CN220017554U - Dehumidifier - Google Patents

Abstract

The utility model relates to the technical field of air conditioning equipment, in particular to a dehumidifier, which comprises: the device comprises a shell, a dehumidifying device, a power line and a storage piece, wherein the dehumidifying device is arranged in the shell; one end of the power line is electrically connected with the dehumidifying device, and the other end of the power line can extend out of the shell and is connected with a plug; the connecting end of the containing piece is rotatably connected with the shell, and the free end of the containing piece can turn around the connecting end; the power line can be wound on the storage piece and can synchronously move along with the rotating storage piece, so that the power line can be stored on one side of the storage piece facing the shell and/or one side of the storage piece facing away from the shell. The dehumidifier of the utility model can store the power cord in the shell, so as to solve the problem that the power cord is easy to drag on the ground, and solve the problem that the power cord is easy to be accidentally pulled and broken by accidental pulling.

Description

Dehumidifier

Technical Field

The utility model relates to the technical field of air conditioning equipment, in particular to a dehumidifier.

Background

The dehumidifier is generally used for reducing indoor humidity to prevent paper articles for use in home, furniture etc. from mildewing, can also reduce bacterial growth through reducing indoor humidity, protect human health, reduce the probability of diseases such as rheumatism, arthritis emergence. The working principle of the dehumidifier comprises the steps of introducing indoor humid air, condensing water in the humid air into water drops, enabling the water drops to fall into a water tank, and sending the dried air back into the room to form an air circulation process.

When the dehumidifier is used, electricity is usually required to be taken through a power line with a plug; however, the dehumidifier provided by the related art is inconvenient to store the power cord when not in use, so that the power cord is easily dragged to the ground, and is easily and accidentally pulled to the power cord, so that the power cord is easily and accidentally pulled apart.

Disclosure of Invention

The utility model solves the problems of accommodating the power line, improving the problem that the power line is easy to drag on the ground and improving the problem that the power line is easy to be accidentally pulled and broken by accidental pulling.

In order to solve the above problems, the present utility model provides a dehumidifier comprising:

a housing;

the dehumidifying device is arranged in the shell;

one end of the power line is electrically connected with the dehumidifying device, and the other end of the power line can extend out of the shell and is connected with a plug; the method comprises the steps of,

the connecting end of the storage piece is rotatably connected with the shell, and the free end of the storage piece can turn around the connecting end; wherein,

the power line can be wound on the storage piece, and the power line wound on the storage piece can synchronously move along with the storage piece which rotates, so that the power line can be stored on one side of the storage piece facing the shell, and/or the power line can be stored on one side of the storage piece facing away from the shell.

When the power line is required to be stored, the power line can be wound on the storage piece, and then the storage piece is rotated, so that the power line wound on the storage piece moves synchronously along with the storage piece, and the power line can be stored on the shell through the storage piece; therefore, the problem that the power line is easy to drag on the ground can be solved, and the power line is not easy to accidentally drag and is not easy to break due to accidental dragging because the power line is contained between the shell and the containing piece.

In an alternative embodiment, the housing is provided with a receiving space, and the receiving member can block or open an opening of the receiving space; when the storage piece shields the opening of the storage space, the power line wound on the storage piece can be stored in the storage space.

The power line is guaranteed to be reliably contained between the containing piece and the shell on the one hand, the problem that the power line is easy to drag on the ground is solved, the power line is not easy to accidentally drag and is not easy to break due to accidental drag on the shell, and on the other hand, the power line is convenient to form a compact structure when being contained, occupied space is reduced, and user experience is improved.

In an alternative embodiment, the storage member includes a body portion and a bracket, the body portion is rotatably connected with the housing, the bracket is connected with the body portion and is used for winding the power cord, and the bracket and the power cord wound on the bracket can move synchronously with the body portion, so that the power cord wound on the bracket can be stored between the housing and the body portion.

The connecting support is used for winding the power line on the body part connected with the shell, is favorable for ensuring that the power line stored in the storage piece is reliably stored between the body part and the shell and is not easy to expose, further ensuring the reliability of the power line stored, ensuring that the power line is not easy to expose accidentally and drag on the ground, further being difficult to accidentally pull the power line after the power line is stored, and improving the problem that the power line is easy to accidentally pull and break.

