CN210596726U - Connecting structure between clothes airing component and drying module, clothes airing assembly and clothes airing machine - Google Patents

Abstract

The utility model discloses a connecting structure between a clothes airing component and a drying module, a clothes airing assembly and a clothes airing machine, which comprises the clothes airing component and the drying module which is internally provided with a heating component and the upper surface of which is provided with an air outlet, wherein a foldable telescopic assembly is arranged between the clothes airing component and the drying module; the middle part of the upper surface of the drying module is provided with a concave accommodating area which extends along the length direction of the drying module, and at least one part of the telescopic assembly is accommodated in the accommodating area in an accommodating state; an accommodating area is arranged between the clothes airing component and the drying module, and a telescopic assembly between the clothes airing component and the drying module can be accommodated in the accommodating area between the clothes airing component and the drying module after being folded and accommodated and can shield the telescopic assembly after being folded and accommodated; make the storage area of telescopic component more clean and tidy, the whole of airing machine is also more pleasing to the eye.

Description

Connecting structure between clothes airing component and drying module, clothes airing assembly and clothes airing machine

Technical Field

The invention relates to a clothes airing machine in the field of home furnishing, in particular to a connecting structure between a clothes airing component and a drying module, a clothes airing assembly and the clothes airing machine.

Background

In modern home life, people usually install a clothes drying machine with a drying function in a balcony area for the purpose of fast and convenient life, so as to dry clothes in a short time.

The patent publication No. CN208562907U discloses a drying module underneath type connecting mechanism and a clothes drying machine, which comprises a clothes hanger and a drying module, wherein the drying module is suspended below the clothes hanger through a telescopic assembly, and when the telescopic assembly is folded, the drying module leans against the lower side of the clothes hanger through the suction force of a magnet assembly.

In the technical scheme, the telescopic assembly is formed by connecting a plurality of telescopic rods in a shaft mode, and after the telescopic assembly is folded, a plurality of telescopic rods are arranged on the lower side of the clothes hanger in an up-and-down stacking mode, so that the gap between the drying module and the clothes hanger is increased; the cross section of the telescopic rods is usually square or round, and a plurality of sections of telescopic rods are mutually stacked randomly after being folded, so that the height fluctuation of the telescopic assemblies is not smooth enough, and the folding area of the clothes airing machine is not tidy enough.

In view of the defects of the connection structure between the drying module and the clothes hanger in the prior art, the invention provides a new technical scheme to overcome the technical problems.

Disclosure of Invention

The invention aims to solve the technical problem of providing a connection structure between a clothes drying component and a drying module, which has a neat and attractive structure, and further providing a clothes drying assembly and a clothes drying machine with the connection structure.

The technical scheme of the invention is as follows: the connecting structure between the clothes drying component and the drying module is characterized by comprising the clothes drying component and the drying module, wherein the drying module is internally provided with a heating component, the upper surface of the drying module is provided with an air outlet, and a foldable telescopic assembly is arranged between the clothes drying component and the drying module; the middle part of the upper surface of the drying module is provided with a concave accommodating area which extends along the length direction of the drying module, and at least one part of the telescopic assembly is accommodated in the accommodating area in an accommodating state.

The further preferable scheme of the invention is as follows: the drying module comprises a long cylindrical shell provided with air outlet holes, and the accommodating area is arranged on the upper surface of the long cylindrical shell.

The further preferable scheme of the invention is as follows: the two sides of the long cylindrical shell are raised so that the middle part forms the concave containing area.

The further preferable scheme of the invention is as follows: the lower end of the telescopic component is connected to the two end parts of the drying module, and the accommodating area is distributed between the connecting parts of the telescopic component and the drying module.

The further preferable scheme of the invention is as follows: the air outlet comprises a plurality of air outlet grooves which are distributed in parallel and the extending direction of which is consistent with the width of the drying module.

The further preferable scheme of the invention is as follows: the cross section of the concave containing area is of an inverted trapezoidal, rectangular or fan-shaped structure.

The further preferable scheme of the invention is as follows: the height of the folded telescopic assembly is equal to or greater than the depth of the accommodating area.

