CN110804850B - Condenser for washing and drying integrated machine and control method of washing and drying integrated machine - Google Patents

Abstract

The invention discloses a condenser for a washing and drying integrated machine, which is provided with a water inlet channel, wherein the water inlet channel is an open channel in the condenser, and a turbulence device which generates disturbance to water flow at the water inlet channel is arranged in the condenser; the control method comprises the step of controlling the water inlet flow of the water inlet channel, so that partial inlet water in the water inlet channel can change a flow path under the disturbance of the flow disturbing device. The invention has the beneficial effects that: the turbulent flow device is arranged in the condenser, so that the inlet water can be dispersed, and the inner wall can be washed, the purpose of washing and cleaning is effectively realized, and the structure is simple and easy to realize; the purposes of condensation and cleaning are achieved through the same water inlet channel, no additional structure is added, the purpose of cleaning can be achieved without adding other electrical elements, and energy is saved.

Description

Condenser for washing and drying integrated machine and control method of washing and drying integrated machine

Technical Field

The invention belongs to the field of household appliances, and particularly relates to a condenser for a washing and drying integrated machine and a control method of the washing and drying integrated machine.

Background

In the drying process of the existing drum-type washing and drying machine, the thread scraps of clothes in the inner drum can be brought to a drying passage and a heat exchanger (condenser) by wind generated by a drying fan, the accumulation of the thread scraps reduces the wind quantity of the drying passage, the exchange efficiency of the heat exchanger is also reduced, and the drying efficiency is reduced.

In the prior art, a flushing water path is arranged inside the condenser, and the flushing water path is opened when the condenser needs to be cleaned, so that the inside of the condenser is cleaned, but the flushing water cannot thoroughly clean all parts inside the condenser through the fixed water path.

If the spraying device is arranged in the condenser, the complexity of the structure is increased, the cost is increased, and the load of the internal structure has corresponding resistance to circulating air, so that the energy is wasted; and the spray device still cannot meet the aim of cleaning all corner positions.

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

Disclosure of Invention

The invention aims to overcome the defects of the prior art and provides a condenser for a washing and drying integrated machine and a control method of the washing and drying integrated machine.

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

the utility model provides a wash and dry condenser for all-in-one, the condenser has inhalant canal, inhalant canal is the open-type passageway inside the condenser, the inside vortex device that is provided with the rivers production disturbance to inhalant canal department of condenser.

The vortex device includes water retaining part, water retaining part sets up in inhalant canal's open mouth department for block inhalant canal's part and intake in order to change the decurrent flow path of intaking.

The water retaining part is a horizontal baffle, one end of the horizontal baffle is arranged at the opening of the water inlet channel or extends into the water inlet channel from the opening of the water inlet channel [ description: the arrangement mode can further block the water inlet channel to intercept inlet water, and partial inlet water in the water inlet channel changes the flow path under the blocking of the horizontal baffle.

The turbulent flow device further comprises a water raising part, wherein the water raising part is connected with the water retaining part at a certain angle/radian and is used for raising the water flow after the path of the water retaining part is changed.

The water pumping part is an inclined baffle plate, one end of the inclined baffle plate is connected with the water retaining part, and the other end of the inclined baffle plate extends to the direction far away from the water inlet channel;

preferably, the water raising part extends upwards in an inclined mode towards the direction far away from the water inlet channel to form a structure capable of raising the inlet water upwards;

preferably, the water pumping part is in smooth transition connection with the water blocking part.

The lateral wall that the condenser was equipped with inhalant canal is first lateral wall, and what set up relatively with first lateral wall is the second lateral wall, the vortex device is violently established at first lateral wall to extend to two adjacent inner walls, inhalant canal's water can disperse to the region between first lateral wall and second lateral wall through the vortex device on the first lateral wall.

The upper part of the condenser is provided with a fan, and wind generated by the fan can disturb water flow so that the water flow is dispersedly distributed on the inner wall of the condenser to wash the inner wall.

The condenser is connected with the drying air channel, a water-avoiding structure is arranged between the condenser and the fan/drying air channel, and the water-avoiding structure prevents water entering the condenser from entering the fan/drying air channel at the upper part;

preferably, the condenser has a cavity and a connector part which forms a bending structure with the cavity, the connector part has a circular connector for being connected with the fan/drying air channel, a water-avoiding rib is arranged on one side of the circular connector close to the cavity, and the water-avoiding rib is semicircular or arched to prevent water entering the fan/drying air channel in the condenser.

