CN110904653A - Clothes drying equipment - Google Patents

Abstract

The invention belongs to the technical field of drying, and aims to solve the problem that the existing clothes drying equipment can not enable a user to flexibly select a corresponding clothes drying cavity to dry clothes according to the requirement of the user. To this end, the present invention provides a clothes drying apparatus including a drying assembly, a first chamber and a second chamber, the first chamber and the second chamber being independently disposed from each other, and an air path switching mechanism configured to selectively communicate the drying assembly with the first chamber and/or the second chamber. According to the clothes drying device, the drying assembly can be selectively communicated with the first cavity and/or the second cavity through the air path switching mechanism, so that when a user dries clothes, the first cavity and/or the second cavity can be selected according to the requirement of the user to dry the clothes, and through the arrangement, the user can realize classified drying treatment on the clothes, the classified drying requirement of the user is met, and the user experience is improved.

Description

Clothes drying equipment

Technical Field

The invention belongs to the technical field of drying, and particularly provides clothes drying equipment.

Background

Clothes drying apparatuses are machines capable of drying clothes, and existing clothes drying apparatuses include a clothes dryer, a washing and drying all-in-one machine, a clothes storage and drying machine, and the like, which are equipped with a drying system, so that clothes are dried by the drying system.

In the prior art, a clothes drying device generally only has one clothes drying cavity, a user needs to put clothes into the clothes drying cavity when drying the clothes, then a clothes drying program is started to dry the clothes, when the user wants to perform classified drying, the same kind of clothes can only be put into the clothes drying cavity firstly at each time, and the same kind of clothes can be put after the clothes of the same kind are dried, so that the clothes drying device is very inconvenient.

Therefore, there is a need in the art for a new clothes drying apparatus to solve the above problems.

Disclosure of Invention

In order to solve the above problems in the prior art, that is, to solve the problem that the conventional clothes drying apparatus cannot enable a user to flexibly select a corresponding clothes drying cavity according to the requirement of the user to dry clothes, the present invention provides a clothes drying apparatus, which includes a drying assembly, a first cavity and a second cavity, wherein the first cavity and the second cavity are independently arranged, and the clothes drying apparatus further includes an air path switching mechanism, and the air path switching mechanism is configured to selectively communicate the drying assembly with the first cavity and/or the second cavity.

In the preferred technical scheme of above-mentioned clothes drying equipment, wind path switching mechanism includes the wind chamber, at least some translation component that sets up in the wind chamber, set up air inlet structure, first air-out structure and second air-out structure on the wind chamber, and the air inlet structure communicates with stoving subassembly, first air-out structure and first cavity intercommunication, second air-out structure and second cavity intercommunication, and the translation component can be with translation mode selectively with air inlet structure and first air-out structure and/or second air-out structure intercommunication.

In the preferable technical scheme of the clothes drying equipment, the air cavity comprises a first part and a second part, the air inlet structure and the first air outlet structure are both arranged on the first part, the second air outlet structure is arranged on the second part, and the translation member is arranged between the first part and the second part; when the translation member is in the first translation position, the air inlet structure is only communicated with the first air outlet structure, so that the drying assembly is only communicated with the first chamber; when the translation component is in the second translation position, the air inlet structure communicates with first air-out structure and second air-out structure simultaneously for the stoving subassembly communicates with first cavity and second cavity simultaneously.

In a preferred technical solution of the above clothes drying apparatus, the air chamber includes a first portion and a second portion, the air inlet structure is disposed on the first portion, the first air outlet structure and the second air outlet structure are independently disposed on the second portion, and the translation member is disposed between the first portion and the second portion; when the translation member is in the first translation position, the air inlet structure is only communicated with the first air outlet structure, so that the drying assembly is only communicated with the first chamber; when the translation member is in the second translation position, the air inlet structure is only communicated with the second air outlet structure, so that the drying assembly is only communicated with the second cavity; when the translation member is located at the third translation position, the air inlet structure is communicated with the first air outlet structure and the second air outlet structure simultaneously, so that the drying assembly is communicated with the first cavity and the second cavity simultaneously; when the translation component is in the fourth translation position, the air inlet structure cuts off with first air-out structure and second air-out structure simultaneously for the stoving subassembly cuts off with first cavity and second cavity simultaneously.

In the preferable technical scheme of the clothes drying equipment, the translation component comprises a first plate, a second plate and a third plate which are connected, wherein the first plate is provided with a first communicating structure, the second plate is provided with a second communicating structure, and the third plate is simultaneously provided with a third communicating structure and a fourth communicating structure; when the translation member is located at the first translation position, the first plate moves into the air cavity, and the first communication structure communicates the air inlet structure with the first air outlet structure, so that the drying assembly is communicated with the first cavity only; when the translation member is located at the second translation position, the second plate moves into the air cavity, and the second communication structure communicates the air inlet structure with the second air outlet structure, so that the drying assembly is communicated with the second cavity only; when the translation component is in the third translation position, the third plate moves to the wind intracavity to the third intercommunication structure is with air inlet structure and first air-out structure intercommunication, and the fourth intercommunication structure is with air inlet structure and second air-out structure intercommunication, makes stoving subassembly and first cavity and second cavity intercommunication simultaneously.

