CN111088676B - Base and clothes treatment device - Google Patents

Abstract

The invention is suitable for the technical field of household appliances, and provides a base and a clothes treatment device. The base comprises a body, a first mounting position and a second mounting position, wherein the first mounting position is used for mounting the air supply fan, and the second mounting position is used for mounting the condenser; the air channel is arranged on the body and used for communicating the condenser with the fan; and the drainage structure is arranged on the body, is communicated with the air duct and is used for discharging the liquid in the air duct. The clothes treatment device comprises a frame and the base, wherein the base is fixed on the frame. In the invention, the drainage structure communicated with the air channel is arranged on the body, so that liquid in the air channel can be discharged out of the air channel through the drainage structure, the liquid in the air channel is prevented from flowing to the first installation position and being taken out by the fan, the fan can be kept dry, and the treatment gas sucked by the fan is kept clean and dry.

Description

Base and clothes treatment device

Technical Field

The invention belongs to the technical field of household appliances, and particularly relates to a base and a clothes treatment device.

Background

The currently used clothes treatment device with clothes drying function, such as washing and drying integrated machine or clothes dryer, has a fan mounted on a base, and the fan enables the processing air needed by clothes during drying to flow circularly, and the condenser is arranged to dehumidify and cool the processing air in damp and hot, so as to change the processing air into low-humidity processing air and realize recycling.

In the condenser in the related art, the dehumidification and temperature reduction treatment is usually performed on the hot and humid treated air by using a water cooling method, and the treated air is easily taken into the fan when flowing in the base.

Disclosure of Invention

In view of the above, embodiments of the present invention provide a base and a clothes treating apparatus to solve the problem that water is carried into a fan and thrown out.

In order to solve the above problems, the technical solution of the embodiment of the present invention is implemented as follows:

a susceptor, comprising: the air conditioner comprises a body, a fan, a condenser and a fan, wherein the body is provided with a first mounting position for mounting the fan and a second mounting position for mounting the condenser; the air channel is arranged on the body and is used for enabling the processing gas to flow to the fan from the condenser; and the drainage structure is arranged on the body, is communicated with the air duct and is used for discharging the liquid in the air duct.

Preferably, the drainage structure is located at least partially within the air duct.

Preferably, the drainage structure includes: the water guide groove is arranged on the body, one end of the water guide groove extends to the second mounting position, and the other end of the water guide groove extends to the first mounting position.

Preferably, the drainage structure further comprises: the separation groove is arranged adjacent to the first installation position, is positioned in the air channel and is used for collecting the liquid flowing to the first installation position; and one end of the water chute, which extends towards the first mounting position, is communicated with the separation groove.

Preferably, the separation groove is disposed perpendicular to or inclined to an extending direction of the water guide groove.

Preferably, the base further comprises: and the drain hole is arranged at one end of the body close to the second mounting position, and the water chute is communicated with the drain hole and is used for discharging liquid in the water chute.

Preferably, the drain hole is provided in the air duct.

Preferably, the base further includes a first side plate and a second side plate which are arranged at an interval, the air duct is formed between the first side plate and the second side plate, and two ends of the separation groove extend towards the first side plate and the second side plate respectively.

Preferably, the drainage structure is disposed at a side close to the second sidewall.

The embodiment of the invention also provides a clothes treatment device which comprises a rack and the base, wherein the base is fixed on the rack.

The base provided by the embodiment of the invention comprises a body, wherein a first mounting position for mounting a fan and a second mounting position for mounting a condenser are arranged on the body at intervals; and meanwhile, the body is also provided with an air channel for the processing gas to flow from the condenser to the fan, and the body is provided with a drainage structure communicated with the air channel for discharging the liquid in the air channel. Through the arrangement, liquid in the air duct can be discharged out of the air duct through the drainage structure, and the liquid in the air duct is prevented from flowing to the first installation position and being carried out by the fan. Through setting up drainage structures promptly, can in time discharge the liquid in the wind channel, make the fan keep dry, and then make the processing gas that the fan sucked keep clean, dry.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present invention, the drawings needed to be used in the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art that other drawings can be obtained based on these drawings without creative efforts.

