CN215887676U - Wall-mounted clothes treatment equipment and drying assembly thereof - Google Patents

Abstract

The utility model discloses wall-mounted clothes treatment equipment and a drying assembly thereof, wherein the drying assembly comprises a drying tunnel body, the drying tunnel body comprises an air outlet and a mounting opening opposite to the air outlet; heating device, including the heating pipe with set up in the binding post of heating pipe tip, the heating pipe is installed the drying tunnel is internal, the extending direction of heating pipe with the internal air current direction of drying tunnel is unanimous mutually, binding post installs in the installing port. According to the utility model, the installation opening, opposite to the air outlet, of the connecting terminal for installing the heating pipe is arranged on the drying tunnel body, so that the extending direction of the heating pipe is consistent with the flowing direction of the airflow in the drying tunnel body, the number of the elbows of the heating pipe is reduced, the influence of the elbows on the airflow is further reduced, and the aim of improving the drying efficiency is achieved.

Description

Wall-mounted clothes treatment equipment and drying assembly thereof

Technical Field

The utility model belongs to the technical field of household appliances, and particularly relates to clothes treatment equipment and a drying assembly thereof.

Background

For the wall-mounted clothes treatment equipment with the drying function, the fan and the transverse drying air duct provided with the heating pipe are arranged on the upper part of the outer barrel, and the longitudinal drying air duct is an adapter piece for communicating the transverse drying air duct with the inner barrel. Air is heated by the heating pipe and then enters the inner barrel through the transverse drying air duct and the longitudinal drying air duct to remove moisture in the clothes, so that the aim of drying the clothes is fulfilled.

In the prior art, chinese patent application No. CN201910258090.7 discloses a drying device, as shown in fig. 1, a spiral heating pipe is installed in a transverse drying air duct, and then the heating pipe is fixed on the transverse drying air duct by using a fastening elastic sheet.

However, the extending direction of the heating pipe in the above solution is not consistent with the airflow direction of the transverse drying air duct, so that the elbow of the heating pipe forms a large resistance to the airflow, and the airflow may form a vortex in the transverse drying air duct, thereby affecting the drying efficiency of the wall-hanging clothes treatment device.

The present invention has been made in view of this situation.

SUMMERY OF THE UTILITY MODEL

The utility model aims to overcome the defects of the prior art and provide a drying component for wall-mounted clothes treatment equipment.

Another object of the present invention is to provide a wall-mounted clothes treating apparatus including the above drying assembly.

In order to solve the technical problems, the utility model adopts the technical scheme that:

a drying assembly for a wall-mounted laundry treating apparatus, comprising:

the drying tunnel comprises an air outlet and a mounting opening opposite to the air outlet;

heating device, including the heating pipe with set up in the binding post of heating pipe tip, the heating pipe is installed the drying tunnel is internal, the extending direction of heating pipe with the internal air current direction of drying tunnel is unanimous mutually, binding post installs in the installing port.

Further, the device also comprises a fan and a fan shell for mounting the fan;

the fan shell is connected with the drying tunnel body and used for conveying airflow to the drying tunnel body, and an included angle is formed between the air outlet direction in the fan shell and the air inlet direction in the drying tunnel body.

Furthermore, the drying tunnel body comprises an upper drying tunnel shell and a lower drying tunnel shell which are mutually buckled, and the fan shell comprises an upper fan shell and a lower fan shell which are mutually buckled;

the drying tunnel lower shell and the fan lower shell are integrally formed.

The drying tunnel further comprises an air guide channel, and an air inlet of the air guide channel is connected with an air outlet of the drying tunnel body;

the outer wall surface of the lower drying tunnel shell is of a plane structure at the air outlet, and the upper drying tunnel shell is of a curved surface structure at the air outlet;

the end part of the air guide channel at the air inlet is provided with a folded edge which is folded outwards;

the outer wall surface of the lower drying tunnel shell is hermetically connected with the surface of part of the folded edges of the air guide channel, and the end part of the upper drying tunnel shell is hermetically connected with the rest folded edges of the air guide channel.

