CN215906411U - Wall-mounted washing machine - Google Patents

Abstract

The utility model discloses a wall-mounted washing machine, comprising: a bucket assembly. Be provided with the clothing in the bucket subassembly and hold the chamber, be provided with on the bucket subassembly and hold air intake and air outlet that the chamber links to each other with the clothing, outside air passes through the air intake and gets into the clothing and hold the intracavity, and the clothing holds the damp and hot gas in the intracavity and passes through the outside that the air outlet discharged to wall-hanging washing machine. The wall-mounted washing machine system has smooth airflow circulation, good drying effect, no need of a condenser, low cost and low energy consumption, and the airflow of the wall-mounted washing machine is blown out or enters from the upper part or the lower part of the wall-mounted washing machine, so that the hot and humid airflow is prevented from being directly blown to the wall surface when the wall-mounted washing machine exhausts, the hot and humid airflow flowing back into the barrel is reduced, unsmooth air exhaust caused by the fact that the wall blocks an air path is avoided, and the adverse effects of damage of the hot and humid air on the wall surface and the like are avoided.

Description

Wall-mounted washing machine

Technical Field

The utility model relates to the field of household appliances, in particular to a wall-mounted washing machine.

Background

In the related art, the conventional wall-mounted washing machine drying system has the disadvantages of complex structure, higher cost, high energy consumption, unsmooth air flow circulation and poor drying effect. And because the gas vent of wall-hanging washing machine often faces to the wall, when the washing machine of not installing the water-cooled condenser dries the operation and accomplishes, the moist heat gas of exhaust can cause the damage to the wall, in addition, because the wall blocks the problem that the wind path, also often appear airing exhaust not smooth.

SUMMERY OF THE UTILITY MODEL

The present invention is directed to solving at least one of the problems of the prior art. Therefore, an object of the present invention is to provide a wall-mounted washing machine, which has smooth airflow circulation, good drying effect, no need of a condenser, low cost, and low energy consumption, and the airflow of the wall-mounted washing machine of the present invention is blown out or entered from the top or bottom of the wall-mounted washing machine, so as to prevent the hot and humid airflow from directly blowing to the wall surface when the wall-mounted washing machine exhausts, reduce the hot and humid airflow flowing back into the tub, prevent the wall from blocking the air path to cause unsmooth air exhaust, and prevent the hot and humid airflow from damaging the wall surface.

The wall-mounted washing machine according to the present invention includes: a bucket assembly. Be provided with the clothing in the bucket subassembly and hold the chamber, be provided with on the bucket subassembly and hold air intake and air outlet that the chamber links to each other with the clothing, outside air passes through the air intake and gets into the clothing and hold the intracavity, and the clothing holds the damp and hot gas in the intracavity and passes through the outside that the air outlet discharged to wall-hanging washing machine. The wall-mounted washing machine has the advantages of drying function, smooth ventilation, no need of a water-cooled condenser, simple structure, low cost and good drying performance.

In some examples of the present invention, the wall-mounted washing machine further includes a heating assembly disposed on the tub assembly, the heating assembly being provided with a drying tunnel, an inlet end of the drying tunnel being communicated with the air inlet, an outlet end of the drying tunnel being communicated with the laundry receiving chamber, the heating assembly being adapted to heat an air flow flowing through the drying tunnel.

In some examples of the utility model, the tub assembly includes an outer tub and an inner tub. The outer barrel is provided with the air inlet and the air outlet; the inner barrel is arranged in the outer barrel, an airflow cavity is defined between the outer side wall of the inner barrel and the inner side wall of the outer barrel, the airflow cavity is respectively communicated with the air inlet and the air outlet, the clothes containing cavity is formed in the inner barrel, and the airflow cavity is communicated with the clothes containing cavity through the drying channel.

In some examples of the present invention, the air guide member is disposed in the outer tub, the air guide member has a first air guide opening and a second air guide opening, the number of the air guide members is two, the first air guide opening of one of the air guide members is communicated with the air inlet, and the first air guide opening of the other air guide member is communicated with the air outlet.

In some examples of the present invention, the air guide is configured as a box-shaped structure, and a surface of the air guide on a side facing away from the axis of the tub is configured as a first surface on which the second air guide opening is disposed.

In some examples of the present invention, the air guide is configured as a box-shaped structure, and a surface of the air guide facing the outer tub axis is configured as a second surface on which the second air guide opening is provided.