FIG. 1 is an exploded view of a base provided in accordance with an embodiment of the present invention;

FIG. 2 is a schematic structural diagram of a body according to an embodiment of the present invention;

FIG. 3 is a schematic structural diagram of another body according to an embodiment of the present invention;

FIG. 4 is a schematic cross-sectional view of a base provided in accordance with an embodiment of the present invention;

fig. 5 is an enlarged schematic view at a in fig. 4.

Description of reference numerals:

1. a base; 10. a flow guide member; 11. a body; 111. a first mounting location; 112. a second mounting location; 113. a first connecting structure; 114. a water stop member; 115. a water collection tank; 12. an air duct; 13. a drainage structure; 131. a water chute; 132. a separation tank; 14. an air guide member; 141. a first air deflector; 1411. a wind guide structure; 142. a second air deflector; 15. a drain hole; 16. a first side plate; 17. a second side plate; 18. an upper cover; 181. a first cover body; 182. a second cover body; 183. a second connecting structure; 19. a water blocking member; 3. a condenser.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is described in further detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

The individual features described in the embodiments can be combined in any suitable manner without departing from the scope, for example different embodiments and solutions can be formed by combining different features. In order to avoid unnecessary repetition, various possible combinations of the specific features of the invention will not be described further.

As shown in fig. 1, a base 1 provided in the embodiment of the present invention is mainly used in a laundry processing apparatus having a laundry drying function, such as a clothes dryer or a washing and drying all-in-one machine. And the base 1 is provided for installation of at least parts for performing a laundry drying function, such as a condenser 3 and a blower. The working principle of the clothes drying treatment of the clothes treatment device is as follows: the air passes through the heater and is heated into hot and dry processing gas, the processing gas passes through wet clothes to become internal temperature and humidity gas, then the temperature and humidity gas passes through the condenser 3 to separate out water, and becomes cold and dry processing gas and is directly discharged, of course, the drying gas can also be input into the heater again to be heated again to become hot and dry processing gas, and the aim of drying the wet clothes is achieved by circulating and changing. In the process of drying clothes, the circulating flow of the processing gas is realized by the fan, the position of the fan can be arranged between the condenser and the heater, the processing gas cooled and dried in the condenser is sucked by the fan and blown into the heater, so that the circulating flow of the processing gas among all parts is realized. Of course, the position of the fan can be set at other positions as long as the driving of the gas can be realized.

As shown in fig. 1 and 2, the base 1 includes a body 11, a duct 12, and a drainage structure 13. Specifically, the body 11 is provided with a first mounting position 111 for mounting the blower and a second mounting position 112 for mounting the condenser 3 at intervals. The first mounting position 111 and the second mounting position 112 may be disposed in a manner that their center lines are on the same straight line and are spaced from each other; the first mounting position 111 and the second mounting position 112 may be arranged such that their center lines are not aligned with each other and are spaced apart from each other. And the duct 12 is disposed on the body 11 between the first mounting position 111 and the second mounting position 112 for the process gas to flow through. Thus, the processing gas is discharged from the condenser 3, enters the air duct 12, and flows along the air duct 12 to the fan. However, when the process air flows through the air duct 12, there is a problem that the water in the condenser 3 flows into the air duct 12 and is carried out by flowing into the fan along with the process air. Therefore, the drainage structure 13 is disposed on the body 11 for draining the liquid in the air duct 12. The drainage structure 13 communicates the air duct 12 with the outside of the air duct 12. With the arrangement, the liquid flowing into the air duct 12 can enter the drainage structure 13, and then the liquid flowing out is timely discharged out of the air duct 12 through the drainage structure 13, so that the liquid flowing out is prevented from being brought into the first installation position 111 along with the processing gas and finally thrown out by the fan.

