CN115614854A - Humidity regulator - Google Patents

Abstract

The application relates to the technical field of humidity control, discloses a damping machine, includes: housing, humidifying carousel, first baffle and second baffle. In this application, can come the rotation switching room of drive first baffle and second baffle according to outdoor environment quality and communicate the relation with outdoor, realize exchanging indoor air current and outdoor air current in the in-process of humidification or dehumidification, perhaps do not take place to exchange, and then make indoor air current and outdoor air current take place to exchange under the condition that has the demand of trading wind indoor, do not take place to exchange between indoor air current and the outdoor air current under the relatively poor condition that does not have the demand of trading wind of outdoor air quality, avoid outdoor dirty air to enter into indoor, the selective outdoor air current that utilizes, reduce the reliance to outdoor environment, the stability of humidity control is improved, the quality of indoor air is kept.

Description

Humidity regulator

Technical Field

The application relates to the technical field of humidity control, in particular to a humidity controller.

Background

At present, different demands are often required on the humidity of the internal air in some commercial areas such as markets or warehouses, but the fluctuation of the humidity in the indoor air is large along with the change of seasons, so that the humidity of the internal space needs to be adjusted, for example, a humidifier and a dehumidifier are adopted for humidifying or dehumidifying, and two independent devices such as the humidifier and the dehumidifier are adopted for humidifying and dehumidifying the environment, so that the space is occupied, and the cost is high.

In the related art, indoor air and outdoor air are replaced, and moisture in the outdoor air is absorbed and released to the indoor or moisture in the indoor air is absorbed and released to the outdoor to humidify or dehumidify the indoor.

Therefore, how to improve the adaptability to the outdoor environment and the stability of humidity adjustment in humidity adjustment becomes a problem to be solved urgently by those skilled in the art.

Disclosure of Invention

The following presents a simplified summary in order to provide a basic understanding of some aspects of the disclosed embodiments. This summary is not an extensive overview and is intended to neither identify key/critical elements nor delineate the scope of such embodiments, but is intended to be a prelude to the more detailed description that is presented later.

The embodiment of the disclosure provides a humidity conditioner, which is used for improving the adaptability to the outdoor environment during humidity regulation and further improving the stability of humidity regulation.

In some embodiments, a humidifier includes: housing, humidifying carousel, first baffle and second baffle. A cavity is defined in the housing, and a first air inlet, a second air inlet, a first air outlet and a second air outlet are formed in the side wall of the housing; the humidifying rotary table is rotatably arranged in the cavity, a first circulation cavity is defined by one end face of the humidifying rotary table in the axial direction and the inner wall of the cavity, the first air inlet and the second air inlet are communicated with the first circulation cavity, a second circulation cavity is defined by the other end face of the humidifying rotary table and the inner wall of the cavity, the second air outlet and the second air outlet are communicated with the second circulation cavity, and airflow can penetrate through the humidifying rotary table in the axial direction of the humidifying rotary table; the first partition plate is rotatably arranged in the first circulation cavity, blocks the flow surface of the first circulation cavity along the radial direction of the humidifying turntable, and is positioned between the first air inlet and the second air inlet; the second baffle rotationally sets up in second circulation intracavity, and the shutoff second circulation chamber is along the radial surface of overflowing of humidifying carousel, and the second baffle is located between first air outlet and the second air outlet, along the axial of humidifying carousel, and first baffle and second baffle are in on the coplanar.

The damping machine provided by the embodiment of the disclosure can realize the following technical effects:

the moisture in the air flow can be absorbed when the air flow at normal temperature flows through the humidity-adjusting rotary disc, and the moisture absorbed in the humidity-adjusting rotary disc can be regenerated and released into the air flow when the heated air flow flows through the humidity-adjusting rotary disc absorbing moisture, by utilizing the characteristic of the humidity-adjusting rotary disc, the first air inlet and the first air outlet can be communicated outdoors, the second air inlet and the second air outlet can be communicated indoors, the humidity-adjusting rotary disc is driven to rotate continuously in the cavity, because the first partition plate and the second partition plate are positioned on the same plane along the axial direction of the humidity-adjusting rotary disc, the first partition plate is positioned between the first air inlet and the second air inlet, and the second partition plate is positioned between the first air outlet and the second air outlet, under the action of the first partition plate and the second partition plate, the first air inlet can only be communicated with one of the first air outlet or the second air outlet, the second air inlet is communicated with the second air outlet, at the moment, the indoor environment is in an internal circulation state, outdoor normal-temperature airflow enters the first circulation cavity through the first air inlet, passes through the humidity-adjusting turntable and enters the second circulation cavity, moisture in the airflow is absorbed and then flows out of the room through the first air outlet, indoor heating airflow enters the first circulation cavity through the second air inlet and enters the second circulation cavity through the humidity-adjusting turntable, the moisture absorbed in the humidity-adjusting turntable can be regenerated and released into the airflow when encountering hot airflow and then flows out of the room through the second air outlet to humidify the indoor environment, the communication relation can be changed through the rotation of the first partition plate and the second partition plate, the first air inlet is communicated with the second air outlet, the second air inlet is communicated with the first air outlet, at the moment, the indoor environment is in an external circulation state, the outdoor normal-temperature airflow enters the first circulation cavity through the first air inlet, the indoor air flow passes through the humidifying rotary disc and enters the second circulation cavity, moisture in the normal-temperature air flow is adsorbed by the humidifying rotary disc and then flows out of the room through the second air outlet, indoor heating air flow enters the first circulation cavity through the second air inlet and enters the second circulation cavity through the humidifying rotary disc, the moisture adsorbed in the humidifying rotary disc is regenerated and released into the air flow through the heating air flow, and then the air flow flows out of the room through the first air outlet to achieve the effect of dehumidifying the indoor environment.

The foregoing general description and the following description are exemplary and explanatory only and are not restrictive of the application.