In the preferred technical scheme of the clothes drying equipment, the air path switching mechanism comprises an air cavity, at least one part of a rotating member arranged in the air cavity, an air inlet structure arranged on the air cavity, a first air outlet structure and a second air outlet structure, wherein the air inlet structure is communicated with the drying assembly, the first air outlet structure is communicated with the first cavity, the second air outlet structure is communicated with the second cavity, the rotating member is arranged between the air inlet structure and the first air outlet structure as well as between the rotating member and the second air outlet structure, and the rotating member can selectively communicate the air inlet structure with the first air outlet structure and/or the second air outlet structure in a rotating mode.

In the preferred technical scheme of the clothes drying equipment, the rotating member is a pivoting plate, and the pivoting plate is arranged at the intersection of the air inlet structure, the first air outlet structure and the second air outlet structure; when the pivot plate is at the first pivot position, the air inlet structure is only communicated with the first air outlet structure, so that the drying assembly is only communicated with the first chamber; when the pivot plate is at the second pivot position, the air inlet structure is only communicated with the second air outlet structure, so that the drying assembly is only communicated with the second chamber; when the pivot plate is located at the third pivot position, the air inlet structure is communicated with the first air outlet structure and the second air outlet structure simultaneously, so that the drying assembly is communicated with the first cavity and the second cavity simultaneously.

In the preferred technical scheme of the clothes drying equipment, the rotating component is a rotating folded plate; when the rotating folded plate is positioned at the first rotating position, the air inlet structure is only communicated with the first air outlet structure, so that the drying assembly is only communicated with the first chamber; when the rotary folded plate is at a second rotary position, the air inlet structure is only communicated with the second air outlet structure, so that the drying assembly is only communicated with the second chamber; when the rotation folded plate is in the third rotation position, the air inlet structure is cut off with first air-out structure and second air-out structure simultaneously for the stoving subassembly is cut off with first cavity and second cavity simultaneously.

In the preferable technical scheme of the clothes drying equipment, the rotating member is a rotating disc, the rotating disc comprises a first plate, a second plate and a third plate which are connected, a first communicating structure is arranged on the first plate, a second communicating structure is arranged on the second plate, and a third communicating structure and a fourth communicating structure are simultaneously arranged on the third plate; when the rotating disc is located at the first rotating position, the first plate rotates into the air cavity, and the first communication structure communicates the air inlet structure with the first air outlet structure, so that the drying assembly is communicated with the first cavity only; when the rotating disc is located at a second rotating position, the second plate rotates into the air cavity, and the second communicating structure communicates the air inlet structure with the second air outlet structure, so that the drying assembly is communicated with the second cavity only; when the rotating disc is located at the third rotating position, the third plate rotates to the air cavity, the third communicating structure communicates the air inlet structure with the first air outlet structure, and the fourth communicating structure communicates the air inlet structure with the second air outlet structure, so that the drying assembly is communicated with the first cavity and the second cavity simultaneously.

In the preferred technical scheme of the clothes drying equipment, the drying assembly comprises a drying channel and a fan, the drying channel is communicated with the air cavity, and the fan is arranged in the drying channel and/or the air cavity.

As can be understood by those skilled in the art, in the preferred technical scheme of the present invention, the drying assembly can be selectively communicated with the first chamber and/or the second chamber through the air path switching mechanism, so that when a user dries laundry, the user can select the first chamber and/or the second chamber to dry the laundry according to the own requirement, and through such an arrangement, the user can realize classification drying processing on the laundry, thereby satisfying the classification drying requirement of the user, and improving the user experience.

Further, adopt the translation component can realize the break-make and the switching of wind path in the wind cavity with the translation for the air inlet structure can selectively with first air-out structure and/or second air-out structure intercommunication, thereby realize that the stoving subassembly selectively communicates with first cavity and/or second cavity, make when the user classifies the dry clothing or dry the clothing alone all can select corresponding cavity to dry, satisfy user's stoving demand, promote user experience.

Further, adopt the rotating member can realize the break-make and the switching of wind cavity inner wind path with rotating for the air inlet structure can selectively with first air-out structure and/or second air-out structure intercommunication, thereby realize that the stoving subassembly selectively communicates with first cavity and/or second cavity, make when the user classifies the dry clothing or dry the clothing alone all can select corresponding cavity to dry, satisfy user's stoving demand, promote user experience.

Drawings

FIG. 1 is a first schematic structural view of a first embodiment of a clothes drying apparatus according to the present invention;

FIG. 2 is a schematic structural view of a first embodiment of the clothes drying apparatus of the present invention;

FIG. 3 is a schematic structural view of a second embodiment of the clothes drying apparatus of the present invention;

FIG. 4 is a second schematic structural view of a second embodiment of the clothes drying apparatus of the present invention;

FIG. 5 is a third schematic structural view of a second embodiment of the clothes drying apparatus of the present invention;

FIG. 6 is a fourth schematic structural view of a second embodiment of the clothes drying apparatus of the present invention;

FIG. 7 is a first schematic structural view of a third embodiment of the clothes drying apparatus of the present invention;

FIG. 8 is a schematic structural view of a third embodiment of the clothes drying apparatus of the present invention;