Specifically, the drainage structure 13 may be disposed in various ways, and may be formed on a side wall forming the air duct 12, such as a hole or a groove, for communicating the inside and the outside of the air duct 12. In the embodiment of the present invention, at least a portion of the drainage structure 13 is disposed in the air duct 12, and the rest portion of the drainage structure 13 extends from the inside of the air duct 12 to the outside of the air duct 12 and penetrates out of the air duct 12, so as to drain the liquid in the air duct 12 to the outside of the air duct 12.

Since the flow of the process gas in the air duct 12 is mainly achieved by the suction of the fan, in order to make the liquid in the air duct 12 flow toward the drain structure 13 as much as possible, the end of the air duct 12 having the drain structure 13 may be positioned lower than the end where the fan is positioned. Thus, the liquid in the air duct 12 will automatically flow to the drainage structure 13, which facilitates the drainage of the liquid in the air duct 12.

As shown in fig. 2, the drainage structure 13 includes a water chute 131. The water chute 131 is provided in the main body 11, and one end of the water chute 131 extends toward the second mounting location 112, and the other end of the water chute 131 extends toward the first mounting location 111. The arrangement is such that the liquid can be guided away from the first installation position 111 as far as possible, and the length of the water chute 131 in the air duct 12 is extended as long as possible, so as to have more liquid collecting area, and the liquid in the air duct 12 can flow into the water chute 131 in time and be discharged. Specifically, the extended end of the water chute 131 is generally disposed in a straight line. Of course, the liquid that has been installed and flowed into the water guide channel 131 can be discharged smoothly and in time, and the extended end of the water guide channel 131 may be installed in a bent manner.

The water chute 131 is formed by being recessed into the main body 11, and thus, in order to allow the liquid in each position of the air duct 12 to flow into the water chute, a plurality of drainage ports communicating with the water chute 131 may be provided in the main body 11 to drain the liquid into the water chute 131. This can further enhance the effect of collecting and flowing the liquid in the air duct 12 into the water chute 131.

As shown in fig. 2, the drainage structure 13 further includes a separation groove 132. The separation groove 132 is disposed adjacent to the first mounting position 111 and in the air duct 12 to collect the liquid flowing to the first mounting position 111, and an end of the water guide groove 131 extending toward the first mounting position 111 communicates with the separation groove 132. Thus, the liquid flowing to the first mounting portion 111 can be collected by the separation groove 132, and the liquid can be prevented from entering the first mounting portion 111. And the separation groove 132 is communicated with the water guide groove 131, so that the liquid flowing into the separation groove 132 can flow to the drain hole through the water guide groove 131 and finally be drained by the drain hole.

As shown in fig. 2, in a practical arrangement, it may be adopted to arrange the separation groove 132 perpendicularly or obliquely to the extending direction of the water chute 131. That is, both ends of the separation groove 132 extend perpendicularly or obliquely toward the opposite side walls of the air path 12, and are preferably connected to the opposite side walls of the air path 12, respectively. In this way, the separation groove 132 serves to further block the liquid from flowing into the first mounting position 111, and reliably prevents the liquid in the air duct 12 from being brought into the fan.

As shown in fig. 1 and 2, the base 1 further includes a drain hole 15. The drainage hole 15 is disposed at an end of the body 11 near the second mounting position 112, and the water chute 131 is communicated with the drainage hole 15 for draining the liquid in the water chute 131. That is, the main body 11 is provided with the drainage hole 15, and the liquid in the water chute 131 is finally discharged through the drainage hole 15. The drain hole 15 may be connected to a liquid collecting device to collect the drained liquid.