Furthermore, a sealing gasket mounting groove is formed in the surface of the partial folded edge, a sealing gasket is arranged in the sealing gasket mounting groove, and the sealing gasket is squeezed by the outer wall surface of the lower drying tunnel shell and the sealing gasket mounting groove together;

or a lower sealing gasket mounting groove is formed in the surface of the partial folded edge, an upper sealing gasket mounting groove is formed in the outer wall surface of the lower shell of the drying tunnel, the lower sealing gasket mounting groove and the upper sealing gasket mounting groove jointly form a sealing gasket mounting groove, and a sealing gasket is arranged in the sealing gasket mounting groove;

or a sealing gasket mounting groove is formed in the outer wall of the lower shell of the drying tunnel, a sealing gasket is arranged in the sealing gasket mounting groove, and the sealing gasket is squeezed by the sealing gasket mounting groove and the surfaces of the partial folded edges together;

preferably, the lower drying tunnel shell is provided with a first fastening structure at the air outlet, a second fastening structure is arranged on the partial folded edge, and the first fastening structure is connected with the second fastening structure.

Furthermore, the drying tunnel upper shell is provided with a first positioning structure at the air outlet, a second positioning structure is arranged on the residual folded edge of the air guide channel, and the first positioning structure is connected with the second positioning structure.

Furthermore, an upper sealing groove is formed in the buckling surface of the drying tunnel upper shell along the contour line;

a first lower sealing groove is formed in the upper edge contour line of the buckling surface of the lower drying channel shell, a second lower sealing groove is formed in the upper edge contour line of the residual folded edge, and the second lower sealing groove and the first lower sealing groove jointly form a lower sealing groove matched with the upper sealing groove;

a sealing ring is arranged between the upper sealing groove and the lower sealing groove;

or an upper sealing groove is formed in the buckling surface of the drying tunnel upper shell along the contour line;

the surfaces of the buckling surface of the lower shell of the drying tunnel and the residual folded edge are of a planar structure;

a sealing ring is arranged in the upper sealing groove, and the sealing ring is compressed by the upper sealing groove and the surfaces of the buckling surface of the lower shell of the drying tunnel and the residual folded edge together;

or a lower sealing groove is formed in the buckling surface of the lower drying channel shell and the surface of the residual folded edge along the contour line;

the surface of the buckling surface of the drying tunnel upper shell is of a plane structure;

a sealing ring is arranged in the lower sealing groove, and the lower sealing groove and a buckling surface of the drying tunnel upper shell jointly compress the sealing ring;

preferably, the fastening surface of the drying tunnel upper shell is matched with the surface of the residual folded edge.

Furthermore, a plurality of first connecting structures used for being connected with the drying tunnel lower shell and a plurality of second connecting structures used for being connected with a clothes treatment drum of the clothes treatment equipment are arranged on the drying tunnel upper shell;

preferably, the second connecting structure comprises a first folding part formed by folding the edge of the upper shell of the drying tunnel towards the direction of the lower shell of the drying tunnel and a second folding part formed by extending the end part of the first folding part outwards;

the second turnover part is provided with a through hole connected with the clothes treatment drum.

Furthermore, the heating pipe comprises a plurality of extension sections which are consistent with the direction of the air flow in the drying tunnel body, and bending parts are connected between two ends of each extension section and the adjacent extension sections except the extension sections connected with the wiring terminals.

A wall-mounted clothes treatment device comprises the drying assembly.

After the technical scheme is adopted, compared with the prior art, the utility model has the following beneficial effects.

1. According to the utility model, the installation opening, opposite to the air outlet, of the connecting terminal for installing the heating pipe is arranged on the drying tunnel body, so that the extending direction of the heating pipe is consistent with the flowing direction of the airflow in the drying tunnel body, the number of the elbows of the heating pipe is reduced, the influence of the elbows on the airflow is further reduced, and the aim of improving the drying efficiency is achieved.

2. According to the utility model, the drying tunnel body is provided with the drying tunnel upper shell and the drying tunnel lower shell which are of split structures, and the drying tunnel upper shell and the drying tunnel lower shell are respectively connected with the air inlet of the drying air duct, so that a structure with a part of surfaces in sealing connection and a part of end surfaces in sealing connection is formed, the connecting structure of the drying tunnel body and the drying air duct is simplified, and the installation is convenient.

3. The utility model makes the air outlet of the drying tunnel body not need to be designed into an elbow with an angle of approximately 90 degrees, reduces the processing difficulty of the drying tunnel body, thereby improving the qualification rate of the drying tunnel body product, achieving the purpose of reducing the cost of the drying assembly and integrally improving the market competitiveness of the wall-mounted clothes treatment equipment.

The following describes embodiments of the present invention in further detail with reference to the accompanying drawings.

