CN217351853U - Clothes treatment device - Google Patents

Abstract

The utility model provides a clothes treatment device, it includes: the rear barrel comprises a rear barrel inner wall, the inner barrel comprises an inner barrel outer wall, and the rear barrel condensation part comprises a space formed by the rear barrel inner wall and the inner barrel outer wall, a rear barrel spray pipe, a rear barrel inner wall and an inner barrel outer wall; the main condensation part comprises a condensation air duct arranged on the outer wall of the rear cylinder and a condenser spray pipe arranged on the condensation air duct; the three-way pipe comprises a rear barrel spray pipe, a condenser spray pipe and a water inlet pipe, one end of the rear barrel spray pipe is communicated with the water inlet pipe, the other end of the rear barrel spray pipe extends into the rear barrel, one end of the condenser spray pipe is communicated with the water inlet pipe, and the other end of the condenser spray pipe extends into the condensation air duct. The utility model discloses form two chills and congeal the structure, improved dehumidification efficiency, improved condensation efficiency, effectively solved the lower problem of condensation efficiency.

Description

Clothes treatment device

Technical Field

The utility model relates to a laundry and dry clothing technical field, concretely relates to clothing processing apparatus.

Background

The washing and drying all-in-one machine on the existing market structurally only has one condensation air duct or does not have the condensation air duct, and the condensation air duct of single structure leads to the problem that the gaseous condensation efficiency of ubiquitous stoving is low in the drying process, and the condensation efficiency is poor to lead to the clothing long-consuming time in dehumidification stage, and power consumption is big. The utility model provides a following technical problem:

because the all-in-one of washing and drying among the prior art has the gaseous condensation inefficiency of stoving, and condensation efficiency is poor to lead to the clothing to be long consuming time in the dehumidification stage, power consumption technical problem such as big, consequently the utility model discloses a clothing processing apparatus is designed in the research.

SUMMERY OF THE UTILITY MODEL

Therefore, the to-be-solved technical problem of the utility model lies in overcoming the washing and drying all-in-one among the prior art and having the drying gas condensation inefficiency, and the condensing efficiency is poor to lead to the clothing long consuming time in dehumidification stage, defect that power consumption is big to a clothing processing apparatus is provided.

In order to solve the above problems, the present invention provides a laundry treating apparatus, which includes:

the condensation heat exchanger comprises a rear barrel, an inner barrel, a main condensation part, a rear barrel condensation part and a three-way pipe, wherein the main condensation part is communicated with the rear barrel condensation part through a vent pipe, the rear barrel comprises a rear barrel inner wall, the inner barrel comprises an inner barrel outer wall, the rear barrel condensation part comprises a space formed by the rear barrel inner wall and the inner barrel outer wall, a rear barrel spray pipe, a rear barrel inner wall and an inner barrel outer wall, and the rear barrel spray pipe can spray water to the damp and hot air in the rear barrel to perform condensation heat exchange; the main condensation part comprises a condensation air channel arranged on the outer wall of the rear cylinder and a condenser spray pipe arranged on the condensation air channel, and the condenser spray pipe can spray water to the hot and humid air entering the condensation air channel to carry out condensation heat exchange;

the three-way pipe comprises the rear barrel spray pipe, the condenser spray pipe and the water inlet pipe, one end of the rear barrel spray pipe is communicated with the water inlet pipe, the other end of the rear barrel spray pipe extends into the rear barrel, one end of the condenser spray pipe is communicated with the water inlet pipe, and the other end of the condenser spray pipe extends into the condensation air channel.

In some embodiments, a control valve is disposed on at least one of the rear canister shower, the condenser shower, and the inlet tube; and/or the rear cylinder spray pipe can spray water to the damp and hot air in at least one of the inner wall of the rear cylinder, the outer wall of the inner cylinder and the space formed by the inner wall of the rear cylinder and the outer wall of the inner cylinder so as to carry out condensation heat exchange.