As shown in fig. 2, the water discharge hole 15 is provided in the air duct 12 near one end of the second mounting location 112, i.e., near the condenser 3. And the entire drain structure 13 is also located within the air duct 12. With this arrangement, the liquid in the air duct 12 can enter the drainage structure 13 from any position of the drainage structure 13, and the liquid flowing into the drainage structure 13 flows in the direction of the drainage hole 15, and is finally discharged through the drainage hole 15.

Specifically, the drainage hole 15 may be disposed in a plurality of ways, and may be disposed on a side wall forming the air duct 12, and the lowest position of the drainage hole 15 is flush with the bottom of the air duct 12 or lower than the bottom of the air duct 12, so as to communicate the inside of the air duct 12 with the outside of the air duct 12, so as to ensure that the liquid in the air duct 12 can flow to the drainage hole 15. One end of the drain hole 15 may be directly disposed in the air duct 12, and the other end may extend to the outside of the air duct 12 toward the side of the air duct 12, so that the air duct 12 and the outside of the main body 11 can be communicated with each other. In the embodiment of the present invention, one end of the drainage hole 15 is disposed in the air duct 12, and the other end of the drainage hole 15 penetrates to the bottom of the body 11. Namely, the drain hole 15 is provided in the air duct 12, extends toward the thickness direction of the bottom of the body 11, and penetrates the bottom of the body 11, so that the smoothness of the liquid discharged from the drain hole 15 can be improved.

As shown in fig. 2, the base 1 further includes a water stop 114. The water stop member 114 is disposed in the air duct 12 and spaced apart from the second mounting position 112, a water collecting tank 115 is formed between the water stop member 114 and the second mounting position 112, the water discharge hole 15 is located in the water collecting tank 115, and the water guide tank 131 may also be communicated with the water collecting tank 115. Specifically, the water stop member 114 may be a plate-shaped member protruding from the body 11, and two ends of the water stop member 114 are connected to two opposite side walls of the air duct 12, and a notch is formed at a position of the water stop member 114 at least close to the water discharge hole 15, so that the water collection tank 115 can communicate with the air duct 12. With this arrangement, the liquid flowing out of the condenser 3 is first blocked by the water stop 114, and the liquid can be prevented from directly flowing into the air duct 12. Of course, it is understood that in some other possible embodiments, the water stop 114 may be a groove recessed into the body 11, which also can collect the liquid flowing out.

As shown in fig. 1 and 2, the base 1 further includes two first side plates 16 and two second side plates 17 arranged at intervals, and the air duct 12 is formed between the first side plates 16 and the second side plates 17. One end of the first side plate 16 and one end of the second side plate 17 extend to at least the first mounting position 111, and the other end of the first side plate 16 and the other end of the second side plate 17 extend to at least the second mounting position 112. This arrangement ensures the integrity of the wind tunnel 12 between the first mounting location 111 and the second mounting location 112, preventing leakage of process gases within the wind tunnel 12. In this arrangement, the two ends of the partition slot 132 extend towards the first side plate 16 and the second side plate 17, and are preferably connected to the first side plate 16 and the second side plate 17.

As shown in fig. 2, in the embodiment of the present invention, it is adopted that the drain structure 13 is provided at a side close to the second side plate 17. With this arrangement, not only can the liquid in the air duct 12 be collected, but also the water discharge structure 13 is prevented from interfering with the flow of the process gas in the air duct 12, and the smoothness of the flow of the process gas is ensured.

As shown in fig. 1 and 2, in order to improve the smoothness of the flow of the process gas in the air duct 12, an air guide 14 is provided in the air duct 12 to guide the flow of the process gas. That is, while the process gas flows in the air duct 12, the smoothness of the flow of the process gas can be improved by the guide of the air guide 14, the process gas can flow to the fan from the condenser 3 at a high speed, the staying time of the process gas at the first mounting position 111 can be reduced, and the process gas in the air duct 12 can be led out at a high speed.