Drawings

One or more embodiments are illustrated in the accompanying drawings, which correspond to the accompanying drawings and not in a limiting sense, in which elements having the same reference numeral designations represent like elements, and in which:

fig. 1 is a schematic structural diagram of a humidity conditioner provided in an embodiment of the present disclosure;

fig. 2 is a schematic position diagram of a first air inlet and a second air outlet provided in the embodiment of the disclosure;

fig. 3 is a schematic position diagram of a second air inlet and a second air outlet provided in the embodiment of the present disclosure;

FIG. 4 is a top view of a housing provided by embodiments of the present disclosure;

FIG. 5 is a bottom view of a cover provided by embodiments of the present disclosure;

FIG. 6 is a schematic structural diagram of a first separator provided in an embodiment of the present disclosure;

FIG. 7 is a schematic structural diagram of a second separator provided in an embodiment of the present disclosure;

FIG. 8 is a schematic view of a first and second baffle in a first position according to an embodiment of the present disclosure;

FIG. 9 is a schematic view of the first and second diaphragms in a second position according to an embodiment of the present disclosure;

fig. 10 is a schematic structural diagram of another humidity conditioner provided in the embodiment of the present disclosure;

FIG. 11 is a schematic structural view of a housing provided by an embodiment of the present disclosure;

FIG. 12 is a schematic view of an installation structure of a humidity control turntable provided in the embodiment of the present disclosure;

fig. 13 is a schematic structural diagram of a first driving motor and a second driving motor provided in the embodiment of the present disclosure;

fig. 14 is a schematic structural view of a rotating shaft and a frame portion provided in an embodiment of the disclosure;

fig. 15 is a schematic structural diagram of another humidity conditioner provided in an embodiment of the present disclosure;

fig. 16 is a schematic structural view of a first heating part provided in an embodiment of the present disclosure;

fig. 17 is a schematic structural diagram of a partition panel provided in an embodiment of the present disclosure.

Reference numerals are as follows:

100. a housing; 101. a first air inlet; 102. a second air inlet; 103. a first air outlet; 104. a second air outlet; 110. a first through-flow cavity; 120. a second flow-through chamber; 130. an upper housing portion; 140. a lower housing portion; 150. an annular mounting groove; 151. a frame portion; 152. a support shaft; 160. a first drive motor; 170. a second drive motor; 180. a mounting seat; 200. a humidifying turntable; 210. an annular rack; 300. a first separator; 310. a rotating shaft; 400. a second separator; 500. a first heating section; 510. a support frame; 520. an electric heating part; 600. a second heating section; 700. a housing; 710. a first airflow chamber; 711. a first air inlet pipe; 720. a second airflow chamber; 721. a first air outlet pipe; 730. a third airflow chamber; 731. a second air inlet pipe; 740. a fourth airflow chamber; 741. a second air outlet pipe; 750. a partition panel.

Detailed Description

So that the manner in which the features and elements of the disclosed embodiments can be understood in detail, a more particular description of the disclosed embodiments, briefly summarized above, may be had by reference to the embodiments, some of which are illustrated in the appended drawings. In the following description of the technology, for purposes of explanation, numerous details are set forth in order to provide a thorough understanding of the disclosed embodiments. However, one or more embodiments may be practiced without these details. In other instances, well-known structures and devices may be shown in simplified form in order to simplify the drawing.

The terms "first," "second," and the like in the description and claims of the embodiments of the disclosure and in the drawings described above are used for distinguishing between similar elements and not necessarily for describing a particular sequential or chronological order. It should be understood that the data so used may be interchanged under appropriate circumstances such that embodiments of the present disclosure described herein may be made. Furthermore, the terms "comprising" and "having," as well as any variations thereof, are intended to cover non-exclusive inclusions.

In the embodiments of the present disclosure, the terms "upper", "lower", "inner", "middle", "outer", "front", "rear", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings. These terms are used primarily to better describe the disclosed embodiments and their embodiments, and are not used to limit the indicated devices, elements or components to a particular orientation or to be constructed and operated in a particular orientation. Moreover, some of the above terms may be used to indicate other meanings besides the orientation or positional relationship, for example, the term "on" may also be used to indicate some kind of attachment or connection relationship in some cases. The specific meanings of these terms in the embodiments of the present disclosure can be understood by those of ordinary skill in the art as appropriate.

In addition, the terms "disposed," "connected," and "secured" are to be construed broadly. For example, "connected" may be a fixed connection, a detachable connection, or a unitary construction; can be a mechanical connection, or an electrical connection; may be directly connected, or indirectly connected through intervening media, or may be in internal communication between two devices, elements or components. Specific meanings of the above terms in the disclosed embodiments can be understood by those of ordinary skill in the art according to specific situations.

The term "plurality" means two or more unless otherwise specified.

It should be noted that, in the case of no conflict, the embodiments and features in the embodiments of the present disclosure may be combined with each other.

In some embodiments, and as shown in conjunction with fig. 1-9, a humidity conditioner includes: housing 100, humidifying carousel 200, first baffle 300 and second baffle 400. A cavity is defined in the housing 100, and a first air inlet 101, a second air inlet 102, a first air outlet 103 and a second air outlet 104 are arranged on the side wall of the housing 100; the humidity-adjusting turntable 200 is rotatably arranged in the cavity, a first circulation cavity 110 is defined by one end surface of the humidity-adjusting turntable 200 in the axial direction and the inner wall of the cavity, the first air inlet 101 and the second air inlet 102 are both communicated with the first circulation cavity 110, a second circulation cavity 120 is defined by the other end surface and the inner wall of the cavity, the second air outlet 104 and the second air outlet 104 are both communicated with the second circulation cavity 120, and air flow can pass through the humidity-adjusting turntable 200 in the axial direction of the humidity-adjusting turntable 200; the first partition plate 300 is rotatably arranged in the first circulation cavity 110, blocks the flow surface of the first circulation cavity 110 in the radial direction of the humidity adjusting turntable 200, and the first partition plate 300 is located between the first air inlet 101 and the second air inlet 102; the second partition board 400 is rotatably disposed in the second circulation cavity 120 to block the flow surface of the second circulation cavity 120 along the radial direction of the humidity-controlling turntable 200, and the second partition board 400 is located between the first air outlet 103 and the second air outlet 104, and along the axial direction of the humidity-controlling turntable 200, the first partition board 300 and the second partition board 400 are located on the same plane.