A control method of a washing and drying integrated machine comprises a condenser, wherein the condenser is provided with a water inlet channel, the water inlet channel is an open channel in the condenser, and a turbulence device which generates disturbance to water flow is arranged in the condenser;

the control method comprises the step of controlling the water inlet flow of the water inlet channel, so that part of inlet water in the water inlet channel can change the flow path under the disturbance of the flow disturbance device.

The washing and drying integrated machine controls the water inlet channel to feed water at a first water inlet flow rate, and the water inlet in the water inlet channel does not flow through a turbulent flow of a turbulent flow structure in the condenser;

the washing and drying integrated machine controls the water inlet channel to feed water at a second water inlet flow rate, and partial water inlet in the water inlet channel can change a flow path under the disturbance of the turbulence device, so that the distribution range on the inner wall of the condenser is enlarged;

the first water inlet flow is less than the second water inlet flow;

preferably, the washing and drying integrated machine comprises a washing program/rinsing program/dewatering program/drying program/self-cleaning program, and the washing and drying integrated machine can control a second water inlet flow rate to enter the water inlet channel in the washing program/rinsing program/dewatering program/drying program/self-cleaning program;

further preferably, the washing and drying all-in-one machine comprises a washing cylinder, the washing and drying all-in-one machine is controlled in a washing program/rinsing program/self-cleaning program to enter the water inlet channel at a second water inlet flow rate, and inlet water enters the washing cylinder through the corresponding pipeline after passing through the turbulent flow structure.

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

(1) The condenser is internally provided with a turbulent flow structure with a specific shape, so that the inlet water can be dispersed and the inside of the condenser can be flushed, the aim of flushing and cleaning is effectively fulfilled, and the condenser is simple in structure and easy to implement;

(2) the purposes of condensation and cleaning are achieved through the same water inlet channel, no additional structure is added, the purpose of cleaning can be achieved without adding other electrical elements, and energy is saved.

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

Drawings

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

FIG. 1 is a schematic view of a washer dryer of the present invention;

FIG. 2 is a schematic of a condenser of the present invention;

FIG. 3 is a schematic view of the interior of the condenser of the present invention;

FIG. 4 is a schematic cross-sectional view of a condenser of the present invention;

FIG. 5 is an enlarged view of a portion of the condenser of the present invention;

fig. 6 is a schematic diagram of a water-avoiding structure of the condenser of the invention.

In the figure: 100. a washing and drying integrated machine;

1. a condenser; 11. a water inlet channel; 111. a water inlet; 12. a flow disturbing device; 121. a water retaining part; 122. a water pumping part; 13. an interface section; 131. a circular interface; 14. a first side wall; 15. a second side wall; 16; a third side wall; 17. a fourth side wall;

2. a fan; 3. a drying air duct; 31. avoiding water ribs; 4. and (3) a roller.

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

Detailed Description

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

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

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

As shown in fig. 1 to 6, the present invention relates to a condenser for a washing and drying all-in-one machine, which has washing and drying functions, and realizes drying of clothes after washing by providing a condenser 1, a fan 2, and the like at the rear of a drum 4.

The condenser of the invention carries out water cooling for drying air, a water inlet 111 is arranged at the upper part in the condenser 1, and the water inlet 111 is connected with a water source through a pipeline so as to introduce water into the condenser 1. Since the washing and drying machine 100 integrates the washing and drying into the same machine body, in order to effectively reduce the volume of the machine body and save the space inside the machine body, the shape of the condenser 1 is as shown in fig. 1 and 2, the whole condenser 1 is of a bent structure, and forms a 7 shape, one part is the interface part 13, and the other part is the main part of the condenser 1.

The condenser 1 is provided with a water inlet channel 11, the water inlet channel 11 is of a tubular structure outside the condenser 1, the interior of the water inlet condenser 1 is of an open structure, namely, a groove which is sunken towards the outside is arranged at the interior of the water inlet condenser 1 to form the water inlet channel 11, the part of the water inlet channel 11 facing the interior of the condenser 1 is not provided with a closed structure, and when water enters the interior of the condenser 1 through the water inlet 111, the water flow cannot be limited by a pipeline, so that the heat exchange with hot air can be carried out.