In an alternative embodiment, the body portion is provided with a notch for embedding the power cord.

The notch for embedding the power line is arranged on the body part, so that the notch is convenient to play a role in line yielding, the power line can be ensured to be smoothly wound on the support, and the power line is not easy to be damaged due to extrusion and friction of the body part.

In an alternative embodiment, the body portion is provided with a plug aperture, with which the plug can be plug-fitted.

Set up in body portion be used for with plug grafting complex spliced eye, be convenient for accomodate the plug on the receiver, and can not be hanging the form, improved the stability of accomodating power cord and plug, improved and be hanging the form because of the plug and receive unexpected dragging, lead to the power cord by unexpected problem of dragging.

In an alternative embodiment, the storage member further includes a fixing base slidably disposed on the body portion, and the fixing base is provided with a plug hole.

Set up the spliced eye on the fixing base that slidable set up in body portion, be convenient for adjust the position of spliced eye through the slip fixing base, no matter the power cord twines behind the support, the plug is located for body portion, can both ensure that the plug can peg graft with the spliced eye, has ensured the easy operability and the reliability of accomodating power cord and plug promptly.

In an alternative embodiment, the storage piece further comprises a sliding rail, the sliding rail is connected with the body part, and the fixing seat is connected with the sliding rail in a sliding manner; or,

the support is provided with a chute, and the fixing seat is slidably inserted into the chute.

The sliding rail is connected to the body part, so that the fixing seat and the sliding rail are in sliding connection, the fixing seat can be ensured to be slidably arranged in the stability of the body part, the power line is ensured to be wound on the support, the plug can be smoothly inserted into the inserting hole, and the operability and reliability of accommodating the power line and the plug are ensured.

Set up the spout on the support, and make fixing base slidable peg graft in the spout, can make the structure of receiver compacter to make overall structure compacter behind receiver behind power cord and the plug are accomodate, be favorable to miniaturized design.

In an alternative embodiment, the lower end of the body portion is rotatably connected with the housing; the upper end of the body portion is rotatable about its lower end such that the bracket is shielded between the body portion and the housing or such that the bracket is exposed.

The lower end of the body part is rotationally connected with the shell, the upper end of the body part can rotate around the lower end of the body part, and when the support is exposed, the support is ensured to be positioned on the upper surface of the body part, and further, a user is ensured to have more operation space to wind the power line on the support or detach the power line from the support, so that the operability of winding and unwinding the power line is ensured.

In an alternative embodiment, the housing is provided with a plug hole, with which the plug can be plugged.

Set up the spliced eye at the casing for with plug grafting cooperation, can twine in the receiver at the power cord, and by along with the receiver motion, and accomodate when accomodating between receiver and casing, make the plug through pegging graft with the spliced eye and accomodate on the casing, and can not hang in the outside of casing, improved the stability of accomodating power cord and plug, improve and hang in the casing outside because of the plug and receive unexpected dragging, and lead to the power cord to be pulled, cracked problem by accident.

In an alternative embodiment, the dehumidifier further comprises a locking member, wherein the locking member is arranged on the shell and can be connected with or detached from the containing member;

when the locking piece is connected with the containing piece, the relative position of the containing piece and the shell is locked, so that the power wire can be contained at one side of the containing piece facing the shell, and/or the power wire can be contained at one side of the containing piece facing away from the shell;

when the locking piece is separated from the containing piece, the containing piece is unlocked and can rotate relative to the shell.

By providing the locking member, the storage member can be locked in a state in which the power cord is stored in the housing, and the reliability of storage of the power cord can be ensured.

In an alternative embodiment, the dehumidifier further comprises a damping member, and the connection end and the housing are rotatably connected by the damping member.

Make storage piece and casing rotate through the damping piece to be connected, be convenient for after storage piece upset, utilize the damping piece to make storage piece stay in the position that corresponds, and be difficult to continue to rotate or rock under the effect of dead weight, and then be convenient for the user receive and releases the power cord in storage piece.