By adopting the humidity control machine provided by the embodiment of the present disclosure, moisture in the air flow at normal temperature is absorbed when the air flow passes through the humidity control turntable 200, and the moisture absorbed in the humidity control turntable 200 is regenerated and released into the air flow when the heated air flow passes through the humidity control turntable 200 that absorbs moisture, by utilizing such characteristics of the humidity control turntable 200, the first air inlet 101 and the first air outlet 103 are communicated outdoors, the second air inlet 102 and the second air outlet 104 are communicated indoors, the humidity control turntable 200 is driven to rotate continuously in the cavity, because the first partition plate 300 and the second partition plate 400 are located on the same plane along the axial direction of the humidity control turntable 200, the first partition plate 300 is located between the first air inlet 101 and the second air inlet 102, and the second partition plate 400 is located between the first air outlet 103 and the second air outlet 104, under the action of the first partition plate 300 and the second partition plate 400, the first air inlet 101 can be communicated with only one of the first air outlet 103 or the second air outlet 104, when the first air inlet 101 is communicated with the first air outlet 103, the second air inlet 102 is communicated with the second air outlet 104, at this time, the indoor environment is in an internal circulation state, outdoor normal temperature airflow enters the first circulation chamber 110 through the first air inlet 101, passes through the humidity-adjusting turntable 200 and enters the second circulation chamber 120, moisture in the airflow is adsorbed and then flows out to the outdoor through the first air outlet 103, indoor heating airflow enters the first circulation chamber 110 through the second air inlet 102 and passes through the humidity-adjusting turntable 200 and enters the second circulation chamber 120, moisture adsorbed in the humidity-adjusting turntable 200 is regenerated and released into the airflow when encountering hot airflow and then flows out to the indoor through the second air outlet 104 to play a role of humidifying the indoor environment, and the communication relationship can be changed through the rotation of the first partition 300 and the second partition 400, the first air inlet 101 is communicated with the second air outlet 104, the second air inlet 102 is communicated with the first air outlet 103, at the moment, the indoor environment is in an external circulation state, outdoor normal-temperature air flow enters the first circulation cavity 110 through the first air inlet 101, passes through the humidity-adjusting turntable 200 and enters the second circulation cavity 120, moisture in the normal-temperature air flow is absorbed by the humidity-adjusting turntable 200 and then flows out of the room through the second air outlet 104, indoor heating air flow enters the first circulation cavity 110 through the second air inlet 102 and enters the second circulation cavity 120 through the humidity-adjusting turntable 200, the moisture absorbed in the humidity-adjusting turntable 200 is regenerated and released into the air flow through the heating air flow, and then flows out of the room through the first air outlet 103 to play a role in dehumidifying the indoor environment, the room can be continuously humidified or dehumidified through continuous rotation of the humidity-adjusting turntable 200, the rotation of the first partition 300 and the second partition 400 can be driven to switch the communication relationship between the indoor air flow and the outdoor air flow according to realize that the indoor air flow and the outdoor air flow are exchanged or not exchanged during the humidification or dehumidification process, further, the outdoor air flow is enabled to be selectively switched to the outdoor air flow under the condition that the indoor air flow has poor outdoor air flow exchange requirement, the indoor air flow does not depend on the outdoor air flow exchange, and the indoor air flow, the outdoor air flow exchange stability is not reduced, and the indoor air flow is prevented from the indoor air flow.

Alternatively, the housing 100 is a circular cylindrical structure and the cavity defined by the housing 100 is a cylindrical structure. Thus, the humidity control dial 200 can be easily installed in the cavity, and the installed humidity control dial 200 can better rotate in the cavity.

Optionally, the upper end face of the humidity adjusting turntable 200 in the axial direction and the upper inner wall of the cavity define a first circulation chamber 110, and the lower end face and the lower inner wall of the cavity define a second circulation chamber 120. In this way, the intake air flow can better pass through the humidity control turntable 200 in the vertical direction, so that the moisture in the normal temperature air flow is more efficiently adsorbed by the humidity control turntable 200, and the heated air flow can more efficiently regenerate and release the moisture adsorbed by the humidity control turntable 200 into the air flow.

Optionally, the first air inlet 101 and the second air inlet 102 are arc-shaped openings opened in an upper region of a sidewall of the enclosure 100, and the first air outlet 103 and the second air outlet 104 are arc-shaped openings opened in a lower region of the sidewall of the enclosure 100. Therefore, the arc-shaped first air inlet 101, the arc-shaped second air inlet 102, the arc-shaped first air outlet 103 and the arc-shaped second air outlet 104 can be better adapted to the arrangement of the housing 100, so that the inlet airflow and the outlet airflow can flow more smoothly, moreover, the first air inlet 101 and the second air inlet 102 are arranged in the upper area of the side wall of the housing 100, which is convenient for the communication between the first air inlet 101 and the second air inlet 102 as well as the first circulation cavity 110, the first air outlet 103 and the second air outlet 104 are arranged in the lower area of the side wall of the housing 100, which is convenient for the communication between the first air outlet 103 and the second air outlet 104 as well as the second circulation cavity 120.

Optionally, radians of the first intake vent 101, the second intake vent 102, the first outlet vent 103, and the second outlet vent 104 are all greater than 0 pi and less than or equal to one-half pi. In this way, since the housing 100 is a cylindrical structure, the radians of the first air inlet 101, the second air inlet 102, the first air outlet 103 and the second air outlet 104 are all greater than 0 pi and less than or equal to one half pi, which is convenient for the first air inlet 101, the second air inlet 102, the first air outlet 103 and the second air outlet 104 to be arranged, and is convenient for the switching of the flow channels while ensuring the air intake and the air output.

Optionally, the radians of the first intake vent 101, the second intake vent 102, the first outtake vent 103 and the second outtake vent 104 are all one-half pi. In this way, since the radian of the circumference of the sidewall of the housing 100 is 2 pi, the radians of the first air inlet 101, the second air inlet 102, the first air outlet 103 and the second air outlet 104 are all half pi, which is convenient for switching the flow channels through the first partition 300 and the second partition 400 while ensuring the air inlet amount and the air outlet amount.