FIG. 9 is a third schematic structural view of a third embodiment of the clothes drying apparatus of the present invention;

FIG. 10 is a first schematic structural view of a fourth embodiment of the clothes drying apparatus of the present invention;

FIG. 11 is a second schematic structural view of a fourth embodiment of the clothes drying apparatus of the present invention;

FIG. 12 is a third schematic structural view of a fourth embodiment of the clothes drying apparatus of the present invention;

FIG. 13 is a first schematic structural view of a fifth embodiment of the clothes drying apparatus of the present invention;

FIG. 14 is a schematic structural view of a fifth embodiment of the clothes drying apparatus of the present invention;

FIG. 15 is a third schematic structural view of a fifth embodiment of the clothes drying apparatus of the present invention;

FIG. 16 is a first schematic structural view of a sixth embodiment of the clothes drying apparatus of the present invention;

FIG. 17 is a second schematic structural view of a sixth embodiment of the clothes drying apparatus of the present invention;

fig. 18 is a third schematic structural view of a sixth embodiment of the clothes drying apparatus of the present invention.

Detailed Description

Preferred embodiments of the present invention are described below with reference to the accompanying drawings. It should be understood by those skilled in the art that these embodiments are only for explaining the technical principle of the present invention, and are not intended to limit the scope of the present invention.

It should be noted that in the description of the present invention, the terms of direction or positional relationship indicated by the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", etc. are based on the directions or positional relationships shown in the drawings, which are merely for convenience of description, and do not indicate or imply that the device or element must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first," "second," "third," and "fourth" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

Furthermore, it should be noted that, in the description of the present invention, unless otherwise explicitly specified or limited, the terms "disposed," "mounted," "connected," and "connected" are to be construed broadly and may be, for example, fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood by those skilled in the art according to specific situations.

The invention provides clothes drying equipment, which aims to realize classified drying treatment on clothes by a user, meet the classified drying requirements of the user and improve the user experience.

Specifically, the clothes drying equipment comprises a drying assembly, a first cavity and a second cavity, wherein the first cavity and the second cavity are arranged independently, and the clothes drying equipment further comprises an air path switching mechanism which is arranged to be capable of selectively communicating the drying assembly with the first cavity and/or the second cavity. Wherein, first cavity and second cavity can be about being in the horizontal direction setting, also can be about being in vertical direction setting, perhaps is the slant dislocation set according to the entity structure of drying the clothing equipment, and the technical staff in the art can set up the concrete position and the mode that sets up of first cavity and second cavity in practical application in a flexible way as long as can be with first cavity and second cavity independent setting each other can. In addition, the air path switching mechanism may be mainly configured by a translation member, or may be mainly configured by a rotation member, and those skilled in the art may flexibly set the specific structure of the air path switching mechanism in practical applications as long as the drying assembly can be selectively communicated with the first cavity and/or the second cavity. It should be noted that, in the present invention, the air path switching mechanism may be configured to only connect the drying assembly with the first cavity and the second cavity in an alternative manner, that is, the drying assembly cannot be simultaneously connected with the first cavity and the second cavity, so that the user can only select the first cavity or the second cavity for drying application; in addition, the air path switching mechanism may be further configured to communicate the drying assembly with at least one of the first cavity and the second cavity, that is, the drying assembly may be communicated with only the first cavity, only the second cavity, or both, in this case, a user may select the first cavity or the second cavity for drying application, or select the first cavity and the second cavity for drying application, and a person skilled in the art may flexibly set a specific air path selection form of the air path switching mechanism in practical application, and such adjustment and change of the specific air path selection form of the air path switching mechanism do not depart from the principle and scope of the present invention, and should be limited within the protection scope of the present invention.

In addition, it should be noted that the drying assembly of the present invention may introduce air from the outside to dry the clothes, and at this time, the drying assembly may include a drying channel communicated with the outside, and a heater and a fan may be disposed in the drying channel, and then the outside air is introduced into the clothes drying apparatus by the fan, and the air in the drying channel is heated by the heater, thereby realizing the drying of the clothes; of course, the drying assembly of the present invention may also be configured to dry the laundry by using an internal circulation manner, that is, the air source is from the inside of the drying apparatus, and in this case, the drying assembly may include a drying passage communicated with the inside, and a heater and a fan disposed in the drying passage, the air inside the drying apparatus may be introduced into the drying passage by the fan, heated by the heater and then returned to the inside of the drying apparatus, and during the process of returning to the inside of the drying apparatus, the air is selectively returned to the first chamber and/or the second chamber according to the air path switching mechanism.