Drawings

Fig. 1 is a schematic structural diagram of a dehumidifier when a power cord is not wound around a receiving member in an embodiment of the present utility model;

FIG. 2 is a schematic diagram of a dehumidifier when a power cord is wound around a receiving member according to an embodiment of the present utility model;

FIG. 3 is a schematic diagram of a dehumidifier when the power cord is wound around the accommodating member and accommodated in the accommodating space according to an embodiment of the present utility model;

FIG. 4 is a schematic diagram illustrating a dehumidifier according to another embodiment of the present utility model when the power cord is wound around the receiving member;

FIG. 5 is a schematic view illustrating a structure of a dehumidifier when a power cord is wound around a receiving member according to another embodiment of the present utility model;

fig. 6 is a schematic structural diagram of a dehumidifier when a power cord is wound around a receiving member according to still another embodiment of the present utility model.

Reference numerals illustrate:

010-dehumidifier; 100-a housing; 110-a front shell; 111-an air outlet; 120-a rear enclosure; 121-an air inlet; 130-chassis; 140-accommodating space; 200-power lines; 210-plug; 300-receiving member; 310-body portion; 311-notch; 312-a first side; 313-a second side; 320-bracket; 400-plug holes; 410-fixing base; 420-slide rail; 430-chute.

Detailed Description

Dehumidifier is often used for reducing the humidity of indoor air, and its theory of operation includes: introducing indoor humid air, condensing water in the humid air into water drops and falling into a water tank, removing water in the air, and sending the dried air back into the room to form an air circulation process.

When the dehumidifier is used, electricity is usually required to be taken through a power line with a plug; however, when the dehumidifier is not used, the power cord is inconvenient to store, so that the power cord is easy to drag on the ground and is easy to accidentally pull to the power cord, and the power cord is easy to accidentally break.

The embodiment provides a dehumidifier, can accomodate the power cord, improves the problem that the power cord pulls on ground easily to improve the power cord and accidentally pull the fracture problem easily by the accident.

In order that the above objects, features and advantages of the utility model will be readily understood, a more particular description of the utility model will be rendered by reference to specific embodiments thereof which are illustrated in the appended drawings.

Referring to fig. 1, the dehumidifier 010 of the present embodiment includes a housing 100 and a dehumidifying device (not shown), wherein the housing 100 is provided with an air inlet 121 and an air outlet 111, and the dehumidifying device is disposed in the housing 100; the moist air introduced into the housing 100 from the air inlet 121 can be condensed and removed by the dehumidifying device and then output from the air outlet 111, thereby forming an air circulation, moisture removal and dry air output process.

Optionally, the dehumidifying device includes a circuit board and a heat exchanger, etc., the circuit board is electrically connected with the heat exchanger, and the heat exchanger is used for condensing water in the humid air into water drops to remove water in the air and form dry air. It should be noted that other components and working principles of the dehumidifying device are similar to those of the related art, and are not described herein.

The structure of the housing 100 may be selected as desired; in this embodiment, the casing 100 includes a chassis 130, a front enclosure 110 and a rear enclosure 120, the front enclosure 110 and the rear enclosure 120 are buckled and connected with each other, the front enclosure 110 and the rear enclosure 120 are connected with the chassis 130, the front enclosure 110, the rear enclosure 120 and the chassis 130 jointly enclose a mounting cavity, and the dehumidifying device is disposed in the mounting cavity. By this arrangement, the dehumidifier can be protected between the front housing 110, the rear housing 120, and the chassis 130, and the assembly of the dehumidifier 010 as a whole can be simplified.

Optionally, the top plate of the front enclosure 110 is provided with an air outlet 111, and the side of the rear enclosure 120 facing away from the front enclosure 110 is provided with an air inlet 121. Of course, in other embodiments, the air outlet 111 is provided with the rear enclosure 120, and the air inlet 121 is provided with the front enclosure 110; alternatively, the air inlet 121 and the air outlet 111 are both disposed on the front enclosure 110; alternatively, the air inlet 121 and the air outlet 111 are both disposed on the rear enclosure 120.

The connection manner of the front enclosure 110 and the rear enclosure 120, and the connection manner of the front enclosure 110 and the rear enclosure 120 and the chassis 130 include, but are not limited to, fastening, and fastening with bolts.

It should be understood that in other embodiments, the front enclosure 110 and the rear enclosure 120 may be integrally formed cylindrical shell 100 structures, or the shell 100 may further include a chassis 130, and a first side 312 plate, a second side 313 plate, a third side plate, and a fourth side plate that are sequentially connected in a ending manner, where the first side 312 plate, the second side 313 plate, the third side plate, and the fourth side plate are all connected to the chassis 130, and the dehumidifying device is disposed on the chassis 130, and a summary of the space enclosed between the sequentially connected first side 312 plate, second side 313 plate, third side plate, and fourth side plate, which is not specifically limited herein.

