CN113719921A - Dehumidifier and control method thereof - Google Patents

Abstract

The application relates to the technical field of dehumidification and discloses a dehumidifier. The dehumidifier comprises a clapboard which is provided with a water outlet, and the water outlet is provided with a movable blocking piece; and the water tank is arranged on the lower part of the partition plate and is provided with a water inlet corresponding to the water outlet, the water inlet is provided with a jacking piece capable of jacking the blocking piece, and the jacking piece is provided with a condensed water inlet communicated with the water inlet. Under the condition that the water tank and the partition plate are assembled and installed, the blocking piece at the water outlet of the partition plate is jacked up through the jacking piece at the water inlet of the water tank, and the purpose that the water inlet is communicated with the water outlet for draining water is achieved through the condensed water inlet hole. Under the condition that shifts out the water tank, jack-up spare shifts out the outlet and blocks the outlet through the blocking piece to avoid the comdenstion water to flow to indoor ground through the outlet, help promoting user experience. The application also discloses a control method for the dehumidifier.

Description

Dehumidifier and control method thereof

Technical Field

The application relates to the technical field of dehumidification, for example to a dehumidifier and a control method thereof.

Background

The dehumidifier can extract moisture in the air to dehumidify the air. The conventional dehumidifier is composed of a compressor, a heat exchanger, a fan, a water tank, a casing and a controller. The dehumidifier uses fan to pump the damp air into the machine, and passes through the heat exchanger, at this time, the water molecules in the air are condensed into water drops, the treated dry air is discharged out of the machine, and the circulation is implemented so as to make the indoor humidity be maintained at proper relative humidity. During the working process, the dehumidifier can continuously generate condensed water which is discharged into the water tank through the water outlet to be stored.

The drainage port of the existing dehumidifier is designed in an open mode, after the water tank is moved out, as the dehumidifier continues to work, condensed water is generated, and the condensed water flows into the chassis of the dehumidifier through the drainage port and then flows onto the indoor ground through the water tank rail, so that a user complains or quits the dehumidifier.

In the process of implementing the embodiments of the present disclosure, it is found that at least the following problems exist in the related art: when the water tank is moved out, condensed water still flows out of the water outlet, and the condensed water flows to the indoor ground through the water tank rail of the dehumidifier, so that the user experience is reduced.

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 nor is intended to identify key/critical elements or to delineate the scope of such embodiments but rather as a prelude to the more detailed description that is presented later.

The embodiment of the disclosure provides a dehumidifier and a control method thereof, which are used for solving the problem that after a water tank is moved out, condensed water flows out from a water outlet to pollute the ground.

In some embodiments, the dehumidifier comprises: a baffle plate provided with a water outlet provided with a movable stopper; and the water tank is arranged on the lower part of the partition plate and is provided with a water inlet corresponding to the water outlet, the water inlet is provided with a jacking piece capable of jacking the blocking piece, and the jacking piece is provided with a condensed water inlet communicated with the water inlet.

In some embodiments, the control method for a dehumidifier includes: when a user moves out of a water tank of the dehumidifier, the jacking piece control device controls the jacking piece of the dehumidifier to descend for the first time, so that a condensed water inlet hole of the jacking piece is positioned at a water inlet of the water tank and stays for the first time, and all water of a partition plate of the dehumidifier flows to the water tank; the jacking piece control device controls the jacking piece of the dehumidifier to descend for the second time, so that the upper surface of the jacking piece is lower than the water inlet of the water tank or is flush with the water inlet of the water tank, and the water tank is moved out.

The dehumidifier and the control method thereof provided by the embodiment of the disclosure can realize the following technical effects: under the condition that the water tank and the partition plate are assembled and installed, the blocking piece at the water outlet of the partition plate is jacked up through the jacking piece at the water inlet of the water tank, and the purpose that the water inlet is communicated with the water outlet for draining water is achieved through the condensed water inlet hole. Under the condition that shifts out the water tank, jack-up spare shifts out the outlet and blocks the outlet through the blocking piece to avoid the comdenstion water to flow to indoor ground through the outlet, help promoting user experience.