Drawings

The accompanying drawings, which are included to provide a further understanding of the utility model, are incorporated in and constitute a part of this specification, illustrate embodiments of the utility model and together with the description serve to explain the utility model without limiting the utility model to the right. It is obvious that the drawings in the following description are only some embodiments, and that for a person skilled in the art, other drawings can be derived from them without inventive effort. In the drawings:

FIG. 1 is a schematic view of a heating pipe installation structure in the prior art;

fig. 2 is a schematic view of a structure of a wall-mounted laundry treating apparatus according to the present invention;

FIG. 3 is a front view of FIG. 2;

FIG. 4 is a sectional view taken along line A-A of FIG. 3;

FIG. 5 is a partial enlarged view of FIG. 4 at B;

FIG. 6 is a schematic structural view of a drying assembly according to the present invention;

FIG. 7 is a schematic view of the installation structure of the heating apparatus;

fig. 8 is a schematic structural view of a wind guide channel;

fig. 9 is a top view of the structure of fig. 8.

In the figure: 10. a laundry treating drum; 11. a screw post;

20. a drying assembly; 21. a drying tunnel body; 211. an upper shell of the drying tunnel; 212. a lower shell of the drying tunnel; 213. a first fastening structure; 214. a first positioning structure; 216. a first lower seal groove; 217. a first connecting structure; 218. a second connecting structure; 219. an installation port; 22. an air guide channel; 221. partially folding edges; 222. folding the edges; 223. a gasket mounting groove; 224. a second fastening structure; 225. a second positioning structure; 226. a second lower seal groove; 227. a third connecting structure; 23. a gasket; 24. a heating device; 241. heating a tube; 242. a wiring terminal; 25. a fan.

It should be noted that the drawings and the description are not intended to limit the scope of the inventive concept in any way, but to illustrate it by a person skilled in the art with reference to specific embodiments.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the technical solutions in the embodiments will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and the following embodiments are used for illustrating the present invention and are not intended to limit the scope of the present invention.

In the description of the present invention, it should be noted that the terms "upper", "lower", "front", "rear", "left", "right", "vertical", "inner", "outer", etc., indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplicity of description, but do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the present invention.

In the description of the present invention, it should be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, e.g., as meaning either a fixed connection, a removable connection, or an integral connection; can be mechanically or electrically connected; may be directly connected or indirectly connected through an intermediate. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

As shown in fig. 2 to 9, the present invention provides a wall-hanging clothes processing apparatus and a drying assembly thereof, wherein the drying assembly 20 includes a drying tunnel body 21 and an air guiding channel 22, the drying tunnel body 21 has an air outlet, the air guiding channel 22 has an air inlet, and the air inlet is connected with the air outlet of the drying tunnel body 21.

The drying assembly 20 may further include a blower 25 and a heating device 24, and the heating device 24 is disposed in the drying tunnel body 21. The fan 25 is disposed in the fan housing.

As shown in fig. 2 to 4, the air outlet of the blower housing is connected to the air inlet of the drying tunnel body 21, and is used for introducing air into the drying tunnel body 21 and heating the air by the heating device 24. After heated and raised in the drying tunnel body 21, the air is guided into the clothes treatment drum 10 of the wall-mounted clothes treatment equipment through the air guide passage 22 to remove moisture in the clothes, so that the clothes are dried.

As shown in fig. 4 and 7, the drying tunnel body 21 of the present invention is further provided with a mounting opening 219 opposite to the air outlet, and the heating device 24 includes a heating pipe 241 and a connection terminal 242 provided at an end of the heating pipe 241, the heating pipe 241 is mounted in the drying tunnel body 21, an extending direction of the heating pipe 241 is identical to an air flow direction in the drying tunnel body 21, and the connection terminal 242 is mounted in the mounting opening 219. Preferably, the heating pipe 241 includes a plurality of extension sections that are consistent with the direction of the airflow in the drying tunnel body 21, and except for the extension section connected to the connection terminal 242, a bending part is connected between each of two ends of each extension section and the adjacent extension section.

In the above scheme, the mounting opening 219 for mounting the connection terminal 242 is arranged opposite to the air outlet, and the extending direction of the heating pipe 241 is made to be consistent with the direction of the air flow in the drying tunnel body 21, so that the number of bends of the heating pipe 241 with the spiral structure can be reduced, the influence of the bends on the air flow is reduced, the flow loss of the air flow in the drying tunnel body 21 is reduced, and the purpose of improving the drying efficiency is achieved.

In addition, since the whole size of the wall-mounted clothes processing equipment is small, the heating pipe 241 is in the front-back direction by the mounting structure of the utility model, the reliability of the heating pipe 241 can be improved, the passage space of the drying tunnel body 21 can be utilized to the maximum extent, the area of the heating pipe 241 is enlarged, and the drying rate is improved.