Still have vortex device 12 in condenser 1's inside, vortex device 12 produces the disturbance to the intaking of inhalant canal 11 department, and rivers can follow inhalant canal or downflow when not setting up vortex device when getting into condenser inside, and vortex device 12 disturbs the direction in order to change rivers or the distribution mode that changes rivers to original rivers route.

As shown in fig. 3, the condenser 1 has a first sidewall 14, a second sidewall 15, a third sidewall 16 and a fourth sidewall 17, wherein the first sidewall 14 is disposed opposite to the second sidewall 15, and the third sidewall 16 is disposed opposite to the fourth sidewall 17, in the condenser 1 of the present invention, the first sidewall 14 and the second sidewall 15 are narrow sidewalls, and the third sidewall 16 and the fourth sidewall 17 are wide sidewalls.

The water inlet 111 and the water inlet channel 11 are both arranged at the first side wall 14.

As shown in fig. 4 and 5, fig. 5 is a partial enlarged view of the baffle device 12 in fig. 4, wherein the baffle device 12 includes a water blocking portion 121, the water blocking portion 121 is a horizontal baffle, and is transversely disposed at the first side wall 14 and is located at a position higher than the middle portion, the water blocking portion 121 is not preferably disposed at the top end of the first side wall 14 because a part of the water flow needs to flow into the interior of the condenser 1 from the water inlet 111, and the baffle device 12 is not preferably disposed at a lower position and is preferably located at a position higher than the middle portion in order to enable the water flow to be dispersed at the upper portion of the condenser 1 in a larger range. The position may be determined by setting and calculating specific parameters or performing multiple tests, and may also be related to the specific configuration of the turbulator 12.

The water retaining part 121 and the water inlet channel 11 are arranged on the same side of the condenser 1, the water inlet channel 11 is a channel from the upper part of the condenser 1 to the lower part of the condenser 1, the water retaining part 121 is arranged in a mode of being basically vertical to the water inlet channel 11, and after the water retaining part 121 and the first side wall 14 are fixedly and hermetically connected, a hole-shaped structure is formed at the water inlet channel 11 because the water retaining part 121 is of a flat plate structure, as shown in fig. 3, because the condensed water amount is small in the condensation process, the hole-shaped structure can be used for the condensed water to pass through, and no extra water amount is blocked by the water retaining part 121.

As shown in fig. 3, the water inlet channel 11 is formed by forming a groove protruding outward on the first side wall 14, instead of a totally enclosed channel, and has an open structure on the side close to the inside of the condenser 1, and can communicate with the inside of the condenser 1 from top to bottom, and the water inlet channel 11 can only limit the water flow on the side close to the first side wall 14, and the water flow is not limited on the side close to the condenser 1, so that the flow disturbance device 12 can act on the water flow.

The flow disturbing device 12 is used for blocking part of the inlet water channel 11 so as to change the flow path of the part of the inlet water flowing downwards.

The above-mentioned partial water inflow means that a small amount of condensed water can pass through due to the existence of the porous structure, and water exceeding a certain amount of water is intercepted by the water blocking part 121 due to the limitation of the size of the porous structure.

The water blocking part 121 may be a horizontal baffle or a downward inclined baffle inside the condenser 1, so as to change the original downward flowing water flow, and the angle between the water blocking part and the original downward flowing path is not too large, so as to ensure that the water flow can be transferred to the water blocking part 121 with small resistance.

The horizontal baffle is arranged at the position shown in fig. 4 and 5, one end of the horizontal baffle is arranged at the opening of the water inlet channel 11, or the hole-shaped structure at the water inlet channel 11 can be further reduced and extends into the water inlet channel 11 from the opening of the water inlet channel 11, so that the horizontal baffle can block and intercept more inlet water and change the flow path of the part of inlet water.

The inclined direction of the water blocking part 121 is horizontal or inclined downward, so that a horizontal or inclined downward flow path is formed after part of the inflow water passes through the water blocking part 121, and the cleaning requirement cannot be met, and therefore, the flow disturbing device 12 further comprises a water raising part 122, and the water raising part 122 is connected with the water blocking part 121 at a certain angle/radian and is used for raising the water flow after the path is changed by the water blocking part 121.