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 by way of example in the accompanying drawings, which correspond to the accompanying drawings and not in limitation thereof, in which elements having the same reference numeral designations are shown as like elements and not in limitation thereof, and wherein:

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

FIG. 2 is a schematic structural diagram of another dehumidifier provided by the embodiment of the present disclosure;

FIG. 3 is a schematic view of another dehumidifier according to an embodiment of the present disclosure;

FIG. 4 is a schematic structural diagram of a jack-up provided by an embodiment of the disclosure;

FIG. 5 is a partial schematic view of a dehumidifier provided by embodiments of the present disclosure;

fig. 6 is a schematic structural diagram of another dehumidifier provided by the embodiment of the present disclosure.

Reference numerals:

10: a partition plate; 101: a water outlet; 102: a condensed water drain hole; 103: a first water storage tank; 104: a first overflow; 20: a blocking member; 201: a spring; 202: a drain plug; 203: a support member; 30: a water tank; 301: a water inlet; 40: a jack-up member; 401: a condensed water inlet hole; 402: a water leakage hole; 50: a jack-up member control device; 501: a first chute; 502: a second chute; 60: a chassis; 601: a second water storage tank; 602: a second overflow; 603: a slideway.

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 in the claims, and the above-described drawings of embodiments of the present disclosure, 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 examples and are not intended 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 embodiments of the present disclosure 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.

In the embodiment of the present disclosure, the character "/" indicates that the preceding and following objects are in an or relationship. For example, A/B represents: a or B.

The term "and/or" is an associative relationship that describes objects, meaning that three relationships may exist. For example, a and/or B, represents: a or B, or A and B.

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.

With reference to fig. 1 to 6, an embodiment of the present disclosure provides a dehumidifier, which includes a partition plate 10, provided with a water outlet 101, wherein the water outlet 101 is provided with a movable blocking member 20; and a water tank 30 disposed at a lower portion of the partition plate 10 and provided with a water inlet 301 corresponding to the water outlet 101, the water inlet 301 being provided with a jack-up 40 for jacking up the stopper, wherein the jack-up 40 is provided with a condensed water inlet hole 401 communicated with the water inlet 301.

By adopting the embodiment, under the condition that the water tank and the partition plate are assembled and installed, the blocking piece at the water outlet of the partition plate is jacked up by the jacking piece at the water inlet of the water tank, and the purpose that the water outlet is communicated with the water inlet for draining water is realized through the condensed water inlet hole. Under the condition that the water tank shifted out, the jack-up piece shifts out the outlet and blocks up the outlet to avoid the comdenstion water to flow to indoor ground through the outlet, help promoting user experience.

Optionally, the water outlet of the baffle is arranged at the bottom of the baffle. Optionally, the drain opening is vertically disposed. Optionally, the drain opening is obliquely arranged. Thus, the drainage of the condensed water from the drainage port of the baffle is facilitated. The blocking piece is embedded in the water outlet and matched with the water outlet. Alternatively, as shown in fig. 1, the drain opening 101 is a through opening in the bottom of the partition 10. In practical application, the plug member 40 pushes up the stopper member 20, the stopper member 20 is separated from the drain opening 101, and the drain opening 101 is communicated with the water inlet 301 through the condensed water inlet hole 401 of the plug member 40, so as to discharge the condensed water.

Alternatively, as shown in fig. 2 and 3, the water outlet 101 is a cylinder penetrating the bottom of the partition board 10 and having two open ends, one end of the cylinder is flush with the outer side wall of the partition board 10, and the other end is located at one side of the inner side wall of the partition board 10. Wherein, the side wall of the cylinder is provided with a condensed water drain hole 102, and the condensed water drain hole 102 is located on the inner side wall of the partition plate 10. The stopper 20 is always partially embedded in the water inlet side of the drain opening 101. In practical applications, in the case where the drain opening 101 is a through opening in the bottom of the partition 10, when the stopper 20 falls back after separating from the drain opening 101, the stopper 20 is deviated from the drain opening 101, i.e., the stopper 20 is not coaxial with the drain opening 101, and the stopper 20 cannot be aligned with the drain opening 101, thereby blocking the drain opening. The drain port 101 is a cylindrical body having both ends opened, and the stopper member 20 is always partially fitted into the drain port 101 even during the draining process. In case of the removal of the water tank, the stopper 20 moves down along the inner sidewall of the drain port 101 until it blocks the condensed water drain hole 102 based on the fact that the stopper is always partially embedded in the drain port, preventing the condensed water from flowing out of the drain port from the condensed water drain hole, thereby achieving the purpose of blocking the drain port. The water outlet through the barrel structure limits the blocking piece, and the problem of deviation of the water outlet when the blocking piece falls back is avoided. As shown in fig. 3, the stopper member 20 is fitted to the upper portion of the drain port 101 and avoids the condensate drain hole 102 when draining water. Alternatively, the condensed water drain hole 102 is provided at the middle of the cylinder. Like this, be favorable to on the one hand the barrel upper portion to inlay the stopper piece, on the other hand is favorable to improving the intensity of barrel.