Optionally, the first partition 300 is located in the middle of the first circulation cavity 110, equally divides the first circulation cavity 110 and blocks the communication between the first air inlet 101 and the second air inlet 102; the second partition 400 is located in the middle of the second circulation chamber 120, and divides the second circulation chamber 120 equally and blocks the communication between the first air outlet 103 and the second air outlet 104. In this way, the first flow-through chamber 110 is equally divided by the first partition 300, the communication between the first air inlet 101 and the second air inlet 102 is cut off, the second flow-through chamber 120 is equally divided by the second partition 400, the communication between the first air outlet 103 and the second air outlet 104 is cut off, and the first partition 300 and the second partition 400 are located on the same plane along the axial direction of the humidity control turntable 200, so that the airflow entering the first flow-through chamber 110 through the first air inlet 101 can only pass through the humidity control turntable 200 to enter the second flow-through chamber 120, and then is blown out through the first air outlet 103 or the second air outlet 104 communicated with the second flow-through chamber 120, so that the humidity control turntable 200 can better adsorb moisture in the airflow, or better regeneratively release the adsorbed moisture, and more efficiently perform continuous dehumidification or humidification of the indoor space, the communication between the first air inlet 101 and the second air inlet 102 is cut off by the first partition 300, and the communication between the first air outlet 103 and the second air outlet 104 is cut off by the second partition 400, thereby facilitating the flow passage, and switching between the indoor and the outdoor communication state.

Alternatively, in the case that the first partition 300 and the second partition 400 are located at the first position, the first air inlet 101 is communicated with the first air outlet 103, and the second air inlet 102 is communicated with the second air outlet 104; when the first partition 300 and the second partition 400 are located at the second position, the first intake port 101 communicates with the second exhaust port 104, and the second intake port 102 communicates with the first exhaust port 103. Thus, the first air inlet 101 and the first air outlet 103 can be communicated with the outside, the second air inlet 102 and the second air outlet 104 can be communicated with the inside, when the first partition 300 and the second partition 400 are located at the first position, the indoor environment is in an internal circulation state, indoor airflow flows into the cavity through the second air inlet 102 and then flows out of the room through the second air outlet 104, and outdoor airflow flows into the cavity through the first air inlet 101 and then flows out of the room through the first air outlet 103; when the first partition 300 and the second partition 400 are located at the second position, the indoor environment is in an external circulation state, indoor airflow flows into the cavity through the second air inlet 102 and then flows out to the outside through the first air outlet 103, outdoor airflow flows into the cavity through the first air inlet 101 and then flows out to the inside through the second air outlet 104, and the inside and the outside are ventilated.

Alternatively, when the first partition 300 and the second partition 400 are switched from the first position to the second position, they are rotated by 90 degrees clockwise; when the first partition 300 and the second partition 400 are switched from the second position to the first position, they are rotated by 90 degrees counterclockwise. In this way, since the radians of the first air inlet 101, the second air inlet 102, the first air outlet 103 and the second air outlet 104, which are formed in the side wall of the enclosure 100, are all one-half pi, when the first partition 300 and the second partition 400 are switched from the first position to the second position, they are rotated 90 degrees clockwise, and when the second position is switched to the first position, they are rotated 90 degrees counterclockwise, so that the flow path between the first air inlet 101 and the second air inlet 102 can be better cut off by the first partition 300, and the flow path between the first air outlet 103 and the second air outlet 104 can be cut off by the second partition 400, so that the intake air flow can only be blown out from the air outlet end, and the moisture in the air flow can be better adsorbed by the humidity adjusting turntable 200, or the adsorbed moisture can be better regenerated and released, and the indoor can be more efficiently dehumidified or humidified continuously, and the communication relationship between the indoor and the outdoor can be switched conveniently.

As shown in fig. 10, in some optional embodiments, the humidity conditioner further includes: a first heating part 500 and a second heating part 600. The first heating part 500 is disposed on the windward side of the first air inlet 101; the second heating portion 600 is disposed on the windward side of the second air intake opening 102. In this way, the first heating unit 500 can heat the air flow entering the first air inlet 101, the second heating unit 600 can heat the air flow entering the second air inlet 102, and when the indoor environment is dehumidified or humidified, the first heating unit 500 and the second heating unit 600 can be selectively controlled to be turned on and off to humidify or dehumidify the indoor environment in the inner circulation or the outer circulation, so that the indoor environment can be humidified or dehumidified continuously, the outdoor air flow can be selectively utilized, the dependence on the outdoor environment is reduced, the stability of humidity regulation is improved, and the quality of the indoor air is maintained.

In some examples of indoor environments in an internal cycle, the first air inlet 101 and the first air outlet 103 may be communicated with the outside, the second air inlet 102 and the second air outlet 104 are communicated with the inside, the first air inlet 101 is communicated with the first air outlet 103, the second air inlet 102 is communicated with the second air outlet 104 by controlling the rotation of the first partition 300 and the second partition 400, at this time, the indoor environment is in an internal cycle state, ventilation does not occur between the inside and the outside, if a user needs to dehumidify the indoor environment, the first heating unit 500 located at the first air inlet 101 may be controlled to be opened, the second heating unit 600 located at the second air inlet 102 may be closed, so that an indoor normal-temperature airflow enters the first ventilation chamber 110 through the second air inlet 102, then passes through the humidity-adjusting turntable 200 to enter the second ventilation chamber 120, and flows out to the inside through the second air outlet 104, moisture in the airflow may be absorbed by the humidity-adjusting turntable 200, and heated outdoor airflow enters the first ventilation chamber 110 through the first air inlet 101, then enters the second ventilation chamber 120, flows out through the first air outlet 103, and the humidity-adjusting turntable 200 may absorb moisture in the outdoor airflow, so as to be discharged to the humidity-adjusting airflow, and dehumidified outdoor airflow, thereby being able to be discharged to the indoor environment; if a user needs to humidify an indoor environment, the first heating part 500 located at the first air inlet 101 can be controlled to be closed, the second heating part 600 located at the second air inlet 102 is opened, so that outdoor normal-temperature air flow enters the first circulation cavity 110 through the first air inlet 101, then passes through the humidity-adjusting turntable 200, enters the second circulation cavity 120, and flows out of a room through the first air outlet 103, moisture in the air flow can be adsorbed by the humidity-adjusting turntable 200, heated indoor air flow enters the first circulation cavity 110 through the second air inlet 102, then passes through the humidity-adjusting turntable 200, enters the second circulation cavity 120, and flows out of the room through the second air outlet 104, and the heated air flow can regenerate and release moisture adsorbed in the humidity-adjusting turntable 200 into the air flow, and flows out of the room along with the air flow, so that the indoor environment is humidified.