The further preferable scheme of the invention is as follows: the telescopic assembly comprises two folding rods, the two ends of each folding rod are respectively connected with the drying module and the clothes drying component in a shaft mode, and the folding rods are of at least two-section structures.

Another subject is: the clothes drying assembly is characterized by comprising a connecting structure between a clothes drying component and a drying module.

Another subject is: the clothes airing machine is characterized by comprising a main machine part and a clothes airing assembly, wherein the clothes airing assembly is connected with the main machine part.

Compared with the prior art, the foldable clothes drying device has the advantages that the accommodating area is arranged between the clothes drying component and the drying module, and the telescopic assembly between the clothes drying component and the drying module can be accommodated in the accommodating area between the clothes drying component and the drying module after being folded and accommodated and can shield the telescopic assembly after being folded and accommodated; make the storage area of flexible subassembly more clean and tidy, airing machine's whole is also more pleasing to the eye to improve user's use and experience.

Drawings

The present invention will be described in further detail below with reference to the drawings and preferred embodiments, but those skilled in the art will appreciate that the drawings are only drawn for the purpose of illustrating the background art and explaining the preferred embodiments, and therefore should not be taken as limiting the scope of the present invention. Furthermore, unless specifically stated otherwise, the drawings are merely schematic representations based on conceptual representations of elements or structures depicted and may contain exaggerated displays and are not necessarily drawn to scale.

FIG. 1 is an exploded view of the drying module according to the present invention;

FIG. 2 is a first schematic view of the direction of the airflow in the drying module;

FIG. 3 is a second schematic view of the direction of the airflow in the drying module;

fig. 4 is an exploded view of the heat generating components and the housing in the drying module;

fig. 5 is a side view of a connection structure between the clothes drying part and the drying module;

fig. 6 is a first schematic view of a connection structure between a clothes drying component and a drying module;

fig. 7 is a second schematic view of a connection structure between the clothes drying component and the drying module.

Detailed Description

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. Those skilled in the art will appreciate that the description is illustrative only, and is not to be construed as limiting the scope of the invention.

It should be noted that: like reference numerals refer to like items in the following figures, and thus, once an item is defined in one figure, it may not be further defined and explained in subsequent figures.

In the description of the present invention, it should be noted that the terms "inside", "outside", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings or orientations or positional relationships that the products of the present invention are conventionally placed in use, and are only used for convenience in describing the present invention and simplifying the description, but do not indicate or imply that the devices or elements that are referred to must have a specific orientation, be constructed in a specific orientation, and be operated, and thus should not be construed as limiting the present invention. Furthermore, the terms "first," "second," and the like are used merely to distinguish one description from another, and are not to be construed as indicating or implying relative importance.

The clothes drying machine comprises a clothes drying component 10 and a drying module 20, wherein the drying module 20 is connected with the clothes drying component 10 through a telescopic assembly 30. Wherein for the drying module 20:

the drying module 20 includes a long cylindrical housing 23, a heat generating component 21 and a fan assembly are mounted in the long cylindrical housing 23, and an air outlet 22 and an air inlet 28 are respectively opened on an upper wall 232 and a lower wall 233 of the long cylindrical housing 23. In general, during operation, the fan assembly is activated, and air is sucked from the air inlet 28 of the cylindrical housing 23, heated by the heat generating component 21, and discharged from the air outlet 22 to dry the clothes located above the drying module 20. The heat generated continuously by the heat generating component 21 makes the side wall of the long cylindrical case 23 have a high temperature, and the user may be burned by the side wall of the long cylindrical case 23. Therefore, a technical solution for improving the heat dissipation performance in the drying module 20 is first described in detail.

As for the heat dissipation system of the drying module, as shown in fig. 1 to 3, it includes a housing whose upper wall 232 has an air outlet 22, a heat generating component 21 and a heat dissipation fan 24 in the housing; preferably, there may be two cooling fans 24 distributed at two ends of the housing. An upper airflow cavity 101 is formed between the heating component 21 and the upper wall 232 of the housing, two heat insulation cavities 102 are formed between the heating component 21 and the two side walls of the housing, the heat insulation cavities 102 are communicated with the upper airflow cavity 101, and the heat dissipation fan 24 blows the airflow in the heat insulation cavities 102 into the upper airflow cavity 101. Preferably, the housing on the drying module 20 is a long cylindrical housing 23. Of course, in practice, the skilled person can also use a casing with a cross section in the shape of a sector, an ellipse, a rectangle, etc.