Optionally, the water inlet is provided at the top of the tank. Wherein the water inlet may be positioned right below the water discharge port in a state where the water tank is assembled with the partition plate. Optionally, the jacking members are removably connected to the water inlet of the tank. Optionally, the jack-up member is threadedly coupled to the water inlet of the water tank. Optionally, the jacking member is snapped to the water inlet of the water tank. Optionally, the jack-up is slidably connected to the water inlet of the tank. Under the condition that the ejection piece wears to locate the outlet and will block the piece jack-up, the comdenstion water drain hole aligns the comdenstion water and goes into the water hole, and comdenstion water drain hole and comdenstion water go into the water hole intercommunication, and the comdenstion water can get into the water tank through outlet and water inlet.

Optionally, the cross-sectional area of the jacking member is less than or equal to the cross-sectional area of the drain opening. Optionally, the cross-sectional area of the jacking members is less than or equal to the cross-sectional area of the water inlet. Therefore, under the condition that the cross section area of the jacking piece is smaller than that of the water outlet and the cross section area of the jacking piece is smaller than that of the water inlet, the jacking piece can drain condensed water in the water outlet. The condensed water can not only flow out from the inside of the jacking piece to the water inlet, but also flow downwards to the water inlet along the outer side wall of the jacking piece and flow into the water tank. In the case that the cross-sectional area of the jacking-up member is smaller than that of the water inlet, the jacking-up member may be suspended in the water inlet by the support member. Under the condition that the cross-sectional area of the jacking piece is equal to that of the water outlet and the cross-sectional area of the jacking piece is equal to that of the water inlet, the condensed water flows through the water outlet, the internal flow passage of the jacking piece and the water inlet in sequence and flows into the water tank. Optionally, the jacking members may be made of plastic.

Alternatively, as shown in fig. 1 to 3, the water inlet 301 is circular and the jack-up member 40 is a cylindrical barrel with an open bottom. Wherein, the cask encloses the inside runner of a restriction play jack-up spare, and the inside runner intercommunication comdenstion water inlet hole and the water inlet of jack-up spare. The bottom opening of the jacking piece is matched with the water inlet. The condensed water on the clapboard flows into the water tank after flowing through the water outlet, the condensed water inlet hole, the internal flow channel of the jacking piece and the water inlet in sequence.

Optionally, the top of the jacking member is a closed plane. This helps to improve the stability of the jacking members against the stopper members. Optionally, the top surface area of the jacking members is less than or equal to the bottom surface area of the blocking members. Optionally, the jacking member is arranged coaxially with the blocking member. This contributes to improvement in stability and smoothness when the stopper is lifted up. Optionally, the jacking member is disposed coaxially with the drain opening.

Alternatively, as shown in fig. 4, the condensed water inlet hole 401 is provided in the side wall of the jack-up member 40. The condensed water inlet hole penetrates through the side wall of the jacking piece. Like this, the jack-up piece of being convenient for passes through the comdenstion water inlet hole and outlet intercommunication, overcomes the difficult problem that jack-up piece top and stopper piece conflict can not intake. Optionally, the axis of the condensed water inlet hole is perpendicular to the axis of the jacking piece. Alternatively, the condensed water inlet hole is obliquely arranged. Wherein, the axis of the condensed water inlet hole is arranged from the water inlet side to the water outlet side in a downward inclination mode. Therefore, the condensed water can conveniently enter the internal flow channel of the jacking piece through the condensed water inlet hole.

