Device for humidity conditioning A device for humidity conditioning

By designing a humidity control device that includes a first channel and a second channel, and utilizing the switching between a heating device and a moisture-absorbing disc, the problem of needing two independent devices for humidification and dehumidification is solved, achieving a humidity control effect that saves space and reduces costs.

CN111928356BActive Publication Date: 2026-07-10QINGDAO HAIER AIR CONDITIONER GENERAL CORP LTD +2

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Patents(China)
Current Assignee / Owner
QINGDAO HAIER AIR CONDITIONER GENERAL CORP LTD
Filing Date
2020-07-20
Publication Date
2026-07-10

AI Technical Summary

Technical Problem

In existing technologies, humidification and dehumidification require two separate devices, resulting in a large space requirement.

Method used

Design a humidity control device, including a first channel and a second channel, which are connected to the outdoor and indoor environments respectively. It is equipped with first and second heating devices. Humidification or dehumidification is achieved by switching the operating conditions of the heating devices. Humidity is adjusted by switching between different channels using a moisture absorption disc.

Benefits of technology

Achieving both humidification and dehumidification with a single device saves installation space, reduces costs, and improves humidity control efficiency.

✦ Generated by Eureka AI based on patent content.

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Abstract

The application relates to the household electrical appliance technical field and discloses a device for humidity adjustment, which comprises a first channel, a second channel, a moisture absorption turntable, a first heating device and a second heating device. The two ends of the first channel are communicated with the outdoor; the two ends of the second channel are communicated with the indoor; the moisture absorption turntable is partially located in the first channel and partially located in the second channel; the first heating device is arranged in the first channel; and the second heating device is arranged in the second channel. In the application, the heating devices are arranged in the first channel and the second channel, the working conditions of the two heating devices can be switched, humidification or dehumidification can be carried out, humidification and dehumidification can be carried out through one device, installation space is saved, and the cost is reduced.
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Description

Technical Field

[0001] This application relates to the field of home appliance technology, for example to a device for humidity control. Background Technology

[0002] Currently, the humidity in the air fluctuates greatly with seasonal changes. Both high and low humidity can affect people's health. Therefore, humidifiers and dehumidifiers are needed for humidification or dehumidification. Existing related technologies mostly use two separate devices, humidifiers and dehumidifiers, to humidify and dehumidify the environment.

[0003] In the process of implementing the embodiments of this disclosure, at least the following problems were found in the related art:

[0004] Humidification and dehumidification require two separate devices, which takes up a lot of space. Summary of the Invention

[0005] To provide a basic understanding of some aspects of the disclosed embodiments, a brief summary is given below. This summary is not intended as a general commentary, nor is it intended to identify key / important components or describe the scope of protection of these embodiments, but rather as a prelude to the detailed description that follows.

[0006] This disclosure provides a device for humidity regulation to solve the problem that humidification and dehumidification require two separate devices, which occupy a large amount of space.

[0007] In some embodiments, the humidity regulating device includes: a first channel, a second channel, a moisture-absorbing turntable, a first heating device, and a second heating device. The first channel is connected to the outside at both ends; the second channel is connected to the inside at both ends; the moisture-absorbing turntable is partially located in the first channel and partially located in the second channel; the first heating device is disposed within the first channel; and the second heating device is disposed within the second channel.

[0008] The humidity control device provided in this disclosure can achieve the following technical effects:

[0009] Heating devices are installed in both the first and second channels. By switching the operating modes of the two heating devices, humidification or dehumidification can be performed. When the first heating device in the first channel is activated, the first channel is in humidification mode, and the second channel is in dehumidification mode. Since the second channel is connected to the indoor environment, it can also dehumidify the indoor environment. When the second heating device in the second channel is activated, the second channel is in humidification mode, and the first channel is in dehumidification mode. Since the second channel is connected to the indoor environment, it can also humidify the indoor environment. Humidification and dehumidification can be performed through a single device, saving installation space and reducing costs.