In addition, a fixing structure for fixing the end of the heating pipe 241 is further arranged at a position of the drying tunnel body 21 close to the air outlet, and the fixing structure is tightly connected with the drying tunnel body 21 to fix the heating pipe 241, so that the stability of the heating pipe 241 is improved.

Further, the fixing structure may be a metal sheet, specifically, a copper sheet, a stainless steel sheet, or the like.

Further, the blower 25 is disposed in the blower housing, so that the blower housing becomes a pipeline for conveying airflow into the drying tunnel body 21, and in order to further increase the size of the heating pipe 241, an included angle is defined between an air outlet direction in the blower housing and an air inlet direction in the drying tunnel body 21. The air outlet of the drying tunnel body 21 for installing the heating pipe 241 can be arranged at the front side of the clothes treatment drum 10, and the installation port 219 for installing the connection terminal 242 can be arranged at the rear side of the clothes treatment drum 10, therefore, the drying tunnel body 21 can be arranged above the clothes treatment drum 10 from front to back, the passage space of the drying tunnel body 21 is greatly increased, the extension part of the heating pipe 241 can be made as long as possible, and the number of the bending parts is reduced.

In some embodiments of the present invention, the drying tunnel body 21 includes a drying tunnel upper shell 211 and a drying tunnel lower shell 212 fastened to each other, which together enclose a passage space for air flow. The fan shell comprises a fan 25 upper shell and a fan 25 lower shell which are mutually buckled; the lower casing 212 of the drying tunnel and the lower casing of the fan 25 are integrally formed.

In the above scheme, the drying tunnel lower shell 212 and the fan 25 lower shell are integrally formed, so that the assembling process can be reduced, but the drying tunnel upper shell 211 and the fan 25 upper shell are not integrally formed, so that when the heating pipe 241 or the fan 25 breaks down, the drying tunnel upper shell 211 or the fan 25 upper shell can be independently opened for maintenance and replacement.

In some embodiments of the present invention, as shown in fig. 4 and 5, the outer wall of the lower drying tunnel shell 212 has a planar structure at the air outlet, and the upper drying tunnel shell 211 has a curved structure at the air outlet. The end of the air guide channel 22 at the air inlet is provided with a folded edge which is folded outwards. The outer wall surface of the drying tunnel lower shell 212 is hermetically connected with the partial folding edge 221 of the air guide channel 22, and the end part of the drying tunnel upper shell 211 is hermetically connected with the end surface of the residual folding edge 222 of the air guide channel 22.

In detail, as shown in fig. 5 and 7, the drying tunnel body 21 is disposed above the laundry treating drum 10 of the wall-mounted laundry treating apparatus, and the curved surface structure of the drying tunnel upper case 211 is formed by downwardly bending a flat surface. The outer wall surface of the lower drying tunnel shell 212 is a plane structure at the air outlet, in other words, the side wall of the lower drying tunnel shell 212 is not bent downward. That is, the air outlet of the drying tunnel body 21 is not provided with an elbow structure.

The folded edge arranged at one end of the air inlet of the air guide channel 22 is formed by folding the end part of the air inlet outwards. One portion of the flap 221 is for attachment to the lower tunnel shell 212 and the other portion of the flap 221 is for attachment to the end of the upper tunnel shell 211.

In a specific scheme, the air guide channel 22 comprises a first side wall, a second side wall, a third side wall and a fourth side wall which are sequentially connected end to end, and the width of the first side wall and the width of the third side wall are smaller than the width of the second side wall and the width of the fourth side wall. When the air guiding channel 22 is connected with the laundry treating drum 10, the second sidewall is close to the laundry treating drum 10, and the fourth sidewall is far from the laundry treating drum 10.

The first side wall, the second side wall, the third side wall and the fourth side wall are all turned outwards to form folded edges, and therefore the folded edges corresponding to the second side wall are the partial folded edges 221 and are connected with the lower drying tunnel shell 212. The folded edges corresponding to the first side wall, the third side wall and the fourth side wall are the residual folded edges 222 and are connected with the drying tunnel upper shell 211.

When the drying tunnel body 21 is assembled with the air guide channel 22, firstly, the drying tunnel lower shell 212 is hermetically connected with a part of folded edges 221 of the air guide channel 22, then, after the drying tunnel upper shell 211 is hermetically connected with the rest folded edges 222 of the air guide channel 22, the drying tunnel upper shell 211 is buckled with the drying tunnel lower shell 212.