Alternatively, the cross section of the condensed water inlet hole may be circular or polygonal. Wherein, the condensed water inlet hole with a round cross section is convenient for processing and manufacturing. Optionally, the condensed water inlet hole is arranged in the middle of the side wall of the jacking piece. Thus, the strength of the jacking piece is favorably ensured.

In practical application, the depth of penetration of the jacking piece can be adjusted through adjusting, so that the overlapping area of the condensed water inlet hole and the condensed water drain hole is adjusted, and the flow area of the condensed water discharged from the partition plate to the water tank is adjusted.

Alternatively, the side wall of the jack-up member 40 is provided with two or more condensed water inlet holes 401. Therefore, the flow area of the condensed water is enlarged through the plurality of condensed water inlet holes, and the time for discharging the condensed water is shortened. Optionally, a plurality of condensed water inlet holes surround and are uniformly distributed on the side wall of the jacking piece at intervals. Therefore, after one condensed water inlet hole is blocked, the condensed water can play a role through the residual condensed water inlet hole; in addition, the drainage quantity of the condensed water is increased, and the phenomenon that the condensed water overflows and outflows due to excessive condensed water on the partition plate is avoided. Alternatively, a plurality of condensed water inlet holes are arranged up and down. Therefore, the plurality of condensed water inlet holes are dispersed on the side wall of the jacking piece, and the strength of the jacking piece is improved.

Alternatively, as shown in fig. 4, the side wall of the jack 40 is provided with a water leakage hole 402, and the water leakage hole 402 is disposed at the bottom of the jack 40. The water leakage hole is communicated with the water outlet and the water inlet. The comdenstion water inlet hole is higher than the internal surface of baffle bottom to the comdenstion water that leads to being less than the comdenstion water inlet hole can't get into the water inlet through the comdenstion water inlet hole. The water on the partition plate can be enabled to flow into the water inlet completely through the water leakage hole at the bottom of the jacking piece, and then the water enters the water tank. Optionally, a plurality of water leakage holes are uniformly distributed on the side wall of the jacking piece at intervals.

Alternatively, as shown in connection with figures 1 to 3, the occluding component 20 comprises: a spring 201; and a drain plug 202 fixedly connected to the spring 201.

The spring 201 is fixed by a support 203, wherein the support 203 is disposed on the partition 10. The support may be a support plate or a support frame. One end of the spring is connected with the supporting piece, and the other end of the spring is connected with the drainage port plug. Wherein, the axis of the spring and the axis of the drain plug are in the same straight line. Therefore, the elastic force of the spring acts on the water outlet plug conveniently, so that the water outlet plug moves downwards under the action of gravity and the elastic force to block the water outlet. In addition, the outer diameter of the drain plug is matched with the inner diameter of the drain opening.

In practical application, the spring is positioned on the water inlet side of the water outlet, and the water outlet plug is partially embedded in the water outlet. Under the condition of refrigerator and baffle assembly, jack-up spare is worn to locate in the drain hole, and jack-up spare is with the ascending jack-up of drain hole stopper, and the spring is compressed, and the outlet is gone into the water hole with the comdenstion water and is communicated to the realization is with comdenstion water exhaust purpose. Under the condition that the refrigerator moves out, the jacking piece moves out of the water outlet and is separated from the water outlet plug, the water outlet plug moves downwards under the action of gravity and the elastic force of the spring, and the water outlet is blocked, so that condensed water is effectively prevented from flowing out of the water outlet.

Optionally, the inner diameter of the spring is smaller than the outer diameter of the drain plug. Therefore, the problem that the drainage port plug cannot reset to block the drainage port after the jacking piece withdraws from the space limited by the spring when the drainage port plug is jacked upwards by the jacking piece is solved.

