; and if the current humidity in the storage cavity is smaller than the lower limit value of the humidity setting range, gradually reducing the running power of the semiconductor refrigerating sheet.

4. The humidity stabilizing adjustment method according to claim 1, wherein step S2 comprises:

the humidifying system is started and executes humidifying action, and meanwhile initial dehumidifying power is obtained, the dehumidifying system is started, the running power of the semiconductor refrigerating sheet is adjusted to the initial dehumidifying power, and dehumidifying action is executed;

after the first preset time, step S3 is entered.

5. The humidity stabilizing adjustment method according to claim 1, wherein step S5 comprises:

the humidifying system executes humidifying action, and the dehumidifying system executes dehumidifying action according to the current dehumidifying power;

after the second preset time, step S3 is entered.

6. The humidity stabilizing adjustment method according to claim 1, wherein in step S2, the humidification system is started and performs a humidification operation, comprising:

the humidifying system is started, and humidifying actions are executed according to preset humidifying parameters.

7. The humidity stabilizing adjustment method according to claim 1, wherein in step S5, the humidification system performs humidification actions, comprising:

and the humidifying system executes humidifying action according to preset humidifying parameters.

8. The humidity stability adjusting system is characterized by being applied to a maintenance storage device, wherein the maintenance storage device comprises a storage box body, a humidifying system and a dehumidifying system, and a storage cavity is formed in the storage box body;

the dehumidification system is arranged on the storage box body and comprises a semiconductor refrigeration sheet, a condensation assembly and a heat dissipation assembly which are sequentially connected from inside to outside, wherein the semiconductor refrigeration sheet comprises a cold end face and a hot end face, the cold end face is mutually attached to the condensation assembly, and the hot end face is mutually attached to the heat dissipation assembly; the condensing assembly faces the storage cavity, and the heat dissipation assembly faces the outside of the storage box body;

the device comprises an acquisition module, a comparison module, a humidity adjusting module and an execution module;

the acquisition module is used for acquiring the humidity setting range of the storage cavity;

the comparison module is used for acquiring the current humidity in the storage cavity and judging whether the current humidity in the storage cavity accords with a humidity setting range or not;

the humidity adjusting module is used for adjusting the running power of the semiconductor refrigerating sheet, and continuously acquiring the real-time indoor humidity of the storage cavity until the real-time indoor humidity of the storage cavity accords with a humidity setting range;

the execution module is used for enabling the humidification system to start and execute humidification action, acquiring initial dehumidification power, enabling the dehumidification system to start, adjusting the running power of the semiconductor refrigerating sheet to the initial dehumidification power and executing dehumidification action; and the humidifying system is used for executing the humidifying action, and simultaneously, the dehumidifying system is used for executing the dehumidifying action according to the current dehumidifying power.

9. The humidity stabilizing and adjusting system according to claim 8, wherein the humidity adjusting module comprises an action judging unit and a power adjusting unit;

the action judging unit is used for comparing the current humidity in the storage cavity with the humidity setting range;

the power adjusting unit is used for increasing the running power of the semiconductor refrigerating sheet if the current humidity in the storage cavity is greater than the upper limit value of the humidity setting range; and if the current humidity in the storage cavity is smaller than the lower limit value of the humidity setting range, reducing the running power of the semiconductor refrigerating sheet.

10. A computer-readable storage medium, on which a computer program is stored, characterized in that the computer program, when being executed by a processor, carries out the steps of the humidity stability adjustment method according to any one of claims 1 to 7.