[0010] The above general description and the description below are exemplary and illustrative only and are not intended to limit this application. Attached Figure Description

[0011] One or more embodiments are illustrated by way of example with reference to the accompanying drawings. These illustrations and drawings do not constitute a limitation on the embodiments. Elements having the same reference numerals in the drawings are shown as similar elements. The drawings are not to be scaled. And wherein:

[0012] Figure 1 This is a schematic diagram of a humidity control device provided in an embodiment of this disclosure;

[0013] Figure 2 This is a schematic diagram of the second channel structure provided in an embodiment of this disclosure;

[0014] Figure 3 This is a schematic diagram of the external structure of a humidity regulating device provided in an embodiment of this disclosure;

[0015] Figure 4 This is a schematic diagram of the external structure of another humidity control device provided in an embodiment of this disclosure;

[0016] Figure 5 This is a schematic diagram of the structure of a first channel and a second channel provided in an embodiment of this disclosure;

[0017] Figure 6 This is a schematic diagram of the heating zone and transition zone provided in an embodiment of this disclosure;

[0018] Figure 7 This is a schematic diagram of the structure of a heating device provided in an embodiment of this disclosure;

[0019] Figure 8 This is a schematic diagram of the structure of a moisture-absorbing turntable provided in an embodiment of this disclosure;

[0020] Figure 9 This is a schematic diagram of an installation structure of a moisture-absorbing turntable provided in an embodiment of this disclosure;

[0021] Figure 10 This is a schematic diagram of another moisture-absorbing turntable provided in an embodiment of this disclosure;

[0022] Figure 11 This is a schematic diagram of another device structure for humidity regulation provided in an embodiment of this disclosure;

[0023] Figure 12 This is a schematic diagram of the structure of the combination of the sealing plate and the moisture-absorbing turntable provided in the embodiments of this disclosure;

[0024] Figure 13This is a schematic diagram of another heating device provided in an embodiment of this disclosure;

[0025] Figure 14 This is a schematic diagram of another device structure for humidity regulation provided in an embodiment of this disclosure.

[0026] Figure label:

[0027] 100. First channel; 101. First fan; 200. Second channel; 201. Second fan; 202. Ventilation section; 203. Air inlet section; 204. Air outlet section; 300. Moisture-absorbing turntable; 301. Frame section; 302. Turntable section; 303. Circular mounting frame; 304. Drive device; 305. Gear structure; 306. Turntable shaft; 401. First heating device; 402. Second heating device; 403. Fixing frame; 404. Heating section; 405. Heating housing; 406. Airflow channel; 500. Housing; 501. Partition plate; 502. Slot; 503. Heating zone; 504. Transition zone; 505. Partition plate; 510. Sealing plate; 600. Filter device; 601. Discharge port. Detailed Implementation

[0028] To provide a more detailed understanding of the features and technical content of the embodiments of this disclosure, the implementation of the embodiments of this disclosure will be described in detail below with reference to the accompanying drawings. The accompanying drawings are for illustrative purposes only and are not intended to limit the embodiments of this disclosure. In the following technical description, for ease of explanation, several details are used to provide a full understanding of the disclosed embodiments. However, one or more embodiments may still be implemented without these details. In other cases, well-known structures and devices may be simplified in their depiction to simplify the drawings.

[0029] The terms "first," "second," etc., used in the specification, claims, and accompanying drawings of this disclosure are used to distinguish similar objects and are not necessarily used to describe a specific order or sequence. It should be understood that such data can be interchanged where appropriate for the embodiments of this disclosure described herein. Furthermore, the terms "comprising" and "having," and any variations thereof, are intended to cover non-exclusive inclusion.

[0030] In this disclosure, the terms "upper," "lower," "inner," "middle," "outer," "front," and "rear," etc., indicate the orientation or positional relationship based on the orientation or positional relationship shown in the accompanying drawings. These terms are primarily for better description of the embodiments of this disclosure and their implementations, and are not intended to limit the indicated devices, elements, or components to having a specific orientation, or to require them to be constructed and operated in a specific orientation. Furthermore, some of the aforementioned terms may be used to indicate other meanings besides orientation or positional relationship; for example, the term "upper" may in some cases indicate a dependency or connection relationship. Those skilled in the art can understand the specific meaning of these terms in the embodiments of this disclosure according to the specific circumstances.