In some examples of the indoor environment in the external cycle, the first air inlet 101 and the first air outlet 103 may be communicated outdoors, the second air inlet 102 and the second air outlet 104 may be communicated indoors, by controlling the rotation of the first partition 300 and the second partition 400, the first air inlet 101 is communicated with the second air outlet 104, the second air inlet 102 is communicated with the first air outlet 103, so that the indoor environment is communicated with the outdoor environment, if a user needs to dehumidify the indoor environment, the first heating unit 500 may be controlled to be turned off, the second heating unit 600 may be turned on, the outdoor normal temperature air flow enters the first circulation chamber 110 through the first air inlet 101, then passes through the humidity control turntable 200, enters the second circulation chamber 120, and flows out to the indoor through the second air outlet 104, moisture in the normal temperature air flow is adsorbed, so that the outdoor air flow flowing out to the indoor is relatively dry, the heated indoor air flow enters the first circulation chamber 110 through the second air inlet 102, then passes through the humidity control turntable 200, and flows out to the outdoor air outlet through the first air outlet 103, and moisture adsorbed in the turntable 200 is regenerated and released to the air flow to the outdoor environment, thereby dehumidifying the indoor environment; if a user needs to humidify the indoor environment, the first heating unit 500 is controlled to be opened, the second heating unit 600 is controlled to be closed, so that indoor normal-temperature airflow enters through the second air inlet 102 and is discharged to the outside through the first air outlet 103, moisture in the airflow is adsorbed and retained in the humidity adjusting turntable 200, outdoor airflow in the heated chamber enters through the first air inlet 101 and is discharged to the indoor through the second air outlet 104, and the moisture adsorbed in the humidity adjusting turntable 200 is regenerated and released into the airflow and flows into the indoor along with the airflow, so that the indoor environment is humidified.

As shown in connection with fig. 11-14, in some alternative embodiments, enclosure 100 includes: an upper case portion 130 and a lower case portion 140. The first air inlet 101 and the second air inlet 102 are both disposed on a side wall of the upper housing portion 130; the lower housing 140 is disposed at the lower end of the upper housing 130, the first outlet 103 and the second outlet 104 are disposed on the sidewall of the lower housing 140, and the upper housing 130 and the lower housing 140 are assembled to form the housing 100. In this way, the cover 100 assembled by the upper housing 130 and the lower housing 140 facilitates the disassembly and assembly of the humidity control turntable 200, the first circulation chamber 110 can be better defined by the inner wall of the upper housing 130 and the upper end surface of the humidity control turntable 200, the second circulation chamber 120 can be better defined by the inner wall of the lower housing 140 and the lower end surface of the humidity control turntable 200, the first air inlet 101 and the second air inlet 102 disposed on the side wall of the upper housing 130 can be better communicated with the first circulation chamber 110, the inlet air flow can more smoothly enter the first circulation chamber 110, the first air outlet 103 and the second air outlet 104 disposed on the side wall of the lower housing 140 can be better communicated with the second circulation chamber 120, the outlet air can be more smoothly blown out along the first air outlet 103 and the second air outlet 104, and the pressure loss of the inlet air flow and the outlet air flow is reduced.

Optionally, the inner wall of the cavity is provided with an annular installation groove 150, and the humidity adjusting turntable 200 is rotatably installed in the annular installation groove 150. In this way, the annular mounting groove 150 can be better adapted to the installation of the humidity control turntable 200, so that the installed humidity control turntable 200 can rotate more stably, the installed humidity control turntable 200 can block the area between the first circulation chamber 110 and the second circulation chamber 120, and the intake airflow in the first circulation chamber 110 can completely pass through the humidity control turntable 200 and enter the second circulation chamber 120, so that the humidity control turntable 200 can better adsorb moisture in the airflow, or better regenerate and release the adsorbed moisture, and more efficiently perform continuous dehumidification or humidification on the indoor space.

Optionally, a frame portion 151 is disposed in the annular mounting groove 150, the frame portion 151 is disc-shaped, the inner side of the frame portion defines a circular mounting frame, a supporting shaft 152 is disposed at a center position of the frame portion, an outer periphery of the frame portion 151 is fixedly connected with an inner wall of the annular mounting groove 150, and the humidity control turntable 200 is rotatably disposed in the circular mounting frame. In this way, the frame 151 can support the humidity control dial 200, thereby improving the rotational stability of the humidity control dial 200.

Optionally, the humidity conditioning carousel 200 comprises: a matrix and a hygroscopic material. The frame is disc-shaped, and the central position of the frame is rotatably connected with a supporting shaft 152 at the central position of the frame part 151 through a bearing structure; the moisture absorption material is filled in the framework. In this way, by providing the frame, the structural stability of the humidity control turntable 200 can be improved, damage to the humidity control turntable 200 can be prevented, and the moisture absorbing material is filled in the frame, so that moisture in the air flow is absorbed by the moisture absorbing material filled in the frame when the air flow passes through the frame, or the moisture absorbed in the moisture absorbing material is released to bring the air flow, thereby better humidifying or dehumidifying the room.

Optionally, the skeleton is composed of glass fibers or ceramic fibers. Thus, the structure of the framework is stable and light, the humidity control turntable 200 can rotate conveniently, and the stability of the humidity control turntable 200 is improved.