Optionally, the drain plug 202 is made of rubber. The rubber is a high-elasticity polymer material with reversible deformation, is rich in elasticity at room temperature, can generate large deformation under the action of small external force, and can recover the original shape after the external force is removed. Like this, adopt the drainage mouth stopper that rubber was made, under the circumstances that the jacking piece shifted out, drainage mouth stopper can block up the outlet fast through self recovering and under the spring action of spring, reduces the comdenstion water outflow as far as possible.

Optionally, both the top and bottom surfaces of the drain plug 202 are provided with sheet metal, plate material, or plastic. Like this, at the in-process that the jack-up piece upwards jacks up the drainage mouth stopper, help strengthening the hardness of drainage mouth stopper top and bottom through sheetmetal, panel or plastics to the stability of drainage mouth stopper and spring coupling and the stability when drainage mouth stopper and jack-up piece are inconsistent have been improved.

Optionally, the side wall and/or the bottom wall of the drain plug 202 is provided with a water absorbing sponge (not shown in the figures). Thus, the water at the bottom of the partition is absorbed by the water absorbing sponge, and when the water discharge port plug is jacked up by the jack-up member, the water absorbing sponge at the side wall or the bottom wall of the water discharge port plug is pressed, and the water is squeezed out from the water absorbing sponge. In addition, under the condition that the drainage port plug is abraded by multiple times of friction and has a gap with the side wall of the drainage port, the water-absorbing sponge can also play a role in filling the gap, and condensed water is prevented from flowing out of the gap by absorbing water per se.

Optionally, the water-absorbing sponge is adhered to the side wall or the bottom wall of the drain plug. Optionally, the absorbent sponge is detachably connected to the side wall or the bottom wall of the drain plug.

Optionally, the surface area of the lower surface of drain plug 203 is greater than or equal to the area of drain opening 101. Therefore, the drainage port plug can completely block the drainage port, and the condensed water is prevented from flowing out. Optionally, the lower part of the drain plug is in a circular truncated cone shape. In practical application, when the drain outlet is blocked by the drain outlet plug, the circular truncated cone-shaped lower part protrudes and covers the water outlet side of the drain outlet, so that condensed water is blocked from flowing out of the drain outlet. Optionally, the drain plug is cylindrical, the cross-sectional area of the drain plug is larger than that of the drain opening, and the drain plug in the drain opening is in a squeezed state. When part of the drain plug protrudes from the outlet side of the drain opening, the protruding part of the drain plug returns to the original shape to cover and block the drain opening.

Optionally, the dehumidifier further comprises: and a jack-up controlling means 50 for controlling the jack-up 40 to move up and down along the water inlet 301 of the water tank. In this way, the vertical movement of the jack-up member is controlled by the jack-up member control device. The jacking piece control device is connected with the jacking piece, arranged at the water inlet of the water tank and partially positioned outside the water inlet. Thus, the operation of the user is convenient. Optionally, the jack-up control device is slidably connected to the tank inlet. Optionally, the jack-up control device extends through the tank inlet.

Alternatively, as shown in fig. 5, the sidewall of the water inlet 301 of the water tank is provided with a first sliding groove 501, and the jack-up control device 50 penetrates the first sliding groove 501 of the sidewall of the water inlet. Wherein the first sliding chute 501 is vertically arranged. Optionally, the jack-up control device 50 includes: one end of the rod piece is connected with the jacking piece, and the other end of the rod piece penetrates through the first sliding groove. The axis of the rod is perpendicular to the axis of the jacking piece. The side wall of the water inlet of the water tank is provided with a plurality of vertically arranged through holes. Wherein, a plurality of through-holes are evenly arranged at intervals. The lateral wall of jack-up piece is equipped with a plurality of vertically arranged's shrinkage pool. Wherein, a plurality of shrinkage pool interval align to grid, and with a plurality of through-hole looks adaptations. In practical application, the rod piece moves up and down in the first sliding groove to push the jacking piece to move up and down at the water inlet. Under the circumstances that the jack-up piece removed the assigned position, through jackscrew or round pin axle cartridge in through-hole and shrinkage pool, play limiting displacement to the jack-up piece, can effectually prevent that the jack-up piece from dropping. Under the condition that the position of jacking piece needs to be adjusted, only the pin shaft or the jackscrew needs to be disassembled, then the rod piece moves up and down in the first chute, the jacking piece is pushed to move up and down to a proper position at the water inlet, and the jacking piece is limited and fixed through the pin shaft or the jackscrew again.