As shown in fig. 4 and 5, one end of the water raising portion 122 is connected to the water blocking portion 121, and the other end of the water raising portion 122 continues to extend into the condenser 1, and the extending direction is inclined upward, and may also extend to other directions, and is set according to the specific structure of the condenser, so that the inclined baffle is formed to further change the path of the part of the intake water intercepted by the water blocking portion 121.

Other shapes and structures or inclined planes, planes and concave-convex surfaces with other orientations can be arranged in the condenser to generate different blocking and path changing effects on the water inflow.

In order to enable the inner wall of the condenser 1 to have a wider range of water inflow for washing, the water raising part 122 has an upward inclined structure, so that the water flow forms a flow path which is upward and thrown to the opposite side after passing through the whole flow disturbing device 12, and a part of the water flow reaches the upper part of the condenser 1, and washing and cleaning can be performed on each corner of the inner wall of the condenser 1 as much as possible.

In order to reduce the resistance of the water flow, the connection between the water pumping part 122 and the water retaining part 121 has a smooth transition structure, which may be an arc-shaped structure, or the water retaining part 121 and the water pumping part 122 are arc-shaped structures to connect the arc-shaped structures, which is called as an integral structure, so that the water flow changes the path more smoothly.

When the water yield in the water inlet channel 11 exceeds the maximum water yield that the poroid structure can pass through, partial water inflow will be blockked the interception by water retaining part 121, throw the inflow to condenser 1 inner wall through water raising portion 122 on, the vortex structure sets up on first lateral wall 14 with water inlet channel 11, the inner wall relative with first lateral wall 14 is second lateral wall 15, vortex device 12 can throw the inflow to second lateral wall 15 on, and because first lateral wall 14 and second lateral wall 15 are narrower, just vortex device 12 transversely extends to third lateral wall 16 and fourth lateral wall 17 department that is adjacent to first lateral wall 14 for it can have partial rivers when flowing to intake and slide third lateral wall 16 and fourth lateral wall 17, and four lateral walls of condenser 1 all have rivers to pass through this moment.

Because only depend on the disturbance of vortex device 12 to original intake, some water can be located the inner space of condenser 1 and only partial rivers flow at the inner wall, therefore the cleaning efficiency can be lower, and condenser 1 upper portion is provided with fan 2, and under the effect of fan 2, rivers can produce the change in the distribution for rivers are arranged at condenser 1 inner wall dispersion and are made rivers wash away the inner wall.

As shown in fig. 6, a fan 2 and a drying air duct 3 are arranged on the upper portion of the condenser 1, the drying air duct 3 is vertically connected with the condenser 1 and has an interface,

the fan 2 is used for driving air to flow, and water is dispersed in the condenser 1 and is easily driven by air flow and possibly enters the fan 2 or the drying air channel 3, so that a water-avoiding structure is arranged between the condenser 1 and the fan 2 or between the condenser 1 and the drying air channel 3, and the water-avoiding structure can be used for placing water in the condenser 1 to enter the fan 2 or the drying air channel 3 on the upper portion.

Preferably, condenser 1 has the cavity and forms interface part 13 of structure of buckling with the cavity, interface part 13 has circular interface 131 and is used for being connected with fan 2, circular interface 131 is close to cavity one side and is provided with and keeps away water muscle 31, keep away water muscle 31 semicircular in shape or bow-shaped, prevent that the interior income of condenser 1 from getting into fan 2.

In fig. 6, the water-avoiding rib 31 is arranged at the entrance of the drying air duct 3, and the water-avoiding structure can also be arranged inside the condenser 1 or at other positions of the air duct, so that water can be prevented from entering the fan 2 or the drying air duct 3, and the heat exchange process is not affected.

The invention also relates to a control method of the washing and drying integrated machine.

The washing and drying integrated machine comprises a condenser, wherein the condenser is provided with a water inlet channel, the water inlet channel is an open channel in the condenser, and a turbulence device which generates disturbance to water flow is arranged in the condenser; the control method comprises the step of controlling the water inlet flow of the water inlet channel, so that part of inlet water in the water inlet channel can change the flow path under the disturbance of the flow disturbance device.