[0031] Furthermore, the terms "set up," "connect," and "fix" should be interpreted broadly. For example, "connection" can be a fixed connection, a detachable connection, or an integral structure; it can be a mechanical connection or an electrical connection; it can be a direct connection or an indirect connection through an intermediate medium, or it can be an internal connection between two devices, components, or parts. Those skilled in the art can understand the specific meaning of the above terms in the embodiments of this disclosure according to the specific circumstances.

[0032] Unless otherwise stated, the term "multiple" means two or more.

[0033] It should be noted that, unless otherwise specified, the embodiments and features described in the present disclosure can be combined with each other.

[0034] Combination Figure 1-7 As shown, this disclosure provides a device for humidity regulation, including: a first channel 100, a second channel 200, a moisture-absorbing turntable 300, a first heating device 401, and a second heating device 402. The first channel 100 is connected to the outside at both ends; the second channel 200 is connected to the inside at both ends; the moisture-absorbing turntable 300 includes a first portion located in the first channel 100 and a second portion located in the second channel 200; the first heating device 401 is disposed within the first channel 100; and the second heating device 402 is disposed within the second channel 200.

[0035] The humidity control device provided in this embodiment has heating devices in both the first channel 100 and the second channel 200. By switching the operating conditions of the two heating devices, humidification or dehumidification can be performed. When the first heating device 401 in the first channel 100 is activated, the first channel 100 is in humidification mode and the second channel 200 is in dehumidification mode. Since the second channel 200 is connected to the room, it can dehumidify the room. When the second heating device 402 in the second channel 200 is activated, the second channel 200 is in humidification mode and the first channel 100 is in dehumidification mode. Since the second channel 200 is connected to the room, it can humidify the room. Humidification and dehumidification can be performed through a single device, saving installation space and reducing costs.

[0036] Optionally, the second channel 200 includes a ventilation section 202, an air inlet section 203, and an air outlet section 204. The ventilation section 202 is arranged side by side with the first channel 100; the air inlet section 203 is perpendicular to and connected to one end of the ventilation section 202; and the air outlet section 204 is perpendicular to and connected to the other end of the ventilation section 202. In this way, the air inlet section 203 is arranged side by side with the first channel 100, which facilitates the installation of the moisture-absorbing turntable 300, while the air inlet section 203 and the air outlet section 204 facilitate the connection of both ends of the ventilation section 202 to the room.

[0037] Optionally, the first channel 100 and the ventilation section 202 are defined by a housing 500 and a partition 501 disposed within the housing 500, or by two separate pipes. In this way, defining the first channel 100 and the ventilation section 202 by the partition 501 brings them closer together, facilitating the installation of the moisture-absorbing turntable 300; defining the first channel 100 and the ventilation section 202 by two separate pipes allows the two pipes to operate independently, resulting in a more stable structure.

[0038] Optionally, the first channel 100 and the ventilation section 202 are defined by a housing 500 and a partition 501 disposed within the housing 500. The partition 501 is provided with a slot 502 through which the moisture-absorbing turntable 300 can pass. In this way, the moisture-absorbing turntable 300 passes through the slot 502, allowing it to enter both the first channel 100 and the ventilation section 202, absorbing moisture in one channel and releasing moisture in the other, thus achieving better humidification and dehumidification.

[0039] Optionally, the first channel 100 and the ventilation section 202 are defined by two pipes, which are stacked, and slots 502 are provided on the side of the first channel 100 and the ventilation section 202. In this way, the first channel 100 and the ventilation section 202 are close to each other, which makes it easier to place the moisture-absorbing turntable 300 in the first channel 100 and the ventilation section 202.