As shown in fig. 1 and 2, the wind guide 14 includes a first wind guide plate 141. The first air guiding plate 141 is disposed at an end of the air duct 12 close to the first mounting position 111 for guiding the process gas to flow toward the fan. The first air guiding plate 141 is provided with an air guiding structure 1411 for guiding the flow of the process gas. As described above, when the process gas passes through the first air guide plate 141 in the air duct 12, the process gas can be guided by the air guide structure 1411 to flow in the direction of the fan, and the speed of the process gas flowing by the suction of the fan can be increased, thereby improving the smoothness of the process gas flowing in the air duct 12.

As shown in fig. 1 and fig. 2, in the embodiment of the present invention, the air guiding structure 1411 is preferably configured as an inclined plane, and the inclined plane is gradually curved toward the direction of the fan. In this way, the whole first air guiding plate 141 is in an arc shape gradually and continuously curved, and the curved direction faces the direction of the suction port of the fan, so that the processing gas can flow towards the direction of the suction port of the fan through the guidance of the air guiding structure 1411.

As shown in fig. 1 and 2, the air guide 14 further includes a second air guide plate 142. The second air guiding plate 142 is disposed at an end of the air duct 12 close to the second mounting position 112, and the second air guiding plate 142 extends toward the first air guiding plate 141 and is spaced from or connected to the first air guiding plate 141. Specifically, the second air guiding plate 142 may be a flat straight plate or a curved arc plate, and is preferably configured to guide the flow of the processing gas and enhance the smoothness of the flow of the processing gas. In the embodiment of the present invention, the second air guiding plate 142 is a flat straight plate and is connected to the first air guiding plate 141. In addition, along the extending direction of the second air guiding plate 142, the distance between the second air guiding plate 142 and the inner wall of the air duct 12 corresponding to the bending direction of the air guiding structure 1411 gradually approaches. In this way, the processing gas is gradually collected in the process of flowing along the second air guiding plate 142, so that the processing gas can be intensively flowed to the fan.

As another implementation manner of the structure of the second air guiding plates 142, as shown in fig. 3, a plurality of second air guiding plates 142 may be arranged at intervals along the length direction of the air duct 12, and the second air guiding plates 142 are arranged on the same straight line. One second air guiding plate 142 closest to the first air guiding plate 141 is spaced from or connected to the first air guiding plate 141, and the other two adjacent second air guiding plates 142 are spaced from each other. With the arrangement, at least under the communication effect of the gap formed between the two adjacent second air guiding plates 142 arranged at intervals, the whole air duct 12 can still keep the mutual communication of the areas under the separation of the second air guiding plates 142, so that the flow direction of the processing gas can be automatically selected before the processing gas passes through the first air guiding plates 141 in the flowing process, and the function of improving the smoothness of the flow of the processing gas is achieved.

As shown in fig. 2, one end of the second air guiding plate 142 close to the second mounting location 112 is spaced apart from the second mounting location 112. In this way, the integrity of the end of the air chute 12 adjacent the second mounting location 112 is assured and is not partitioned. After the processing air flowing out of the condenser 3 enters the air duct 12, the flow direction can be selected according to the actual flow condition, and more processing air can flow to the fan by combining the suction effect of the fan.

As shown in fig. 1 and 2, the air guide 14 disposed in the air duct 12 is not connected to the first side plate 16 and the second side plate 17, so as to prevent the air guide 14 from blocking the air duct 12.

As shown in fig. 1 and 2, the base 1 further includes a flow guide 10. The baffle 10 is disposed at least at one end of the air duct 12 adjacent to the second mounting position 112 for guiding the process gas output from the condenser 3 to the fan. In this way, after the processing gas is discharged from the condenser 3 and enters the air duct 12, the processing gas can first flow toward the position of the air guide 14 by being guided by the air guide 10 during the flow, and the smoothness of the flow of the processing gas is improved.

