CN117822278A - Cabinet assembly of clothes care equipment and clothes care equipment - Google Patents

Abstract

The invention discloses a box assembly of clothes care equipment and the clothes care equipment. The cabinet assembly of the laundry care apparatus includes: a housing; the inner container is arranged in the shell and defines a nursing cavity; wherein, the box subassembly has ventilation portion, ventilation portion sets up in order to nursing intracavity the nursing chamber is ventilated and ventilation portion is followed the direction of height in nursing chamber extends. According to the box body component of the clothes care equipment, the ventilation part extending along the height direction of the care cavity is arranged in the care cavity, so that the air inlet flow and/or the air outlet flow distributed in the height direction of the care cavity can be formed, the distribution area of the ventilation part is increased, the air flow dead angle in the local area of the care cavity can be prevented, the ventilation effect of the care cavity is ensured, the care effect is more uniform, and the use experience of the clothes care equipment is improved.

Description

Cabinet assembly of clothes care equipment and clothes care equipment

Technical Field

The invention relates to the technical field of nursing equipment, in particular to a box assembly of clothes nursing equipment and the clothes nursing equipment.

Background

With the improvement of life quality of people, the requirements on clothes care are continuously improved, the clothes care equipment is widely used in daily life, and the clothes care equipment can realize one or more functions of dust removal, ironing, wrinkle removal and sterilization on clothes.

Most of the clothes care equipment adopts a heat pump system arranged in a mechanical room to dehumidify and heat air from a care cavity, and the treated air is discharged back to the cabinet body of the clothes care equipment through an air port communicated with the care cavity under the action of a fan to care clothes. However, the existing nursing cavity has airflow dead angles, so that the ventilation effect of the nursing cavity is poor, the nursing effect is uneven, and the nursing effect is poor.

Disclosure of Invention

The present invention aims to solve at least one of the technical problems existing in the prior art. Therefore, an object of the present invention is to provide a cabinet assembly of a laundry care apparatus, which can realize an air inlet and/or outlet form extending in a height direction of a care cavity, which is advantageous for improving a use effect of the laundry care apparatus.

The invention also provides the clothes care equipment with the box body assembly of the clothes care equipment.

A cabinet assembly of a laundry care appliance according to an embodiment of the first aspect of the present invention includes: a housing; the inner container is arranged in the shell and defines a nursing cavity; wherein, the box subassembly has ventilation portion, ventilation portion sets up in order to nursing intracavity the nursing chamber is ventilated and ventilation portion is followed the direction of height in nursing chamber extends.

According to the box body component of the clothes care equipment, the ventilation part extending along the height direction of the care cavity is arranged in the care cavity, so that the air inlet flow and/or the air outlet flow distributed in the height direction of the care cavity can be formed, the distribution area of the ventilation part is increased, the air flow dead angle in the local area of the care cavity can be prevented, the ventilation effect of the care cavity is ensured, the care effect is more uniform, and the use experience of the clothes care equipment is improved.

According to some embodiments of the invention, the case assembly further comprises: the wind shielding piece is arranged in the inner container and is communicated with the nursing cavity through a plurality of ventilation parts, and at least two ventilation parts are distributed on two sides of the wind shielding piece in the width direction.

According to some embodiments of the invention, the wind shield comprises: the wind shield and the side wall of the liner define the ventilation cavity; the two vertical rods are arranged in the inner container and are arranged at intervals in the width direction of the wind deflector, the wind deflector is connected with the two vertical rods, and the ventilation part is arranged on the vertical rods and/or the wind deflector.

In some embodiments, the vertical rod is connected to the wind deflector in a clamping manner.

In some embodiments, the wind deflector comprises: the panel covers the side wall of the inner container and is arranged at a distance from the side wall of the inner container; the two side plates are connected with two sides of the panel in the width direction, at least two ventilation parts are distributed on the two side plates, the vertical rods are provided with connecting parts, and the side plates are provided with matching parts matched with the connecting parts.

In some examples, each of the ventilation portions includes an elongated vent extending along a length of the side panel; alternatively, each of the ventilation parts includes a plurality of ventilation openings and the ventilation openings are arranged at intervals along the length direction of the side plate.

In some examples, each of the side plates includes a first plate portion and a second plate portion arranged in a thickness direction of the panel, the first plate portion being connected between the panel and the second plate portion; the first plate portion and the second plate portion are respectively arranged obliquely in opposite directions relative to the panel, and the ventilation portion is arranged on the first plate portion and/or the second plate portion.

In some examples, the connecting portion forms a first hook, and the mating portion forms a clamping hole that is in clamping engagement with the first hook; or the matching part forms a second clamping hook which is in dislocation clamping connection with the first clamping hook.

In some examples, a slot is defined between the connecting portion and the vertical rod, and the side plate is inserted into the slot to be engaged with the connecting portion by the engaging portion.

In some examples, the vertical bar comprises: the first support plate and the second support plate are respectively in stop fit with two side walls of the inner container, which are adjacently arranged, and the second support plate is positioned between the panel and the side walls of the inner container; the connecting plate is connected between the first supporting plate and the second supporting plate, a mounting concave portion is defined between the first supporting plate, the connecting plate and the second supporting plate, and the side plate is inserted into the mounting concave portion to be matched with the connecting portion.

In some specific examples, the second support plate has a relief port to allow the vent to communicate the care cavity and the vent cavity.

In some specific examples, a side of the first support plate facing the side plate has an air guiding surface extending from inside the mounting recess to outside the mounting recess in a direction away from the second support plate.

According to a further embodiment of the invention, the wind shield further comprises: the two ends of the cross rod are respectively connected with the two vertical rods.

According to a further embodiment of the invention, the ventilation cavity comprises a first ventilation cavity, a second ventilation cavity located above the first ventilation cavity, the ventilation part comprises a first ventilation part, a second ventilation part located above the first ventilation part; at least two first ventilation portions are distributed on two sides of the wind shielding piece in the width direction and are communicated with the first ventilation cavity and the nursing cavity, and at least two second ventilation portions are distributed on two sides of the wind shielding piece in the width direction and are communicated with the second ventilation cavity and the nursing cavity.

According to some embodiments of the invention, the first ventilation portion forms a lower air intake portion and the second ventilation portion forms an upper air outlet portion; the nursing cavity is further provided with a lower air outlet portion and an upper air inlet portion, the lower air outlet portion is located in front of the lower air inlet portion and is communicated with the first ventilation cavity and the nursing cavity, and the upper air inlet portion is located in front of the upper air outlet portion and is communicated with the second ventilation cavity and the nursing cavity.

A laundry care appliance according to an embodiment of the second aspect of the present invention comprises a cabinet assembly of the laundry care appliance according to the above-described embodiment.