Preferably, the air path switching mechanism includes an air cavity, a translation member at least partially disposed in the air cavity, an air inlet structure disposed on the air cavity, a first air outlet structure, and a second air outlet structure, the air inlet structure is communicated with the drying assembly, the first air outlet structure is communicated with the first cavity, the second air outlet structure is communicated with the second cavity, and the translation member can selectively communicate the air inlet structure with the first air outlet structure and/or the second air outlet structure in a translation manner. Under the structure, the fan can be arranged in the air cavity, or the fans are arranged in the air cavity and the drying channel, and the technical personnel in the field can flexibly set the number and the respective arrangement positions of the fans in practical application as long as the air in the drying channel can flow. Wherein, the air inlet structure can be for setting up the air intake on the wind chamber or for setting up the inlet air duct in the wind chamber, and first air-out structure and second air-out structure can be for setting up the air outlet on the wind chamber or for setting up the air-out passageway in the wind chamber, and technical personnel in the art can set up the concrete structural style of air inlet structure, first air-out structure and second air-out structure in practical application in a flexible way, as long as can realize corresponding air inlet and air-out function can. In addition, the translation component can be translation board, translation piece or other translation structures, and the concrete structure that the skilled person in the art can set up the translation component in a flexible way in practical application as long as can realize selectively with air inlet structure and first air-out structure and/or second air-out structure intercommunication through the translation component can. The above-described solution is illustrated below by three examples.

Example one

As shown in fig. 1 and 2, the air chamber 1 includes a first portion 11 and a second portion 12, the air inlet structure 2 and the first air outlet structure 3 are both disposed on the first portion 11, the second air outlet structure 4 is disposed on the second portion 12, and the translation member 7 is disposed between the first portion 11 and the second portion 12; when the translation member 7 is in the first translation position, the air inlet structure 2 is only communicated with the first air outlet structure 3, so that the drying assembly is only communicated with the first chamber 5; when translation member 7 was in the second translation position, air inlet structure 2 communicates with first air-out structure 3 and second air-out structure 4 simultaneously for the stoving subassembly communicates with first cavity 5 and second cavity 6 simultaneously. Particularly, stoving subassembly passes through air inlet structure 2 and injects into wind intracavity 1 with the air, when translation member 7 is in as shown in fig. 1 position, air inlet structure 2 only communicates with first air-out structure 3, first air-out structure 3 can only be to the 5 air intakes of the first cavity that lie in the downside this moment, when translation member 7 is in as shown in fig. 2 position, air inlet structure 2 can enough communicate with first air-out structure 3, can communicate with second air-out structure 4 again, first air-out structure 3 can be to 5 air intakes of first cavity this moment, second air-out structure 4 can be to 6 air intakes of second cavity, thereby realize simultaneously to first cavity 5 and 6 air intakes of second cavity. In this embodiment, the first position of translation component 7 refers to the position that will intake structure 2 only communicates with first air-out structure 3, and any position that can realize this function all belongs to the first position, and similarly, the second position of translation component 7 refers to the position that will intake structure 2 communicate with first air-out structure 3 and second air-out structure 4 simultaneously, and any position that can realize this function all belongs to the second position. Correspondingly, in order to realize that the air in the air cavity 1 can be respectively guided to the first air outlet structure 3 and the second air outlet structure 4 when the translation member 7 is located at the second position, an air deflector 9 can be arranged between the first air outlet structure 3 and the second air outlet structure 4, so that the air is divided and guided.

Example two

As shown in fig. 3 to 6, the wind chamber 1 includes a first portion 11 and a second portion 12, the wind inlet structure 2 is disposed on the first portion 11, the first wind outlet structure 3 and the second wind outlet structure 4 are disposed on the second portion 12 independently of each other, and the translation member 7 is disposed between the first portion 11 and the second portion 12; when the translation member 7 is in the first translation position, the air inlet structure 2 is only communicated with the first air outlet structure 3, so that the drying assembly is only communicated with the first chamber 5; when the translation member 7 is in the second translation position, the air inlet structure 2 is only communicated with the second air outlet structure 4, so that the drying assembly is only communicated with the second chamber 6; when the translation member 7 is in the third translation position, the air inlet structure 2 is simultaneously communicated with the first air outlet structure 3 and the second air outlet structure 4, so that the drying assembly is simultaneously communicated with the first cavity 5 and the second cavity 6; when translation member 7 was in the fourth translation position, air inlet structure 2 cut off with first air-out structure 3 and second air-out structure 4 simultaneously for the stoving subassembly cuts off with first cavity 5 and second cavity 6 simultaneously. Specifically, a partition plate may be disposed in the second portion 12, so as to block the first air outlet structure 3 and the second air outlet structure 4. The drying component injects air into the air cavity 1 through the air inlet structure 2, when the translation component 7 is located at the position shown in fig. 3, the air inlet structure 2 is only communicated with the first air outlet structure 3, and at the moment, the first air outlet structure 3 can supply air into the first cavity 5 located at the lower side; when the translation member 7 is located at the position shown in fig. 4, the air inlet structure 2 is only communicated with the second air outlet structure 4, and at this time, the second air outlet structure 4 can supply air into the second chamber 6 located at the upper side; when the translation member 7 is located at the position shown in fig. 5, the air inlet structure 2 is simultaneously communicated with the first air outlet structure 3 and the second air outlet structure 4, at this time, the first air outlet structure 3 can supply air to the first chamber 5, and the second air outlet structure 4 can supply air to the second chamber 6, so that air can be supplied to the first chamber 5 and the second chamber 6 simultaneously; when translation member 7 is in the position shown in fig. 6, air inlet structure 2 cuts off with first air-out structure 3 and second air-out structure 4 simultaneously, and first air-out structure 3 does not supply air in to first cavity 5 this moment, and second air-out structure 4 also does not supply air in to second cavity 6. In this embodiment, the first position of the translation member 7 refers to a position where the air inlet structure 2 is only communicated with the first air outlet structure 3, and any position capable of achieving this function belongs to the first position, and similarly, the second position of the translation member 7 refers to a position where the air inlet structure 2 is only communicated with the second air outlet structure 4, and any position capable of achieving this function belongs to the second position; the third position of the translation member 7 refers to a position where the air inlet structure 2 is communicated with the first air outlet structure 3 and the second air outlet structure 4 at the same time, and any position capable of achieving the function belongs to the third position; the fourth position of the translation member 7 refers to a position where the air inlet structure 2 is cut off from the first air outlet structure 3 and the second air outlet structure 4 at the same time, and any position capable of achieving the function belongs to the fourth position.