In some examples of the present invention, a surface of the air guide on a side facing away from the tub axis is configured as a first surface, a surface of the air guide on a side facing toward the tub axis is configured as a second surface, and the first surface or the second surface is configured as an arc-shaped face extending around the axis of the tub.

In some examples of the utility model, the heating assembly includes a housing, a heating element, a wind wheel, and a drive member. The shell is arranged on the wall of the outer barrel, and the drying tunnel is formed inside the shell; the heating element is arranged in the drying channel; the wind wheel is rotatably arranged in the drying channel; the driving piece is arranged on the shell and connected with the wind wheel to drive the wind wheel to rotate.

In some examples of the utility model, the housing is formed with a receiving groove recessed towards the inside of the drying tunnel, the receiving groove is suitable for receiving the driving element, and a bottom wall of the receiving groove is provided with a through hole suitable for the output shaft of the driving element to pass through.

In some examples of the present invention, the tub wall is provided with a first drying tunnel interface which is butted with an inlet end of the drying tunnel, the first drying tunnel interface communicates the drying tunnel with the airflow chamber, the first end plate is provided with a second drying tunnel interface which is butted with an outlet end of the drying tunnel, and the second drying tunnel interface communicates the drying tunnel with the laundry chamber.

Additional aspects and advantages of the utility model 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 utility model.

Drawings

The above and/or additional aspects and advantages of the present invention will become apparent and readily appreciated from the following description of the embodiments, taken in conjunction with the accompanying drawings of which:

fig. 1 is a partial structural view of a wall-mounted washing machine according to the present invention;

fig. 2 is a structural view illustrating a tub assembly of a wall-mounted washing machine according to the present invention in a first direction;

fig. 3 is a structural view of a tub assembly of a wall-mounted washing machine according to the present invention in a second direction.

Fig. 4 is a schematic structural view of a wind guide of a wall-mounted washing machine according to the present invention.

Reference numerals:

a wall-mounted washing machine 1;

a tub assembly 10; a laundry accommodation chamber 10 a; an airflow chamber 10 b;

an inner barrel 110; an outer tub 120;

a second end plate 121;

a tub wall 122; a first drying tunnel interface 122 a;

a first end plate 123; a laundry input port 123a, a second drying tunnel interface 123 b;

a heating assembly 20;

a housing 210; an upper case 211, a lower case 212;

a driving member 220;

a wind wheel 230;

a heating member 240;

a drying tunnel 250; a drying tunnel inlet end 250a, a drying tunnel outlet end 250b, an air-gathering chamber 250c, and a heating tunnel 250 d;

an air guide 30;

a second surface 30a, a second air guiding opening 30b, a first surface 30c, a base 30d and a protrusion 30 e.

Detailed Description

Reference will now be made in detail to embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like or similar reference numerals refer to the same or similar elements or elements having the same or similar function throughout. The embodiments described below with reference to the accompanying drawings are illustrative only for the purpose of explaining the present invention, and are not to be construed as limiting the present invention.

A wall-mounted washing machine 1 according to an embodiment of the present invention will be described with reference to fig. 1 to 4.

As shown in fig. 1 to 4, a wall-mounted washing machine 1 according to the present invention includes: a keg assembly 10. A laundry receiving cavity 10a is formed in the tub assembly 10, the laundry receiving cavity 10a is used for storing laundry therein, and the tub assembly 10 can perform a washing operation on the laundry in the laundry receiving cavity 10 a. The barrel component 10 is provided with an air inlet which communicates the clothes accommodating cavity 10a with the outside atmosphere of the washing machine, the air inlet allows cold and dry air flow in the atmosphere to enter the clothes accommodating cavity 10a through the air inlet, the barrel component 10 is provided with an air outlet which communicates the clothes accommodating cavity 10a with the atmosphere, and the air outlet enables the damp and hot air flow after drying operation to leave the clothes accommodating cavity 10 a. The air inlet and the air outlet are respectively connected with the clothes containing cavity 10a, and the clothes containing cavity 10a is communicated with the outside atmosphere through the air inlet and the air outlet, so that the air flow is smooth to circulate.

As shown in fig. 2, an air inlet of the tub assembly 10 is connected to the laundry accommodating chamber 10a, and an air flow which is relatively cool and dry in the atmosphere enters the laundry accommodating chamber 10a through the air inlet, and the heated dry air flow dries the clothes in the laundry accommodating chamber 10 a.