Additional aspects and advantages of the invention will be set forth in part in the description which follows, and in part will be obvious from the description, or may be learned by practice of the invention.

Drawings

The foregoing and/or additional aspects and advantages of the invention will become apparent and may be better understood from the following description of embodiments taken in conjunction with the accompanying drawings in which:

fig. 1 is a schematic structural view of a liner of a laundry care apparatus according to an embodiment of the present invention;

FIG. 2 is a cross-sectional view of the liner shown in FIG. 1;

fig. 3 is an enlarged view of the portion a shown in fig. 2;

fig. 4 is a structural exploded view of a wind shielding member of the laundry care apparatus according to an embodiment of the present invention;

fig. 5 is an enlarged view of the portion B shown in fig. 4;

fig. 6 is a schematic structural view of a wind deflector of a laundry care device according to an embodiment of the present invention;

FIG. 7 is a cross-sectional view of the wind deflector shown in FIG. 6;

fig. 8 is an enlarged view of the portion C shown in fig. 7;

fig. 9 is a schematic structural view of a liner and drying tunnel assembly, a compressor, etc. of a laundry care appliance according to another embodiment of the present invention;

FIG. 10 is a cross-sectional view of the structure shown in FIG. 9;

fig. 11 is an enlarged view of the portion D shown in fig. 10;

FIG. 12 is a schematic view of the structure of the snap-fit structure shown in FIG. 10;

Fig. 13 is a schematic structural view of a laundry care apparatus according to an embodiment of the present invention;

fig. 14 is a cross-sectional view of the laundry care apparatus shown in fig. 13;

fig. 15 is a partial enlarged view of the laundry care apparatus shown in fig. 14;

FIG. 16 is another enlarged partial view of the garment care apparatus depicted in FIG. 14;

fig. 17 is a sectional view of a laundry care apparatus according to an embodiment of the present invention;

FIG. 18 is a schematic installation view of a second fan of the laundry care appliance according to an embodiment of the present invention;

fig. 19 is a schematic view of a structure of a second fan of the laundry care apparatus according to an embodiment of the present invention at one view angle;

fig. 20 is a schematic structural view of a second fan of the laundry care apparatus according to an embodiment of the present invention at another view angle.

Reference numerals:

the laundry care appliance 1,

the box assembly 10, the third air inlet part 101, the second air inlet part 102, the third air outlet part 103, the second air outlet part 104, the nursing cavity 105, the holding cavity 106, the air outlet 107,

the box body 11, the outer shell 111, the inner container 112, the installation cavity 1120, the wind shielding member 113, the first ventilation cavity 11301, the second ventilation cavity 11302, the vertical rod 1131, the first support plate 11311, the wind guiding surface 11312, the second support plate 11313, the avoiding opening 11314, the connecting plate 11315, the first clamping hook 11316, the slot 11317, the cross rod 1132, the wind shielding plate 1133, the panel 11331, the side plate 11332, the first plate portion 11333, the second plate portion 11334, the clamping hole 11336, the clamping matching portion 11337, the clamping structure 114, the first clamping member 1141, the second clamping member 1142, the clamping portion 11421, the fixing column 11422, the fixing arm 11423, the connecting column 11424, the connecting member 1143, the positioning portion 11431, the reinforcing rib 1144, the first ventilation portion 1145, the first ventilation opening 11451, the second ventilation portion 1146, the second ventilation opening 11461,

A second fan 20, a fan inlet 201, a fan outlet 202,

the motor 21, the fan housing 22, the first connection hole 221, the wind wheel 23,

the air conditioner comprises a ventilation shell 30, a channel 301, a main body part 3011, a branch part 3012, a second connecting hole 302, a separation rib 31, a drying tunnel assembly 40, an air duct 401, an air return opening 4011, an air supply opening 4012, an evaporator 41, a condenser 42, a first fan 43, a compressor 50 and a steam generator 60.

Detailed Description

Embodiments of the present invention are described in detail below, examples of which are illustrated in the accompanying drawings, wherein like or similar reference numerals refer to like or similar elements or elements having like or similar functions throughout. The embodiments described below by referring to the drawings are illustrative only and are not to be construed as limiting the invention.

A cabinet assembly 10 of a laundry care appliance according to an embodiment of the present invention is described below with reference to fig. 1 to 20.

As shown in fig. 1-4 and 9-10, the case assembly 10 of the laundry care apparatus according to the embodiment of the present invention includes a housing 111 and a liner 112, the liner 112 is disposed in the housing 111, and the liner 112 defines a care cavity 105.

In order to secure the insulation performance of the case assembly 10, a foaming layer may be provided between the outer case 111 and the inner case 112. Of course, other insulating materials may be disposed therebetween.

Wherein the housing assembly 10 has a ventilation portion provided in the nursing chamber 105, the ventilation portion being capable of ventilating the nursing chamber 105, the ventilation portion extending in a height direction of the nursing chamber 105.

According to the box body assembly 10 of the clothes care equipment provided by the embodiment of the invention, the ventilation part extending along the height direction of the care cavity 105 is arranged in the care cavity 105, so that the air inlet flow and/or the air outlet flow distributed in the height direction of the care cavity 105 can be formed, the distribution area of the ventilation part is increased, the air flow dead angle in the local area of the care cavity 105 can be prevented, the ventilation effect of the care cavity 105 is ensured, the care effect is more uniform, and the use experience of the clothes care equipment 1 is improved.

According to some embodiments of the present invention, the case assembly 10 further includes a wind shielding member 113, the wind shielding member 113 is disposed in the inner container 112, a ventilation cavity is defined between the wind shielding member 113 and a sidewall of the inner container 112, the ventilation cavity is communicated with the care cavity 105 through a plurality of ventilation parts, and at least two ventilation parts are distributed on both sides of the wind shielding member 113 in a width direction (a left-right direction as shown in fig. 2 and 9).

From this, through setting up the piece 113 in the lateral wall department of liner 112 to set up ventilation portion in the both sides of the width direction of piece 113 that keeps out the wind, ventilation chamber can be defined to the simple structure that utilizes, thereby can utilize ventilation portion intercommunication ventilation chamber and nursing chamber 105, realize the air inlet and/or the air-out form in the both sides of the width direction of piece 113 that keeps out the wind, can prevent that the local region in nursing chamber 105 from having the air current dead angle, guaranteed the ventilation effect in nursing chamber 105, thereby make the nursing effect more even, promote the use experience of clothing nursing equipment 1.

For example, the structure is used in combination with an electric heating element, a heat pump system and the like, and can dehumidify and heat air, so that uniformity of drying effect on clothes can be ensured; the above structure is used in combination with, for example, a filtering device, a sterilizing device, a steam generator 60, etc., and can ensure uniformity of dust removing, sterilizing, wrinkle removing effects on laundry.

