阅读说明：本技术 洗干一体设备 (Washing and drying integrated equipment ) 是由 刘凯 许升 赵志强 于 2020-06-30 设计创作，主要内容包括：本发明属于洗涤干燥技术领域,旨在解决现有洗干一体设备不便于通风除味的问题。本发明提供了一种洗干一体设备,其烘干风道的进风部与外筒的后部连通,烘干风道的出风部与窗垫的上部连通,烘干风道上设置有第一通断组件和第二通断组件,第一通断组件能够在风压的作用下选择性地打开或关闭以使烘干风道与外界连通或阻隔,第二通断组件能够在风压的作用下选择性地打开或关闭以使烘干风道与外筒连通或阻隔,洗干一体设备还包括透气组件,透气组件能够使外筒与外界连通。本发明能够使洗干一体设备的空气流动路径十分方便地在烘干状态和通风状态之间切换,便于对洗干一体设备进行通风除味,且其能够高效地通风,快速除味。(The invention belongs to the technical field of washing and drying, and aims to solve the problem that the existing washing and drying integrated equipment is inconvenient to ventilate and remove odor. The invention provides a washing and drying integrated device, wherein an air inlet part of a drying air duct is communicated with the rear part of an outer barrel, an air outlet part of the drying air duct is communicated with the upper part of a window gasket, a first on-off component and a second on-off component are arranged on the drying air duct, the first on-off component can be selectively opened or closed under the action of air pressure to enable the drying air duct to be communicated with or separated from the outside, the second on-off component can be selectively opened or closed under the action of the air pressure to enable the drying air duct to be communicated with or separated from the outer barrel, the washing and drying integrated device further comprises a ventilation component, and the ventilation component can enable the outer barrel to be communicated with the outside. The invention can ensure that the air flow path of the washing and drying integrated equipment is switched between the drying state and the ventilation state very conveniently, is convenient for ventilating and deodorizing the washing and drying integrated equipment, and can ventilate efficiently and deodorize quickly.)

1. The utility model provides a wash integrative equipment futilely, its characterized in that, wash integrative equipment futilely include the urceolus, with window pad, stoving wind channel that the urceolus front end is connected and set up the fan in the stoving wind channel, the air inlet portion in stoving wind channel with the rear portion intercommunication of urceolus, the air-out portion in stoving wind channel with the upper portion intercommunication of window pad, be provided with first break-make subassembly and second break-make subassembly on the stoving wind channel, first break-make subassembly can be opened or closed so that stoving wind channel and external intercommunication or separation under the effect of wind pressure selectively, second break-make subassembly can be opened or closed so that the stoving wind channel with urceolus intercommunication or separation under the effect of wind pressure selectively, wash integrative equipment futilely still including ventilative subassembly, ventilative subassembly can make urceolus and external intercommunication,

when the washing and drying integrated equipment executes a clothes drying program, the first on-off component is closed and the second on-off component is opened under the action of wind pressure, and when the washing and drying integrated equipment executes the ventilation program, the first on-off component is opened under the action of the wind pressure and water is contained in the drying air channel so that the second on-off component keeps closed.

2. The washing and drying integrated equipment according to claim 1, wherein the first on-off assembly comprises a first magnetic part and a second magnetic part which can attract each other under the action of magnetic force and are both connected with the drying air duct, at least one of the first magnetic part and the second magnetic part is rotatably connected with the drying air duct,

when the washing and drying integrated equipment executes a drying program, the first magnetic piece and the second magnetic piece are contacted under the action of magnetic attraction force to enable the drying air duct to be isolated from the outside,

when the washing and drying integrated equipment executes a ventilation program, the first magnetic piece and the second magnetic piece are separated under the action of wind pressure to enable the drying air duct to be communicated with the outside,

after the washing and drying integrated equipment finishes a ventilation program, the first magnetic part and the second magnetic part reset under the action of magnetic attraction force so as to enable the drying air duct to be isolated from the outside.

3. The washing and drying integrated equipment according to claim 1, wherein the second on-off assembly comprises a third magnetic member and a fourth magnetic member which can attract each other under the action of magnetic force and are both connected with the drying air duct, at least one of the third magnetic member and the fourth magnetic member is rotatably connected with the drying air duct,

when the washing and drying integrated equipment executes a drying program, the third magnetic part and the fourth magnetic part are separated under the action of wind pressure to enable the drying air duct to be communicated with the outer barrel,

when the washing and drying integrated equipment executes a ventilation program, the water contained in the drying air duct blocks wind to allow the third magnetic piece to be in contact with the fourth magnetic piece, so that the drying air duct is blocked from the outer barrel.