After the heated dry airflow dries the clothes in the clothes accommodating cavity 10a, the hot and dry airflow becomes a relatively damp and hot airflow, and because the clothes accommodating cavity 10a in the tub assembly 10 is connected with the air outlet on the tub assembly 10, the damp and hot airflow entering the clothes accommodating cavity 10a is discharged to the outside of the wall-mounted washing machine 1 from the air outlet to complete the drying operation of the clothes in the clothes accommodating cavity 10 a.

According to the wall-mounted washing machine 1 of the present invention, as shown in fig. 2, a laundry accommodating chamber 10a is provided in the tub assembly, an air inlet and an air outlet connected to the laundry accommodating chamber 10a are provided in the tub assembly, external air enters the laundry accommodating chamber 10a through the air inlet, and humid heat gas in the laundry accommodating chamber 10a is discharged to the outside of the wall-mounted washing machine 1 through the air outlet. The wall-mounted washing machine 1 has the advantages of smooth air flow circulation, good drying effect, no need of a condenser, low cost and low energy consumption, moreover, the air flow of the wall-mounted washing machine 1 is blown out or enters from the upper part or the lower part of the wall-mounted washing machine 1, the phenomenon that the damp and hot air flow is directly blown to the wall surface when the wall-mounted washing machine 1 exhausts is prevented, the damp and hot air flow flowing back into the barrel is reduced, the problem that the air exhaust is unsmooth due to the fact that the wall blocks an air path is avoided, and meanwhile, the adverse effects of the damp and hot air on the wall surface and the like are avoided.

In some embodiments of the utility model, the wall-mounted washing machine 1 further comprises a heating assembly 20. The heating assembly 20 is disposed on the tub assembly 10, the heating assembly 20 is provided with a drying tunnel 250, the drying tunnel 250 is used for guiding airflow to enter the heating assembly 20, a drying tunnel inlet end 250a of the drying tunnel 250 is communicated with an airflow cavity 10b between the inner tub and the outer tub, an outlet end 250b of the drying tunnel is communicated with a clothes accommodating cavity 10a of the inner tub, the heating assembly 20 can heat the airflow passing through the drying tunnel 250, and the heated drying airflow enters the clothes accommodating cavity 10a under the guidance of the drying tunnel 250.

As shown in fig. 2, the air inlet of the tub assembly 10 is connected to the air flow chamber 10b, the cool and dry air flow in the atmosphere enters the air flow chamber 10b through the air inlet, the drying tunnel inlet end 250a is communicated with the air flow chamber 10b, the cool and dry air flow enters the drying tunnel 250 through the drying tunnel inlet end 250a, the drying tunnel outlet end 250b is communicated with the clothes accommodating chamber 10a, the cool and dry air flow is heated in the drying tunnel 250, the temperature of the cool and dry air flow is increased after being heated by the heating assembly 20, the dryness of the cool and dry air flow is increased, the heated dry air flow enters the clothes accommodating chamber 10a through the drying tunnel outlet end 250b, and the heated dry air flow dries the clothes in the clothes accommodating chamber 10 a.

After the heated dry airflow dries the clothes in the clothes accommodating cavity 10a, the hot and dry airflow becomes a relatively damp and hot airflow, because the clothes accommodating cavity 10a and the airflow cavity 10b in the tub assembly 10 are communicated with each other, the damp and hot airflow can enter the airflow cavity 10b from the clothes accommodating cavity 10a, the airflow cavity 10b is connected with the air outlet on the tub assembly 10, and the damp and hot airflow entering the airflow cavity 10b is discharged to the outside of the washing machine from the air outlet, so as to complete the drying operation of the clothes in the clothes accommodating cavity 10 a.

In some embodiments of the present invention, as shown in fig. 2, the tub assembly 10 includes an outer tub 120 and an inner tub 110. An air inlet and an air outlet are arranged on the outer barrel 120 of the barrel assembly 10, the air inlet is an inlet of the wall-mounted washing machine 1 for allowing relatively cold and dry air flow in the atmosphere outside the barrel, the air outlet is an outlet of the barrel assembly 10 for allowing air flow to flow out of the atmosphere, the heated and dry air flow is changed into wet hot air flow after being dried, and the wet hot air flow leaves the wall-mounted washing machine 1 through the air outlet and is discharged into the atmosphere. The inner tub 110 is disposed in the outer tub 120, an airflow cavity 10b is formed by a gap between an inner side wall of the outer tub 120 and an outer side wall of the inner tub 110, the airflow cavity 10b is used for guiding and collecting airflow, the cool and dry airflow enters the drying tunnel 250 from the airflow cavity 10b and is discharged into the clothes accommodating cavity 10a through the drying tunnel 250, and since the airflow cavity 10b and the clothes accommodating cavity 10a are communicated with each other, after the drying operation is completed, the wet hot airflow enters the airflow cavity 10b through the clothes accommodating cavity 10a and leaves the tub assembly 10 through an air outlet on the outer tub 120.