EXAMPLE III

As shown in fig. 7 to 9, the translating member 7 comprises a first plate 71, a second plate 72 and a third plate 73 which are connected, the first communicating structure 20 is arranged on the first plate 71, the second communicating structure 30 is arranged on the second plate 72, and the third communicating structure 40 and the fourth communicating structure 50 are arranged on the third plate 73; when the translation member 7 is in the first translation position, the first plate 71 moves into the air cavity 1, and the first communication structure 20 communicates the air inlet structure 2 and the first air outlet structure 3, so that the drying assembly is communicated with only the first chamber 5; when the translation member 7 is in the second translation position, the second plate 72 moves into the air cavity 1, and the second communication structure 30 communicates the air inlet structure 2 and the second air outlet structure 4, so that the drying assembly is communicated with only the second cavity 6; when the translation member 7 is located at the third translation position, the third plate 73 moves into the air cavity 1, the third communicating structure 40 communicates the air inlet structure 2 with the first air outlet structure 3, and the fourth communicating structure 50 communicates the air inlet structure 2 with the second air outlet structure 4, so that the drying assembly is communicated with the first cavity 5 and the second cavity 6 at the same time. Specifically, the drying component injects air into the air cavity 1 through the air inlet structure 2, and when the translation member 7 is located at the position shown in fig. 7, the first plate 71 moves into the air cavity 1, so that the air inlet structure 2 is communicated with the first air outlet structure 3 through the first communication structure 20, and at this time, the air enters the first chamber 5 through the air inlet structure 2, the first communication structure 20 and the first air outlet structure 3 in sequence; when the translation member 7 is located at the position shown in fig. 8, the second plate 72 moves into the air cavity 1, so that the second communication structure 30 communicates the air inlet structure 2 with the second air outlet structure 4, and at this time, the air enters the second cavity 6 through the air inlet structure 2, the second communication structure 30 and the second air outlet structure 4 in sequence; when the translation member 7 is located at the position shown in fig. 9, the third plate 73 moves into the air cavity 1, so that the third communicating structure 40 communicates the air inlet structure 2 with the first air outlet structure 3, and the fourth communicating structure 50 communicates the air inlet structure 2 with the second air outlet structure 4, so that the air sequentially enters the first cavity 5 through the air inlet structure 2, the third communicating structure 40 and the first air outlet structure 3, and the air sequentially enters the second cavity 6 through the air inlet structure 2, the fourth communicating structure 50 and the second air outlet structure 4. In this embodiment, the first position of the translation member 7 refers to a position where the air inlet structure 2 is only communicated with the first air outlet structure 3, and any position capable of achieving this function belongs to the first position, and similarly, the second position of the translation member 7 refers to a position where the air inlet structure 2 is only communicated with the second air outlet structure 4, and any position capable of achieving this function belongs to the second position; the third position of the translation member 7 refers to a position where the air inlet structure 2 is simultaneously communicated with the first air outlet structure 3 and the second air outlet structure 4, and any position capable of achieving the function belongs to the third position.

In addition, in the first to third embodiments, the translating member 7 can be moved by the retractor 10, wherein the retractor 10 can be a linear motor, or a spring traction member, or a traction structure such as an air cylinder or a hydraulic cylinder, and a person skilled in the art can flexibly set the specific structure of the retractor 10 in practical application as long as the translating traction of the translating member 7 can be realized, and in addition, the translating member 7 can also be pulled by a manual traction manner, and a person skilled in the art can flexibly set the traction manner of the traction member in practical application as long as the translating member 7 can realize the above translating function.

Preferably, the air path switching mechanism includes an air cavity 1, at least a portion of a rotating member 8 disposed in the air cavity 1, an air inlet structure 2 disposed on the air cavity 1, a first air outlet structure 3 and a second air outlet structure 4, the air inlet structure 2 is communicated with the drying assembly, the first air outlet structure 3 is communicated with the first cavity 5, the second air outlet structure 4 is communicated with the second cavity 6, the rotating member 8 is disposed between the air inlet structure 2 and the first air outlet structure 3 and the second air outlet structure 4, and the rotating member 8 can selectively communicate the air inlet structure 2 with the first air outlet structure 3 and/or the second air outlet structure 4 in a rotating manner. Under the structure, the fan can be arranged in the air cavity 1, or the fans are arranged in the air cavity 1 and the drying channel, and the technical personnel in the field can flexibly set the number and the respective arrangement positions of the fans in practical application as long as the air in the drying channel can flow. Wherein, air inlet structure 2 can be for setting up the air intake on wind chamber 1 or for setting up the inlet air duct in wind chamber 1, first air-out structure 3 and second air-out structure 4 can be for setting up the air outlet on wind chamber 1 or for setting up the air-out passageway in wind chamber 1, and technical personnel in the art can set up air inlet structure 2, the concrete structural style of first air-out structure 3 and second air-out structure 4 in practical application in a flexible way, as long as can realize corresponding air inlet and air-out function can. In addition, the rotating member 8 may be a pivoting plate, a rotating folded plate, a rotating disc or other rotating structures, and those skilled in the art may flexibly set the specific structure of the rotating member 8 in practical applications as long as the rotating member 8 can selectively communicate the air inlet structure 2 with the first air outlet structure 3 and/or the second air outlet structure 4. The above-described solution is illustrated below by three examples.