Through the heat dissipation system, the airflow sucked by the heat dissipation fan 24 is simultaneously and intensively guided into the heat insulation cavity 102, and the airflow rushing into the heat insulation cavity 102 can disperse the originally retained airflow in the heat insulation cavity 102, so that the airflow in the heat insulation cavity 102 can be dispersed and dredged and extruded into the upper airflow cavity 101 of the drying module 20, and the airflow flowing into the upper airflow cavity 101 is heated by the heat generating component 21; therefore, airflow in a narrow space of the heat insulation cavity 102 can be evacuated and circulated, the hot airflow in the heat insulation cavity 102 is prevented from being stagnated to scald the shell of the drying module 20, and a user is prevented from being scalded unintentionally; and the heating speed of the drying module 20 can be increased, and the clothes drying efficiency of the clothes drying machine can be improved.

Of course, the following embodiments can be adopted for the internal structure of the drying module 20: the independent drying module 20 comprises a long cylindrical shell 23 and a heating part 21 distributed along the length direction of an inner cavity, wherein air outlet holes 22 are distributed on the upper wall 232 of the long cylindrical shell 23, the heating part 21 comprises a heating body T and a heat conducting part 212, the heat conducting part 212 comprises a hollow part 2121 for accommodating the heating body T and a plurality of radiating fins P with air holes, the radiating fins P are integrally formed with the hollow part 2121, an upper airflow cavity 101 is formed between the radiating fins P and the upper wall 232 of the long cylindrical shell, and a lower airflow cavity 103 is formed between the radiating fins P and the lower wall 233 of the long cylindrical shell 23.

It can be seen that the drying module 20 of the above embodiment eliminates the fan assembly commonly used in conventional drying modules. Simply, by utilizing the upward flowing characteristic of the hot air flow, the air flows in the upper air flow cavity 101 and the lower air flow cavity 103 are heated by the heat generating component 21, and the heated air flows out from the air outlet 22 on the cylindrical shell 23; after the airflows in the lower airflow cavity 103 and the upper airflow cavity 101 are heated and raised, a negative pressure environment is formed with the space outside the long cylindrical shell 23, so that the external airflow is sucked from the air inlet hole 28 to be supplemented into the lower airflow cavity 103 and the upper airflow cavity 101 under the action of the negative pressure; namely, the airflow is heated to have the upward flowing characteristic so as to drive the airflow to circulate inside and outside the long cylindrical shell 23. Thereby reducing the parts of the drying module 20 and making the whole structure more concise; meanwhile, the defect that the fan generates noise when working is overcome; in addition, the temperature generated by the heat generating component 21 arranged beside the fan is prevented from influencing the performance of the motor on the fan.

Preferably, a lower airflow cavity 103 is formed between the heat generating component 21 and the lower wall 233 of the elongated cylindrical housing 23, the insulating cavity 102 communicates with the lower airflow cavity 103, and the heat dissipation fan 24 blows the airflow in the insulating cavity 102 into the lower airflow cavity 103.

It should be noted that the upper airflow cavity 101 and the lower airflow cavity 103 are drying areas of the heat generating component 21. In the upper airflow cavity 101 or the lower airflow cavity 103, the airflow flowing from the heat insulating cavity 102 is heated by the heat generating component 21.

The heat generating component 21 is provided with a heat insulating plate 25 at a side thereof, and a heat insulating chamber 102 is formed between the heat insulating plate 25 and the side wall 231 of the elongated cylindrical casing 23. The air flow in the heat insulation cavity 102 is timely communicated to the upper air flow cavity 101 and the lower air flow cavity 103, so that the part to be heated 21 heats the inflowing air flow. The cold air outside the long cylindrical shell 23 can be continuously supplemented into the heat insulation cavity 102, so that the air temperature of the heat insulation cavity 102 is low, the outer wall of the long cylindrical shell 23 is prevented from being scalded, and the user can be prevented from being scalded accidentally.

The heat radiation fan 24 is mounted on the end of the long cylindrical case 23, and an air guide member 26 is provided in the case inside the heat radiation fan 24, and the air guide member 26 guides the air flow introduced by the heat radiation fan 24 into the heat insulation chamber 102 simultaneously and intensively.