A laundry accommodating chamber 10a is formed in the inner tub 110, a washing operation for laundry is performed in the laundry accommodating chamber 10a, a drying airflow heated in the drying tunnel 250 enters the laundry accommodating chamber 10a to perform a drying operation, the laundry accommodating chamber 10a and the airflow chamber 10b are communicated with each other, and a hot and humid airflow after the drying operation enters the airflow chamber 10b from the laundry accommodating chamber 10 a. The air flow which is relatively cool and dry in the atmosphere can be mixed with the wet and hot air flow after the drying operation is carried out in the air flow chamber 10b, so that the preheating effect of the air flow before the air flow enters the drying tunnel 250 is achieved. The drying device is simple in structure, high in drying efficiency and good in drying effect.

In some embodiments of the present invention, as shown in fig. 2, the outer tub 120 includes a first end plate 123, a second end plate 121, and a tub wall 122. The first end plate 123 is provided with a laundry input port 123a, the laundry input port 123a communicates with the laundry receiving cavity 10a, and laundry is input into the laundry receiving cavity 10a at the laundry input port 123a, so that a washing operation is performed. The first end plate 123 and the second end plate 121 are arranged at an interval, the upper portion of the second end plate 121 is provided with an air inlet and an air outlet, the air inlet and the air outlet are arranged on the upper portion of the second end plate 121, the arrangement meets the characteristic that hot air flow rises and is matched with the appearance surface of the rear panel, relatively cool and dry air flow enters the air flow cavity 10b from the air inlet on the second end plate 121, and wet hot air flow after drying operation in the air flow cavity 10b leaves the wall-mounted washing machine 1 from the air outlet on the second end plate 121.

As shown in fig. 2, the tub wall 122 is a peripheral wall structure of the outer tub 120, an outer peripheral edge of one end of the tub wall 122 is connected to the first end plate 123, an outer peripheral edge of the other end of the tub wall 122 is connected to the second end plate 121, and the tub wall 122 and an outer side wall of the inner tub 110 are spaced apart to form the airflow chamber 10 b. The utility model forms the drying circulation wind path by using a simple structure, simplifies the drying structure and ensures the smoothness of the airflow passage.

In some embodiments of the present invention, as shown in fig. 3, the wind guide 30 is disposed on the second end plate 121 of the tub, and the wind guide 30 is responsible for guiding the airflow to flow into or out of the wall-mounted washing machine 1. The number of the air guide members 30 is two, the air guide member 30 arranged at the air inlet is responsible for guiding cold and dry air flow in the atmosphere, and the air guide member 30 arranged at the air outlet is responsible for guiding out wet and hot air flow after drying operation.

As shown in fig. 4, the air guide 30 has a first air guiding opening and a second air guiding opening 30b, and the first air guiding opening of the air guide 30 responsible for guiding the relatively cool and dry air flow is communicated with the air inlet; the first air guide ports of the air guides 30 responsible for guiding out the hot and humid air flow after the drying operation are communicated with the air outlet, and the second air guide ports 30b of the two air guides 30 are communicated with the outside.

The air guide member 30 has an air guide passage therein, and the air guide passage connects the first air guide opening and the second air guide opening 30b of the air guide member 30. The air flow which is relatively cool and dry in the atmosphere is guided into the air guide channel by the second air guide opening 30b of the air guide member 30 of the air inlet, and the relatively cool and dry air flow enters the air flow cavity 10b through the first air guide opening; the hot and humid air after the drying operation in the airflow chamber 10b is introduced into the air guide channel through the first air guide opening of the air guide member 30 located at the air outlet, and the hot and humid air enters the atmosphere through the second air guide opening 30b and is discharged out of the wall-mounted washing machine 1. This arrangement enables the air flow to be guided and circulated easily.