[0040] Optionally, the center of the moisture-absorbing turntable 300 is located within the slot 502 and connected to the side wall of the slot 502 via a rotating shaft. This allows the moisture-absorbing turntable 300 to rotate within the slot 502, circulating between the first channel 100 and the second channel 200. This allows the turntable 300 to absorb moisture in one channel and then rotate to another channel to release it, thus improving humidification and dehumidification.

[0041] Optionally, both the first channel 100 and the second channel 200 include a heating zone 503 and a transition zone 504. The first heating device 401 covers the heating zone 503 in the first channel 100, and the second heating device 402 covers the heating zone 503 in the second channel 200. In this way, after the moisture-absorbing turntable 300 is heated and releases moisture in the heating zone 503, it enters the transition zone 504 and continues to release moisture using residual heat in the airflow. After being appropriately cooled, it enters another channel for moisture absorption, preventing the moisture-absorbing turntable 300 from having a decreased moisture absorption efficiency at high temperatures, which would affect the overall humidification and dehumidification efficiency.

[0042] Optionally, the heating zone 503 refers to the area within a preset range of the moisture-absorbing turntable 300 in the first channel 100 or the second channel 200. This facilitates the placement of the first heating device 401 and the second heating device 402 within the heating zone 503, thereby better heating the moisture-absorbing turntable 300.

[0043] Optionally, the heating zone 503 and the transition zone 504 within the first channel 100 are obtained by dividing part of the space within the first channel 100 by a partition plate 505 disposed within the first channel 100. In this way, the first channel 100 is divided into two zones by the partition plate 505, and the heating zone 503 and the transition zone 504 have less mutual influence. This allows for better heating of the moisture-absorbing turntable 300 through the heating zone 503 and cooling of the moisture-absorbing turntable 300 within the transition zone 504.

[0044] Optionally, the structure of the ventilation section 202 is the same as that of the first channel 100. In this way, the first channel 100 and the ventilation section 202 can work alternately, making the alternating humidification and dehumidification more stable.

[0045] Optionally, the partition plate 505 is set within a preset range on the windward side of the moisture-absorbing disc 300. This partitioning of the airflow within the preset range on the windward side of the moisture-absorbing disc 300 prevents mutual interference between the airflows from the heating zone 503 and the transition zone 504, allowing the moisture-absorbing disc 300 to cool down better in the transition zone 504. This also ensures that the temperature of the moisture-absorbing disc 300 decreases after entering another channel, resulting in better moisture absorption and thus improving the efficiency of humidification and dehumidification.

[0046] Optionally, the heating zone 503 and the transition zone 504 are arranged sequentially along the rotation direction of the moisture-absorbing turntable 300. This allows the moisture-absorbing turntable 300 to first enter the heating zone 503 and then the transition zone 504. After being heated and releasing moisture in the heating zone 503, it enters the transition zone 504 and continues to release moisture using residual heat in the airflow. After appropriate cooling, it enters another channel for moisture absorption, preventing a decrease in the moisture absorption efficiency of the moisture-absorbing turntable 300 at high temperatures, which would affect the overall humidification and dehumidification efficiency.

[0047] Optionally, the area of ​​the heating zone 503 is greater than or equal to the area of ​​the transition zone 504. This ensures the heating efficiency of the moisture-absorbing disc 300, improves the efficiency of moisture regeneration, and thus improves the efficiency of humidification and dehumidification.

[0048] Optionally, the area of ​​the heating zone 503 is the same as the area of ​​the transition zone 504. In this way, the heating zone 503 and the transition zone 504 have the same area, which facilitates the sufficient cooling of the moisture-absorbing disc 300 after the temperature is raised in the heating zone 503 in the transition zone 504, so that it can better absorb moisture and improve the efficiency of humidification and dehumidification.

[0049] Optionally, both the ventilation unit 202 and the first channel 100 are located outdoors. This arrangement reduces noise levels at the indoor end.

[0050] Optionally, both the air inlet 203 and the air outlet 204 are connected to the room. This allows indoor air to enter the ventilation section 202 through the air inlet 203 and be discharged into the room through the air outlet 204, facilitating humidification and dehumidification in the room.