The dehumidifier 010 further comprises a power cord 200, one end of the power cord 200 is electrically connected with the dehumidifying device, and the other end can extend out of the shell 100 and is connected with a plug 210; specifically, one end of the power cord 200 is electrically connected to the circuit board, so that the circuit board and the heat exchanger electrically connected thereto are energized and operated when the plug 210 is plugged into and powered from the socket.

It should be noted that, the power cord 200 is connected to the circuit board by, but not limited to, soldering, riveting by conductive members.

Referring to fig. 1, 2 and 3, in order to facilitate the storage of the power cord 200, the dehumidifier 010 further includes a storage member 300, wherein a connection end of the storage member 300 is rotatably connected with the housing 100, and a free end of the storage member 300 can be turned around the connection end; the power cord 200 can be wound around the storage member 300, and the power cord 200 wound around the storage member 300 can move synchronously with the storage member 300, so that the power cord 200 can be stored in a side of the storage member 300 facing the housing 100, and/or the power cord 200 can be stored in a side of the storage member 300 facing away from the housing 100.

When the power cord 200 needs to be stored, the power cord 200 can be wound on the storage member 300, and then the storage member 300 is rotated, so that the power cord 200 wound on the storage member 300 moves synchronously with the storage member 300, and the power cord 200 can be stored on the housing 100 through the storage member 300; in this way, the problem that the power cord 200 is easily pulled on the ground can be improved, and the power cord 200 is not easily pulled accidentally and is not easily broken by accidental pulling because the power cord 200 is accommodated between the housing 100 and the accommodating member 300.

Alternatively, the power cord 200 can be wound around the storage member 300, and the power cord 200 wound around the storage member 300 can move synchronously with the storage member 300, so that at least a portion of the power cord 200 can be stored between the storage member 300 and the housing 100. In this way, the reliability and stability of the power cord 200 stored in the case 100 by the storage 300 can be improved.

Further, the receiving member 300 is rotatably connected to the rear enclosure 120, and the power cord 200 is penetrated out from the rear enclosure 120; specifically, the receiving member 300 is connected to a side of the back chassis 120 opposite to the front chassis 110, and the power cord 200 is penetrated from a side of the back chassis 120 opposite to the front chassis 110. Thus, the power cord 200 can be housed in the rear side of the dehumidifier 010 to improve the aesthetic appearance.

Of course, in other embodiments, the receiving member 300 may be rotatably connected to the front shell 110, and the power cord 200 may also pass through the front shell 110; alternatively, in other embodiments, the receiving member 300 may be connected with one of the front and rear enclosures 110 and 120, and the power cord 200 may be penetrated out from one of the front and rear enclosures 110 and 120, and the receiving member 300 and the power cord 200 are simultaneously located at the left or right side of the dehumidifier 010; alternatively, in other embodiments, the receiving member 300 may be rotatably connected to the chassis 130, which is not specifically limited herein.

Still further, the case 100 is provided with a receiving space 140, and the receiving member 300 can block or open an opening of the receiving space 140; when the storage member 300 covers the opening of the storage space 140, the power cord 200 wound around the storage member 300 can be stored in the storage space 140. The housing 100 is provided with the housing space 140 for housing the power cord 200, so that on one hand, the power cord 200 can be reliably housed between the housing 300 and the housing 100, the problem that the power cord 200 is easy to drag on the ground is solved, the power cord 200 can be prevented from being accidentally pulled and broken due to accidental pulling, on the other hand, a compact structure can be formed when the power cord 200 is housed, occupied space is reduced, and user experience is improved.

Alternatively, the rear enclosure 120 is provided with a receiving groove as the receiving space 140; of course, in other embodiments, the rear enclosure 120 is provided with a receiving opening communicating with the mounting cavity, the mounting cavity can be used as the receiving space 140, and the receiving opening is an opening of the receiving space 140.