In some embodiments of the present invention, as shown in fig. 3, the wind guide 30 is configured as a box-shaped structure, a surface of the wind guide 30 facing away from the axis of the outer tub 120 is configured as a first surface 30c, and a surface facing toward the axis of the outer tub 120 is configured as a second surface 30 a. The first surface 30c is provided with a second air guiding opening 30b, an included angle between the air outlet direction of the second air guiding opening 30b and the axis of the outer barrel 120 is beta, and beta satisfies the following conditions: 30 < beta <90 degrees, the arrangement can ensure smooth air flow circulation, reduce the obstruction of the wall surface to air flow, improve the air flow, prevent wind from directly blowing to the wall surface when wind comes out, and reduce the damage of damp and hot air flow to the wall surface.

In some embodiments of the present invention, as shown in fig. 4, the air guide 30 includes a base 30d and a protruding portion 30e, the protruding portion 30e is disposed on the base 30d and protrudes toward a direction away from the second end plate 121, a first air guiding opening is disposed on the base 30d, a second air guiding opening 30b is disposed on the protruding portion 30e, the base 30d and the protruding portion 30e are configured as an integral component, and an air guiding channel for communicating the first air guiding opening and the second air guiding opening 30b is formed in the base 30d and the protruding portion 30 e. The surface of the convex portion 30e facing away from the axis of the outer tub 120 is configured as a first surface 30c, the surface of the convex portion 30e facing toward the axis of the outer tub 120 is configured as a second surface 30a, and the first surface 30c or the second surface 30a is configured as an arc-shaped surface extending around the axis of the outer tub 120, and the arrangement of the arc-shaped surface is matched with the appearance surface of the rear panel.

As shown in fig. 4, the second air guiding opening 30b is provided on the first surface 30c or the second surface 30a of the protruding portion 30e, and an air guiding passage is provided inside the protruding portion 30 e. The second air guiding opening 30b on the protruding portion 30e is responsible for guiding the air from the outside into the air guiding channel, and the air flow in the air guiding channel enters the air flow cavity 10b through the first air guiding opening on the base 30 d; the wet hot air flow after drying operation in the airflow cavity 10b is guided into the air guide channel by the first air guide opening of the other air guide 30, and the wet hot air flow is circulated to the outside air through the second air guide opening 30 b. With the arrangement, the air flow can be blown out from the upper side or the lower side of the wall-mounted washing machine 1 or enter the air guide member 30, so that the condition that the wet and hot air flow is directly blown to the wall surface when the wall-mounted washing machine 1 exhausts is prevented, the wet and hot air flow flowing back into the barrel is reduced, the problem that the wall blocks the air path to cause unsmooth air exhaust is avoided, and adverse effects such as damage of the wet and hot air to the wall surface are avoided.

In some embodiments of the present invention, as shown in fig. 2, the heating assembly 20 includes a housing 210, a wind wheel 230, a driving member 220, and a heating member 240. The housing 210 is disposed on the tub wall 122, and the housing 210 is used for accommodating the wind wheel 230, the driving member 220 and the heating member 240 in the heating assembly 20. The housing 210 is divided into an upper housing 211 and a lower housing 212, the upper housing 211 is provided with a first fastener mounting hole, the lower housing 212 is provided with a second fastener mounting hole opposite to the first fastener mounting hole, and the fastener penetrates through the second fastener mounting hole to be matched with the first fastener mounting hole so as to fix the upper housing 211 and the lower housing 212 in a matching manner.

As shown in fig. 2, a connection platform is provided on the lower casing 212, a connection column corresponding to the connection platform is provided on the inner sidewall of the outer tub 120, and the casing 210 is fixed by the cooperation of the connection platform and the connection column. After the installation is completed, as shown in fig. 3. The upper housing 211 and the lower housing 212 cooperate to define a drying tunnel 250, the drying tunnel 250 configured to direct airflow into and out of the heating assembly 20. The wind wheel 230 is disposed at the inlet end 250a of the drying tunnel 250, the wind wheel 230 rotates to generate negative pressure to suck the airflow from the air inlet into the drying tunnel 250, and the rotation of the wind wheel 230 drives the airflow in the drying tunnel 250 to flow.

As shown in fig. 2, the driving member 220 is disposed on the housing 210, and the braking portion of the driving member 220 is located in the drying tunnel 250, and the driving member 220 drives the wind wheel 230 to rotate to guide the airflow. The heating element 240 is disposed in the drying tunnel 250, and the heating element 240 heats the airflow in the drying tunnel 250 to increase the temperature and dryness of the airflow, so that the airflow reaches the high temperature and dryness required for completing the clothes drying operation. The air flow in the air flow chamber 10b enters the drying tunnel 250 through the drying tunnel inlet end 250a of the housing 210, the driving member 220 drives the air wheel 230 to rotate, the air flow is delivered to the heating member 240 of the heating assembly 20 under the action of the air wheel 230, the heating member 240 heats the air flow, the drying tunnel outlet end 250b is communicated with the clothes accommodating chamber 10a, and the heated drying air flow enters the clothes accommodating chamber 10a through the drying tunnel outlet end 250b, so as to perform the drying operation.