[0051] Optionally, the ventilation section 202 and the first channel 100 are arranged longitudinally. This reduces the lateral space occupation, prevents the first channel 100 from extending too far outward, and improves the stability of the installation.

[0052] Optionally, both the first heating device 401 and the second heating device 402 are positioned within a preset range from the moisture-absorbing turntable 300. This arrangement, with the first heating device 401 and the second heating device 402 close to the moisture-absorbing turntable 300, allows for better heating of the turntable and improves the efficiency of moisture regeneration on the turntable 300.

[0053] Optionally, the preset range is 2 cm to 10 cm from the moisture-absorbing turntable 300. By placing the first heating device 401 and the second heating device 402 within this range, it is possible to prevent them from being too close to the moisture-absorbing turntable 300, thus avoiding interference with its rotation or damage. This also allows for better heating of the moisture-absorbing turntable 300, improving its moisture regeneration efficiency.

[0054] Optionally, the preset range is 3 cm. In this way, by setting both the first heating device 401 and the second heating device 402 at a distance of 3 cm from the moisture-absorbing turntable 300, the heating efficiency of the moisture-absorbing turntable 300 can be improved, thereby improving the efficiency of moisture regeneration of the moisture-absorbing turntable 300.

[0055] Optionally, the first heating device 401 and the second heating device 402 are both located on the same side of the moisture-absorbing turntable 300. This way, when the airflow directions in the first channel 100 and the second channel 200 are the same, both the first heating device 401 and the second heating device 402 can be located on the windward side of the moisture-absorbing turntable 300. This allows the airflow to pass through the heating devices first and then through the moisture-absorbing turntable 300, thus better heating the moisture-absorbing turntable 300, improving the moisture regeneration efficiency of the moisture-absorbing turntable 300, and consequently enhancing the humidification and dehumidification efficiency.

[0056] Optionally, the first heating device 401 includes a fixing frame 403 and a heating part 404. The fixing frame 403 is fixedly connected to the inner wall of the first channel 100; the heating part 404 is disposed within the fixing frame 403. In this way, the first heating device 401 can be better fixed, improving the stability of the fixing of the first heating device 401.

[0057] Optionally, the heating element 404 is an electric heating wire. This makes the electric heating wire simple in structure and easy to obtain.

[0058] Optionally, the structure of the second heating device 402 is the same as that of the first heating device 401. In this way, when the first heating device 401 and the second heating device 402 work alternately, the working efficiency is the same, maintaining the stability of humidification and dehumidification.

[0059] Optionally, the first heating device 401 and the second heating device 402 are both arranged parallel to the moisture absorption turntable 300. This allows the first heating device 401 and the second heating device 402 to heat the moisture absorption turntable 300 more evenly, improving the efficiency of moisture regeneration of the moisture absorption turntable 300, and thus improving the efficiency of humidification and dehumidification.

[0060] Optionally, both the first heating device 401 and the second heating device 402 are commonly used heating devices such as electromagnetic heating, microwave heating, or electric heating wire heating. In this way, using commonly used heating devices to heat the moisture-absorbing turntable 300 results in a simple structure that is easy to obtain and has increased heating efficiency.

[0061] Combination Figure 8 As shown, this embodiment of the present disclosure provides a moisture-absorbing turntable. The moisture-absorbing turntable 300 includes a frame portion 301 and a turntable portion 302. The frame portion 301 is provided with a circular mounting frame 303, and the outer edge of the frame portion 301 is connected to the side walls of the first channel 100 and the second channel 200; the turntable portion 302 is disposed within the circular mounting frame 303. In this way, by connecting the frame portion 301 to the side walls of the first channel 100 and the second channel 200, airflow can be prevented from passing through the edge of the moisture-absorbing turntable 300, and the airflow can be guided through the turntable portion 302, effectively improving the efficiency of humidification and dehumidification.