As shown in fig. 2-4, according to some embodiments of the present invention, the wind shielding member 113 includes two vertical rods 1131 and a wind shielding plate 1133, the two vertical rods 1131 are disposed in the inner container 112, the two vertical rods 1131 are spaced apart in the width direction of the wind shielding plate 1133, the wind shielding plate 1133 is connected with the two vertical rods 1131, and a ventilation cavity is defined between the wind shielding plate 1133 and the side wall of the inner container 112. Wherein, a plurality of ventilation parts are respectively arranged on the two vertical rods 1131 only.

In some embodiments, each vent includes an elongated vent extending in the height direction of the care cavity 105. In other embodiments, each vent includes a plurality of vents spaced apart along the height of the care cavity 105.

For example, in embodiments where the vent portion includes a plurality of vents, the plurality of vents on each of the vertical bars 1131 are spaced apart in the length and/or width direction of the vertical bars 1131. Of course, the plurality of ventilation openings may be provided only on both sides of the wind shield 1133 in the width direction, and the plurality of ventilation openings may be provided between the vertical rod 1131 and the wind shield 1133, that is, the plurality of ventilation openings may be defined between the vertical rod 1131 and the wind shield 1133.

Therefore, the wind shielding member 113 is arranged to comprise the two vertical rods 1131 and the wind shielding plate 1133, and the ventilation cavity can be defined by the simple structure, so that the ventilation cavity can be used for communicating with the nursing cavity 105, and air in the nursing cavity 105 circularly flows under the action of the power part, thereby being beneficial to improving the nursing effect of the clothes nursing equipment 1.

In some embodiments, the vertical rod 1131 is connected to the wind shield 1133 in a clamping manner, so that the structure is simple, the assembly and the disassembly are easy, and the connection procedure is simple and reliable.

As shown in fig. 7 and 8, in some embodiments, the wind guard 1133 includes a panel 11331 and two side plates 11332, the panel 11331 covers the sidewall of the liner 112, and the panel 11331 is spaced from the sidewall of the liner 112, the two side plates 11332 are connected to two sides of the panel 11331 in the width direction, and at least two ventilation parts are distributed on the two side plates 11332.

For example, in embodiments where the vent portion includes a plurality of vents, a plurality of vents may be provided on each side plate 11332, and the plurality of vents on each side plate 11332 may be spaced apart in the length and/or width direction of the side plate 11332.

From this, through setting up deep bead 1133 to including panel 11331 and two curb plates 11332, on the basis that does not influence formation ventilation chamber, can also provide mounted position for the ventilation portion to do benefit to the both sides air inlet and/or the air-out form that realize deep bead 1133's width direction, can prevent that the local region in nursing chamber 105 from having the air current dead angle, guaranteed the ventilation effect in nursing chamber 105, thereby make the nursing effect more even, promote the use experience of clothing nursing equipment 1.

According to some alternative embodiments of the invention, each vent includes an elongated vent with a length extending along a length of side panel 11332.

Specifically, during operation of the clothes care device 1, the air curtains extending along the up-down direction can be formed at two sides of the care cavity 105 respectively, so that not only can the ventilation quantity in unit time be increased, but also the ventilation force can be increased, thereby ensuring the ventilation effect of the care cavity 105, further ensuring more uniform care effect and improving the use experience of the clothes care device 1.

As shown in fig. 2 and 3, according to other alternative embodiments of the present invention, each vent includes a plurality of vents spaced apart along the length of side panel 11332.

From this, through setting up ventilation portion to including a plurality of vents, not only can increase the ventilation volume in the unit time, can carry out independent design to the structural shape and the size of a plurality of vents as required moreover, do benefit to the realization personalized design, satisfy ventilation demand.

For example, the ventilation openings can be arranged into round holes, square holes and rectangular holes, and the distribution density of the ventilation openings can be set according to the height positions, so that ventilation requirements are met.

As shown in fig. 8, in some examples, each side plate 11332 includes a first plate portion 11333 and a second plate portion 11334, the first plate portion 11333 and the second plate portion 11334 being arranged in a thickness direction of the panel 11331, a length direction of the first plate portion 11333 and a length direction of the second plate portion 11334 each extending along the length direction of the panel 11331, the first plate portion 11333 being connected between the second plate portion 11334 and a side portion of the panel 11331.

Wherein, the first plate portion 11333 and the second plate portion 11334 are obliquely arranged relative to the panel 11331, and the inclination directions of the first plate portion 11333 and the second plate portion 11334 relative to the panel 11331 are opposite, and the ventilation portion is arranged on the first plate portion 11333 and/or the second plate portion 11334.

In an embodiment in which the ventilation portion includes a plurality of ventilation openings, the first plate portion 11333 is provided with a plurality of ventilation openings spaced apart along its length, and the second plate portion 11334 is provided with a plurality of ventilation openings spaced apart along its length.

Thus, by disposing the side plate 11332 as structured above, not only the number of ventilation openings per unit area can be increased to further increase the ventilation amount, but also the user can grasp, thereby facilitating assembly and disassembly.

As shown in fig. 2 and 3, in some examples, the vertical rods 1131 are provided with a connecting portion, and the side plates 11332 are provided with a mating portion, and the connecting portion mates with the connecting portion, so that the two vertical rods 1131 can be connected with the wind deflector 1133. Each vertical rod 1131 and the inner container 112 may be connected by a plurality of fasteners, so as to ensure connection reliability of the vertical rods 1131 and the inner container 112, and further stably fix the wind shielding member 113 in the inner container 112.

In some examples, the connection portion forms a first catch 11316, the mating portion forms a snap hole 11336, and the snap hole 11336 is snap-fitted with the first catch 11316. Specifically, the first hooks 11316 and the clamping holes 11336 may include a plurality of first hooks 11316 and a plurality of clamping holes 11336, which are in one-to-one corresponding and clamping fit, so as to further ensure connection reliability of the side plate 11332 and the wind guard 1133.

In other examples, the connection portion forms a first hook 11316, and the mating portion forms a second hook that is in a misaligned engagement with the first hook 11316. Specifically, the first hooks 11316 and the second hooks may include a plurality of first hooks 11316 and a plurality of second hooks, which are in a one-to-one staggered and clamped fit, so as to further ensure connection reliability of the side plate 11332 and the wind guard 1133.