4. The washing and drying integrated device as claimed in claim 1, wherein the first on-off assembly comprises a first baffle, a first rotating shaft and a first torsion spring, the first baffle is rotatably connected with the drying air duct through the first rotating shaft, and the first torsion spring is sleeved on the first rotating shaft,

when the washing and drying integrated equipment executes a drying program, the first torsion spring enables the first baffle plate to block the drying air duct from the outside through the self elastic action,

when the washing and drying integrated equipment executes a ventilation program, the first torsion spring is elastically twisted under the action of wind pressure so that the first baffle plate communicates the drying air duct with the outside,

after the washing and drying integrated equipment finishes a ventilation program, the first torsion spring enables the first baffle to reset through the self elastic action so as to separate the drying air duct from the outside.

5. The washing and drying integrated equipment according to claim 1, wherein the second on-off component comprises a second baffle, a second rotating shaft and a second torsion spring, the second baffle is rotatably connected with the drying air duct through the second rotating shaft, and the second torsion spring is sleeved on the second rotating shaft,

when the washing and drying integrated equipment executes a drying program, the second torsion spring is elastically twisted under the action of wind pressure so that the second baffle plate communicates the drying air duct with the outer cylinder,

when the washing and drying integrated equipment executes a ventilation program, the water contained in the drying air duct blocks wind to allow the second torsion spring to enable the second baffle to block the drying air duct from the outer barrel through the elastic action of the second torsion spring.

6. The integrated washing and drying apparatus according to any one of claims 1 to 5, wherein the airing assembly comprises an airing hole formed on the outer tub, a detergent containing box having an opening, and an airing duct communicating the airing hole with the detergent containing box.

7. The washing and drying integrated equipment as claimed in any one of claims 1 to 5, wherein the air permeable component comprises a third baffle, a third rotating shaft and a third torsion spring, the third baffle is rotatably connected with the outer cylinder through the third rotating shaft, and the third torsion spring is sleeved on the third rotating shaft,

when the washing and drying integrated equipment executes a drying program, the third torsion spring enables the third baffle to separate the outer cylinder from the outside through the self elastic action,

when the washing and drying integrated equipment executes a ventilation program, the third torsion spring is elastically twisted under the action of wind pressure so that the outer cylinder is communicated with the outside through the third baffle plate,

and after the washing and drying integrated equipment finishes a ventilation program, the third torsion spring enables the third baffle to reset through the self elastic action so as to separate the outer barrel from the outside.

8. The integrated washing and drying device as claimed in any one of claims 1 to 5, wherein the water inlet pipe of the integrated washing and drying device comprises a U-shaped portion, and the air-permeable assembly comprises a water outlet pipe communicated with the bottom end of the U-shaped portion and a valve arranged on the water outlet pipe and capable of controlling the water outlet pipe to be switched on and off.

9. The washing and drying integrated device according to any one of claims 1 to 5, wherein the air outlet portion comprises a first air outlet pipe and a second air outlet pipe, the first air outlet pipe is communicated with the window gasket through a first air outlet and is located above the inclined portion of the door glass of the washing and drying integrated device, the second air outlet pipe penetrates through the raised portion of the folds of the window gasket, a second air outlet of the second air outlet pipe is formed on the side face, located on the lower side of the raised portion, of the second air outlet pipe, and the second air outlet is arranged close to the raised portion.

10. The integrated washer dryer apparatus according to any one of claims 1 to 5, further comprising a drain pipe capable of selectively draining water contained in the drying air duct out of the drying air duct.

Technical Field

The invention belongs to the technical field of washing and drying, and particularly provides washing and drying integrated equipment.

Background

Washing and drying integrated equipment combines the washing and drying functions, some washing and drying integrated equipment further combine the spin-drying function, and the birth of washing and drying integrated equipment enables people to conveniently dry clothes after washing, and the clothes do not need to be taken out and dried by other clothes drying equipment, so that the complex operation steps are omitted, people do not need to buy a washing machine and a clothes dryer at the same time, and the space is saved. Most of the washing and drying integrated equipment adopts an internal circulation mode to dry clothes, namely, when the clothes are dried, air continuously flows in the washing and drying integrated equipment in a circulating mode and is not discharged out of the washing and drying integrated equipment, so that even if a drying mode is started, the washing and drying integrated equipment cannot be ventilated to remove the peculiar smell in the washing and drying integrated equipment. The user can only be through opening the door body and come to ventilate the smell of removing to washing integrative equipment futilely, but this kind of mode inefficiency, effect are poor, are not convenient for realize ventilating and remove the smell.