[0062] Optionally, the moisture-absorbing disc 300 can seal the first channel 100 and the second channel 200. In this way, by completely sealing the first channel 100 and the second channel 200 with the moisture-absorbing disc 300, all the airflow in the first channel 100 and the second channel 200 passes through the moisture-absorbing disc 300, thereby improving the efficiency of the moisture-absorbing disc 300 in absorbing and releasing moisture, and thus improving the efficiency of humidification and moisture absorption.

[0063] Optionally, the turntable portion 302 includes a frame and a moisture-absorbing material. The frame is disc-shaped; the moisture-absorbing material is filled inside the frame. Thus, by providing the frame, the structural stability of the turntable portion 302 can be improved, preventing damage to the turntable portion 302.

[0064] Alternatively, the frame can be made of glass fiber or ceramic fiber. This makes the structure stable and lightweight, facilitating the rotation of the turntable 302.

[0065] Optionally, the moisture-absorbing material includes one or more of silica gel, MOF, and molecular sieves. This allows for efficient absorption of moisture from the airflow and efficient release of moisture under heating conditions.

[0066] Optionally, the humidity control device further includes a drive unit 304. The drive unit 304 is mounted on the frame portion 301 and connected to the turntable portion 302, configured to drive the turntable portion 302 to rotate. This allows for stable rotation of the turntable portion 302, improving the accuracy of humidification and moisture absorption.

[0067] Optionally, the edge of the turntable 302 is a gear structure 305, and the drive device 304 includes a motor and a drive gear driven by the motor, the drive gear meshing with the gear structure 305 of the turntable 302. In this way, the rotation of the turntable 302 can be driven more stably, improving the operational stability of the moisture-absorbing turntable 300.

[0068] Combination Figure 9-10 As shown, this disclosure provides another moisture-absorbing turntable. The moisture-absorbing turntable 300 includes a turntable shaft 306 and a turntable portion 302. The center of the turntable portion 302 is connected to the turntable shaft 306 and is installed parallel to the airflow direction within the first channel 100 and the second channel 200. In this way, airflow can pass through both sides of the turntable portion 302, increasing the contact area between the turntable portion 302 and the airflow, and effectively reducing wind resistance.

[0069] Optionally, multiple turntable sections 302 are provided, and they are all arranged at intervals on the turntable shaft 306. In this way, by providing multiple turntable sections 302, the airflow passes through the gaps between the turntable sections 302, which can better enable the turntable sections 302 to contact the airflow.

[0070] Optionally, the gap between the turntable sections 302 is greater than or equal to 0.5 cm and less than or equal to 5 cm. In this way, controlling the gap between the turntable sections 302 between 0.5 and 5 cm allows for better contact with the airflow and reduces wind resistance.

[0071] Combination Figure 11-13 As shown, this embodiment of the present disclosure provides another device for humidity regulation, which further includes a sealing plate 510. The sealing plate 510 vertically seals the first channel 100 and the second channel 200, and the moisture-absorbing disc 300 passes vertically through the sealing plate 510. In this way, the airflow passes through the moisture-absorbing disc 300 more concentratedly, which can better enable the moisture-absorbing disc 300 to absorb or release moisture.

[0072] Optionally, the first heating device 401 includes a heating housing 405 and heating elements 404. The heating housing 405 has an open side and a closed side, with the open side attached to the moisture-absorbing turntable 300. Multiple heating elements 404 are provided and arranged parallel to each other within the heating housing 405, with the gaps between the heating elements 404 and the heating housing 405 defining an airflow channel 406. This allows airflow to pass through the moisture-absorbing turntable 300 and enter the airflow channel 406, then re-enter the moisture-absorbing turntable 300. This two-stage passage through the moisture-absorbing turntable 300 allows for better absorption or release of moisture. Furthermore, the airflow channel 406, defined by the heating elements 404, facilitates better heat exchange between the airflow and the heating elements 404, improving heating efficiency and thus enhancing humidification and dehumidification efficiency.

[0073] Optionally, the first heating device 401 passes through the sealing plate 510, such that half of the airflow channel 406 is located on one side of the sealing plate 510 and the other half is located on the other side of the sealing plate 510. In this way, after the airflow enters the airflow channel, it passes through the airflow channel 406 and then through the sealing plate 510, ensuring the smooth flow of air.