In the above scheme, the drying tunnel body 21 is provided with the drying tunnel upper shell 211 and the drying tunnel lower shell 212 which are in split structures, and the drying tunnel upper shell 211 and the drying tunnel lower shell 212 are respectively connected with the air inlet of the drying air duct, so that a structure with part of surfaces in sealing connection and part of end surfaces in sealing connection is formed, the connecting structure of the drying tunnel body 21 and the drying air duct is simplified, and the installation is convenient. Meanwhile, the air outlet of the drying tunnel body 21 is not required to be designed to be an elbow of approximately 90 degrees, the processing difficulty of the drying tunnel body 21 is reduced, the qualification rate of the drying tunnel body 21 product is improved, the purpose of reducing the cost of the drying component 20 is achieved, and the market competitiveness of the wall-mounted clothes treatment equipment is integrally improved.

In other words, the structure of the drying tunnel body 21 and the connection manner with the air guide passage 22 according to the present invention are substantially that the outer wall surface of the lower drying tunnel shell 212 is in surface sealing connection with the partial folded edge 221 of the air guide passage 22, and the upper drying tunnel shell 211 is in snap-fit connection with the lower drying tunnel shell 212 and the residual folded edge 222 of the air guide passage 22.

In addition, the sealing performance between the drying tunnel body 21 and the air guide passage 22 can be improved by the above connection structure.

In some embodiments of the present invention, as shown in fig. 5, 7 and 9, the surface of the partial folded edge 221 formed by folding the second side wall is lower than the surface of the remaining folded edge 222 formed by folding the remaining side wall, so as to form a mounting space for mounting the air outlet portion of the lower shell 212 of the drying tunnel. The lower drying tunnel shell 212 comprises a bottom wall and side walls, and after the bottom wall of the lower drying tunnel shell 212 is connected with the folded edges of the second side walls, the upper edges of the side walls at the air outlet of the lower drying tunnel shell 212 are flush with the surfaces of the folded edges formed by folding the first side walls, the third side walls and the fourth side walls. In other words, the fastening surface of the lower drying tunnel shell 212 and the upper drying tunnel shell 211 should be flush with the surface of the remaining folded edge 222.

The space of the switching part of the drying tunnel body 21 and the air guide channel 22 can be enlarged by the scheme, and the phenomenon that the heated air forms vortex at the switching part to influence the air inlet efficiency is avoided.

In some embodiments of the present invention, the sealing connection between the outer wall surface of the lower drying tunnel 212 and the partial folded edge 221 of the air guiding passage 22 includes the following three schemes.

In the first scheme, as shown in fig. 5, a gasket mounting groove 223 is formed on the surface of the partial folding edge 221, a gasket 23 is disposed in the gasket mounting groove 223, and the gasket 23 is compressed by the outer wall surface of the lower drying tunnel shell 212 and the gasket mounting groove 223 together.

Preferably, the surface of the partial folded edge 221 is provided with a concave sealing gasket installation groove 223, so that the sealing gasket 23 is embedded into the sealing gasket installation groove 223, when the drying tunnel lower shell 212 and the air guide channel 22 are assembled, the sealing gasket 23 can be installed in place, then the drying tunnel lower shell 212 is fixedly connected with the partial folded edge 221, the sealing gasket 23 is pressed, meanwhile, the buckling surface of the drying tunnel lower shell 212 is flush with the surface of the residual folded edge 222, the integrity of the installation surface of the drying tunnel lower shell 212 and the residual folded edge 222 is ensured, and the sealing performance is further improved.

In the second scheme, a lower sealing gasket mounting groove 223 is formed in the surface of the partial folding edge 221, an upper sealing gasket mounting groove 223 is formed in the outer wall surface of the drying tunnel lower casing 212, the lower sealing gasket mounting groove 223 and the upper sealing gasket mounting groove 223 jointly form a sealing gasket mounting groove 223, and a sealing gasket 23 is arranged in the sealing gasket mounting groove 223.

The present embodiment is different from the first embodiment in that a gasket installation groove 223 for installing a gasket 23 is provided on both the surface of the partial flange 221 and the outer wall surface of the lower casing 212 of the drying tunnel. When the drying tunnel lower shell 212 and the air guide channel 22 are assembled, the sealing gasket 23 can be installed in any sealing gasket installation groove 223, then the drying tunnel lower shell 212 is fixedly connected with the partial folding edge 221, the sealing gasket 23 is squeezed, meanwhile, the buckling surface of the drying tunnel lower shell 212 is enabled to be flush with the surface of the residual folding edge 222, the integrity of the installation surface of the drying tunnel lower shell 212 and the residual folding edge 222 is guaranteed, and the sealing performance is further improved.