Optionally, the moisture absorbent material comprises: silica gel, MOF, molecular sieves. In this way, one or more of the above materials can efficiently absorb moisture in the air stream at normal temperature and can efficiently release moisture upon heating.

Optionally, a first driving motor 160 is arranged on the outer side of the housing 100, a driving groove is formed in the outer wall of the housing 100 corresponding to the output end of the first driving motor 160, an annular rack 210 is arranged on the periphery of the framework, and the output end of the first driving motor 160 penetrates through the driving groove to be in meshed connection with the annular rack 210. In this way, the output end of the first drive motor 160 is engaged with the annular rack 210, so that the humidity control dial 200 can be driven to rotate continuously more stably, and continuous humidification or dehumidification of the room can be performed more favorably.

Optionally, the first driving motors 160 are provided in plurality, and the plurality of first driving motors 160 are distributed on the outer periphery of the housing 100, and the output ends of the plurality of first driving motors 160 are all meshed with the annular rack 210. By providing a plurality of first drive motors 160 in this way, the humidity control dial 200 can be driven to rotate continuously, and the rotational stability of the humidity control dial 200 can be further improved.

Optionally, the first barrier 300 is connected to the second barrier 400. Thus, when the first partition plate 300 and the second partition plate 400 are driven, the first partition plate 300 and the second partition plate 400 can synchronously rotate, so that the first partition plate 300 and the second partition plate 400 are positioned on the same plane along the axial direction of the humidity control turntable 200 no matter the first partition plate 300 and the second partition plate 400 are positioned at the first position or the second position, and the communication relation between the indoor space and the outdoor space can be better switched by switching the positions of the first partition plate 300 and the second partition plate 400, so that outdoor airflow can be selectively utilized, the dependence on the outdoor environment is reduced, the stability of humidity control is improved, and the quality of indoor air is maintained.

Optionally, the first partition plate 300 is connected with the second partition plate 400 through a rotating shaft 310 in the axial direction of the humidity adjusting turntable 200, and the rotating shaft 310 passes through the center of the humidity adjusting turntable 200. Thus, the first partition board 300 and the second partition board 400 can be driven to rotate by one rotating shaft 310, so that the first partition board 300 and the second partition board 400 are both located on the same plane along the axial direction of the humidity control turntable 200 no matter the first partition board 300 and the second partition board 400 are located at the first position or the second position, and the communication relationship between the indoor and the outdoor is better switched by switching the positions of the first partition board 300 and the second partition board 400, so that outdoor airflow is selectively utilized, dependence on outdoor environment is reduced, stability of humidity control is improved, quality of indoor air is maintained, and the rotating shaft 310 passes through the center of the humidity control turntable 200, so that the rotation of the first partition board 300 and the second partition board 400 does not interfere with the rotation of the humidity control turntable 200.

Alternatively, the supporting shaft 152 disposed at the center of the frame 151 has a shaft hole through which the rotating shaft 310 connecting the first partition 300 and the second partition 400 passes. In this way, the rotating shaft 310 connecting the first partition plate 300 and the second partition plate 400 is not in contact with the humidity control turntable 200, so that the rotation of the first partition plate 300 and the second partition plate 400 is not interfered with the rotation of the humidity control turntable 200, and the rotation adjustment of the first partition plate 300 and the second partition plate 400 is facilitated.

Alternatively, the lower end surface of the lower case 140 is fixedly provided with the second driving motor 170, and the lower end of the rotating shaft 310 extends downward from the center of the second partition 400, passes through the lower end surface of the lower case 140, and is connected with the output end of the second driving motor 170. In this way, the second driving motor 170 disposed at the lower end surface of the lower housing part 140 drives the rotation shaft 310 to rotate, and further drives the first partition 300 and the second partition 400 to rotate, thereby better switching the indoor and outdoor communication relationship.

As shown in connection with fig. 15-17, in some optional embodiments, the humidity conditioner further comprises: a housing 700. The housing 700 defines a mounting cavity therein, and the cover 100 is disposed in the mounting cavity to divide the mounting cavity into a first airflow cavity 710, a second airflow cavity 720, a third airflow cavity 730, and a fourth airflow cavity 740. In this way, by driving the first partition plate 300 and the second partition plate 400 to rotate, the communication relationship among the first air flow chamber 710, the second air flow chamber 720, the third air flow chamber 730, and the fourth air flow chamber 740 can be switched, and the communication relationship between the indoor and the outdoor can be switched according to the quality of the outdoor environment in the process of humidifying or dehumidifying the indoor environment, so that the outdoor air flow can be selectively utilized, the dependence on the outdoor environment is reduced, the stability of humidity regulation is improved, and the quality of the indoor air is maintained.

Optionally, the cover 100 is disposed at an intermediate position of the mounting cavity. In this way, the first airflow chamber 710, the second airflow chamber 720, the third airflow chamber 730 and the fourth airflow chamber 740 partitioned by the cover 100 have uniform sizes and relatively uniform flow areas, so that the airflow can flow more smoothly.

Optionally, the first intake vent 101 is positioned within the first airflow chamber 710, the second intake vent 102 is positioned within the third airflow chamber 730, the first exhaust vent 103 is positioned within the second airflow chamber 720, and the second exhaust vent 104 is positioned within the fourth airflow chamber 740. In this way, the communication relationship among the first air inlet 101, the second air inlet 102, the first air outlet 103 and the second air outlet 104 can be switched by the rotation of the first partition plate 300 and the second partition plate 400, so that the communication relationship among the first air flow chamber 710, the second air flow chamber 720, the third air flow chamber 730 and the fourth air flow chamber 740 can be switched, the indoor and outdoor communication relationship can be switched according to the quality of the outdoor environment in the process of humidifying or dehumidifying the indoor environment, the outdoor air flow is selectively utilized, the dependence on the outdoor environment is reduced, the stability of humidity regulation is improved, and the quality of the indoor air is maintained.