The structure of the receiving member 300 may be set as required; referring to fig. 1, 2 and 3, in the present embodiment, the storage member 300 includes a body portion 310 and a bracket 320, wherein the body portion 310 is rotatably connected with the housing 100, and specifically, the body portion 310 is rotatably connected with the rear enclosure 120; the supporter 320 is connected to the body portion 310 and is used to wind the power cord 200, and the supporter 320 and the power cord 200 wound around the supporter 320 can move synchronously with the body portion 310 so that the power cord 200 wound around the supporter 320 can be received between the housing 100 and the body portion 310. The connection of the bracket 320 to the body 310 connected to the housing 100 is used for winding the power cord 200, which is beneficial to ensuring that the power cord 200 stored in the storage member 300 is reliably stored between the body 310 and the housing 100 and is not easily exposed, further ensuring the reliability of storing the power cord 200, ensuring that the power cord 200 is not easily exposed accidentally and is dragged to the ground, further not easily being accidentally pulled to the power cord 200 after the power cord 200 is stored, and improving the problem that the power cord 200 is easily and accidentally pulled to break.

When the body portion 310 rotates relative to the housing 100, it may block or open the opening of the storage space 140; when the body part 310 is rotated to open the opening of the receiving space 140, the holder 320 is exposed, and the power cord 200 can be wound on the holder 320; when the power cord 200 is wound around the holder 320 and the body portion 310 rotates to cover the opening of the storage space 140, the power cord 200 and the holder 320 can move synchronously with the body portion 310 and enter the storage space 140, so that the power cord 200 can be reliably stored between the body portion 310 and the housing 100.

It should be understood that, in other embodiments, the housing 300 may include only the body portion 310 rotatably connected to the housing 100, the power cord 200 may be wound around the body portion 310 when the body portion 310 is rotated to open the opening of the housing space 140, the power cord 200 may be synchronously moved with the body portion 310 when the body portion 310 is rotated to block the opening of the housing space 140, and a portion of the power cord 200 wound around the body portion 310 may enter the housing space 140, that is, a portion of the power cord 200 may be housed between the body portion 310 and the housing 100.

Further, referring to fig. 1, 2 and 3, the lower end of the body portion 310 is rotatably connected to the housing 100, specifically, the lower end of the body portion 310 is rotatably connected to the rear enclosure 120; the upper end of the body part 310 can rotate around the lower end thereof so that the supporter 320 is shielded between the body part 310 and the case 100 or so that the supporter 320 is exposed; wherein, when the upper end of the body part 310 rotates downward around the lower end thereof, the supporter 320 can be exposed so that the power cord 200 can be received in the supporter 320; when the upper end of the body part 310 is rotated upward around the lower end thereof, the holder 320 and the power cord 200 wound around the holder 320 can enter the storage space 140 and be shielded by the body part 310. Thus, when the holder 320 is exposed, the holder 320 is secured to the upper surface of the body portion 310, and further, a user is secured more space for winding the power cord 200 around the holder 320 or removing the power cord 200 from the holder 320, that is, ease of winding and unwinding the power cord 200 is secured.

Of course, in other embodiments, either the left or right side of the body portion 310 may be rotatably coupled to the housing 100; alternatively, the upper end of the body portion 310 may be rotatably coupled to the housing 100, which is not particularly limited herein.

It should be appreciated that in embodiments where the left, right, or upper end of the body portion 310 is rotatably connected to the housing 100, referring to fig. 4 (in which only the upper end of the body portion 310 is shown rotatably connected to the housing 100 and the bracket 320 is connected to the second side 313 of the body portion 310), when the body portion 310 shields the opening of the receiving space 140, the body portion 310 has a first side 312 facing the receiving space 140 and a second side 313 facing away from the receiving space 140, the first side 312 may be considered to be facing the housing 100, and the second side 313 may be considered to be facing away from the housing 100; the bracket 320 may be coupled to the first side 312 and the second side 313; if the bracket 320 is connected to the second side 313 as shown in fig. 4, when the power cord 200 is wound around the bracket 320 and the body portion 310 rotates to cover the opening of the accommodating space 140, the power cord 200 is located at a side of the body portion 310 away from the rear enclosure 120, that is, the power cord 200 is accommodated in a side of the accommodating member 300 away from the housing 100, and the body portion 310 is configured to be rotatable relative to the housing 100, when the power cord 200 needs to be accommodated in the bracket 320, the body portion 310 can be rotated in a direction to open the opening of the accommodating space 140, so that the bracket 320 connected to the second side 313 of the body portion 310 can be extended and exposed relative to the housing 100, so as to facilitate accommodating the power cord 200 in the bracket 320.