The heat shield 25 is spaced from the upper wall 232 of the elongated tubular housing 23 to form an upper airflow inlet F1 which communicates the heat shield chamber 102 with the upper airflow cavity 101.

The heat shield 25 is spaced from the lower wall 233 of the elongated tubular housing 23 to form a lower airflow inlet F2 which communicates the heat shield chamber 102 with the lower airflow cavity 103.

When the drying module is started, the heat dissipation fan 24 concentrates and sucks the airflow outside the long cylindrical shell 23 into the heat insulation cavity 102, and the inflow of a large amount of airflow can evacuate and dredge the airflow which is originally retained in the heat insulation cavity 102, so that the airflow flows into the upper airflow cavity 101 and the lower airflow cavity 103 through the upper airflow inlet F1 and the lower airflow inlet F2 respectively, and the inflow airflow is heated by the heat generating component 21; thereby accelerating the airflow flow in the drying module 20, improving the drying efficiency of the drying module 20, and improving the heat dissipation performance in the drying module 20.

More specifically, in actual operation, a drying region is formed between the heat generating component 21 and the upper wall 232 of the elongated cylindrical housing 23 and between the heat generating component 21 and the lower wall 233 of the elongated cylindrical housing 23 to heat the airflow flowing in from the heat insulating chamber 102.

More specifically, the heat generating member 21 includes a heat generating body T and a heat conductive member 212, and the heat conductive member 212 includes a hollow portion 2121 accommodating the heat generating body T and a plurality of radiating fins P with ventilation holes integrally formed with the hollow portion 2121.

Preferably, the heat generating components 21 are distributed along the length of the inner cavity of the elongated cylindrical housing 23.

The heat radiating fins P include a first heat radiating fin P1 and a second heat radiating fin P2 which are symmetrical to the hollow part 2121 and are inclined upward, and an upper airflow cavity 101 is formed between the first heat radiating fin P1, the second heat radiating fin P2 and the upper wall 232; the heat radiating fins P further include a third heat radiating fin P3 and a fourth heat radiating fin P4 which are symmetrical to the hollow part 2121 and inclined downward, and a lower airflow cavity 103 is formed between the third heat radiating fin P3 and the fourth heat radiating fin P4.

More specifically, as shown in fig. 1 to 3, a first insulating chamber 1021 and a second insulating chamber 1022 are provided on both sides of the heat generating component 21 in the inner cavity of the elongated cylindrical housing 23.

The heat conducting member 212 is provided with a first heat insulating plate 251 and a second heat insulating plate 252 on both sides thereof, the first heat insulating plate 251 and the first side wall 2311 of the elongated cylindrical housing 23 form a first heat insulating chamber 1021, and the second heat insulating plate 252 and the second side wall 2312 of the elongated cylindrical housing 23 form the second heat insulating chamber 1022.

The first heat insulating plate 251 is fixed to free ends of the first and third fins P1 and P3, and the second heat insulating plate 252 is fixed to free ends of the second and fourth fins P2 and P4.

The heat insulation cavity 102 is communicated with the upper airflow cavity 101 and the lower airflow cavity 103, and the heat dissipation fan 24 introduces external airflow to blow hot airflow in the heat insulation cavity 102 into the upper airflow cavity 101 and the lower airflow cavity 103.

The inner sides of the heat dissipation fans 24 at the two ends of the long cylindrical shell 23 are respectively provided with an air guide part 26, and the air guide parts 26 guide the air flow generated by the heat dissipation fans 24 into the first heat insulation cavity 1021 and the second heat insulation cavity 1022, so that the hot air in the heat insulation cavity 102 is blown into the upper air flow cavity 101 and the lower air flow cavity 103.

Preferably, the heating body T is a heating wire or a PTC heating module, and the heat conductive member 212 is made of aluminum alloy.