Example four

As shown in fig. 10 to 12, the rotating member 8 is a pivoting plate, and the pivoting plate is disposed at the intersection of the air inlet structure 2, the first air outlet structure 3 and the second air outlet structure 4; when the pivot plate is at the first pivot position, the air inlet structure 2 is only communicated with the first air outlet structure 3, so that the drying assembly is only communicated with the first chamber 5; when the pivot plate is at the second pivot position, the air inlet structure 2 is only communicated with the second air outlet structure 4, so that the drying assembly is only communicated with the second chamber 6; when the pivot plate is located at the third pivot position, the air inlet structure 2 is simultaneously communicated with the first air outlet structure 3 and the second air outlet structure 4, so that the drying assembly is simultaneously communicated with the first cavity 5 and the second cavity 6. Specifically, the drying assembly injects air into the air cavity 1 through the air inlet structure 2, when the pivot plate is located at the position shown in fig. 10, the air inlet structure 2 is only communicated with the first air outlet structure 3, and at the moment, the first air outlet structure 3 can supply air into the first cavity 5; when the pivot plate is located at the position shown in fig. 11, the air inlet structure 2 is only communicated with the second air outlet structure 4, and at the moment, the second air outlet structure 4 can supply air into the second chamber 6; when the pivot board is in the position shown in fig. 12, the air inlet structure 2 is simultaneously communicated with the first air outlet structure 3 and the second air outlet structure 4, at this moment, the first air outlet structure 3 can supply air to the first cavity 5, and the second air outlet structure 4 can supply air to the second cavity 6, so that air can be supplied to the first cavity 5 and the second cavity 6 simultaneously. In this embodiment, the first position of the pivot plate refers to a position where the air inlet structure 2 is only communicated with the first air outlet structure 3, and any position capable of achieving the function belongs to the first position, and similarly, the second position of the pivot plate refers to a position where the air inlet structure 2 is only communicated with the second air outlet structure 4, and any position capable of achieving the function belongs to the second position; the third position of the pivot plate refers to a position where the air inlet structure 2 is simultaneously communicated with the first air outlet structure 3 and the second air outlet structure 4, and any position capable of achieving the function belongs to the third position.

EXAMPLE five

As shown in fig. 13 to 15, the rotating member 8 is a rotating flap; when the rotating folded plate is at the first rotating position, the air inlet structure 2 is only communicated with the first air outlet structure 3, so that the drying assembly is only communicated with the first chamber 5; when the rotary folded plate is at the second rotary position, the air inlet structure 2 is only communicated with the second air outlet structure 4, so that the drying assembly is only communicated with the second chamber 6; when the rotation folded plate is in the third rotational position, the air inlet structure 2 is cut off with the first air outlet structure 3 and the second air outlet structure 4 simultaneously, so that the drying assembly is cut off with the first cavity 5 and the second cavity 6 simultaneously. Specifically, the drying assembly injects air into the air cavity 1 through the air inlet structure 2, when the rotating folded plate is located at the position shown in fig. 13, the air inlet structure 2 is only communicated with the first air outlet structure 3, and at the moment, the first air outlet structure 3 can supply air into the first cavity 5; when the rotary folded plate is located at the position shown in fig. 14, the air inlet structure 2 is only communicated with the second air outlet structure 4, and at the moment, the second air outlet structure 4 can supply air into the second chamber 6; when the rotation folded plate is in the position shown in fig. 15, the air inlet structure 2 is simultaneously cut off from the first air outlet structure 3 and the second air outlet structure 4, at this time, the first air outlet structure 3 cannot supply air to the first cavity 5, and the second air outlet structure 4 cannot supply air to the second cavity 6, so that air is not supplied to the first cavity 5 and the second cavity 6 at the same time. In this embodiment, the first position of the turning flap refers to a position where the air inlet structure 2 is only communicated with the first air outlet structure 3, and any position capable of achieving the function belongs to the first position, and similarly, the second position of the turning flap refers to a position where the air inlet structure 2 is only communicated with the second air outlet structure 4, and any position capable of achieving the function belongs to the second position; the third position of the rotating folded plate refers to a position where the air inlet structure 2 is cut off from the first air outlet structure 3 and the second air outlet structure 4 at the same time, and any position capable of achieving the function belongs to the third position. It should be noted that in the structures shown in fig. 13 to 15, the rotating flap is preferably a V-shaped flap, however, in practical applications, if the positions of the wind inlet structure 2, the first wind outlet structure 3 and the second wind outlet structure 4 are changed, the rotating flap may also be a flap with other adaptive structures, and the adjustment and change of the specific structure and shape of the rotating flap do not depart from the principle and scope of the present invention, and should be limited within the protection scope of the present invention.