In the third scheme, a sealing gasket installation groove 223 is formed in the outer wall surface of the lower drying tunnel shell 212, a sealing gasket 23 is arranged in the sealing gasket installation groove 223, and the sealing gasket 23 is squeezed by the surfaces of the sealing gasket installation groove 223 and the partial folding edge 221 together.

The difference between this solution and the first solution is that the outer wall surface of the lower drying tunnel shell 212 is provided with a gasket mounting groove 223 for mounting the gasket 23. When the drying tunnel lower shell 212 and the air guide channel 22 are assembled, the sealing gasket 23 can be installed in the sealing gasket installation groove 223, then the drying tunnel lower shell 212 is fixedly connected with the partial folding edge 221, the sealing gasket 23 is squeezed, meanwhile, the buckling surface of the drying tunnel lower shell 212 is enabled to be flush with the surface of the residual folding edge 222, the integrity of the installation surface of the drying tunnel lower shell 212 and the residual folding edge 222 is guaranteed, and the sealing performance is further improved.

In a further scheme, as shown in fig. 6, the lower drying tunnel shell 212 is provided with a first fastening structure 213 at the air outlet, the partial folding edge 221 is provided with a second fastening structure 224, and the first fastening structure 213 is connected with the second fastening structure 224.

In detail, in order to further improve the sealing performance between the drying tunnel body 21 and the air guide channel 22, after the sealing gasket 23 is pressed, the drying tunnel lower shell 212 and the partial folding edge 221 are connected by a fastening piece to be relatively fixed, and the integrity of the installation surface of the drying tunnel lower shell 212 and the residual folding edge 222 can be ensured.

In a preferred embodiment, the first fastening structure 213 is a protruding lug provided on the sidewall of the lower casing 212 of the drying tunnel, and a screw hole is provided on the lug. Similarly, the second fastening structure 224 is a fixing plate extending further from the folded edge of the air guiding passage 22, and the fixing plate is also provided with screw holes. After the drying tunnel lower shell 212 is assembled with the partial folding edge 221 of the air guide channel 22 in place, the lug and the fixing plate are screwed tightly by screws.

In some embodiments of the present invention, as shown in fig. 6 to 9, the drying tunnel upper shell 211 is provided with a first positioning structure 214 at the air outlet, the remaining folded edge 222 of the air guiding channel 22 is provided with a second positioning structure 225, and the first positioning structure 214 is connected with the second positioning structure 225.

In detail, since the drying tunnel body 21 is not regular in shape in general, a misalignment may occur when the drying tunnel lower casing 212 is assembled with the air guide duct 22. According to the utility model, the positioning structures are arranged on the drying tunnel lower shell 212 and the air guide channel 22, when the clothes drying device is assembled, the approximate position relation between the drying tunnel lower shell 212 and the air guide channel 22 is determined through the positioning structures, and then the next assembling procedure is carried out, so that the condition that the assembly of the drying tunnel lower shell 212 and the air guide channel 22 is not staggered can be ensured, the assembling precision is improved, the sealing performance is further improved, the hot air is prevented from leaking at the connecting part of the drying tunnel body 21 and the air guide channel 22, the heat utilization rate of the hot air is further ensured, and the drying energy efficiency of the clothes processing device is improved.

The above-mentioned solutions in which the drying tunnel upper shell 211, the drying tunnel lower shell 212 and the remaining folded edge 222 of the air guiding passage 22 are fastened and connected have the following three embodiments.

In the first scheme, an upper sealing groove is formed in the buckling surface of the drying tunnel upper shell 211 along the contour line; a first lower sealing groove 216 is formed in the buckling surface of the drying tunnel lower shell 212 along the contour line, a second lower sealing groove 226 is formed in the remaining folded edge 222 along the contour line, and the second lower sealing groove 226 and the first lower sealing groove 216 jointly form a lower sealing groove matched with the upper sealing groove; and a sealing ring is arranged between the upper sealing groove and the lower sealing groove.

In a preferred embodiment, as shown in fig. 7, a convex rib is disposed on the fastening surface of the drying tunnel upper shell 211 to form an upper sealing groove, a convex rib is disposed on the fastening surface of the drying tunnel lower shell 212 to form a first lower sealing groove 216, and a convex rib is disposed on the surface of the residual folded edge 222 to form a second lower sealing groove 226. Wherein first lower seal groove 216 and second lower seal groove 226 cooperate together to form a completed lower seal groove. When the drying tunnel upper shell 211, the drying tunnel lower shell 212 and the air guide channel 22 are assembled, the sealing body can be firstly installed in any one of the upper sealing groove or the lower sealing groove, and then the drying tunnel upper shell 211, the drying tunnel lower shell 212 and the air guide channel 22 are buckled and connected to extrude the sealing body to achieve the sealing effect.