The clothes drying machine comprises a clothes drying component 10 and a drying module 20, wherein the drying module 20 is connected with the clothes drying component 10 through a telescopic assembly 30. Wherein for the connection structure between the clothes drying component and the drying module:

as shown in fig. 5 to 7, the connection structure 100 between the clothes drying component and the drying module includes a clothes drying component 10 and a drying module 20 with a heat generating component 21 inside and an air outlet 22 on the upper surface, and a foldable telescopic assembly 30 is disposed between the clothes drying component 10 and the drying module 20; the middle part of the upper surface of the drying module 20 is provided with a concave accommodating area 40 extending along the length direction of the drying module 20, and at least a part of the telescopic assembly 30 is accommodated in the accommodating area 40 in the accommodating state. That is, the receiving area 40 can cover the telescopic assembly 30 which is not flat enough after being folded.

An accommodating area 40 is arranged between the clothes drying component 10 and the drying module 20, and the telescopic assembly 30 between the clothes drying component 10 and the drying module 20 can be accommodated in the accommodating area 40 between the clothes drying component 10 and the drying module 20 after being folded and accommodated and can shield the telescopic assembly 30 after being folded and accommodated; make the storage area of telescopic component 30 more clean and tidy, airing machine's whole also is more pleasing to the eye to improve user's use experience.

The drying module 20 includes a long cylindrical housing 23 having air outlets 22 distributed thereon, and the accommodating area 40 is disposed on an upper surface of the long cylindrical housing 23. When the drying module 20 is to be stored upwards, the drying module 20 is gradually lifted upwards, and then the telescopic assembly 30 is gradually folded until the telescopic assembly 30 is completely folded and stored in the containing area 40, and meanwhile, the drying module 20 is completely abutted against and stored on the lower side surface of the clothes drying component 10. Thereby reduce and accomodate the back, the clearance between clothing part and the stoving module dries in the air. The whole appearance of the clothes airing machine is more neat and attractive.

Both sides of the elongated cylindrical housing 23 are protruded to form a recessed receiving area 40 at the middle portion. The two sides of the long cylindrical housing 23 are distributed with protruding parts f along the length direction thereof, and the protruding parts f at the two sides and the middle part are recessed to form an accommodating area 40, so that the telescopic assembly 30 can be accommodated in the accommodating area 40.

The lower ends of the telescopic assemblies 30 are connected to the two end portions of the drying module 20, and the accommodating areas 40 are distributed in the area between the connecting portions of the telescopic assemblies 30 in the drying module 20. Specifically, the telescopic assemblies 30 are fixedly connected to both ends, an end a and an end b, of the drying module 20, and the accommodating regions 40 are distributed between the end a and the end b.

The air outlet 22 includes a plurality of air outlet grooves H distributed in parallel and having an extending direction consistent with the width of the drying module 20.

The recessed receiving area 40 has an inverted trapezoidal, rectangular or fan-shaped cross-section.

The height of the folded telescopic assembly 30 is equal to or greater than the depth of the receiving area 40. So that the telescopic assembly 30 can be completely accommodated in the accommodating area 40, and the overall appearance of the clothes airing machine is tidier.

The telescopic assembly 30 includes a folding rod 31 with two ends respectively connected to the drying module 20 and the clothes drying component 10, and the folding rod 31 is at least two-segment structure.

Preferably, the telescopic assembly 30 is formed by two folding rods 31 which are connected by an axle, and when the telescopic assembly 30 needs to be stored and folded, the joint between the two folding rods 31 rotates mutually, so that the two folding rods 31 can be folded mutually. Specifically, the drying module 20 is lifted upwards, and the connection between the folding rod 31 and the drying module 20 and the clothes drying component 10 also rotates, so that the folding rod 31 can be folded, and simultaneously, the drying module 20 and the clothes drying component 10 can be drawn together and stored.

The material of the elongated tubular case 23 is aluminum alloy. The overall weight of the drying module 20 is lighter, and the appearance is cleaner and more beautiful. Preferably, the clothes drying assembly 10 and the telescopic assembly 30 may also be made of an aluminum alloy material.

Preferably, the clothes drying component 10 includes a clothes drying rod 11, a hanging plate Y is fixed on the lower side of the clothes drying rod 11, and a clothes drying hole 12 for hanging clothes is opened on the hanging plate Y. Of course, the clothes-horse 11 can adopt a telescopic structure, and when more clothes need to be hung, the clothes-horse can transversely extend out to increase the length of the clothes-horse 11.