EXAMPLE six

As shown in fig. 16 to 18, the rotating member 8 is a rotating disk including a first plate 81, a second plate 82 and a third plate 83 connected to each other, the first plate 81 is provided with a first communicating structure 20, the second plate 82 is provided with a second communicating structure 30, and the third plate 83 is provided with a third communicating structure 40 and a fourth communicating structure 50; when the rotating disc is at the first rotating position, the first plate 81 rotates into the air cavity 1, and the first communicating structure 20 communicates the air inlet structure 2 with the first air outlet structure 3, so that the drying assembly is communicated with the first cavity 5 only; when the rotating disc is at the second rotating position, the second plate 82 rotates into the air cavity 1, and the second communicating structure 30 communicates the air inlet structure 2 with the second air outlet structure 4, so that the drying assembly is communicated with the second cavity 6 only; when the rotating disc is located the third rotational position, the third plate 83 rotates to the wind chamber 1, and the third communicating structure 40 communicates the air inlet structure 2 with the first air outlet structure 3, and the fourth communicating structure 50 communicates the air inlet structure 2 with the second air outlet structure 4, so that the drying assembly is communicated with the first chamber 5 and the second chamber 6 simultaneously. Specifically, the drying assembly injects air into the air cavity 1 through the air inlet structure 2, and when the rotating disc is located at the position shown in fig. 16, the first plate 81 moves into the air cavity 1, so that the air inlet structure 2 is communicated with the first air outlet structure 3 through the first communication structure 20, and at the moment, the air enters the first chamber 5 through the air inlet structure 2, the first communication structure 20 and the first air outlet structure 3 in sequence; when the rotating disc is located at the position shown in fig. 17, the second plate 82 moves into the air cavity 1, so that the second communicating structure 30 communicates the air inlet structure 2 with the second air outlet structure 4, and at this time, air enters the second cavity 6 through the air inlet structure 2, the second communicating structure 30 and the second air outlet structure 4 in sequence; when the rotating disc is located at the position shown in fig. 18, the third plate 83 moves into the air cavity 1, so that the third communicating structure 40 communicates the air inlet structure 2 with the first air outlet structure 3, the fourth communicating structure 50 communicates the air inlet structure 2 with the second air outlet structure 4, so that the air sequentially enters the first cavity 5 through the air inlet structure 2, the third communicating structure 40 and the first air outlet structure 3, and the air sequentially enters the second cavity 6 through the air inlet structure 2, the fourth communicating structure 50 and the second air outlet structure 4. In this embodiment, the first position of the rotating disc refers to a position where the air inlet structure 2 is only communicated with the first air outlet structure 3, and any position capable of achieving the function belongs to the first position, and similarly, the second position of the rotating disc refers to a position where the air inlet structure 2 is only communicated with the second air outlet structure 4, and any position capable of achieving the function belongs to the second position; the third position of the rotating disc refers to a position where the air inlet structure 2 is communicated with the first air outlet structure 3 and the second air outlet structure 4 at the same time, and any position capable of achieving the function belongs to the third position.

In addition, in the fourth to sixth embodiments, the rotating member 8 can be rotated by rotating the motor, and in addition, the rotating member 8 can also be rotated by manual rotation, and those skilled in the art can flexibly set the rotating mode of the rotating member 8 in practical application as long as the rotating member 8 can realize the above-mentioned rotating function.

So far, the technical solutions of the present invention have been described in connection with the preferred embodiments shown in the drawings, but it is easily understood by those skilled in the art that the scope of the present invention is obviously not limited to these specific embodiments. Equivalent changes or substitutions of related technical features can be made by those skilled in the art without departing from the principle of the invention, and the technical scheme after the changes or substitutions can fall into the protection scope of the invention.

Claims (10)

1. A clothes drying apparatus, characterized in that the clothes drying apparatus comprises a drying assembly, a first chamber and a second chamber, the first chamber and the second chamber are arranged independently from each other,

the clothes drying apparatus further comprises an air path switching mechanism configured to selectively communicate the drying assembly with the first chamber and/or the second chamber.

2. The clothes drying apparatus according to claim 1, wherein the air path switching mechanism includes an air chamber, a translational member at least partially disposed in the air chamber, an air inlet structure disposed on the air chamber, a first air outlet structure, and a second air outlet structure, the air inlet structure is communicated with the drying assembly, the first air outlet structure is communicated with the first chamber, the second air outlet structure is communicated with the second chamber, and the translational member is capable of selectively communicating the air inlet structure with the first air outlet structure and/or the second air outlet structure in a translational manner.

3. The clothes drying apparatus of claim 2, wherein the air chamber includes a first portion and a second portion, the air inlet structure and the first air outlet structure being disposed on the first portion, the second air outlet structure being disposed on the second portion, the translating member being disposed between the first portion and the second portion;

when the translation member is in a first translation position, the air inlet structure is only communicated with the first air outlet structure, so that the drying assembly is only communicated with the first chamber;

when the translation member is located at a second translation position, the air inlet structure is communicated with the first air outlet structure and the second air outlet structure at the same time, so that the drying assembly is communicated with the first cavity and the second cavity at the same time.