In some embodiments, the rear barrel is provided with a first air outlet and a second air outlet, the condensation air duct is provided with a first air inlet and a second air inlet, the first air outlet is communicated with the first air inlet to guide the moist hot air inside the rear barrel into the condensation air duct, the second air outlet is communicated with the second air inlet through a vent pipe to guide the air inside the rear barrel condensed by the rear barrel into the condensation air duct, one end of the vent pipe is communicated with the inside of the rear barrel, the other end of the vent pipe extends into the inside of the condensation air duct to be communicated with the condensation air duct, and the vent pipe is located outside the rear barrel.

In some embodiments, the projection of the structure combining the vent pipe and the condensation air duct on the horizontal plane is formed into a Y-shaped air duct.

In some embodiments, the first air outlet is located below the second air outlet, and the first air inlet is located below the second air inlet.

In some embodiments, the second air outlet is disposed above the central axial hole of the rear barrel, and the second air outlet is disposed at an upper end of the circumferential wall of the rear barrel or on the rear barrel wall of the rear barrel.

In some embodiments, when the second air outlet is disposed at the upper end of the circumferential wall of the rear barrel, the center line of the second air outlet is downward along the vertical direction; when the second air outlet is arranged on the rear cylinder wall of the rear cylinder, the central line of the second air outlet is perpendicular to the rear cylinder wall of the rear cylinder.

In some embodiments, when the second air outlet is disposed at the upper end of the circumferential wall of the rear barrel, in the projection plane of the rear barrel wall, the second air outlet is located right above the central axial hole of the rear barrel, or the second air outlet is offset from the position right above the central axial hole of the rear barrel;

when the second air outlet is offset from the position right above the central shaft hole of the rear cylinder, an offset angle of 0-120 degrees is formed between the center of the second air outlet and the central connecting line of the central shaft hole and the vertical direction.

In some embodiments, when the second air outlet is disposed on the rear barrel wall of the rear barrel, the second air outlet is located directly above the central shaft hole of the rear barrel or offset from the central shaft hole of the rear barrel; when the second air outlet is offset from the position right above the central shaft hole of the rear cylinder, an offset angle of 0-120 degrees is formed between the center of the second air outlet and the central connecting line of the central shaft hole and the vertical direction.

In some embodiments, the condensation air duct is a channel structure having at least three channels, and a third air outlet is further disposed on the condensation air duct, and the third air outlet can convey air in the condensation air duct into the heating air duct.

In some embodiments, when the condensation air duct is further provided with a third air outlet, the laundry treatment device further includes a heating air duct and a heater, the heating air duct has an air suction port, the air suction port is communicated with the third air outlet on the condensation air duct, the other end of the heating air duct can be communicated with the inner barrel and/or the rear barrel, and the heater is disposed in the heating air duct.

The utility model provides a pair of clothes treatment device has following beneficial effect:

the utility model discloses a main condenser includes the condensation wind channel that sets up on the outer wall of the back section of thick bamboo and sets up the condenser shower on the condensation wind channel, makes the condenser shower can spray water to the damp and hot air that gets into in the condensation wind channel to carry out the condensation heat transfer, and still includes the space that back section of thick bamboo inner wall and inner tube outer wall constitute, back section of thick bamboo shower, back section of thick bamboo inner wall and inner tube outer wall through the back section of thick bamboo condensation portion simultaneously, the back section of thick bamboo shower can spray water to the damp and hot air of at least one of the space that back section of thick bamboo inner wall, inner tube outer wall and back section of thick bamboo inner wall and inner tube outer wall constitute to carry out the condensation heat transfer, makes the double condensation structure that main condensation portion and back section of thick bamboo condensation portion both carry out the condensation cooling to the damp and hot air simultaneously, has improved dehumidification efficiency, has improved condensation efficiency, has effectively solved washing and drying all-machine overall arrangement and has restricted condenser mostly the less passageway in space, the problem of low condensation efficiency caused by inconvenient full contact between the steam and an external water source is solved, the existing space is reasonably utilized, and the contact path between the steam and the external water source in the air circulation process is prolonged, so that the condensation efficiency is improved, and the drying efficiency of the washing and drying machine is improved; the utility model also integrates the condensate pipe into a whole through a three-way pipe, comprising a rear cylinder spray pipe and a condenser spray pipe, can simultaneously spray a condensation air channel and condensation lines in the rear cylinder, achieves the effect of simultaneous condensation, and can control each spray pipe to be opened or closed according to requirements, so that double condensation can be opened simultaneously when the drying effect needs to be increased, thereby increasing the condensation drying effect; when the drying effect (the later drying stage) needs to be reduced, one of the condensing parts is closed to reduce the drying effect, reduce the energy waste and reduce the damage to the clothes in the later drying stage.