Therefore, there is a need in the art for a new integrated washer dryer apparatus to solve the above problems.

Disclosure of Invention

In order to solve the problems in the prior art, namely to solve the problem that the existing washing and drying integrated equipment is inconvenient to ventilate and remove odor, the invention provides washing and drying integrated equipment which comprises an outer barrel, a window pad connected with the front end of the outer barrel, a drying air duct and a fan arranged in the drying air duct, wherein an air inlet part of the drying air duct is communicated with the rear part of the outer barrel, an air outlet part of the drying air duct is communicated with the upper part of the window pad, the drying air duct is provided with a first on-off component and a second on-off component, the first on-off component can be selectively opened or closed under the action of air pressure to enable the drying air duct to be communicated with or separated from the outside, the second on-off component can be selectively opened or closed under the action of the air pressure to enable the drying air duct to be communicated with or separated from the outer barrel, the washing and drying integrated equipment also comprises a ventilation component, and the outer barrel can be communicated with or separated from the outside through the ventilation component, when the washing and drying integrated equipment executes a clothes drying program, the first on-off component is closed and the second on-off component is opened under the action of wind pressure, and when the washing and drying integrated equipment executes the ventilation program, the first on-off component is opened under the action of the wind pressure and water is contained in the drying air channel so that the second on-off component is kept closed.

In the preferred technical scheme of the integrative equipment of washing and drying, first break-make subassembly includes first magnetic part and the second magnetic part that can attract each other and all be connected with the stoving wind channel under the magnetic force effect, at least one in first magnetic part and the second magnetic part rotates with the stoving wind channel and is connected, when washing and drying integrative equipment and carrying out the stoving procedure, first magnetic part contacts so that stoving wind channel and external separation under the effect of magnetic attraction, when washing and drying integrative equipment and carrying out the ventilation procedure, first magnetic part and second magnetic part separate so that stoving wind channel and external intercommunication under the effect of wind pressure, after washing and drying integrative equipment finishes the ventilation procedure, first magnetic part and second magnetic part restore to the throne so that stoving wind channel and external separation under the effect of magnetic attraction.

In the preferable technical scheme of the washing and drying integrated equipment, the second on-off component comprises a third magnetic part and a fourth magnetic part which can attract each other under the action of magnetic force and are both connected with the drying air channel, at least one of the third magnetic part and the fourth magnetic part is rotatably connected with the drying air channel, when the washing and drying integrated equipment executes a drying program, the third magnetic part and the fourth magnetic part are separated under the action of wind pressure to enable the drying air channel to be communicated with the outer cylinder, and when the washing and drying integrated equipment executes a ventilation program, water contained in the drying air channel blocks the wind to allow the third magnetic part and the fourth magnetic part to contact with each other to block the drying air channel from the outer cylinder.

In the preferred technical scheme of the integrated washing and drying equipment, the first on-off assembly comprises a first baffle, a first rotating shaft and a first torsion spring, the first baffle is rotatably connected with the drying air duct through the first rotating shaft, the first torsion spring is sleeved on the first rotating shaft, when the integrated washing and drying equipment executes a drying program, the first torsion spring enables the first baffle to separate the drying air duct from the outside through the self elastic action, when the integrated washing and drying equipment executes a ventilation program, the first torsion spring is elastically twisted under the wind pressure action to enable the first baffle to communicate the drying air duct with the outside, and after the integrated washing and drying equipment finishes the ventilation program, the first torsion spring enables the first baffle to reset through the self elastic action to separate the drying air duct from the outside.

In the preferable technical scheme of the washing and drying integrated equipment, the second on-off component comprises a second baffle, a second rotating shaft and a second torsion spring, the second baffle is rotatably connected with the drying air duct through the second rotating shaft, the second torsion spring is sleeved on the second rotating shaft, when the washing and drying integrated equipment executes a drying program, the second torsion spring is elastically twisted under the action of air pressure to enable the second baffle to communicate the drying air duct with the outer barrel, and when the washing and drying integrated equipment executes a ventilation program, water contained in the drying air duct separates air to allow the second torsion spring to separate the drying air duct from the outer barrel through the elastic action of the second torsion spring.

In a preferred technical scheme of the washing and drying integrated equipment, the ventilation assembly comprises a ventilation hole formed on the outer barrel, a detergent containing box with an opening and a ventilation pipeline communicated with the ventilation hole and the detergent containing box.