In some examples, a slot 11317 is defined between the connection and the stem 1131, and the side plate 11332 is inserted into the slot 11317 to mate with the connection via the mating portion. That is, when the mating portion on the side plate 11332 is mated with the connecting portion, the side plate 11332 needs to be inserted between the connecting portion and the vertical rod 1131, so as to limit the position of the side plate 11332, and then the vertical rod 1131 performs double limiting on the side plate 11332 through the mating portion and the connecting portion, so as to further ensure the connection reliability of the vertical rod 1131 and the side plate 11332.

As shown in fig. 3 and 5, in some examples, the vertical rod 1131 includes a first support plate 11311, a second support plate 11313, and a connection plate 11315, where the first support plate 11311 and the second support plate 11313 are respectively in stop fit with two side walls of the inner container 112 that are adjacently disposed, the second support plate 11313 is disposed between the panel 11331 and the side walls of the inner container 112, the connection plate 11315 is connected between the first support plate 11311 and the second support plate 11313, and a mounting recess is defined between the first support plate 11311, the connection plate 11315, and the second support plate 11313, and the side plate 11332 is inserted into the mounting recess, so that the side plate 11332 can be matched with the connection portion.

Specifically, the connecting portion may be disposed on a side of the connecting plate 11315 facing away from the bottom wall of the liner 112, and gaps are respectively formed between the connecting portion and the first support portion and between the connecting portion and the second support plate 11313, the connecting portion forms a first hook 11316, and the hook head of the first hook 11316 is disposed towards the second support plate 11313, the mating portion forms a fastening hole 11336 disposed on the side plate 11332 of the wind shield 1133, and the side plate 11332 of the wind shield 1133 is inserted between the first hook 11316 and the second support plate 11313 and is fastened and mated with the first hook 11316, so as to ensure connection reliability of the wind shield 1133 and the vertical rod 1131.

In order to further secure the connection reliability of the wind guard 1133 and the vertical rod 1131, the connection part and the mating part may include a plurality of connection parts and a plurality of mating parts, respectively, which are mated in a one-to-one correspondence. In an embodiment in which the connection portion forms the first hooks 11316 and the mating portion forms the clamping holes 11336, the plurality of first hooks 11316 are spaced apart in the length direction of the connection plate 11315, and the plurality of clamping holes 11336 are spaced apart in the length direction of the second support plate 11313.

As shown in fig. 5, in some specific examples, the second support plate 11313 has relief ports 11314, 11314 can form relief to the vent, allowing the vent to communicate with the care lumen 105 and the vent lumen.

In an embodiment in which the ventilation portion includes a plurality of ventilation openings, the avoiding openings 11314 on the second support plate 11313 may be opposite to the ventilation openings, or may be staggered, so as to avoid the ventilation openings, and on the basis of ensuring the connection reliability of the vertical rods 1131 and the wind shields 1133, the ventilation openings may be communicated with the nursing cavity 105 and the ventilation cavity.

In some specific examples, a side of the first support plate 11311 facing the side plate 11332 has an air guiding surface 11312, the air guiding surface 11312 extending from inside the mounting recess to outside the mounting recess in a direction away from the second support plate 11313. Wherein, the wind guiding surface 11312 may form an inclined surface or an arc surface.

Thus, by providing the air guiding surface 11312 on the side of the first support plate 11311 facing the side plate 11332, the air guiding effect can be achieved, and the air discharged from the ventilation chamber can smoothly enter the nursing chamber 105 from the ventilation part; alternatively, the air in the nursing chamber 105 can be smoothly introduced into the ventilation chamber from the ventilation portion.

As shown in fig. 4, according to a further embodiment of the present invention, the wind shielding member 113 further includes a cross bar 1132, and both ends of the cross bar 1132 are connected to two vertical bars 1131, respectively. By providing the cross bar 1132, two vertical bars 1131 may be connected together by the cross bar 1132, thereby ensuring the structural strength of the wind shielding member 113.

Wherein, two ends of the cross bar 1132 are respectively connected with the middle parts of the two vertical bars 1131, and the middle part of the vertical bar 1131 refers to a position between the upper end and the lower end of the vertical bar 1131; of course, the connection position of the cross bar 1132 and the vertical bar is not limited to the above position.

It should be noted that, in the actual working process, the flow path of the air flow is relatively complex, and for the care cavity 105, the plurality of ventilation portions may be used as an air inlet or an air outlet, and of course, it is also possible that a part of ventilation portions are air inlets and another part of ventilation portions are air outlets.

As shown in fig. 9 and 10, according to some embodiments of the present invention, the ventilation cavity includes a first ventilation cavity 11301 and a second ventilation cavity 11302, the second ventilation cavity 11302 is located above the first ventilation cavity 11301, the ventilation part includes a first ventilation part 1145 and a second ventilation part 1146, the second ventilation part 1146 is located above the first ventilation part 1145, at least two first ventilation parts 1145 are distributed at both sides of the wind shielding member 113 in the width direction, the first ventilation parts 1145 communicate with the first ventilation cavity and the care cavity 105, at least two second ventilation parts 1146 are distributed at both sides of the wind shielding member 113 in the width direction, and the second ventilation parts 1146 communicate with the second ventilation cavity and the care cavity 105.

Specifically, when the power member that drives the air flow is operated, part of the air in the care cavity 105 can be discharged through the second ventilation portions 1146 on both sides in the width direction of the wind shielding member 113, and enter into the second ventilation cavity 11302; alternatively, a part of the air in the first ventilation chamber 11301 may be discharged out of the first ventilation chamber 11301 through the first ventilation parts 1145 on both sides of the wind shielding member 113 in the width direction and into the nursing chamber 105 under the driving of other power components.

In some embodiments, the first ventilation portion 1145 forms a lower air intake portion, the second ventilation portion 1146 forms an upper air outlet portion, the care cavity further has a lower air outlet portion and an upper air intake portion, the lower air outlet portion is located in front of the lower air inlet portion and the lower air outlet portion communicates with the first ventilation cavity 11301 and the care cavity 105, the upper air intake portion is located in front of the upper air outlet portion and the upper air intake portion communicates with the second ventilation cavity 11302 and the care cavity 105.

During operation, outside air can enter the nursing cavity 105 from top to bottom from the upper air inlet portion, can also enter the nursing cavity 105 from the back to front from the lower air inlet portion (the first ventilation portion 1145) and process clothes, air in the nursing cavity 105 can also be discharged out of the nursing cavity 105 from front to back through the upper air outlet portion (the second ventilation portion 1146), and can also be discharged out of the nursing cavity 105 from top to bottom through the lower air outlet portion, so that air flow dead angles exist in a local area of the nursing cavity 105, and ventilation effect of the nursing cavity 105 is guaranteed, so that the nursing effect is more uniform, and use experience of the clothes nursing equipment 1 is improved.

The laundry care apparatus 1 according to the present invention is described below with reference to the accompanying drawings.