Drawings

Fig. 1 is a schematic perspective view of a clothes treating apparatus according to the present invention;

FIG. 2 is a rear view schematically illustrating the structure of the laundry treating apparatus according to the present invention;

FIG. 3 is a view showing the structure of the Y-shaped condensing duct (combining the condensing duct, the tee pipe and the vent pipe) of the clothes treating apparatus of the present invention;

fig. 4 is a rear structure view of a laundry treating apparatus according to an alternative embodiment of the present invention.

The reference numerals are represented as:

1. a breather pipe; 2. a three-way pipe; 21. a rear barrel spray pipe; 22. a condenser spray pipe; 23. a water inlet pipe; 3. a control valve; 4. a condensation air duct; 5. a first air outlet; 6. a fan; 7. a second air outlet; 8. a rear cylinder; 9. a heating air duct.

Detailed Description

To make the purpose, technical solution and advantages of the present invention clearer, the following will combine the embodiments of the present invention and the corresponding drawings to clearly and completely describe the technical solution of the present invention. It is to be understood that the embodiments described are only some embodiments of the invention, and not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1 to 4, an embodiment of the present invention provides a laundry treating apparatus, including:

the rear cylinder 8 comprises a rear cylinder inner wall, the inner cylinder comprises an inner cylinder outer wall, the rear cylinder condensation part comprises a space formed by the inner wall of the rear cylinder and the outer wall of the inner cylinder, a rear cylinder spray pipe 21, a rear cylinder inner wall and an inner cylinder outer wall, and the rear cylinder spray pipe 21 can spray water to wet hot air in the rear cylinder 8 (preferably at least one of the rear cylinder inner wall, the inner cylinder outer wall and the space formed by the inner wall of the rear cylinder and the outer wall of the inner cylinder) to perform condensation heat exchange; the main condensation part comprises a condensation air duct 4 arranged on the outer wall of the rear cylinder 8 and a condenser spray pipe 22 arranged on the condensation air duct 4, and the condenser spray pipe 22 can spray water to the damp and hot air entering the condensation air duct 4 to carry out condensation heat exchange;

the three-way pipe 2 comprises a rear barrel spray pipe 21, a condenser spray pipe 22 and a water inlet pipe 23, one end of the rear barrel spray pipe 21 is communicated with the water inlet pipe 23, the other end of the rear barrel spray pipe extends into the interior of the rear barrel 8, one end of the condenser spray pipe 22 is communicated with the water inlet pipe 23, and the other end of the condenser spray pipe extends into the interior of the condensation air duct 4.

The utility model discloses a main condenser includes the condensation wind channel that sets up on the outer wall of the back section of thick bamboo and sets up the condenser shower on the condensation wind channel, makes the condenser shower can spray water to the damp and hot air that gets into in the condensation wind channel to carry out the condensation heat transfer, and still includes the space that back section of thick bamboo inner wall and inner tube outer wall constitute, back section of thick bamboo shower, back section of thick bamboo inner wall and inner tube outer wall through the back section of thick bamboo condensation portion simultaneously, the back section of thick bamboo shower can spray water to the damp and hot air of at least one of the space that back section of thick bamboo inner wall, inner tube outer wall and back section of thick bamboo inner wall and inner tube outer wall constitute to carry out the condensation heat transfer, makes the double condensation structure that main condensation portion and back section of thick bamboo condensation portion both carry out the condensation cooling to the damp and hot air simultaneously, has improved dehumidification efficiency, has improved condensation efficiency, has effectively solved washing and drying all-machine overall arrangement and has restricted condenser mostly the less passageway in space, the problem of low condensation efficiency caused by inconvenient full contact between the steam and an external water source is solved, the existing space is reasonably utilized, and the contact path between the steam and the external water source in the air circulation process is prolonged, so that the condensation efficiency is improved, and the drying efficiency of the washing and drying machine is improved; the utility model also integrates the condensate pipe into a whole through a three-way pipe, comprising a rear cylinder spray pipe and a condenser spray pipe, can simultaneously spray a condensation air channel and condensation lines in the rear cylinder, achieves the effect of simultaneous condensation, and can control each spray pipe to be opened or closed according to requirements, so that double condensation can be opened simultaneously when the drying effect needs to be increased, thereby increasing the condensation drying effect; when the drying effect (the later drying stage) needs to be reduced, one of the condensing parts is closed to reduce the drying effect, reduce the energy waste and reduce the damage to the clothes in the later drying stage.