Optionally, the dehumidifier 010 further includes a damping member (not shown), through which the connection end of the receiving member 300 and the housing 100 are rotatably connected; damping elements include, but are not limited to, damping shafts, damping hinges. The containing piece 300 and the shell 100 are rotationally connected through the damping piece, so that after the containing piece 300 is turned over, the containing piece 300 is stopped at a corresponding position by the damping piece, and the containing piece is not easy to continue to rotate or shake under the action of dead weight, so that a user can conveniently collect and pay off the power line 200 in the containing piece 300.

Optionally, the dehumidifier 010 further includes a locking member (not shown) provided to the housing 100 and capable of being coupled to or uncoupled from the receiving member 300; when the locking member is connected with the housing member 300, the relative positions of the housing member 300 and the housing 100 are locked, so that the power cord 200 can be housed at a side of the housing member 300 facing the housing 100, and/or the power cord 200 can be housed at a side of the housing member 300 facing away from the housing 100; when the locking member is separated from the receiving member 300, the receiving member 300 is unlocked and can rotate with respect to the housing 100; thus, when the storage member 300 is rotated relative to the housing 100 such that the power cord 200 wound around the storage member 300 is stored in the housing 100, the locking member is connected to the storage member 300, so that the position of the storage member 300 can be locked, that is, the storage member 300 can be locked in a state in which the power cord 200 is stored in the housing 100, thereby ensuring the reliability of storage of the power cord 200; when the locking member is separated from the receiving member 300, the receiving member 300 can be rotated with respect to the housing 100 so as to expose the power cord 200, to detach the power cord 200 from the receiving member 300, or to wind the power cord 200 around the receiving member 300 for receiving.

The locking member may be selected as desired, and is not particularly limited herein; for example: in some embodiments, the locking member includes one of a buckle and a slot, one of the buckle and the slot is disposed on the rear enclosure 120, the other of the buckle and the slot is disposed on the body portion 310, the buckle can be engaged with or disengaged from the slot, when the body portion 310 rotates to cover the opening of the storage space 140, the buckle can be engaged with the slot, and the body portion 310 can be locked at a position that covers the opening of the storage space 140, so that the power cord 200 wound around the support 320 and the support 320 can be reliably stored in the storage space 140, and when the buckle is disengaged from the slot, the body portion 310 can rotate to open the opening of the storage space 140 and expose the support 320 and the power cord 200 wound around the support 320; in other embodiments, the locking member includes a bolt capable of simultaneously connecting the rear housing 120 and the body 310, and when the body 310 is rotated to cover the opening of the receiving space 140, the bolt is simultaneously connected with the rear housing 120 and the body 310, so that the body 310 can be locked at a position covering the opening of the receiving space 140, and the power cord 200 wound around the holder 320 and the holder 320 can be reliably received in the receiving space 140, and when the bolt is removed from the body 310 and the rear housing 120, the body 310 can be rotated to open the opening of the receiving space 140, and the holder 320 and the power cord 200 wound around the holder 320 are exposed; in still other embodiments, the locking member includes one of a magnet and a magnetic attraction member, the one of the magnet and the magnetic attraction member is disposed on the rear enclosure 120, the other of the magnet and the magnetic attraction member is disposed on the body portion 310, the magnet and the magnetic attraction member can be magnetically connected or separated, when the body portion 310 rotates to shield the opening of the storage space 140, the magnet and the magnetic attraction member can magnetically connect, so that the body portion 310 can be locked in a position shielding the opening of the storage space 140, so that the power cord 200 wound around the support 320 and the support 320 can be reliably stored in the storage space 140, and when the magnet and the magnetic attraction member are separated, the body portion 310 can rotate to open the opening of the storage space 140 and expose the support 320 and the power cord 200 wound around the support 320.