In some embodiments of the present invention, as shown in fig. 2, the drying tunnel 250 of the heating assembly 20 includes two parts, namely, a flow collecting chamber and a heating channel 250d, the flow collecting chamber and the heating channel 250d are connected with each other, the flow collecting chamber is located upstream of the heating channel 250d and connected with the airflow chamber 10b, and the wind wheel 230 is located in the flow collecting chamber; the heating member 240 is provided in the heating passage 250d, and guides the air flow in the flow concentration chamber to the laundry accommodating chamber 10a, the flow concentration chamber and the heating passage 250d communicating with each other.

The housing 210 is provided with a receiving groove recessed toward the inside of the drying tunnel 250, and the receiving groove is used for receiving the driving member 220. Be provided with the constant head tank on the inner wall of holding tank, be provided with the mounting panel on the driving piece 220, be provided with on the mounting panel with the constant head tank just right location protruding, location arch and constant head tank cooperation are fixed driving piece 220 and holding tank. The driving member 220 drives the wind wheel 230 to rotate in the flow collecting cavity, so that the airflow in the airflow cavity 10b is collected in the flow collecting cavity and guided to flow towards the heating channel 250d, a through hole suitable for the output shaft of the driving member 220 to pass through is formed in the bottom wall of the accommodating groove, and the output shaft of the driving member 220 is connected with the wind wheel 230 through the through hole, so that the wind wheel 230 is driven to rotate.

As shown in fig. 2, the heating passage 250d is constructed in an "L" shape, and the heating member 240 is accommodated inside the heating passage 250 d. The relatively cool and dry air flow is conveyed to the L-shaped heating channel 250d by the wind wheel 230 through the flow collecting cavity in the shell 210, the heating channel 250d has a certain length, and the air flow can be sufficiently heated in the air flow channel, so that the heating time of the air flow is prolonged, and the completion effect of the drying operation can be ensured.

The air flow is heated by the heating member 240 to become hot and dry air flow, and is discharged to the laundry accommodating chamber 10a for drying operation. The heating assembly 20 is disposed in such a manner that the space of the small-capacity wall-mounted washing machine 1 can be effectively utilized, and the flow rate of hot and dry air flow is ensured, thereby improving the drying effect.

In some embodiments of the present invention, as shown in fig. 2, the tub wall 122 is provided with a first drying tunnel interface 122a which is butted against an inlet end of the drying tunnel 250, the first drying tunnel interface 122a communicates the drying tunnel 250 with the airflow chamber 10b, and the airflow in the airflow chamber 10b enters the drying tunnel 250 through the first drying tunnel interface 122a, i.e., the drying tunnel inlet end 250 a; the first end plate 123 is provided with a second drying tunnel interface 123b which is in butt joint with the outlet end 250b of the drying tunnel, the drying tunnel 250 is communicated with the clothes accommodating cavity 10a through the second drying tunnel interface 123b, and the heated drying air flow in the drying tunnel 250 enters the clothes accommodating cavity 10a through the drying tunnel outlet end 250b, namely the second drying tunnel interface 123b, so that the drying operation is performed.

According to the wall-mounted washing machine 1 of the embodiment of the present invention, the tub assembly 10 includes the outer tub 120 and the inner tub 110, and the heating assembly 20 includes the housing 210, the wind wheel 230, the driving member 220, and the heating member 240.