In the second scheme, an upper sealing groove is formed in the buckling surface of the drying tunnel upper shell 211 along the contour line; the fastening surface of the lower drying tunnel shell 212 and the surface of the residual folded edge 222 are of a planar structure; a sealing ring is arranged in the upper sealing groove, and the sealing ring is compressed together with the buckling surface of the drying tunnel lower shell 212 and the surface of the residual folding edge 222.

The difference between this scheme and the first scheme is that only the fastening surface of the drying tunnel upper shell 211 is provided with an upper sealing groove, and the sealing effect is realized by jointly extruding the sealing body by using the fastening surface of the drying tunnel lower shell 212 and the surface of the residual folded edge 222.

In the third scheme, a lower sealing groove is formed on the surface of the residual folding edge 222 and the buckling surface of the lower drying tunnel shell 212 along the contour line; the surface of the buckling surface of the drying tunnel upper shell 211 is of a plane structure; a sealing ring is arranged in the lower sealing groove, and the lower sealing groove and the buckling surface of the drying tunnel upper shell 211 are jointly pressed tightly by the sealing ring.

The difference between this scheme and the first scheme is that only the fastening surface of the lower drying tunnel shell 212 and the surface of the residual folded edge 222 are provided with lower sealing grooves, and the sealing body is extruded by the fastening surface of the upper drying tunnel shell 211 to realize the sealing effect.

In some embodiments of the present invention, as shown in fig. 7, the drying tunnel upper case 211 is provided with a plurality of first coupling structures 217 for coupling with the drying tunnel lower case 212 and a plurality of second coupling structures 218 for coupling with the laundry treating drum 10 of the wall-hanging type laundry treating apparatus.

In the above solution, the second connecting structure 218 is connected and fastened with the laundry processing drum 10, and simultaneously, the drying tunnel lower shell 212 is pressed and compressed, if the first connecting structure 217 between the drying tunnel upper shell 211 and the drying tunnel lower shell 212 has a fault such as looseness, the pressing effect of the second connecting structure 218 still prevents the drying tunnel lower shell 212 from loosening. If the second connecting structure 218 is loosened, the first connecting structure 217 still functions, so that the sealing performance of the drying assembly 20 is not affected. Therefore, the utility model is provided with the connecting structure with two functions, which can improve the overall reliability of the drying component 20 and the fault tolerance rate.

Preferably, the second connecting structure 218 includes a first folding portion formed by folding the edge of the upper drying tunnel shell 211 toward the lower drying tunnel shell 212, and a second folding portion formed by extending the end of the first folding portion; the second folding part is provided with a through hole connected with the clothes treatment drum 10.

It should be noted that the laundry treating drum 10 should be provided with a structure adapted to the second connecting structure 218. For example, when the second connecting structure 218 is provided with a through hole, the laundry treating drum 10 should be provided with a screw post 11, and the second connecting structure 218 is fastened with the laundry treating drum 10 by a screw.

In a further embodiment, as shown in fig. 8, a third connecting structure 227 for connecting with the laundry processing drum 10 of the wall-mounted laundry processing apparatus is provided on an outer side wall of the air guiding channel 22.

In the above-mentioned solution, the wind guiding channel 22 is disposed at the front side of the laundry treating drum 10, and therefore, the third connecting structure 227 for connecting with the laundry treating drum 10 is disposed on the outer side wall of the wind guiding channel 22, which can improve the stability of the connection between the drying module 20 of the present invention and the laundry treating drum 10.

Although the present invention has been described with reference to a preferred embodiment, it should be understood that various changes, substitutions and alterations can be made herein without departing from the spirit and scope of the utility model as defined by the appended claims.

Claims (10)

1. A drying assembly for a wall-mounted clothes treatment device, characterized in that: the method comprises the following steps:

the drying tunnel comprises an air outlet and a mounting opening opposite to the air outlet;

heating device, including the heating pipe with set up in the binding post of heating pipe tip, the heating pipe is installed the drying tunnel is internal, the extending direction of heating pipe with the internal air current direction of drying tunnel is unanimous mutually, binding post installs in the installing port.