The laundry care apparatus 1 according to an embodiment of the present invention comprises the cabinet assembly 10 of the laundry care apparatus according to the above-described embodiment.

Since the case assembly 10 of the laundry care apparatus according to the embodiment of the present invention has the above-mentioned technical effects, the laundry care apparatus 1 according to the embodiment of the present invention also has the above-mentioned technical effects, that is, by adopting the case assembly 10 of the laundry care apparatus, the intake air flow and/or the exhaust air flow distributed in the height direction of the care cavity 105 can be formed, the distribution area of the ventilation part is increased, the existence of air flow dead angles in the local area of the care cavity 105 can be prevented, and the ventilation effect of the care cavity 105 is ensured, so that the care effect is more uniform, and the use experience of the laundry care apparatus 1 is improved.

According to some embodiments of the present invention, the laundry care apparatus 1 further comprises a drying tunnel assembly 40, the drying tunnel assembly 40 defining a tunnel 401, the ventilation cavity communicating the tunnel 401 with the care cavity 105, a heating element being provided within the tunnel 401.

Therefore, the heating piece is arranged on the air duct 401, so that air in the air duct 401 can be heated, the arrangement position of the ventilation part is matched, the uniformity of the drying effect on clothes is guaranteed, and in addition, the uniformity of the wrinkle removing effect on the clothes is guaranteed when the heating piece is matched with the steam generator 60.

The drying tunnel assembly 40 further comprises a first fan 43, the first fan 43 is a through-flow fan, a wind wheel of the first fan 43 is arranged in the air duct 401, and the wind wheel of the first fan 43 is arranged in the air duct 401 and near to a position of an air supply opening 4012 of the air duct 401, the air supply opening 4012 is communicated with the first ventilation cavity 11301, and an air return opening 4011 of the air duct 401 is communicated with the nursing cavity 105.

When the heating element and the first fan 43 work, the air after the heating treatment in the air duct 401 flows towards the air supply opening 4012 of the air duct 401 under the action of the first fan 43, and the air can enter the nursing cavity 105 through the first ventilation part 1145, so that the articles to be nursed in the nursing cavity 105 are treated.

In some embodiments, a compressor 50 is also disposed within the receiving chamber 106, and the heating element includes an evaporator 41 and a condenser 42, with both the evaporator 41 and the condenser 42 being coupled to the compressor 50. That is, the air in the air duct 401 is heated by the heat pump system. By adopting the heat pump system, the clothes care equipment 1 has the advantages of energy conservation, environmental protection, high safety, low use cost, long service life and the like.

As shown in fig. 13-17, the laundry care apparatus 1 further comprises a steam generator 60, according to some embodiments of the present invention, a steam outlet of the steam generator 60 being in communication with the ventilation chamber. The clothes care device 1 can care clothes, steam generated by the steam generator can enter the care cavity 105, so that the clothes in the care cavity 105 are subjected to wrinkle removal treatment, and meanwhile, a user can conveniently iron the clothes in the care cavity 105.

A specific embodiment of a laundry care device 1 according to the present invention is described below with reference to fig. 1-20.

As shown in fig. 1-20, the laundry care appliance 1 includes a cabinet assembly 10, a drying tunnel assembly 40, and a steam generator 60.

The housing assembly 10 includes a housing 11 and a door (not shown) with the housing 11 defining a care chamber 105 and a receiving chamber 106, the care chamber 105 being located above the receiving chamber 106, the care chamber 105 and the receiving chamber 106 each having a front opening, the door being rotatably provided to the housing 11 for simultaneously opening and closing the front opening of the care chamber 105 and the front opening of the receiving chamber 106.

The case 11 further has two first air inlet portions (i.e., first air inlet portions 1145), a second air inlet portion 102, a third air inlet portion 101, two first air outlet portions (i.e., second air inlet portions 1146), a second air outlet portion 104, a third air outlet portion 103, an air outlet 107, a first air chamber 11301, and a second air chamber 11302.

Wherein, two first air inlet portions (first ventilation portions 1145) are located at the left and right sides of the nursing cavity 105, the second air inlet portion 102 is located at the lower portion of the nursing cavity 105, the third air inlet portion 101 is located at the upper portion of the nursing cavity 105, two first air outlet portions (second ventilation portions 1146) are located at the left and right sides of the nursing cavity 105 and below the first air inlet portions, the second air outlet portion 104 is located at the lower portion of the nursing cavity 105 and in front of the second air inlet portion 102, the third air outlet portion 103 is located at the middle and rear portion of the nursing cavity 105, the first ventilation cavity 11301 is located at the lower portion of the second ventilation cavity 11302, the first air inlet portion (i.e., the first ventilation portion 1145) includes a plurality of first ventilation openings 11451, each first ventilation opening 11451 communicates with the first ventilation cavity 11301 and the nursing cavity 105, the first air outlet portion (i.e., the second ventilation portion 1146) includes a plurality of second ventilation openings 11461, each second ventilation opening 11461 communicates with the second ventilation cavity 11302 and the nursing cavity 105.

The case 11 includes an outer case 111, an inner case 112, and a wind shielding member 113.

The inner container 112 is arranged in the outer shell 111, the inner container 112 defines the nursing cavity 105, and a foaming material is arranged between the inner container 112 and the outer shell 111 to ensure the heat preservation performance of the nursing cavity 105. The third air inlet 101 is arranged on the top wall of the inner container 112, the second air outlet 104 is arranged on the front part of the bottom wall of the inner container 112, the third air outlet 103 is arranged on the rear wall of the inner container 112, and the air outlet 107 is arranged on the rear part of the bottom wall of the inner container 112.

The wind shielding member 113 is disposed in the inner container 112, and a first ventilation cavity 11301 and a second ventilation cavity 11302 are defined between the wind shielding member 113 and a rear wall of the inner container 112, and the first ventilation cavity 11301 is located below the second ventilation cavity 11302. The two first air inlet portions are respectively arranged at the left side and the right side of the wind shielding member 113, the two first air outlet portions are respectively arranged at the left side and the right side of the wind shielding member 113, the first air inlet portions are positioned below the first air outlet portions, and the second air inlet portions 102 are positioned below the wind shielding member 113.

The wind shielding member 113 includes two vertical rods 1131, a cross rod 1132 and a wind shielding plate 1133, the two vertical rods 1131 are arranged at intervals in the left-right direction, and two ends of the cross rod 1132 are respectively connected with the middle parts of the two vertical rods 1131.