Optionally, as shown in fig. 5, a plurality of second chutes 502 are formed through a sidewall of the water inlet 301 of the water tank, and the plurality of second chutes 502 are respectively communicated with the first chutes 501. The second chutes 502 are uniformly spaced apart from each other and arranged on the sidewall of the water inlet 301 of the water tank. The second sliding chute 502 is perpendicular to the first sliding chute 501. In practical application, the rod piece moves up and down in the first sliding groove to push the jacking piece to move up and down at the water inlet. Under the circumstances that the jack-up piece removed the assigned position, the member level rotated to corresponding second spout in to block fixedly through the second spout, thereby realize the spacing effect of preventing dropping of jack-up piece. Under the condition that the position of the jacking piece needs to be adjusted, the rod piece is only required to be horizontally rotated into the first sliding groove, then the rod piece moves up and down in the first sliding groove, the jacking piece is pushed to move up and down to a proper position at the water inlet, and the limiting and fixing of the jacking piece can be realized by horizontally rotating the rod piece to the corresponding second sliding groove again.

Optionally, as shown in fig. 6, the dehumidifier further includes: the base plate 60 is disposed below the partition plate 10 and includes a second water storage tank 601. The partition 10 is provided with a first reservoir 103, and the first reservoir 103 is provided with a first overflow opening 104. The first water storage tank 103 is communicated with the water outlet 101. The second reservoir 601 is disposed below the first overflow vent 104 and collects the water discharged from the first overflow vent 104.

The first water storage tank of the dehumidifier is used for collecting condensed water generated in the dehumidification process of the dehumidifier, the condensed water is discharged from the first overflow port after reaching a certain amount, the chassis is provided with a second water storage tank, and the second water storage tank is arranged below the first overflow port and corresponds to the first overflow port, so that the second water storage tank can collect water flow discharged by the first overflow port. Like this, when the water tank of dehumidifier was taken off, the comdenstion water was unable to be discharged from the outlet, and under the too much condition of comdenstion water accumulation, the comdenstion water was discharged from first gap, and the discharged rivers of first gap can be collected by the second aqua storage tank on the chassis, avoid rivers to flow indoor ground through the truckle hole or other gaps of dehumidifier bottom, had promoted user experience.

Alternatively, the second reservoir may be built into the chassis, or may be located on the upper surface of the chassis, or may be embedded in the chassis. The "second water storage tank is arranged in the chassis" can be understood as follows: the plane of the opening of the second water storage tank and the upper surface of the base plate are positioned on the same horizontal plane. The "second water storage tank is positioned on the upper surface of the chassis" can be understood as follows: the plane of the bottom surface of the second water storage tank and the plane of the upper surface of the chassis are the same horizontal plane, and the bottom of the second water storage tank is located on the upper surface of the chassis. The second water storage tank is embedded in the chassis, and can be understood as follows: the bottom of the second water storage tank is lower than the upper surface of the chassis, and the plane of the opening of the second water storage tank is higher than the horizontal plane of the upper surface of the chassis. When the second water storage tank is arranged in the chassis, the space on the upper surface of the chassis is saved, and the second water storage tank can be integrally formed during processing and manufacturing. When the second water storage tank is located on the upper surface of the chassis, the second water storage tank can be processed to different heights according to actual requirements, so that the water storage capacity is enlarged, the limitation of the thickness of the chassis is avoided, and the water storage capacity cannot be enlarged. When the second water storage tank is embedded in the chassis, the water storage capacity is further enlarged by the chassis, and the water flow from the first overflow port can be better received.

Alternatively, as shown in fig. 6, the second reservoir 601 is provided with a second overflow port 602, and the second overflow port 602 may drain excess water in the second reservoir 601. Therefore, water in the second water storage tank is discharged through the second overflow port, and then water flow discharged from the first overflow port is collected continuously, so that the water flow is prevented from flowing to the indoor ground through the caster holes or other gaps at the bottom of the dehumidifier, and the user experience is improved. The second overflow opening can be a through hole or a gap. Optionally, the first overflow vent is provided on a side wall of the second reservoir. Optionally, the second overflow vent is provided at the top of the side wall of the second reservoir. Therefore, the second water storage tank can collect more condensed water conveniently.