[0074] Optionally, the second heating device 402 has the same structure as the first heating device 401. In this way, by attaching the second heating device 402 to the moisture-absorbing disc 300 in the second channel 200, the airflow in the second channel 200 can also pass through the moisture-absorbing disc 300 twice, thereby improving the efficiency of the moisture-absorbing disc 300 in absorbing or releasing moisture.

[0075] Optionally, the first fan 101 and the second fan 201 are centrifugal fans. Since the airflow resistance generated by passing through the moisture-absorbing disc twice is relatively large, using a centrifugal fan can generate higher negative pressure, making the airflow smoother, thereby improving the efficiency of humidification and dehumidification.

[0076] Combination Figure 14 As shown in the figure, this embodiment of the present disclosure provides a device for humidity regulation, which further includes a filter device 600. The filter device 600 is disposed within the first channel 100. Thus, airflow flowing into the room passes through the filter device 600 and is filtered and purified by it. The filter device 600 is disposed at one end communicating with the outside, which can prevent dust, bacteria, and other impurities from covering the moisture-absorbing disc 300, affecting its water absorption capacity and thus reducing humidification efficiency. Furthermore, the filtration by the filter device 600 can remove dust, bacteria, and other impurities from the airflow, preventing airflow carrying dust, bacteria, and other impurities from entering the room and affecting indoor air quality.

[0077] Optionally, the filter device 600 is disposed between the moisture-absorbing rotary disc 300 and the first fan 101, and the first fan 101 is configured to blow air towards one side of the moisture-absorbing rotary disc 300. In this way, the first fan 101 blows the airflow towards the filter device 600, and the filter device 600 filters the airflow before it passes through the moisture-absorbing rotary disc 300. This allows for better filtration of the airflow flowing through the moisture-absorbing rotary disc 300, and better prevents dust, bacteria, and other impurities from accumulating on the moisture-absorbing rotary disc 300, affecting its water absorption capacity, and thus reducing humidification efficiency.

[0078] Optionally, the filter device 600 is inclinedly disposed within the first channel 100, and an outlet 601 is provided on the side wall of the first channel 100 corresponding to the leeward side. This facilitates the collection of dust and other foreign objects towards the inclined side, reduces dust coverage on the filter device 600, keeps the filter device 600 clean, and improves the filtration effect.

[0079] Optionally, a switch baffle is provided on the discharge port 601. In this way, the discharge port 601 can be opened or closed by switching the baffle, and the discharge port 601 can be opened at regular intervals to allow accumulated dust and other impurities to be discharged through the discharge port 601.

[0080] Optionally, the filter device 600 has a preset tilt angle relative to the airflow direction within the first channel 100, and the preset tilt angle is greater than or equal to 45 degrees and less than or equal to 75 degrees. In this way, setting the tilt angle of the filter device 600 between 45 degrees and 75 degrees can better utilize the tilt angle to collect dust and other impurities accumulated on the surface of the filter device 600 to one end, without hindering the filtration effect of the filter device 600.

[0081] Optionally, the preset tilt angle is 60 degrees. In this way, by setting the tilt angle of the filter device 600 to 60 degrees, the dust and other impurities on the surface of the filter device 600 can be collected at one end of the filter device 600, and the 60-degree tilt setting has little impact on the filtration effect of the filter device 600.

[0082] Optionally, the filter device 600 has a discharge port 601 on the side wall of the first channel 100 on the leeward side. In this way, the collected dust and other foreign objects can be discharged through the discharge port 601, which helps to keep the filter device 600 clean and improve the filtration effect.

[0083] Optionally, the filter device 600 is detachably installed within the first channel 100. This facilitates the disassembly, cleaning, or replacement of the filter device 600, thereby improving filtration efficiency.

[0084] Optionally, a slot is provided on the side wall of the first channel 100, and the filter device 600 is movably inserted into the slot. In this way, the connection between the filter device 600 and the first channel 100 can be maintained stably through the slot.