As shown in fig. 2-5, each vertical rod 1131 includes a first support plate 11311, a second support plate 11313, and a connection plate 11315, where the connection plate 11315 is connected between the first support plate 11311 and the second support plate 11313, and a mounting recess is defined between the connection plate 11315 and the first support plate 11311 and the second support plate 11313, a first hook 11316 is disposed on the connection plate 11315, and a hook head of the first hook 11316 is disposed toward the second support plate 11313, a slot 11317 is defined between the first hook 11316 and the second support plate 11313, and an air guiding surface 11312 is formed on a side of the first support plate 11311 facing the second support plate 11313, and the air guiding surface 11312 extends from inside the mounting recess to outside the mounting recess and in a direction away from the second support plate 11313.

As shown in fig. 6 to 8, the wind deflector 1133 includes a panel 11331 and two side plates 11332, the panel 11331 is connected between the two side plates 11332, each side plate 11332 includes a first plate portion 11333 and a second plate portion 11334, the length direction of the first plate portion 11333 and the length direction of the second plate portion 11334 each extend along the length direction of the panel 11331, the first plate portion 11333 is connected between the second plate portion 11334 and the side portion of the panel 11331, the first plate portion 11333 and the second plate portion 11334 are each disposed obliquely with respect to the panel 11331, and the first plate portion 11333 and the second plate portion 11334 are each disposed obliquely opposite to the panel 11331, the lower plate section of the first plate portion 11333 is provided with a plurality of first ventilation openings 11451 arranged at intervals along the length direction thereof, the upper plate section of the first plate portion 11333 is provided with a plurality of second ventilation openings 61 arranged at intervals along the length direction thereof, the lower plate section of the second plate section 11334 is provided with a plurality of second ventilation openings 9736 arranged at intervals along the length direction thereof, and the upper plate section of the second plate portion 11395 is provided with a plurality of ventilation openings 9736 arranged at intervals along the length direction thereof.

In a state that the wind shielding member 113 is mounted to the inner container 112, the first support plate 11311 is in abutting fit with the side wall of the inner container 112, the second support plate 11313 is arranged between the panel 11331 and the rear wall of the inner container 112, the second support plate 11313 is in abutting fit with the panel 11331 and the rear wall of the inner container 112, the side plate 11332 of the wind shielding plate 1133 is inserted into the slot 11317 between the first clamping hook 11316 and the second support plate 11313, and the clamping hole 11336 is in clamping fit with the first clamping hook 11316, so that connection reliability of the wind shielding plate 1133 and the vertical rod 1131 is ensured. The second support plate 11313 has an avoidance opening 11314, and the avoidance opening 11314 forms an avoidance for the first vent 11451/the second vent 11461, so that the first vent 11451 can be communicated with the nursing cavity 105 and the first vent cavity 11301, and the second vent 11452 can be communicated with the nursing cavity 105 and the second vent cavity 11302 on the basis of ensuring connection reliability of the vertical rod 1131 and the wind shield 1133.

As shown in fig. 10 to 12, the inner container 112 and the wind shielding member 113 are further connected by a clamping structure 114.

Specifically, as shown in fig. 12, the fastening structure 114 includes a first fastening member 1141, a second fastening member 1142, and a connecting member 1143, the connecting member 1143 is connected between the first fastening member 1141 and the second fastening member 1142, the first fastening member 1141 is disposed in the inner container 112, and the second fastening member 1142 is adapted to pass through a through hole on the inner container 112 to mount the fastening structure 114 on the inner container 112.

When the clamping structure 114 is mounted on the inner container 112, the second clamping member 1142 can first pass through the through hole on the inner container 112, and then the clamping structure 114 is rotated to enable the second clamping member 1142 to rotate and move by an angle, so that after the inner container 112 is formed with the foaming layer outside the inner container 112, the second clamping member 1142 can be matched with the foaming layer outside the inner container 112 to fix the second clamping member 1142 at the foaming layer outside the inner container 112, further fix the position of the clamping structure 114, and ensure that the clamping structure 114 cannot be separated from the inner container 112, so that the clamping structure 114 is stably mounted on the inner container 112.

The second fastening member 1142 includes a plurality of fastening portions 11421 and a connecting column 11424, the cross-sectional shape of each fastening portion 11421 is the same as the shape of the through hole, the fastening portions 11421 and the through hole are formed in a non-circular shape, two adjacent fastening portions 11421 are arranged along the axial direction of the connecting column 11424, two adjacent fastening portions 11421 are connected through the connecting column 11424, each fastening portion 11421 includes a fixing column 11422 and a plurality of fixing arms 11423, the fixing column 11422 extends along the axial direction of the connecting column 11424, the fixing column 11422 is connected with the connecting column 11424, the fixing column 11422 and the connecting column 11424 form a cylinder, the axes of the two are coincident, and the plurality of fixing arms 11423 are arranged at intervals in the circumferential direction of the fixing column 11422.

The wind shielding member 113 is provided with a clamping and matching portion 11337, and the clamping and matching portion 11337 is in clamping and matching with the first clamping and matching member 1141 so as to connect the liner 112 with the wind shielding member 113 through the clamping structure 114.

Further, the connector 1143 has a positioning portion 11431, and the positioning portion 11431 is adapted to cooperate with the inner container 112, so that the position of the locking structure 114 relative to the inner container 112 can be fixed by the positioning portion 11431 when the locking structure 114 is mounted on the inner container 112. The connecting member 1143 is connected with the first locking member 1141 through the reinforcing rib 1144, so as to enhance the connection strength between the connecting member 1143 and the second locking member 1142, and further enhance the structural strength of the locking structure 114, so as to prevent the locking structure 114 from being broken due to the force applied when the inner container 112 is mounted together with the structure in the inner container 112 by using the locking structure 114.

As shown in fig. 14 to 17, a mounting shell is disposed between the top wall of the inner container 112 and the housing 111, a mounting cavity 1120 is defined between the mounting shell and the top wall of the housing 111, a second fan 20 is disposed in the mounting cavity 1120, a fan inlet 201 of the second fan 20 is communicated with the third air outlet 103 through a second ventilation cavity 11302, and a fan outlet 202 of the second fan 20 is communicated with the third air inlet 101 through a ventilation shell 30.

Wherein, the ventilation casing 30 defines at least one channel 301, the channel 301 communicates the fan outlet 202 of the second fan 20 with the third air inlet 101, a plurality of separating ribs 31 are disposed at the outlet of the channel 301, and the plurality of separating ribs 31 are disposed at intervals along the length direction of the outlet of the channel 301, so that the outlet of the channel 301 can be separated into a plurality of smaller-sized tuyeres. So set up, can realize the wind effect that looses to, separating muscle 31 can also play the wind-guiding effect, thereby can set up the direction of separating muscle 31 as required, satisfy the ventilation demand.