Preferably, the clothes drying assembly comprises a connecting structure between the clothes drying component and the drying module. It should be mentioned that, in practical use, a magnet assembly is disposed between the clothes drying component 10 and the drying module 20. The drying module 20 is suspended below the clothes drying component 10 through the telescopic assembly 30, and the drying module 20 blows hot air upwards to dry clothes suspended on the clothes drying component 10; when the clothes do not need to be dried, the drying module 20 is lifted upwards by force, the telescopic assembly 30 is accommodated in the accommodating area 40 after being folded, and meanwhile, the drying module 20 is attracted to the lower side of the clothes drying component 10 through the magnet assembly, so that the gap between the clothes drying component 10 and the drying module 20 is reduced.

More preferably, the clothes drying machine comprises a main machine part 50 and a clothes drying assembly connected with the main machine part 50. In the actual operation process, the power supply of the drying module 20 is taken from the main machine part 50, the power plug 60 of the drying module 20 is installed on the clothes drying part 10, and the power line of the drying module 20 is inserted into the telescopic assembly 30 and connected with the power plug 60 installed on the clothes drying part 10. When the power plug 60 installed on the clothes drying component 10 is plugged into a power socket on the main machine component 50, the drying module 20 can take power from the main machine component 50. And the power cord is worn to be arranged inside the telescopic assembly 30, so that the layout of the power cord is tidier, and the mutual abrasion or breakage caused by the mutual winding of the power cord can be prevented.

In the description of the present invention, it should also be noted that, unless otherwise explicitly specified or limited, the terms "disposed" and "connected" are to be interpreted broadly, e.g., as being either fixedly connected, detachably connected, or integrally 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 in specific cases to those skilled in the art.

The connection structure between the clothes drying component and the drying module, the clothes drying assembly and the clothes drying machine provided by the invention are described in detail, specific examples are applied in the description to explain the principle and the implementation mode of the invention, and the description of the embodiments is only used for helping to understand the invention and the core idea. It should be noted that, for those skilled in the art, it is possible to make various improvements and modifications to the present invention without departing from the principle of the present invention, and those improvements and modifications also fall within the scope of the claims of the present invention.

Claims (10)

1. The connecting structure between the clothes drying component and the drying module is characterized by comprising the clothes drying component and the drying module, wherein the drying module is internally provided with a heating component, the upper surface of the drying module is provided with an air outlet, and a foldable telescopic assembly is arranged between the clothes drying component and the drying module; the middle part of the upper surface of the drying module is provided with a concave accommodating area which extends along the length direction of the drying module, and at least one part of the telescopic assembly is accommodated in the accommodating area in an accommodating state.

2. The connection structure between a clothes drying component and a drying module according to claim 1, characterized in that the drying module comprises a long cylindrical shell provided with air outlets, and the accommodating area is arranged on the upper surface of the long cylindrical shell.

3. A connection structure between a clothes drying component and a drying module according to claim 2, wherein two sides of the long cylindrical housing are raised so that the middle part forms the concave accommodating area.

4. The connecting structure between a clothes drying component and a drying module according to claim 1, wherein the lower ends of the telescopic assemblies are connected to two end portions of the drying module, and the accommodating areas are distributed in the areas of the telescopic assemblies between the connecting portions of the drying module.

5. The connecting structure between a clothes drying component and a drying module according to claim 1, wherein the air outlet comprises a plurality of air outlet grooves which are distributed in parallel and have the same extending direction with the width of the drying module.

6. The connecting structure between a clothes drying component and a drying module according to claim 1, wherein the cross section of the concave accommodating area is in an inverted trapezoidal, rectangular or fan-shaped structure.

7. The structure of claim 1, wherein the height of the folded telescopic assembly is equal to or greater than the depth of the accommodating area.

8. The structure of claim 1, wherein the telescoping assembly comprises a folding bar having two ends pivotally connected to the drying module and the clothes drying component, and the folding bar has an at least two-segment structure.

9. A clothes drying assembly, characterised by comprising a connection between a clothes drying element according to any one of claims 1 to 8 and a drying module.

10. A clothes drying machine comprising a main machine component and a clothes drying assembly according to claim 9, wherein the clothes drying assembly is connected with the main machine component.

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