The washing and drying integrated machine controls the water inlet channel to feed water at a first water inlet flow rate, and the water inlet in the water inlet channel does not flow through a turbulent flow of a turbulent flow structure in the condenser;

the clothes drying device controls the water inlet channel to feed water at a second water inlet flow rate, and partial water inlet in the water inlet channel can change a flow path under the disturbance of the turbulence device, so that the distribution range on the inner wall of the condenser is enlarged; the first water inlet flow is smaller than the second water inlet flow.

Since the purpose of the flow perturbation means is cleaning, there is a large amount of washing water passing through the water inlet channel in addition to the condensed water that is subjected to heat exchange. The first water inlet flow is condensed water for heat exchange, and the second water inlet flow is washing water for washing. Therefore, under the control of the control system, the purposes of condensation and flushing can be realized through one water inlet channel.

The washing and drying integrated machine can control a second water inlet flow to enter the water inlet channel after running for one or more times of drying; the mode can be adjusted according to the quantity of thread scraps carried by clothes, if the quantity of the thread scraps of the clothes is large, more impurities can be accumulated on the inner wall of the condenser, and the water quantity can be increased to flush the inner wall at a second water inlet flow rate when a washing and drying program is executed; when the washed and dried clothes have less thread scraps, the three washing and drying procedures can be executed, then the large water amount is injected, and the interior of the condenser is flushed through the turbulent flow structure, so that the cleaning effect is achieved.

The flushing program, i.e., entering the condenser at the second inflow rate, may be selected manually, or may be set up with a judgment program to select the flushing program according to a set method.

The washing and drying integrated machine comprises a washing program/a rinsing program/a dewatering program/a drying program, and the washing and drying integrated machine can control a second water inlet flow to enter the water inlet channel in the washing program/the rinsing program/the dewatering program/the drying program; and (4) entering the condenser at a second water inlet flow according to the corresponding attribute setting of each process of the washing and drying integrated machine.

In the process, the water inlet in the condenser can enter the washing drum through a corresponding pipeline, if the washing and drying integrated machine executes a washing program, the part of water enters the washing drum to wash the clothes, and if the washing and drying integrated machine executes a rinsing program, the part of water enters the washing drum to rinse the clothes. However, since the water used to flush the condenser contains lint, it is generally not possible to pass this portion of water into the washing tub during the rinsing process to prevent secondary contamination of the laundry.

The washing and drying integrated machine can also be provided with a self-cleaning program, the self-cleaning program comprises the step of washing the inner wall of the condenser, and the control water flow enters the water inlet channel at the second water inlet flow rate to realize the cleaning effect.

Likewise, in a self-cleaning procedure, water in the condenser can be introduced into the washing drum via the corresponding line and the washing drum can be cleaned.

When the washing and drying integrated machine washes the condenser at a second water inlet flow rate, if the drum executes a washing program at the moment, the drum is internally provided with washing water, and the water for washing the condenser at the moment can enter the drum according to a corresponding pipeline to wash clothes; if the washing and drying integrated machine executes a self-cleaning program at this moment, water for flushing the condenser can enter the barrel through the corresponding pipeline to clean the washing barrel. The arrangement mode can save water resources and achieve the purpose of saving water.

When the washing and drying integrated machine is controlled to enter the condenser at the second water inlet flow rate, a certain program can be completed or a certain program can be executed; the second water inlet flow rate can be executed after a plurality of programs are executed or after a long period of time, the thread scraps in the condenser are different due to different dirt programs for washing clothes, and the cleaning period can be set according to specific conditions so as to ensure that the condenser is cleaned under the condition of saving water.

The beneficial effects of the invention can be summarized as follows: a turbulent flow structure with a specific shape is arranged in the condenser, so that the inlet water can be dispersed and the inside can be washed, the aim of washing and cleaning is effectively fulfilled, and the structure is simple and easy to implement; the purposes of condensation and cleaning are achieved through the same water inlet channel, no additional structure is added, the purpose of cleaning can be achieved without adding other electrical elements, and energy is saved.