As shown in fig. 1, 2 and 3, the utility model discloses breather pipe and three-way pipe have been seted up on original washing machine's basis for the user is when operation stoving procedure, and in the bucket humid hot air accessible first air outlet 5 and the second air outlet 7 got into the condensation wind channel, condensation wind channel top had the three-way pipe to connect and can spray, reached the condensation effect. Still set up the condensation water route in addition at a back section of thick bamboo for damp and hot air can reach the effect of two condensations through a back section of thick bamboos and condensation wind channel twice condensation in the bucket, the utility model discloses mainly explain breather pipe position, do not carry out detailed description to a back section of thick bamboo condensation.

When the drying mode is operated, air in the barrel enters the condensation air duct in two modes, and one mode directly enters the condensation air duct from the first air outlet 5. The other is to enter the condensation air duct through the second air outlet 7 and the air duct 1.

As shown in fig. 2, the position of the vent pipe is shown directly above the axis of the washing machine. When the drying mode is operated, a part of damp and hot air enters the vent pipe along the second air outlet 7 and then enters the condensation air channel for air circulation, the three-way pipe is connected with the water valve, the condensation air channel and the outer drum of the washing machine, the water valve is controlled by the washing machine to spray water during drying, and meanwhile, the rear drum of the washing machine and the condensation air channel are condensed.

The utility model discloses: 1. the condensing efficiency of the damp and hot air in the barrel during drying can be obviously improved through the double-cold condensation structure, and the time consumed by drying is obviously reduced. 2. The diplopore characteristic that the structural design in Y type condensation wind channel possessed can increase bucket interior air velocity for the interior air heat transfer of bucket. 3. The three-way pipe can spray the condensation air duct and the condensation lines in the rear barrel simultaneously, and the effect of simultaneous condensation is achieved.

In some embodiments, a control valve 3 is disposed on at least one of the rear canister shower 21, the condenser shower 22, and the inlet pipe 23. The utility model discloses still through back section of thick bamboo shower 21, condenser shower 22 and be provided with control valve 3 on one of at least one of inlet tube 23, can set up the control valve in one of them pipeline section, also can set up the control valve on two or three pipeline sections, can control each shower to open or close as required to make two condensation open simultaneously when needs increase the stoving effect, in order to increase the condensation stoving effect; when the drying effect (the later drying stage) needs to be reduced, one of the condensing parts is closed to reduce the drying effect, reduce the energy waste and reduce the damage to the clothes in the later drying stage.

In some embodiments, the rear barrel 8 is provided with a first air outlet 5 and a second air outlet 7, the condensation air duct 4 is provided with a first air inlet and a second air inlet, the first air outlet 5 is communicated with the first air inlet to guide the moist hot air inside the rear barrel 8 to the condensation air duct 4, the second air outlet 7 is communicated with the second air inlet through an air pipe 1 to guide the air inside the rear barrel 8 condensed by the rear barrel to the condensation air duct 4, one end of the air pipe 1 is communicated with the inside of the rear barrel 8, the other end of the air pipe 1 extends into the inside of the condensation air duct 4 to be communicated with the condensation air duct 4, and the air pipe 1 is located outside the rear barrel 8. This is the utility model discloses a preferred connected mode between back section of thick bamboo and condensation wind channel, first air outlet can be with in the back section of thick bamboo not through or only the moist hot air of the small part through the condensation of back section of thick bamboo lead to the condensation wind channel through first induction port in order to carry out the condensation heat transfer in the condensation wind channel, the second air outlet can lead to the condensation wind channel through breather pipe and second induction port with the air through the back section of thick bamboo condensation in the back section of thick bamboo, effectively form the structure of two condensations, furthest improves condensation heat transfer effect, improves the stoving effect; the effect of breather pipe is to communicate second air outlet and second induction port, realizes effectively communicating the effect of air guide. The utility model discloses a breather pipe is preferably the pipe of bending of two sections at least buckles.