Specifically, the flow guide member 10 may be a flat plate that is obliquely disposed on the premise of guiding the flow of the process gas. In the embodiment of the present invention, as shown in fig. 2, the baffle 10 is bent toward the first side plate 16. Thus, the flow guiding member 10 is a curved arc-shaped surface, and two ends of the flow guiding member 10 are fixedly connected with the second side plates 17 respectively. Thereby, it plays a role of effectively guiding the process gas to flow from the condenser 3 to the blower.

As shown in fig. 1 and 4, in the embodiment of the present invention, the base 1 further includes an upper cover 18 and a water stopper 19. Specifically, the upper cover 18 is assembled on the body 11 in a covering manner and is connected with the body 11. The upper cover 18 covers at least the condenser 3 and the air duct 12 after covering, and it may be difficult to completely attach the upper cover 18 to the condenser 3, i.e., a gap may be formed between a bottom surface (i.e., a surface facing the condenser 3) of the upper cover 18 and an upper surface (i.e., a surface facing the upper cover 18) of the condenser 3. In order to prevent the process gas from carrying out water on the upper surface of the upper cover 18 and/or the condenser 3 when passing through the gap, a water stopper 19 is provided at a position of the upper cover 18 adjacent to the condenser 30, and the water stopper 19 is provided on the upper cover 18 and extends toward the body 11 in the height direction. In this way, the gap is blocked by the water blocking member 19, so that the processing gas is prevented from flowing through the gap or the speed of the processing gas flowing through the gap is reduced, the water on the upper surface of the upper cover 18 and/or the condenser 3 can be blocked from flowing out, the water is prevented from entering the air duct 12, the processing gas in the air duct 12 can be kept dry, and the reliability of drying the clothes is improved.

As shown in fig. 3 and 4, the upper end of the water stop 19 is fixedly connected to the upper cover 18, and the lower end extends toward the bottom of the body 11, and the distance between the lower end of the water stop 19 in the height direction and the upper cover 18 is greater than the gap between the upper surface of the condenser 3 and the upper cover 18. In this way, the water stopper 19 is provided so as to extend toward the body 11 by a length sufficient to block the gap between the bottom surface of the upper cover 18 and the upper surface of the condenser 3, thereby reliably preventing the process gas from flowing through the gap or reducing the speed of the process gas flowing through the gap, and further blocking the water on the upper surface of the upper cover 18 and/or the condenser 3 from flowing out.

Specifically, the water stopper 19 may be circumferentially disposed according to the shape of the shell of the condenser 3, and an extended end of the water stopper 19 may be provided with an inclined plane and/or an inclined curved surface for guiding so as to provide a guiding function for an assembling position between the water stopper 19 and the condenser 3 when the upper cover 18 is coupled with the body 11. In the embodiment of the present invention, since the drying air is easily discharged from the tail end of the condenser 3 under the suction of the blower, water is carried over from the upper surface of the tail end of the condenser 3. The tail end refers to the end of the condenser 3 farthest from the air duct 12. Therefore, the water blocking member 19 is provided at a position corresponding to the upper surface (upper left end in fig. 4) of the upper cover 18 and the rear end of the condenser 3, and extends in the width direction of the rear end of the condenser 3 by a length greater than or equal to the width of the rear end of the condenser 3, and the water blocking member 19 is preferably provided in parallel with a side of the condenser 3 away from the air duct 12. Thus, the water can be prevented from flowing out from the rear end of the condenser 3 under the block of the water stopper 19. And the water deflector 19 is preferably provided as a plate-like member.

As shown in fig. 1, the upper cover 18 includes a first cover body 181 and a second cover body 182. The first cover 181 covers the condenser 3; the second cover 182 covers the air duct 12. Wherein, the first cover body 181 is connected with the second cover body 182, and the water blocking piece 19 is arranged on the first cover body 181. Specifically, the first cover 181 and the second cover 182 are connected correspondingly according to the positions of the condenser 3 and the air duct 12 on the body 11, so as to reliably cover the condenser 3 and the air duct 12.