2. A drying assembly for a wall-mounted laundry treating apparatus according to claim 1, wherein: the fan is arranged on the fan shell;

the fan shell is connected with the drying tunnel body and used for conveying airflow to the drying tunnel body, and an included angle is formed between the air outlet direction in the fan shell and the air inlet direction in the drying tunnel body.

3. A drying assembly for a wall-mounted laundry treating apparatus according to claim 2, wherein:

the drying tunnel body comprises an upper drying tunnel shell and a lower drying tunnel shell which are mutually buckled, and the fan shell comprises an upper fan shell and a lower fan shell which are mutually buckled;

the drying tunnel lower shell and the fan lower shell are integrally formed.

4. A drying assembly for a wall-mounted laundry treating apparatus according to claim 3, wherein: the drying tunnel further comprises an air guide channel, and an air inlet of the air guide channel is connected with an air outlet of the drying tunnel body;

the outer wall surface of the lower drying tunnel shell is of a plane structure at the air outlet, and the upper drying tunnel shell is of a curved surface structure at the air outlet;

the end part of the air guide channel at the air inlet is provided with a folded edge which is folded outwards;

the outer wall surface of the lower drying tunnel shell is hermetically connected with the surface of part of the folded edges of the air guide channel, and the end part of the upper drying tunnel shell is hermetically connected with the rest folded edges of the air guide channel.

5. A drying assembly for a wall-mounted laundry treating apparatus according to claim 4, wherein:

a sealing gasket mounting groove is formed in the surface of the partial folded edge, a sealing gasket is arranged in the sealing gasket mounting groove, and the sealing gasket is extruded by the outer wall surface of the lower shell of the drying tunnel and the sealing gasket mounting groove together;

or a lower sealing gasket mounting groove is formed in the surface of the partial folded edge, an upper sealing gasket mounting groove is formed in the outer wall surface of the lower shell of the drying tunnel, the lower sealing gasket mounting groove and the upper sealing gasket mounting groove jointly form a sealing gasket mounting groove, and a sealing gasket is arranged in the sealing gasket mounting groove;

or a sealing gasket mounting groove is formed in the outer wall of the lower drying channel shell, a sealing gasket is arranged in the sealing gasket mounting groove, and the sealing gasket mounting groove and the surface of the partial folded edge jointly extrude the sealing gasket.

6. A drying assembly for a wall-mounted laundry treating apparatus according to claim 4 or 5, characterized in that:

the drying tunnel upper shell is provided with a first positioning structure at the air outlet, a second positioning structure is arranged on the residual folded edge of the air guide channel, and the first positioning structure is connected with the second positioning structure.

7. A drying assembly for a wall-mounted laundry treating apparatus according to claim 4 or 5, characterized in that:

an upper sealing groove is formed in the buckling surface of the drying tunnel upper shell along the contour line;

a first lower sealing groove is formed in the upper edge contour line of the buckling surface of the lower drying channel shell, a second lower sealing groove is formed in the upper edge contour line of the residual folded edge, and the second lower sealing groove and the first lower sealing groove jointly form a lower sealing groove matched with the upper sealing groove;

a sealing ring is arranged between the upper sealing groove and the lower sealing groove; or an upper sealing groove is formed in the buckling surface of the drying tunnel upper shell along the contour line;

the surfaces of the buckling surface of the lower shell of the drying tunnel and the residual folded edge are of a planar structure;

a sealing ring is arranged in the upper sealing groove, and the sealing ring is compressed by the upper sealing groove and the surfaces of the buckling surface of the lower shell of the drying tunnel and the residual folded edge together;

or a lower sealing groove is formed in the buckling surface of the lower drying channel shell and the surface of the residual folded edge along the contour line;

the surface of the buckling surface of the drying tunnel upper shell is of a plane structure;

and a sealing ring is arranged in the lower sealing groove, and the lower sealing groove and the buckling surface of the drying tunnel upper shell jointly compress the sealing ring.

8. A drying assembly for a wall-mounted laundry treating apparatus according to claim 4 or 5, characterized in that:

the drying tunnel upper shell is provided with a plurality of first connecting structures used for being connected with the drying tunnel lower shell and a plurality of second connecting structures used for being connected with a clothes treatment drum of the clothes treatment equipment.

9. A drying assembly for a wall-mounted laundry treating apparatus according to any one of claims 1-4, wherein:

the heating pipe comprises a plurality of extension sections which are consistent with the direction of air flow in the drying tunnel body, and besides the extension sections connected with the wiring terminals, bent parts are connected between two ends of each extension section and the adjacent extension sections respectively.

10. A wall-mounted laundry treating apparatus, comprising the drying assembly of any one of claims 1 to 9.

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