In some embodiments, the projection of the structure of the ventilation pipe 1 and the condensation duct 4 on the horizontal plane is formed as a "Y" duct. This is the utility model discloses an optimal configuration form of breather pipe, "Y" shape condensation wind channel indicates condensation wind channel + breather pipe, because of these two parts combination shape is like Y shape, so call Y shape condensation wind channel, can increase the haplopore condensation wind channel that has on the market now for diplopore condensation wind channel, air flow in the bucket can be accelerated in this design, heat exchange efficiency is improved, air flow rate in the diplopore characteristic multiplicable bucket that the structural design in Y type condensation wind channel possessed, accelerate the air heat transfer in the bucket.

In some embodiments, the first outlet 5 is located below the second outlet 7, and the first inlet is located below the second inlet. The utility model discloses a first gas vent is located the below, can mainly derive the inside damp and hot steam of back section of thick bamboo, and its majority does not pass through the heat transfer process of back section of thick bamboo condensation, and humidity is great, and the second gas vent is located the top, can mainly derive the air of back section of thick bamboo top after the condensation heat transfer, and this part gas is mainly for the dry air after being dehumidified, consequently is located the top.

In some embodiments, the second air outlet 7 is disposed above the central axis hole of the rear barrel 8, and the second air outlet 7 is disposed at the upper end of the circumferential wall of the rear barrel 8 or on the rear barrel wall of the rear barrel 8. This is the utility model discloses a second air outlet's preferred position and the form of setting up can be derived the air after the heat transfer through the second air outlet of top, main embodiment for the second air outlet set up in the upper end of the circumference wall of back section of thick bamboo 8, like fig. 1, alternative embodiment for the second air outlet set up in on the back section of thick bamboo wall of back section of thick bamboo 8, like fig. 4.

In some embodiments, when the second air outlet 7 is disposed at the upper end of the circumferential wall of the rear barrel 8, the centerline of the second air outlet 7 is downward along the vertical direction; when the second air outlet 7 is arranged on the rear cylinder wall of the rear cylinder 8, the central line of the second air outlet 7 is perpendicular to the rear cylinder wall of the rear cylinder 8. The second air outlet 7 is preferably arranged on the rear cylinder wall, the center line of the second air outlet is perpendicular to the rear cylinder wall of the rear cylinder, condensed water entering the vent pipe can flow down along the rear cylinder wall, the condensed water is prevented from dripping on clothes, drying is prevented from being affected, the clothes cannot be wetted, and the drying degree is improved.

In some embodiments, when the second air outlet 7 is disposed at the upper end of the circumferential wall of the rear barrel 8, in the projection plane of the rear barrel wall, the second air outlet 7 is located right above the central shaft hole of the rear barrel 8, or the position of the second air outlet 7 and the position of the central shaft hole of the rear barrel are offset;

when the second air outlet 7 is offset from the position right above the central shaft hole of the rear cylinder, an offset angle of 0-120 degrees is formed between the center of the second air outlet 7 and the center connecting line of the central shaft hole and the vertical direction.