[0085] Optionally, one end of the slot is connected to the discharge port 601 and is configured to allow the filter device 600 to be disassembled and installed through the discharge port 601. In this way, disassembling and installing the filter device 600 through the discharge port 601 makes it easier to disassemble and install the filter device 600.

[0086] Optionally, the filter device 600 includes a filter layer and a sterilization layer. The sterilization layer is disposed on the side of the filter layer near the moisture-absorbing disc 300. In this way, dust and other foreign objects can be filtered and sterilized at the same time, improving air quality. Disposing the sterilization layer on the side near the moisture-absorbing disc 300 also prevents dust from accumulating on the sterilization layer and affecting the sterilization effect.

[0087] Optionally, both the filter layer and the sterilization layer adopt structures commonly used in the art. This structure is simple and easy to obtain. For example, the filter layer can be a mesh filter, and the sterilization layer can be a silver ion or negative ion sterilization layer.

[0088] The foregoing description and accompanying drawings fully illustrate embodiments of the present disclosure to enable those skilled in the art to practice them. Other embodiments may include structural and other changes. The embodiments represent only possible variations. Individual components and functions are optional unless explicitly required, and the order of operation may vary. Parts and features of some embodiments may be included or substituted for parts and features of other embodiments. Embodiments of the present disclosure are not limited to the structures described above and shown in the accompanying drawings, and various modifications and changes may be made without departing from its scope. The scope of the present disclosure is limited only by the appended claims.

Claims

1. A device for humidity regulation, characterized in that, include: The first passage connects to the outdoors at both ends; The second passageway connects to the indoor space at both ends; The moisture-absorbing turntable includes a first portion located in the first channel and a second portion located in the second channel; The first heating device is installed in the first channel; A second heating device is installed within the second channel; A sealing plate vertically seals the first and second channels. A moisture-absorbing turntable passes vertically through the sealing plate. A first heating device passes through the sealing plate, so that half of the airflow channel is located on one side of the sealing plate and the other half is located on the other side of the sealing plate. The first heating device includes a heating shell and a heating part. One side of the heating shell is open and the opposite side is closed. The open side is attached to the moisture-absorbing turntable. Multiple heating parts are provided and are arranged parallel to each other inside the heating shell. The gap between the heating parts and the heating shell defines the airflow channel. The second heating device has the same structure as the first heating device. The first channel and the second channel both include a heating zone and a transition zone. The first heating device covers the heating zone in the first channel, and the second heating device covers the heating zone in the second channel.

2. The apparatus according to claim 1, characterized in that, The second channel includes: A ventilation section is arranged side-by-side with the first passage. An air inlet is perpendicular to and connected to one end of the ventilation section; The air outlet is perpendicular to and connected to the other end of the ventilation section.

3. The apparatus according to claim 2, characterized in that, Both the ventilation unit and the first passage are located outdoors.

4. The apparatus according to claim 2, characterized in that, The ventilation section and the first channel are arranged longitudinally.

5. The apparatus according to claim 1, characterized in that, Both the first heating device and the second heating device are located within a preset range from the moisture-absorbing turntable.

6. The apparatus according to claim 1, characterized in that, Both the first heating device and the second heating device are located on the same side of the moisture-absorbing turntable.

7. The apparatus according to any one of claims 1 to 6, characterized in that, The moisture-absorbing turntable includes: The frame part is provided with a circular mounting frame, and the outer edge of the frame part is connected to the sidewalls of the first channel and the second channel; The turntable is located within the circular mounting frame.

8. The apparatus according to claim 7, characterized in that, Also includes: A drive unit is disposed on the frame portion and connected to the turntable portion, and is configured to drive the turntable portion to rotate.

9. The apparatus according to any one of claims 1 to 6, further comprising: A filter device is installed in the first channel.

10. The apparatus according to claim 9, wherein the filtering device is inclinedly disposed in the first channel, and an outlet is provided on the side wall of the first channel corresponding to the leeward side.