In this embodiment, referring to fig. 1, in order to enable the power cord 200 to be wound on the support 320 smoothly, and to prevent the power cord 200 from being broken and worn due to winding on the support 320, the body portion 310 is provided with a notch 311, specifically, the edge of the body portion 310 is provided with a notch 311, and the notch 311 is used for embedding the power cord 200. The body portion 310 is provided with a notch 311 for embedding the power cord 200, so that the notch 311 is convenient for playing a role of wire harness abdication, for example: when the power cord 200 is wound around the support 320, an end of the power cord 200, which is close to the housing 100, can be embedded in the notch 311, so as to ensure that the power cord 200 can be smoothly wound around the support 320, and is not easily damaged by being squeezed and rubbed by the body 310.

Further, the body portion 310 has a plate-like structure, and when the body portion 310 covers the opening of the storage space 140, the body portion 310 having the plate-like structure can improve the flatness of the rear side of the housing 100, which is advantageous for improving the aesthetic appearance.

The support 320 may be selected according to need, and the support 320 of this embodiment includes two support rods, which are cross-connected and both of which are connected to the body 310.

Of course, in other embodiments, the support 320 may be a linear support rod, or the support 320 may include two hooks that are connected to the body 310 at intervals, which is not limited herein.

Referring to fig. 1, in the present embodiment, the body portion 310 is provided with a plugging hole 400, and the plug 210 can be plugged into the plugging hole 400. The body portion 310 is provided with the plugging hole 400 for plugging and matching with the plug 210, so that after the power cord 200 is wound on the bracket 320, the plug 210 is conveniently stored in the storage piece 300 without being hung, the stability of storing the power cord 200 and the plug 210 is improved, and the problem that the power cord 200 is accidentally pulled due to the fact that the plug 210 is hung is solved.

Of course, referring to fig. 5, in other embodiments, the housing 100 is provided with a plugging hole 400, and the plug 210 can be plugged into the plugging hole 400; the plug hole 400 is arranged on the shell 100 and is used for being in plug-in fit with the plug 210, so that when the power line 200 is wound on the storage piece 300, moves along with the storage piece 300 and is stored between the storage piece 300 and the shell 100, the plug 210 is stored on the shell 100 through being plugged in the plug hole 400 without being hung outside the shell 100, the stability of storing the power line 200 and the plug 210 is improved, and the problem that the power line 200 is accidentally pulled and broken due to the fact that the plug 210 is hung outside the shell 100 is solved.

Further, referring to fig. 2 and 3, in the embodiment, the accommodating member 300 further includes a fixing base 410, the fixing base 410 is slidably disposed on the body portion 310, and the fixing base 410 is provided with a plugging hole 400. The plug hole 400 is provided on the fixing seat 410 slidably disposed on the body portion 310, so that the relative position of the plug hole 400 on the body portion 310 can be conveniently adjusted by sliding the fixing seat 410, no matter where the plug 210 is located relative to the body portion 310 after the power cord 200 is wound around the bracket 320, the plug 210 can be ensured to be plugged with the plug hole 400, that is, the operability and reliability of accommodating the power cord 200 and the plug 210 are ensured.

Still further, the storage member 300 further includes a sliding rail 420, the sliding rail 420 is connected with the body portion 310 and is spaced apart from the bracket 320, and the fixing seat 410 is slidably connected with the sliding rail 420; the sliding rail 420 is connected to the body portion 310, so that the fixing base 410 is slidably connected to the sliding rail 420, so that the fixing base 410 can be ensured to be slidably disposed in the body portion 310, and the plug 210 can be smoothly inserted into the insertion hole 400 after the power cord 200 is wound around the bracket 320, thereby ensuring easy operability and reliability of accommodating the power cord 200 and the plug 210. In other embodiments, the sliding rail 420 may be spliced with the bracket 320, and the power cord 200 may be wound on the sliding rail 420 and the bracket 320 at the same time.

Of course, referring to fig. 6, in other embodiments, the bracket 320 is provided with a sliding slot 430, and the fixing base 410 is slidably inserted into the sliding slot 430; the sliding groove 430 is disposed on the bracket 320, and the fixing seat 410 is slidably inserted into the sliding groove 430, so that the structure of the storage element 300 is more compact, and the overall structure of the power cord 200 and the plug 210 after being stored in the storage element 300 is more compact, which is beneficial to miniaturization design.

When the dehumidifier 010 of the present embodiment is used, the receiving member 300 can be rotated relative to the housing 100 so that the power cord 200 received in the receiving space 140 is exposed, then the plug 210 is pulled out from the receiving member 300, and the power cord 200 wound around the receiving member 300 is detached from the receiving member 300, so that the plug 210 connected with the power cord 200 can be plugged into the socket, thereby energizing the dehumidifier 010.