As shown in fig. 4 and 5, the body 11 is provided with a first connecting structure 113, the upper cover 18 is provided with a second connecting structure 183, and the first connecting structure 113 is connected to the second connecting structure 183. In this way, the first connecting structure 113 and the second connecting structure 183 are connected to each other, so that the upper cover 18 is covered on the base and can be stably connected to the main body 11. Specifically, in practical arrangement, the first connecting structure 113 may be configured as a connecting groove, and the second connecting structure 183 may be configured as a connecting protrusion; or the first connecting structure 113 is configured as a connecting protrusion and the second connecting structure 183 is configured as a connecting groove. When the connection is made, the connection projection is inserted into the connection groove, and the positioning of the connection position between the body 11 and the upper cover 18 is achieved. Also, the fixed connection between the body 11 and the upper cover 18 may be achieved by providing the coupling protrusion to be caught in the coupling groove. Of course, it will be understood that the fixed connection between the body 11 and the upper cover 18 may also be achieved by screw-type fasteners.

The embodiment of the invention also provides a clothes treatment device, which at least has a clothes drying function, so that the wet clothes can be treated into dry clothes. Or both the washing and drying functions. The clothes processing device comprises a frame and the base 1, wherein the base 1 is fixed on the frame. The above-described base 1 can reliably prevent water on the upper surface of the upper cover and/or the condenser from flowing out. The base 1 has a function of guiding the smooth flow of the processing gas, so that the smoothness of the flow of the processing gas can be improved during the clothes drying process. Meanwhile, the base 1 also has a water drainage function, water in the air duct 12 can be drained in time, and the problem that the effect of drying clothes is affected because the water in the air duct 12 is brought into a fan is avoided. Therefore, the clothes treatment device effectively improves the efficiency of clothes drying treatment by using the base 1, and meets the use requirement of clothes drying treatment by adopting the clothes treatment device.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention, and any modifications, equivalents and improvements made within the spirit and principle of the present invention are intended to be included within the scope of the present invention.

Claims (7)

1. A susceptor, comprising:

the air conditioner comprises a body, a fan, a condenser and a fan, wherein the body is provided with a first mounting position for mounting the fan and a second mounting position for mounting the condenser;

the air channel is arranged on the body and used for communicating the condenser with the fan;

the drainage structure is arranged on the body, is communicated with the air duct and is used for discharging liquid in the air duct; the drainage structure is at least partially positioned in the air duct;

the water stopping piece is arranged in the air channel and is spaced from the second installation position, and a water collecting tank is formed between the water stopping piece and the second installation position;

the drainage structure includes:

the water chute is arranged on the body, extends from the second mounting position to the first mounting position, and has the extending direction consistent with the length direction of the air duct; the water guiding groove is communicated with the water collecting groove;

the separation groove is arranged adjacent to the first installation position, is positioned in the air channel and is used for collecting the liquid flowing to the first installation position;

one end of the water guide groove, which extends towards the first installation position, is communicated with the separation groove and is used for guiding liquid collected in the separation groove to the drain hole through the water guide groove.

2. The base as claimed in claim 1, wherein the separation channel is disposed vertically or obliquely to an extending direction of the water guide channel.

3. The base of claim 1, wherein the base further comprises:

and the drain hole is arranged at one end of the body close to the second mounting position, and the water chute is communicated with the drain hole and is used for discharging liquid in the water chute.

4. The base of claim 3, wherein the drain holes are disposed within the air channel.

5. The base of claim 1, wherein the base further comprises two first and second spaced apart side plates, the air channel being formed between the first and second side plates, and wherein the two ends of the partition slot extend toward the first and second side plates, respectively.

6. The base of claim 5, wherein the drainage structure is disposed adjacent to a side of the second sidewall.

7. A laundry treatment apparatus, comprising a frame and a pedestal according to any one of claims 1 to 6, the pedestal being secured to the frame.

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