In the tub assembly 10, the inner tub 110 is disposed inside the outer tub 120, a gap between an outer sidewall of the inner tub 110 and an inner sidewall of the outer tub 120 is an airflow chamber 10b, a laundry accommodating chamber 10a is formed in the inner tub 110, and the laundry accommodating chamber 10a and the airflow chamber 10b are communicated with each other; the outer tub 120 includes a first end plate 123, a second end plate 121 and a tub wall 122, the second end plate 121 and the first end plate 123 are spaced apart, the first end plate 123 is provided with a laundry input opening 123a communicated with the laundry receiving cavity 10a, an air inlet and an air outlet are provided at an upper portion of the second end plate 121, the tub wall 122 is provided with a first drying tunnel interface 122a butted with the drying tunnel inlet end 250a, and the first end plate 123 is provided with a second drying tunnel interface 123b butted with the drying tunnel outlet end 250 b. The air guide member 30 is disposed on the second end plate 121, and is configured into a box-shaped structure, the air guide member 30 has a first air guide opening (not shown) and a second air guide opening 30b, an air guide channel is further disposed in the air guide member 30, a second air guide opening 30b is disposed on a first surface 30c of the air guide member 30 on a side departing from an axis of the outer tub 120, the first air guide opening of the air guide member 30 located at the air inlet is communicated with the air inlet, the second air guide opening 30b is communicated with the outside, and the first air guide opening is disposed toward the second end plate 121 of the tub assembly; the air guide member 30 includes a base 30d and a protrusion 30e, the protrusion 30e is disposed on the base 30d and protrudes toward a direction away from the second end plate 121, a first air guide opening is disposed on the base 30d, a second air guide opening 30b is disposed on the protrusion 30e, the base 30d and the protrusion 30e are configured as an integral molding, and an air guide channel for communicating the first air guide opening and the second air guide opening 30b is formed in the base 30d and the protrusion 30 e. The surface of the convex portion 30e facing away from the axis of the outer tub 120 is configured as a first surface 30c, the surface of the convex portion 30e facing toward the axis of the outer tub 120 is configured as a second surface 30a, and the first surface 30c or the second surface 30a is configured as an arc-shaped surface extending around the axis of the outer tub 120, and the arrangement of the arc-shaped surface is matched with the appearance surface of the rear panel. The first air guiding opening of the air guiding member 30 positioned at the air outlet is communicated with the air outlet, and the second air guiding opening 30b is communicated with the outside. The included angle between the air outlet direction of the second air outlet 30b and the axis of the outer barrel 120 is beta (30 degrees < beta <90 degrees), so that the air flow is ensured, the air is prevented from directly blowing to the wall surface when air is exhausted, the air quantity loss is avoided, and the loss of damp and hot air flow to the wall surface is reduced.

The heating assembly 20 is disposed on the tub assembly 10. In the heating assembly 20, the housing 210 is used to accommodate the wind wheel 230, the driving member 220 and the heating member 240 in the heating assembly 20, a drying tunnel 250 is provided in the heating assembly 20, an inlet end 250a of the drying tunnel is communicated with the airflow chamber 10b, and an outlet end 250b of the drying tunnel is communicated with the clothes accommodating chamber 10 a. The housing 210 is provided with an accommodating groove, the drying tunnel 250 is formed by connecting an air collecting cavity 250c and a heating channel 250d, the accommodating groove is used for accommodating the driving part 220, and a heating part 240 is arranged in the heating channel 250 d; the driving member 220 is disposed in the receiving groove, the wind wheel 230 is rotatably disposed in the wind collecting cavity 250c, the wind collecting cavity 250c is used for collecting the airflow to enter the drying tunnel 250, and the heating member 240 in the heating tunnel 250d is used for heating the airflow flowing through the heating tunnel 250 d.

When the wall-mounted washing machine 1 works, the relatively cool and dry airflow in the atmosphere enters the air guide channel of the air guide 30 from the second air guide opening 30b of the air guide 30 positioned at the air inlet, the relatively cool and dry airflow enters the airflow chamber 10b through the first air guide opening of the air guide 30, and the relatively cool and dry airflow enters the air collecting chamber 250c of the drying tunnel 250 from the airflow chamber 10b under the action of the wind wheel 230. Under the driving of the driving member 220, the wind wheel 230 guides the relatively cool and dry airflow from the wind gathering chamber 250c into the heating channel 250d, and the temperature of the relatively cool and dry airflow is increased to become hot and dry airflow under the heating of the heating member 240 in the heating channel 250 d. The heated drying air flow enters the laundry accommodating chamber 10a at the drying tunnel outlet end 250b, thereby performing the drying operation. After the drying operation is performed, the damp and hot air flow in the clothes accommodating cavity 10a enters the air flow cavity 10b from the clothes accommodating cavity 10a communicated with the air flow cavity 10b, and the damp and hot air flow in the air flow cavity 10b enters the first air guide opening of the air guide member 30 positioned at the air outlet, then flows to the second air guide opening 30b communicated with the outside through the air guide channel, and is then discharged to the atmosphere, so that the drying operation of the clothes is completed.