This is the utility model discloses a preferred form that sets up of second air outlet, its circumference wall upper end that is located the back section of thick bamboo can be located directly over the center shaft hole, also can take place the skew, and the homoenergetic plays the effect of effectively deriving the air, and breather pipe one end is connected on the condensation wind channel, and the urceolus upper portion directly over the washing machine bearing is connected to the other end. The utility model discloses the other end of further preferred breather pipe is connected and is controlled skew 30 degrees on the urceolus directly over the washing machine bearing, and it can reach better condensation effect, if the breather pipe other end is connected and is controlled skew 30 degrees-120 degrees on the urceolus directly over the washing machine bearing and then weaken along with the increase condensation effect of angle gradually.

In some embodiments, when the second air outlet 7 is disposed on the rear wall of the rear barrel 8, the second air outlet 7 is located right above or offset from the central axis hole of the rear barrel 8; when the second air outlet 7 is offset from the position right above the central shaft hole of the rear cylinder, an offset angle of 0-120 degrees is formed between the center of the second air outlet 7 and the central connecting line of the central shaft hole and the vertical direction.

As shown in FIG. 4, the position of the vent pipe connection is not necessarily at the top end of the outer cylinder, and the vent pipe can be connected to the upper part of the top of the outer cylinder or the rear wall of the outer cylinder, and the vent pipe can be connected above the bearing of the washing machine and offset from 0 to 120 degrees left and right.

In addition, the number of the vent pipes is not limited to one, and for different washing and drying machines, the vent pipes can be arranged in a plurality of positions, and the position of any one of the plurality of positions is deviated from the left and right of the outer cylinder right above the bearing of the washing machine by 0-120 degrees, which is within the protection scope of the patent.

In some embodiments, the condensation air duct 4 is a channel structure having at least three channels, and a third air outlet is further disposed on the condensation air duct, and the third air outlet can convey air in the condensation air duct 4 to the heating air duct.

In some embodiments, when the condensation air duct 4 is further provided with a third air outlet, the laundry treatment device further includes a heating air duct 9 and a heater, the heating air duct 9 has an air suction port, the air suction port is communicated with the third air outlet on the condensation air duct 4, the other end of the heating air duct 9 can be communicated with the inner barrel and/or the rear barrel, and the heater is disposed in the heating air duct 9.

In some embodiments, a fan 6 is further disposed in the heating air duct 9; and/or the clothes treatment device is a washing and drying integrated machine.

Those skilled in the art will readily appreciate that the advantageous features of the above described modes can be freely combined, superimposed and combined without conflict.

The above description is only exemplary of the present invention and should not be taken as limiting the scope of the present invention, as any modifications, equivalents, improvements and the like made within the spirit and principles of the present invention are intended to be included within the scope of the present invention. The foregoing is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, a plurality of modifications and variations can be made without departing from the technical principle of the present invention, and these modifications and variations should also be regarded as the protection scope of the present invention.

Claims (11)

1. A laundry treating apparatus, characterized in that: the method comprises the following steps:

the condensation heat exchanger comprises a rear cylinder (8), an inner cylinder, a main condensation part, a rear cylinder condensation part and a three-way pipe (2), wherein the main condensation part is communicated with the rear cylinder condensation part through a vent pipe (1), the rear cylinder (8) comprises a rear cylinder inner wall, the inner cylinder comprises an inner cylinder outer wall, the rear cylinder condensation part comprises a space formed by the rear cylinder inner wall and the inner cylinder outer wall, a rear cylinder spray pipe (21), a rear cylinder inner wall and an inner cylinder outer wall, and the rear cylinder spray pipe (21) can spray water on hot and humid air in the rear cylinder (8) to perform condensation heat exchange; the main condensation part comprises a condensation air duct (4) arranged on the outer wall of the rear cylinder (8) and a condenser spray pipe (22) arranged on the condensation air duct (4), and the condenser spray pipe (22) can spray water to the damp and hot air entering the condensation air duct (4) to carry out condensation heat exchange;

the three-way pipe (2) comprises a rear barrel spray pipe (21), a condenser spray pipe (22) and a water inlet pipe (23), one end of the rear barrel spray pipe (21) is communicated with the water inlet pipe (23), the other end of the rear barrel spray pipe extends into the rear barrel (8), one end of the condenser spray pipe (22) is communicated with the water inlet pipe (23), and the other end of the condenser spray pipe extends into the condensation air duct (4).