The channel 301 includes a main body portion 3011 and a plurality of branch portions 3012, an inlet of the main body portion 3011 is communicated with a fan outlet 202 of the second fan 20, an outlet of the main body portion 3011 is communicated with inlets of the plurality of branch portions 3012, the plurality of third air inlet portions 101 are communicated with outlets of the plurality of branch portions 3012 in a one-to-one correspondence manner, so that air flow is split through the plurality of branch portions 3012, the occupied area of the third air inlet portions 101 is increased, and accordingly air flow entering the nursing cavity 105 through the third air inlet portions 101 can be quickly diffused to various positions of the nursing cavity 105, and the use effect of the clothes nursing device 1 is further improved. The width of the branch portions 3012 decreases in the air flow direction, thereby increasing the discharge velocity of the air flow at the outlet of each branch portion 3012.

As shown in fig. 19 and 20, the second fan 20 includes a motor 21, two fan shells 22 and two wind wheels 23, the motor 21 has two motor shafts, two outlets 202 of the second fan 20 are disposed on the two fan shells 22, the outlets on the two fan shells 22 are connected with the two ventilation shells 30 in a one-to-one correspondence manner, rotatable wind wheels 23 are disposed in each fan shell 22, that is, the two wind wheels 23 are disposed in the two fan shells 22 in a one-to-one correspondence manner, and the two wind wheels 23 are connected with the two motor shafts in a one-to-one correspondence manner. That is, the motor 21 of the second fan 20 is a dual-shaft motor, and when the motor 21 works, the motor 21 can drive the two wind wheels 23 to rotate at the same time, so that the control is more convenient.

Each outlet 202 edge of the second fan 20 is provided with a plurality of first connecting holes 221, the plurality of first connecting holes 221 are arranged at intervals along the circumferential direction of the outlet, the inlet edge of the channel 301 of each ventilation shell 30 is provided with a plurality of second connecting holes 302, the plurality of second connecting holes 302 are arranged at intervals along the circumferential direction of the inlet, the positions of the plurality of first connecting holes 221 and the plurality of second connecting holes 302 are in one-to-one correspondence, each outlet 202 edge of the second fan 20 and the corresponding ventilation shell 30 are connected through a plurality of fasteners, and each fastener penetrates through the corresponding first connecting hole 221 and the corresponding second connecting hole 302, so that the structure is simple, and the assembly and the disassembly are convenient.

The drying tunnel assembly 40 is arranged in the accommodating cavity 106, the drying tunnel assembly 40 defines an air channel 401, an air return opening 4011 of the air channel 401 is communicated with the second air outlet 104, an air supply opening 4012 of the air channel 401 is communicated with the air passing opening 107, the drying tunnel assembly 40 comprises a first fan 43, an evaporator 41 and a condenser 42, the first fan 43 can drive air in the nursing cavity 105 to enter the air channel 401 from the second air outlet 104 and the air return opening 4011 of the air channel 401 in sequence, the air flows through the evaporator 41 and the condenser 42 in the air channel 401 in sequence, after being processed by the evaporator 41 and the condenser 42, flows out of the air channel 401 from an air supply opening 4012 of the air channel 401, a part of the air enters the first ventilation cavity 11301, enters the nursing cavity 105 from the first air inlet 1145 (namely a plurality of first ventilation openings 11451), and the other part of the air enters the nursing cavity 105 from the second air inlet 102 so as to care the articles in the nursing cavity 105.

The laundry care appliance 1 further comprises a compressor 50, the compressor 50 being connected to the evaporator 41 and the condenser 42. Specifically, the heat exchanger can flow between the compressor 50, the evaporator 41 and the condenser 42 to enable the heat exchanger to absorb or release heat and thereby dry or heat the air in the air duct 401, while the air in the care cavity 105 can enter the air duct 401 from the inlet, flow from the outlet to the first ventilation cavity 11301 in the air duct 401 through the drying or heating process, and flow from the first ventilation cavity 11301 to the care cavity 105 to dry the laundry in the care cavity 105.

The steam outlet of the steam generator 60 is communicated with the first ventilation cavity 11301, and the steam generated by the steam generator 60 can enter the first ventilation cavity 11301 from the steam outlet, and enter the nursing cavity 105 from the first ventilation cavity 11301 to care the articles in the nursing cavity 105. When the laundry care apparatus 1 is used for caring for laundry, the water vapor generated by the steam generator 60 can perform wrinkle removal care on the laundry in the care cavity 105, and simultaneously facilitate ironing of the laundry in the care cavity 105 by a user.

When the first fan 43 works, a large amount of air in the middle lower part of the nursing cavity 105 is discharged from the second air outlet 104 to the nursing cavity 105 under the driving of the first fan 43, and enters the air duct 401 through the air return opening 4011, after the air in the air duct 401 is subjected to heat treatment, part of the air is discharged from the air supply opening 4012 under the driving of the first fan 43, part of the air enters the first ventilation cavity 11301, two first air inlet parts (first ventilation parts 1145, namely first ventilation openings 11451) positioned on the left side and the right side enter the nursing cavity 105, and part of the air enters the nursing cavity 105 from the second air inlet 102. This circulates a volume of air between the lower middle portion of the care cavity 105 and the first ventilation cavity 11301.

When the second fan 20 is operated, a large amount of air in the middle and upper part of the nursing cavity 105 is discharged from the nursing cavity 105 through the two first air outlet parts (the second air inlet parts 1146, namely the second air inlet 11461) and the third air outlet part 103 positioned at the left side and the right side under the driving of the second fan 20, then enters the second air inlet cavity 11302, enters the mounting cavity 1120 under the action of the second fan 20, and then enters the nursing cavity 105 through the third air inlet part 101. This circulates a volume of air between the upper middle portion of the care cavity 105 and the second vent cavity 11302.

Thereby, the local area of the nursing cavity 105 can be prevented from having air flow dead angles, and the ventilation effect of the nursing cavity 105 is ensured, so that the drying effect and the wrinkle removal are more uniform, and the use experience of the clothes nursing equipment 1 is improved

It should be noted that, the first ventilation cavity 11301 and the second ventilation cavity 11302 may be connected or disconnected from each other, and in the solution where the first ventilation cavity 11301 is connected to the second ventilation cavity 11302, a flow path of the air flow is relatively complex during an actual operation, for example, a portion of air in the first ventilation cavity 11301 may enter the care cavity 105 from the first ventilation opening 11451, and a portion of air may also flow to the second ventilation cavity 11302.