The wall-mounted washing machine 1 system provided by the embodiment of the utility model has the advantages of smooth airflow circulation, good drying effect, no need of a condenser, low cost and low energy consumption; the opening direction of the air guide 30 of the wall-mounted washing machine 1 of the embodiment of the utility model is upward or downward, and the air flow is blown out or enters from the upper part or the lower part of the wall-mounted washing machine 1, so that the condition that the wet and hot air flow is directly blown to the wall surface when the wall-mounted washing machine 1 exhausts is prevented, the wet and hot air flow flowing back into the barrel is reduced, unsmooth air exhaust caused by the air path blocked by the wall is avoided, and the adverse effects of the wet and hot air on the wall surface and the like are avoided.

In the description herein, references to the description of the term "one embodiment," "some embodiments," "an illustrative embodiment," "an example," "a specific example," or "some examples" or the like mean 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 utility model. In this specification, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example. 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 utility model have been shown and described, it will be understood by those of ordinary skill in the art that: various changes, modifications, substitutions and alterations can be made to the embodiments without departing from the principles and spirit of the utility model, the scope of which is defined by the claims and their equivalents.

Claims (10)

1. A wall-mounted washing machine, comprising:

the bucket subassembly, it holds the chamber to be formed with the clothing in the bucket subassembly, be provided with on the bucket subassembly respectively with the clothing holds air intake and air outlet that the chamber links to each other, and the outside air passes through the air intake and gets into the clothing and holds the intracavity, and the clothing holds the moist heat gas in the intracavity and passes through the air outlet is discharged.

2. The wall-mounted washing machine according to claim 1, further comprising: the heating assembly is arranged on the barrel assembly, the heating assembly is provided with a drying tunnel, the inlet end of the drying tunnel is communicated with the air inlet, the outlet end of the drying tunnel is communicated with the clothes accommodating cavity, and the heating assembly is suitable for heating air flow flowing through the drying tunnel.

3. The wall mounted washing machine of claim 2, wherein the tub assembly comprises:

the outer barrel is provided with the air inlet and the air outlet;

the inner barrel is arranged in the outer barrel, an airflow cavity is defined between the outer side wall of the inner barrel and the inner side wall of the outer barrel, the airflow cavity is communicated with the air inlet and the air outlet respectively, the clothes containing cavity is formed in the inner barrel, and the airflow cavity is communicated with the clothes containing cavity through the drying channel.

4. The wall-mounted washing machine according to claim 3, further comprising:

the air guide piece is arranged on the outer barrel and provided with a first air guide opening and a second air guide opening, the number of the air guide pieces is two, the first air guide opening of one air guide piece is communicated with the air inlet, and the first air guide opening of the other air guide piece is communicated with the air outlet.

5. The wall-mounted washing machine as claimed in claim 4, wherein the air guide is configured as a box-shaped structure, and a surface of the air guide on a side facing away from an axis of the outer tub is configured as a first surface on which the second air guide opening is provided.

6. The wall-mounted washing machine as claimed in claim 4, wherein the air guide is configured in a box-like structure, and a surface of the air guide facing an axis of the outer tub is configured as a second surface on which the second air guide opening is provided.

7. The wall-mounted washing machine according to claim 4, wherein a surface of the air guide on a side facing away from the tub axis is configured as a first surface, a surface of the air guide on a side facing toward the tub axis is configured as a second surface, and the first surface or the second surface is configured as an arc-shaped surface extending around the axis of the tub.

8. The wall hung washing machine as recited in claim 3, wherein the heating assembly comprises:

the shell is arranged on the barrel wall of the outer barrel, and the drying channel is formed inside the shell;

the heating element is arranged in the drying channel;

the wind wheel is rotatably arranged in the drying channel;

the driving piece is arranged on the shell and connected with the wind wheel to drive the wind wheel to rotate.

9. The wall-mounted washing machine as claimed in claim 8, wherein a receiving groove recessed toward an inside of the drying tunnel is formed on the housing, the receiving groove being adapted to receive the driving member, and a bottom wall of the receiving groove being provided with a through hole adapted to pass the output shaft of the driving member.

10. The wall hanging washing machine as recited in claim 8, wherein the tub wall is provided with a first drying tunnel interface that interfaces with an inlet end of the drying tunnel, the first drying tunnel interface communicating the drying tunnel with the airflow chamber, and the first end panel is provided with a second drying tunnel interface that interfaces with an outlet end of the drying tunnel, the second drying tunnel interface communicating the drying tunnel with the laundry chamber.

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