2. The laundry treating apparatus according to claim 1, wherein:

at least one of the rear cylinder spray pipe (21), the condenser spray pipe (22) and the water inlet pipe (23) is provided with a control valve (3); and/or the rear cylinder spray pipe (21) can spray water to the damp and hot air in at least one of the inner wall of the rear cylinder, the outer wall of the inner cylinder and the space formed by the inner wall of the rear cylinder and the outer wall of the inner cylinder so as to carry out condensation heat exchange.

3. The laundry treating apparatus according to claim 1, wherein:

be provided with first air outlet (5) and second air outlet (7) on a back section of thick bamboo (8), be provided with first induction port and second induction port on condensation wind channel (4), first air outlet (5) with first induction port intercommunication in order to can with the inside damp and hot air of a back section of thick bamboo (8) leads to in condensation wind channel (4), second air outlet (7) with the second induction port passes through breather pipe (1) intercommunication is in order to can with the inside air after the condensation of a back section of thick bamboo (8) leads to in condensation wind channel (4), the one end of breather pipe (1) with the inside intercommunication of a back section of thick bamboo (8), the other end stretch into the inside of condensation wind channel (4) with condensation wind channel (4) intercommunication, breather pipe (1) are located the outside of a back section of thick bamboo (8).

4. The laundry treating apparatus according to claim 3, wherein:

the projection of the structure formed by combining the vent pipe (1) and the condensation air duct (4) on the horizontal plane is formed into a Y-shaped air duct.

5. The laundry treating apparatus according to claim 3, wherein:

the first air outlet (5) is positioned below the second air outlet (7), and the first air suction port is positioned below the second air suction port.

6. The laundry treating apparatus according to claim 5, wherein:

the second air outlet (7) is arranged above the central shaft hole of the rear barrel (8), and the second air outlet (7) is arranged at the upper end of the circumferential wall of the rear barrel (8) or on the rear barrel wall of the rear barrel (8).

7. The laundry treating apparatus according to claim 6, wherein:

when the second air outlet (7) is arranged at the upper end of the circumferential wall of the rear cylinder (8), the central line of the second air outlet (7) is downward along the vertical direction; when the second air outlet (7) is arranged on the rear cylinder wall of the rear cylinder (8), the central line of the second air outlet (7) is perpendicular to the rear cylinder wall of the rear cylinder (8).

8. The laundry treating apparatus according to claim 6, wherein:

when the second air outlet (7) is arranged at the upper end of the circumferential wall of the rear barrel (8), in the projection plane of the rear barrel wall, the second air outlet (7) is positioned right above the central shaft hole of the rear barrel (8), or the position of the second air outlet (7) and the position of the second air outlet right above the central shaft hole of the rear barrel are deviated;

when the second air outlet (7) and the position right above the central shaft hole of the rear cylinder deviate, a deviation angle of 0-120 degrees is formed between the center of the second air outlet (7) and the central connecting line of the central shaft hole and the vertical direction.

9. The laundry treating apparatus according to claim 6, wherein:

when the second air outlet (7) is arranged on the rear barrel wall of the rear barrel (8), the second air outlet (7) is positioned right above the central shaft hole of the rear barrel (8) or is offset from the position right above the central shaft hole of the rear barrel; when the second air outlet (7) and the position right above the central shaft hole of the rear cylinder deviate, a deviation angle of 0-120 degrees is formed between the center of the second air outlet (7) and the central connecting line of the central shaft hole and the vertical direction.

10. The laundry treating apparatus according to claim 1, wherein:

the condensation air duct (4) is of a channel structure with at least three channels, a third air outlet is further arranged on the condensation air duct, and the third air outlet can convey air in the condensation air duct (4) to the heating air duct.

11. The laundry treating apparatus according to claim 10, wherein:

the clothes treatment device further comprises a heating air duct (9) and a heater, an air suction port is formed in the heating air duct (9), the air suction port is communicated with the third air outlet in the condensation air duct (4), the other end of the heating air duct (9) can be communicated with the inner barrel and/or the rear barrel, and the heater is arranged in the heating air duct (9).

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