4. The clothes drying apparatus of claim 2, wherein the air chamber includes a first portion and a second portion, the air inlet structure being disposed on the first portion, the first air outlet structure and the second air outlet structure being disposed on the second portion independently of each other, the translating member being disposed between the first portion and the second portion;

when the translation member is in a first translation position, the air inlet structure is only communicated with the first air outlet structure, so that the drying assembly is only communicated with the first chamber;

when the translation member is in a second translation position, the air inlet structure is only communicated with the second air outlet structure, so that the drying assembly is only communicated with the second chamber;

when the translation member is located at a third translation position, the air inlet structure is communicated with the first air outlet structure and the second air outlet structure simultaneously, so that the drying assembly is communicated with the first cavity and the second cavity simultaneously;

when the translation member is located at a fourth translation position, the air inlet structure is simultaneously cut off from the first air outlet structure and the second air outlet structure, so that the drying assembly is simultaneously cut off from the first cavity and the second cavity.

5. The clothes drying apparatus of claim 2, wherein the translating member includes a first plate, a second plate, and a third plate connected together, the first plate having a first communicating structure disposed thereon, the second plate having a second communicating structure disposed thereon, the third plate having both a third communicating structure and a fourth communicating structure disposed thereon;

when the translation member is at a first translation position, the first plate moves into the air cavity, and the first communication structure communicates the air inlet structure and the first air outlet structure, so that the drying assembly is communicated with the first chamber only;

when the translation member is at a second translation position, the second plate moves into the air cavity, and the second communication structure communicates the air inlet structure and the second air outlet structure, so that the drying assembly is communicated with the second cavity only;

when the translation member is in a third translation position, the third plate moves into the air cavity, the third communication structure communicates the air inlet structure with the first air outlet structure, and the fourth communication structure communicates the air inlet structure with the second air outlet structure, so that the drying assembly is communicated with the first cavity and the second cavity simultaneously.

6. The clothes drying apparatus according to claim 1, wherein the air path switching mechanism includes an air chamber, a rotating member at least partially disposed in the air chamber, an air inlet structure disposed on the air chamber, a first air outlet structure, and a second air outlet structure, the air inlet structure is communicated with the drying assembly, the first air outlet structure is communicated with the first chamber, the second air outlet structure is communicated with the second chamber, the rotating member is disposed between the air inlet structure and the first air outlet structure and the second air outlet structure, and the rotating member is capable of selectively communicating the air inlet structure with the first air outlet structure and/or the second air outlet structure in a rotating manner.

7. The clothes drying apparatus of claim 6, wherein the rotating member is a pivoting plate disposed at an intersection of the air intake structure, the first air outtake structure, and the second air outtake structure;

when the pivot plate is at a first pivot position, the air inlet structure is only communicated with the first air outlet structure, so that the drying assembly is only communicated with the first chamber;

when the pivot plate is at a second pivot position, the air inlet structure is only communicated with the second air outlet structure, so that the drying assembly is only communicated with the second chamber;

when the pivot plate is located at a third pivot position, the air inlet structure is communicated with the first air outlet structure and the second air outlet structure simultaneously, so that the drying assembly is communicated with the first cavity and the second cavity simultaneously.

8. A clothes drying apparatus according to claim 6, wherein the turning member is a turning flap;

when the rotating folded plate is in a first rotating position, the air inlet structure is only communicated with the first air outlet structure, so that the drying assembly is only communicated with the first chamber;

when the rotary folded plate is at a second rotary position, the air inlet structure is only communicated with the second air outlet structure, so that the drying assembly is only communicated with the second chamber;

when the rotation folded plate is located at the third rotation position, the air inlet structure is simultaneously cut off from the first air outlet structure and the second air outlet structure, so that the drying assembly is simultaneously cut off from the first cavity and the second cavity.

9. The clothes drying apparatus according to claim 6, wherein the rotating member is a rotating disc including a first plate, a second plate and a third plate connected to each other, the first plate having a first communicating structure provided thereon, the second plate having a second communicating structure provided thereon, the third plate having a third communicating structure and a fourth communicating structure provided thereon;

when the rotating disc is located at a first rotating position, the first plate rotates into the air cavity, and the first communication structure communicates the air inlet structure and the first air outlet structure, so that the drying assembly is communicated with the first cavity only;

when the rotating disc is located at a second rotating position, the second plate rotates into the air cavity, and the second communication structure communicates the air inlet structure and the second air outlet structure, so that the drying assembly is communicated with the second cavity only;

when the rotating disc is located at a third rotating position, the third plate rotates into the air cavity, the third communicating structure communicates the air inlet structure with the first air outlet structure, and the fourth communicating structure communicates the air inlet structure with the second air outlet structure, so that the drying assembly is communicated with the first cavity and the second cavity simultaneously.

10. The clothes drying apparatus of any one of claims 2 to 9, wherein the drying assembly includes a drying passage in communication with the air chamber and a fan disposed within the drying passage and/or the air chamber.

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