It will be appreciated that if the distance between the third air outlet 103 and the second fan 20 is too large, the second fan 20 may not provide enough power to expel air in the nursing cavity 105 from the third air outlet 103 and into the second ventilation cavity 11302, so that air cannot be driven to circulate between the nursing cavity 105 and the second ventilation cavity 11302 rapidly, and if the distance between the third air outlet 103 and the second fan 20 is too small, only a small amount of air at the upper part of the nursing cavity 105 may circulate between the nursing cavity 105 and the second ventilation cavity 11302, so that a large amount of air cannot circulate between the nursing cavity 105 and the second ventilation cavity 11302, thereby making the nursing effect of the laundry care device 1 uneven.

Therefore, by arranging the third air outlet 103 at the middle part of the wind shielding member 113 in the up-down direction, a large amount of air in the middle-upper part of the nursing cavity 105 can circulate between the middle-upper part of the nursing cavity 105 and the second ventilation cavity 11302 under the driving of the second fan 20, thereby ensuring the ventilation effect of the laundry care device 1 and improving the nursing effect of the laundry care device 1.

In the description of the present invention, it should be understood that the terms "center", "longitudinal", "lateral", "length", "width", "thickness", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", "axial", "radial", "circumferential", etc. indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings are merely for convenience in describing the present invention and to simplify the description, and do not indicate or imply that the device or element being referred to must have a specific orientation, be configured and operated in a specific orientation, and therefore should not be construed as limiting the present invention.

Other constructions and operations of the laundry care apparatus 1 according to the embodiment of the present invention are known to those skilled in the art and will not be described in detail here.

In the description of the present specification, reference to the terms "one embodiment," "some embodiments," "illustrative embodiments," "examples," "specific examples," or "some examples," etc., means that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the invention. In this specification, schematic representations of the above terms do not necessarily refer to the same embodiments or examples. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

While embodiments of the present invention have been shown and described, it will be understood by those of ordinary skill in the art that: many changes, modifications, substitutions and variations may be made to the embodiments without departing from the spirit and principles of the invention, the scope of which is defined by the claims and their equivalents.

Claims (16)

1. A cabinet assembly of a garment care device, comprising:

A housing;

the inner container is arranged in the shell and defines a nursing cavity;

wherein, the box subassembly has ventilation portion, ventilation portion sets up in order to nursing intracavity the nursing chamber is ventilated and ventilation portion is followed the direction of height in nursing chamber extends.

2. The cabinet assembly of a laundry care appliance of claim 1, further comprising:

the wind shielding piece is arranged in the inner container and is communicated with the nursing cavity through a plurality of ventilation parts, and at least two ventilation parts are distributed on two sides of the wind shielding piece in the width direction.

3. The cabinet assembly of a laundry care appliance of claim 2, wherein the wind shielding member comprises:

the wind shield and the side wall of the liner define the ventilation cavity;

the two vertical rods are arranged in the inner container and are arranged at intervals in the width direction of the wind deflector, the wind deflector is connected with the two vertical rods, and the ventilation part is arranged on the vertical rods and/or the wind deflector.

4. A cabinet assembly of a laundry care appliance according to claim 3, wherein the vertical bar is connected to the wind deflector in a snap-fit manner.

5. A cabinet assembly of a laundry care appliance according to claim 3, wherein the wind deflector comprises:

the panel covers the side wall of the inner container and is arranged at a distance from the side wall of the inner container;

the two side plates are connected with two sides of the panel in the width direction, at least two ventilation parts are distributed on the two side plates, the vertical rods are provided with connecting parts, and the side plates are provided with matching parts matched with the connecting parts.

6. The cabinet assembly of a garment care device as recited in claim 5, wherein each of said ventilation portions includes an elongated vent opening extending along a length of said side panel; alternatively, each of the ventilation parts includes a plurality of ventilation openings and the ventilation openings are arranged at intervals along the length direction of the side plate.

7. The cabinet assembly of a laundry care apparatus according to claim 5, wherein each of the side plates includes a first plate portion and a second plate portion arranged in a thickness direction of the panel, the first plate portion being connected between the panel and the second plate portion; the first plate portion and the second plate portion are respectively arranged obliquely in opposite directions relative to the panel, and the ventilation portion is arranged on the first plate portion and/or the second plate portion.

8. The cabinet assembly of a laundry care apparatus according to claim 5, wherein the connection portion forms a first hook, and the engagement portion forms a locking hole to be locked and engaged with the first hook; or the matching part forms a second clamping hook which is in dislocation clamping connection with the first clamping hook.

9. The cabinet assembly of a laundry care appliance according to claim 5, wherein a slot is defined between the connection portion and the vertical bar, and the side plate is inserted into the slot to be engaged with the connection portion by the engagement portion.

10. The cabinet assembly of a laundry care appliance of claim 5, wherein the vertical bar comprises:

the first support plate and the second support plate are respectively in stop fit with two side walls of the inner container, which are adjacently arranged, and the second support plate is positioned between the panel and the side walls of the inner container;

the connecting plate is connected between the first supporting plate and the second supporting plate, a mounting concave portion is defined between the first supporting plate, the connecting plate and the second supporting plate, and the side plate is inserted into the mounting concave portion to be matched with the connecting portion.

11. The cabinet assembly of a laundry care appliance according to claim 10, wherein the second support plate has a relief port to allow the ventilation portion to communicate the care cavity and the ventilation cavity.

12. The cabinet assembly of a laundry care appliance according to claim 10, wherein a side of the first support plate facing the side plate has an air guiding surface extending from inside the mounting recess to outside the mounting recess in a direction away from the second support plate.

13. The cabinet assembly of a laundry care appliance of any one of claims 3-12, wherein the wind shield further comprises: the two ends of the cross rod are respectively connected with the two vertical rods.

14. The cabinet assembly of any one of claims 2-12, wherein the ventilation cavity comprises a first ventilation cavity, a second ventilation cavity located above the first ventilation cavity, the ventilation portion comprising a first ventilation portion, a second ventilation portion located above the first ventilation portion;

at least two first ventilation portions are distributed on two sides of the wind shielding piece in the width direction and are communicated with the first ventilation cavity and the nursing cavity, and at least two second ventilation portions are distributed on two sides of the wind shielding piece in the width direction and are communicated with the second ventilation cavity and the nursing cavity.

15. The cabinet assembly of a laundry care appliance according to claim 14, wherein the first ventilation portion forms a lower air inlet portion and the second ventilation portion forms an upper air outlet portion;

the nursing cavity is further provided with a lower air outlet portion and an upper air inlet portion, the lower air outlet portion is located in front of the lower air inlet portion and is communicated with the first ventilation cavity and the nursing cavity, and the upper air inlet portion is located in front of the upper air outlet portion and is communicated with the second ventilation cavity and the nursing cavity.

16. A laundry care appliance comprising a cabinet assembly of the laundry care appliance according to any one of claims 1-15.