In some examples, with the first and second partitions 300, 400 in the first position, the first airflow chamber 710 communicates with the second airflow chamber 720, and the third airflow chamber 730 communicates with the fourth airflow chamber 740; with the first and second partition plates 300 and 400 in the second position, the first air flow chamber 710 communicates with the fourth air flow chamber 740, and the third air flow chamber 730 communicates with the second air flow chamber 720.

Optionally, the first airflow chamber 710 is provided with a first air inlet duct 711 communicated with the outside of the chamber, the second airflow chamber 720 is provided with a first air outlet duct 721 communicated with the outside of the chamber, the third airflow chamber 730 is provided with a second air inlet duct 731 communicated with the inside of the chamber, and the fourth airflow chamber 740 is provided with a second air outlet duct 741 communicated with the inside of the chamber. Thus, the first airflow cavity 710 is communicated with the outside through the first air inlet pipe 711, the second airflow cavity 720 is communicated with the outside through the first air outlet pipe 721, the third airflow cavity 730 is communicated with the inside through the second air inlet pipe 731, the fourth airflow cavity 740 is communicated with the inside through the second air outlet pipe 741, when the first partition plate 300 and the second partition plate 400 are located at the first position, the outdoor airflow can enter the first airflow cavity 710 through the first air inlet pipe 711, then enter the cavity through the first air inlet 101, pass through the humidity-adjusting turntable 200, blow out into the second airflow cavity 720 through the first air outlet 103, and blow out to the outside through the first air outlet pipe 721, the indoor airflow can enter the third airflow cavity 730 through the second air inlet pipe 731, then enter the cavity through the second air inlet 731, pass through the humidity-adjusting turntable 200, blow out into the fourth airflow cavity 740 through the second air outlet 104, and blow out into the inside through the second air outlet pipe 741, at this time, the indoor environment is in an internal circulation humidification or dehumidification state, and no ventilation occurs between the inside and the outside; under the condition that the first partition board 300 and the second partition board 400 are located at the second position, outdoor airflow can enter the first airflow cavity 710 through the first air inlet pipe 711, then enter the cavity through the first air inlet 101, pass through the humidity-adjusting turntable 200, blow out to the fourth airflow cavity 740 through the second air outlet 104, and blow out to the indoor through the second air outlet pipe 741, indoor airflow can enter the third airflow cavity 730 through the second air inlet pipe 731, then enter the cavity through the second air inlet 102, pass through the humidity-adjusting turntable 200, blow out to the second airflow cavity 720 through the first air outlet 103, and blow out to the outdoor through the first air outlet pipe 721, at this time, the indoor environment is in an external circulation humidifying or dehumidifying state, ventilation is performed between the indoor environment and the outdoor environment, the quality of the indoor environment is improved, when the indoor environment is dehumidified or humidified, outdoor airflow is selectively utilized, dependence on the outdoor environment is reduced, the stability of humidity adjustment is improved, and the quality of the indoor air is maintained.

Optionally, the first heating part 500 is disposed in the first airflow cavity 710 and between the first air inlet duct 711 and the first air inlet 101. In this way, since the first airflow chamber 710 is communicated with the outdoor space through the first air inlet duct 711, and the first airflow chamber 710 is an outdoor intake airflow chamber, the first heating part 500 is disposed in the first airflow chamber 710, so as to heat the outdoor intake airflow better, improve the heating efficiency of the outdoor intake airflow, make the temperature of the intake airflow meet the temperature of moisture regeneration in the humidity conditioning turntable 200, and make the heated intake airflow regenerate and release the moisture adsorbed in the humidity conditioning turntable 200 into the airflow more efficiently when passing through the humidity conditioning turntable 200, thereby dehumidifying or humidifying the indoor space more efficiently.

Optionally, a second heater portion 600 is disposed in the third airflow chamber 730 between the second air inlet duct 731 and the second air inlet 102. In this way, since the third airflow chamber 730 is communicated with the indoor space through the second air inlet pipe 731, and the third airflow chamber 730 is an indoor intake airflow chamber, the second heating unit 600 is disposed in the third airflow chamber 730, so as to heat the indoor intake airflow more efficiently, improve the heating efficiency of the indoor intake airflow, make the temperature of the intake airflow meet the temperature of moisture regeneration in the humidity control turntable 200, and make the heated intake airflow regenerate and release moisture adsorbed in the humidity control turntable 200 into the airflow more efficiently when passing through the humidity control turntable 200, thereby dehumidifying or humidifying the indoor space more efficiently.

Alternatively, the first heating part 500 includes: a support frame 510 and an electric heating part 520. The supporting frame 510 is disposed in the first airflow cavity 710, and blocks the flow surface of the first airflow cavity 710, a flow opening is disposed inside the supporting frame 510, and the electric heating portion 520 is disposed inside the flow opening. Thus, the inlet air flow can completely pass through the circulation port on the inner side of the support frame 510, the contact area between the inlet air flow and the internal electric heating part 520 of the circulation port is increased, the heating efficiency of the inlet air flow is further increased, the inlet air flow is in an outer circulation state in an indoor environment, and when the outdoor environment temperature is low and the regeneration condition is severe, the outdoor inlet air flow can be rapidly heated, so that the temperature for regenerating the moisture adsorbed in the humidity adjusting turntable 200 is met.

Alternatively, the electric heating part 520 may be a mica electric heating sheet. Like this, mica electric heat piece's heating efficiency is higher, and environmental adaptation is good, can heat the air inlet flow better.

It is to be understood that the second heating part 600 has the same structure as the first heating part 500 and is disposed in the third airflow chamber 730 in the same manner as the first heating part 500 is disposed in the first airflow chamber 710.

Optionally, fans are disposed in both the second airflow chamber 720 and the fourth airflow chamber 740. In this way, the second airflow chamber 720 and the fourth airflow chamber 740 are airflow chambers for discharging air, so that the fans are disposed in both the second airflow chamber 720 and the fourth airflow chamber 740, and can provide sufficient negative pressure for the intake air of the first airflow chamber 710 and the third airflow chamber 730, so that the indoor airflow and the outdoor airflow can be circulated more efficiently, thereby more efficiently dehumidifying or humidifying the indoor, and the fans are disposed in the second airflow chamber 720 and the fourth airflow chamber 740, thereby reducing the influence of the operation of the fans on the first heating part 500 and the second heating part 600 in the first airflow chamber 710 and the third airflow chamber 730.