Optionally, as shown in fig. 6, the chassis 60 further includes: and a chute 603 communicating with the second reservoir 601 through the second overflow port 602 and collecting the water discharged from the second overflow port 602. Thus, the water flow discharged from the second overflow port is collected through the slide way, and the water collection amount from the first overflow port is enlarged; meanwhile, water is stored by utilizing the slide way on the premise of finishing the sliding connection function, and a user can judge the water amount in the second water storage tank by observing whether water is stored in the slide way; and secondly, the water collected in the second water storage tank is discharged to the slide way through the second overflow port, so that a user does not need to disassemble the second water storage tank for discharging. Wherein, the water tank is connected in the slide of chassis in a slidable way.

The embodiment of the disclosure provides a control method for a dehumidifier, which includes: when a user moves out of a water tank of the dehumidifier, the jacking piece control device controls the jacking piece of the dehumidifier to descend for the first time, so that a condensed water inlet of the jacking piece is positioned at a water inlet of the water tank and stays for the first time, and all water of a partition plate of the dehumidifier flows to the water tank; the jacking piece control device controls the jacking piece of the dehumidifier to descend for the second time, so that the upper surface of the jacking piece is lower than the water inlet of the water tank or is flush with the water inlet of the water tank, and the water tank is moved out.

Through the first decline of jack-up piece, the comdenstion water is gone into the water hole and is in the water inlet department of water tank to and intercommunication drainage mouth and water inlet for the lateral wall of the jack-up piece that receives the comdenstion water income water hole lower part hinders the water that can't flow into the water inlet through the comdenstion water income water hole, and whole inflow water tank through the setting for long first, help the water of baffle all to flow into the water tank. Through the second decline of jacking piece, the water tank of being convenient for shifts out, avoids jacking piece to take place to interfere with the bottom of baffle in the in-process that the water tank shifted out. Wherein the first duration ranges from 10 seconds to 60 seconds.

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 dehumidifier, comprising:

a baffle plate provided with a water outlet provided with a movable stopper; and the combination of (a) and (b),

a water tank arranged at the lower part of the clapboard and provided with a water inlet corresponding to the water outlet, the water inlet is provided with a jacking piece which can jack up the blocking piece,

wherein, the jacking piece is provided with a condensed water inlet hole communicated with the water inlet.

2. The dehumidifier of claim 1,

the water inlet is circular, and the jacking piece is a barrel with an opening at the bottom.

3. The dehumidifier of claim 1,

the condensed water inlet hole is formed in the side wall of the jacking piece.

4. The dehumidifier of claim 3,

the side wall of the jacking piece is provided with two or more than two condensed water inlet holes.

5. The dehumidifier of claim 1 wherein the blocking member comprises:

a spring; and the combination of (a) and (b),

and the drain plug is fixedly connected with the spring.

6. The dehumidifier of claim 5,

the drainage port plug is made of rubber.

7. The dehumidifier of claim 5,

and the side wall and/or the bottom wall of the drain hole plug is/are provided with water-absorbing sponge.

8. The dehumidifier of claim 5,

the surface area of the lower surface of the drain port plug is larger than or equal to the area of the drain port.

9. The dehumidifier of claim 1, further comprising:

and the jacking piece control device is used for controlling the jacking piece to move up and down along the water inlet of the water tank.

10. A control method for a dehumidifier, comprising:

when a user moves out of a water tank of the dehumidifier, the jacking piece control device controls the jacking piece of the dehumidifier to descend for the first time, so that a condensed water inlet hole of the jacking piece is positioned at a water inlet of the water tank and stays for the first time, and all water of a partition plate of the dehumidifier flows to the water tank;

the jacking piece control device controls the jacking piece of the dehumidifier to descend for the second time, so that the upper surface of the jacking piece is lower than the water inlet of the water tank or is flush with the water inlet of the water tank, the water tank is moved out,

the dehumidifier is according to any one of claims 1 to 9.

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