When the dehumidifier 010 is not used, the power cord 200 may be wound around the storage 300, the plug 210 may be inserted into the storage 300, and then the storage 300 may be rotated to store the power cord 200 between the storage 300 and the case 100.

As described above, the dehumidifier 010 of the present utility model can reliably house the power cord 200 in the housing 100, thereby improving the problem that the power cord 200 is easily pulled on the ground, and improving the problem that the power cord 200 is easily pulled and broken by accident.

Although the present utility model is disclosed above, the present utility model is not limited thereto. Various changes and modifications may be made by one skilled in the art without departing from the spirit and scope of the utility model, and the scope of the utility model should be assessed accordingly to that of the appended claims.

Claims (11)

1. A dehumidifier, comprising:

a housing (100);

a dehumidifying device provided in the housing (100);

a power line (200), wherein one end of the power line (200) is electrically connected with the dehumidifying device, and the other end of the power line (200) can extend out of the shell (100) and is connected with a plug (210); the method comprises the steps of,

a storage member (300), wherein a connection end of the storage member (300) is rotatably connected with the housing (100), and a free end of the storage member (300) can be turned around the connection end; wherein,

the power line (200) can be wound on the containing piece (300), and the power line (200) wound on the containing piece (300) can synchronously move along with the rotating containing piece (300), so that the power line (200) can be contained on one side, facing the shell (100), of the containing piece (300), and/or the power line (200) can be contained on one side, facing away from the shell (100), of the containing piece (300).

2. Dehumidifier according to claim 1, characterized in that the housing (100) is provided with a receiving space (140), the receiving element (300) being able to block or open an opening of the receiving space (140); wherein, when the storage member (300) shields the opening of the storage space (140), the power cord (200) wound around the storage member (300) can be stored in the storage space (140).

3. Dehumidifier according to claim 1, characterized in that the housing (300) comprises a body part (310) and a bracket (320), the body part (310) being rotatably connected with the housing (100), the bracket (320) being connected with the body part (310) and being adapted to wind the power cord (200), the bracket (320) and the power cord (200) wound around the bracket (320) being movable synchronously with the body part (310) such that the power cord (200) wound around the bracket (320) is receivable between the housing (100) and the body part (310).

4. A dehumidifier according to claim 3, wherein the body portion (310) is provided with a notch (311), the notch (311) being adapted to embed the power cord (200).

5. A dehumidifier according to claim 3, wherein the body portion (310) is provided with a plug aperture (400), the plug (210) being insertable into engagement with the plug aperture (400).

6. The dehumidifier according to claim 5, wherein the receiving member (300) further comprises a fixing base (410), the fixing base (410) being slidably provided to the body portion (310), the fixing base (410) being provided with the insertion hole (400).

7. The dehumidifier of claim 6, wherein the receiver (300) further comprises a sliding rail (420), the sliding rail (420) being connected to the body portion (310), the holder (410) being slidably connected to the sliding rail (420); or,

the bracket (320) is provided with a chute (430), and the fixing seat (410) is slidably inserted into the chute (430).

8. A dehumidifier according to claim 3, wherein the lower end of the body portion (310) is rotatably connected to the housing (100); the upper end of the body part (310) can rotate around the lower end, so that the bracket (320) is shielded between the body part (310) and the shell (100) or the bracket (320) is exposed.

9. Dehumidifier according to claim 1, characterized in that the housing (100) is provided with a plug hole (400), the plug (210) being insertable into engagement with the plug hole (400).

10. Dehumidifier according to claim 1, further comprising a locking element provided to the housing (100) and connectable to or disconnectable from the receiving element (300);

when the locking member is connected with the containing member (300), the relative position of the containing member (300) and the housing (100) is locked so that the power cord (200) can be contained on the side of the containing member (300) facing the housing (100) and/or the power cord (200) can be contained on the side of the containing member (300) facing away from the housing (100);

when the locking member is separated from the receiving member (300), the receiving member (300) is unlocked and can rotate relative to the housing (100).

11. Dehumidifier according to any of claims 1-10, further comprising a damping member, through which the connection end and the housing (100) are rotatably connected.