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

Claims (10)

1. The utility model provides a washing and drying condenser for all-in-one which characterized in that: the condenser is provided with a water inlet channel, the water inlet channel is an open channel in the condenser, and a flow disturbing device for disturbing water flow at the water inlet channel is arranged in the condenser;

the flow disturbing device comprises a water blocking part which is arranged at the opening of the water inlet channel and used for blocking partial water inlet of the water inlet channel so as to change the downward flow path of the water inlet;

the turbulent flow device also comprises a water raising part, and the water raising part is connected with the water retaining part in a certain angle/radian manner and is used for raising the water flow after the path of the water retaining part is changed;

the upper part of the condenser is provided with a fan, and wind generated by the fan can disturb water flow so that the water flow is dispersedly distributed on the inner wall of the condenser and the water flow scours the inner wall;

the condenser is connected with the drying air channel, a water-avoiding structure is arranged between the condenser and the fan/drying air channel, and the water-avoiding structure prevents water entering the condenser from entering the fan/drying air channel at the upper part;

the condenser is provided with a cavity and a connector part which forms a bending structure with the cavity, the connector part is provided with a circular connector and is used for being connected with the fan/drying air channel, one side, close to the cavity, of the circular connector is provided with a water-avoiding rib, and the water-avoiding rib is semicircular or arched, so that water entering the condenser is prevented from entering the fan/drying air channel.

2. The condenser for washing and drying integrated machine according to claim 1, characterized in that: the water retaining part is a horizontal baffle, one end of the horizontal baffle is arranged at the opening of the water inlet channel or extends into the water inlet channel from the opening of the water inlet channel, and partial water entering into the water inlet channel changes a flow path under the blocking of the horizontal baffle.

3. The condenser for washing and drying integrated machine according to claim 1, characterized in that: the water raising part is an inclined baffle plate with one end connected with the water retaining part and the other end extending towards the direction far away from the water inlet channel.

4. The condenser for washing and drying integrated machine according to claim 3, characterized in that: the water raising part extends upwards in an inclined mode towards the direction far away from the water inlet channel to form a structure capable of enabling water to raise upwards.

5. The condenser for washing and drying integrated machine according to claim 3, characterized in that: the water pumping part is connected with the water retaining part in a smooth transition mode.

6. The condenser for washing and drying integrated machine according to claim 1, characterized in that: the lateral wall that the condenser was equipped with inhalant canal is first lateral wall, and what set up relatively with first lateral wall is the second lateral wall, the vortex device is violently established at first lateral wall to extend to two adjacent inner walls, inhalant canal's water can disperse to the region between first lateral wall and second lateral wall through the vortex device on the first lateral wall.

7. A method of controlling a washer dryer having a condenser according to any one of claims 1 to 6, characterized in that: the washing and drying integrated machine comprises a condenser, wherein the condenser is provided with a water inlet channel, the water inlet channel is an open channel in the condenser, and a turbulence device which generates disturbance to water flow is arranged in the condenser;

the control method comprises the step of controlling the water inlet flow of the water inlet channel, so that part of inlet water in the water inlet channel can change the flow path under the disturbance of the flow disturbance device.

8. The control method of the washing and drying integrated machine according to claim 7, characterized in that: the washing and drying integrated machine controls the water inlet channel to feed water at a first water inlet flow rate, and the water inlet in the water inlet channel does not flow through a turbulent flow of a turbulent flow structure in the condenser;

the washing and drying integrated machine controls the water inlet channel to feed water at a second water inlet flow rate, and partial water inlet in the water inlet channel can change a flow path under the disturbance of the turbulence device, so that the distribution range on the inner wall of the condenser is enlarged;

the first water inlet flow is smaller than the second water inlet flow.

9. The control method of the washing and drying integrated machine according to claim 8, characterized in that: the washing and drying integrated machine comprises a washing program/a rinsing program/a dewatering program/a drying program/a self-cleaning program, and the washing and drying integrated machine can be controlled to enter the water inlet channel at a second water inlet flow rate in the washing program/the rinsing program/the dewatering program/the drying program/the self-cleaning program.

10. The control method of the washing and drying integrated machine according to claim 8, characterized in that: the washing and drying integrated machine comprises a washing cylinder, the washing and drying integrated machine is controlled in a washing program/rinsing program/self-cleaning program to enter the water inlet channel at a second water inlet flow rate, and inlet water enters the washing cylinder through the corresponding pipeline after passing through the turbulent flow structure.

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