Optionally, the fan is a centrifugal fan. Like this, centrifugal fan can provide stronger negative pressure at the during operation, makes indoor air current and outdoor air current circulate more high-efficiently to dehumidify or the humidification more high-efficiently indoor, all set up centrifugal fan in second air current chamber 720 and fourth air current chamber 740 in addition, can improve the air supply distance.

Alternatively, a partition plate 750 is provided at the outer circumference of the cover 100, and the partition plate 750 extends to the inner wall of the case 700 corresponding thereto. In this way, the installation cavity is better divided into the first air flow cavity 710, the second air flow cavity 720, the third air flow cavity 730 and the fourth air flow cavity 740 by the cooperation of the cover case 100 and the partition plate 750, and the structural stability of the humidity conditioner is improved.

Alternatively, the upper end surface of the cover 100 is fixedly disposed on the upper inner wall of the housing 700 by the mount 180. In this way, the cover 100 is supported by the upper inner wall of the housing 700, and the stability of the cover 100 is improved.

Optionally, four partition plates 750 are provided, which are respectively located at 12 o 'clock, 3 o' clock, 6 o 'clock and 9 o' clock positions on the outer circumference of the cover 100 and respectively extend onto the inner wall of the housing 700 corresponding thereto. Thus, the four partition plates 750 are arranged to be matched with the housing 100, so that the installation cavity can be better and uniformly divided into the first airflow cavity 710, the second airflow cavity 720, the third airflow cavity 730 and the fourth airflow cavity 740, and the structural stability of the humidity conditioner is further improved.

The above description and drawings sufficiently illustrate embodiments of the disclosure to enable those skilled in the art to practice them. Other embodiments may include structural and other changes. The examples merely typify possible variations. Individual components and functions are optional unless explicitly required, and the sequence of operations may vary. Portions and features of some embodiments may be included in or substituted for those of others. The embodiments of the present disclosure are not limited to the structures that have been described above and shown in the drawings, and various modifications and changes may be made without departing from the scope thereof. The scope of the present disclosure is limited only by the appended claims.

Claims (10)

1. A humidity conditioner, comprising:

the air conditioner comprises a housing (100), wherein a cavity is defined inside the housing (100), and a first air inlet (101), a second air inlet (102), a first air outlet (103) and a second air outlet (104) are formed in the side wall of the housing (100);

the humidity-adjusting turntable (200) is rotatably arranged in the cavity, a first circulation cavity (110) is defined by one end surface of the humidity-adjusting turntable (200) in the axial direction and the inner wall of the cavity, the first air inlet (101) and the second air inlet (102) are both communicated with the first circulation cavity (110), a second circulation cavity (120) is defined by the other end surface and the inner wall of the cavity, the second air outlet (104) and the second air outlet (104) are both communicated with the second circulation cavity (120), and air flow can pass through the humidity-adjusting turntable (200) along the axial direction of the humidity-adjusting turntable (200);

the first partition plate (300) is rotatably arranged in the first circulation cavity (110) and is used for blocking the flow surface of the first circulation cavity (110) along the radial direction of the humidity adjusting turntable (200), and the first partition plate (300) is positioned between the first air inlet (101) and the second air inlet (102);

the second partition plate (400) is rotatably arranged in the second circulation cavity (120) and used for blocking a radial upward flow surface of the second circulation cavity (120) along the humidity-adjusting rotary table (200), the second partition plate (400) is located between the first air outlet (103) and the second air outlet (104), and the first partition plate (300) and the second partition plate (400) are located on the same plane along the axial direction of the humidity-adjusting rotary table (200).

2. The humidifier according to claim 1, further comprising:

a first heating unit (500) provided on the windward side of the first air inlet (101);

and a second heating part (600) arranged on the windward side of the second air inlet (102).

3. The damping machine according to claim 1, characterized in that said casing (100) comprises:

the upper shell part (130), the first air inlet (101) and the second air inlet (102) are arranged on the side wall of the upper shell part (130);

the lower shell (140) is arranged at the lower end of the upper shell (130), the first air outlet (103) and the second air outlet (104) are arranged on the side wall of the lower shell (140), and the upper shell (130) and the lower shell (140) are assembled to form the housing (100).

4. The damping machine according to claim 1, characterized in that the inner wall of the cavity is provided with an annular mounting groove (150), and the damping turntable (200) is rotatably mounted in the annular mounting groove (150).

5. The damping machine according to claim 1, characterized in that the first partition (300) is connected to the second partition (400).

6. The damping machine according to claim 5, characterized in that the first partition (300) and the second partition (400) are connected by a rotating shaft (310) along the axial direction of the damping turntable (200), and the rotating shaft (310) passes through the center of the damping turntable (200).

7. The humidifier according to any one of claims 1 to 6, further comprising:

the air flow control device comprises a shell (700) which defines a mounting cavity inside, wherein the cover shell (100) is arranged in the mounting cavity and divides the mounting cavity into a first air flow cavity (710), a second air flow cavity (720), a third air flow cavity (730) and a fourth air flow cavity (740).

8. The damping machine according to claim 7, wherein the first air inlet (101) is located in the first air flow chamber (710), the second air inlet (102) is located in a third air flow chamber (730), the first air outlet (103) is located in the second air flow chamber (720), and the second air outlet (104) is located in the fourth air flow chamber (740).

9. The dehumidifier of claim 8 wherein the first air flow chamber (710) is provided with a first air inlet pipe (711) communicating with the outside of the chamber, the second air flow chamber (720) is provided with a first air outlet pipe (721) communicating with the outside of the chamber, the third air flow chamber (730) is provided with a second air inlet pipe (731) communicating with the inside of the chamber, and the fourth air flow chamber (740) is provided with a second air outlet pipe (741) communicating with the inside of the chamber.

10. The damping machine according to claim 7, characterized in that fans are provided in the second air flow chamber (720) and the fourth air flow chamber (740).

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