In the preferred technical scheme of the integrative equipment of washing and drying, ventilative subassembly includes the third baffle, third pivot and third torsional spring, the third baffle passes through the third pivot and is connected with the urceolus rotation, and the third torsional spring cover is established in the third pivot, when the integrative equipment of washing and drying carries out the stoving procedure, the third torsional spring makes the third baffle with urceolus and external separation through self elastic action, when the integrative equipment of washing and drying carries out the ventilation procedure, the third torsional spring is twisted by elasticity under the wind pressure effect so that the urceolus communicates with the external world with the third baffle, after the integrative equipment of washing and drying finishes the ventilation procedure, the third torsional spring makes the third baffle reset with the urceolus and external separation through self elastic action.

In the preferred technical scheme of the integrative equipment of above-mentioned washing and drying, the inlet tube of the integrative equipment of washing and drying includes U-shaped portion, and ventilative subassembly includes the outlet pipe and the setting that just can control the valve of outlet pipe break-make on the outlet pipe with the outlet pipe of U-shaped portion bottom intercommunication.

In the preferred technical scheme of above-mentioned integrative equipment of washing and drying, the air-out portion includes first tuber pipe and second tuber pipe, and first tuber pipe just is located the door glass's of integrative equipment of washing and drying slope top through first air outlet and window pad intercommunication, and the second tuber pipe passes the bellying of the fold of window pad, and the second air outlet of second tuber pipe forms on the side that the second tuber pipe is located the bellying downside and the second air outlet is close to the bellying setting.

In a preferred technical solution of the above washing and drying integrated device, the washing and drying integrated device further includes a drain pipe, and the drain pipe can selectively discharge water contained in the drying air duct out of the drying air duct.

It can be understood by those skilled in the art that in the preferred embodiment of the present invention, by providing the first on-off assembly and the second on-off assembly on the drying air duct and controlling the opening and closing of the first on-off assembly, the air flow path of the washing and drying integrated device can be switched between the drying state and the ventilating state very conveniently, so as to facilitate the ventilation and odor removal of the washing and drying integrated device, and the fan is also in the working state in the ventilating state, so that the washing and drying integrated device can ventilate efficiently, so as to achieve the odor removal more quickly, and the first on-off assembly and the second on-off assembly can be selectively opened or closed under the action of the wind pressure, so that the wind pressure can be controlled by controlling the rotating speed of the fan, so as to achieve the control of the opening and closing states of the first on-off assembly and the second on-off assembly, and there is no need to separately set a component for controlling the opening and closing of the first on-off assembly and the second on-off assembly, the cost is saved, the second on-off component can be kept in a closed state through water contained in the drying air duct, and the phenomenon that the ventilation of the washing and drying integrated equipment is influenced due to the fact that the second on-off component is opened is avoided.

Furthermore, the first on-off component comprises a first magnetic part and a second magnetic part which can attract each other under the action of magnetic force and are connected with the drying air duct, at least one of the first magnetic part and the second magnetic part is rotatably connected with the drying air duct, when the washing and drying integrated equipment executes a drying program, the first magnetic part and the second magnetic part are contacted under the action of the magnetic attraction force to separate the drying air duct from the outside, when the washing and drying integrated equipment executes a ventilation program, the first magnetic part and the second magnetic part are separated under the action of wind pressure to communicate the drying air duct with the outside, after the washing and drying integrated equipment finishes the ventilation program, the first magnetic part and the second magnetic part are reset under the action of the magnetic attraction force to separate the drying air duct from the outside, through the arrangement, the first on-off component can automatically reset after finishing the ventilation program, and the first on-off component can be restored to a closed state without being reset by a user, and a special part for restoring the first on-off assembly to the closed state is not required to be arranged, so that the cost is saved.

Further, the first on-off component comprises a first baffle plate, a first rotating shaft and a first torsion spring, the first baffle plate is rotatably connected with the drying air duct through the first rotating shaft, the first torsion spring is sleeved on the first rotating shaft, when the drying program is executed by the washing and drying integrated equipment, the first baffle plate separates the drying air duct from the outside through the self elastic action of the first torsion spring, when the ventilation program is executed by the washing and drying integrated equipment, the first torsion spring is elastically twisted under the wind pressure to enable the first baffle plate to communicate the drying air duct with the outside, after the ventilation program is finished by the washing and drying integrated equipment, the first torsion spring resets the first baffle plate through the self elastic action to separate the drying air duct from the outside, through the arrangement, the first on-off component can automatically reset after the ventilation program is finished, the first on-off component can be restored to the closed state without being reset by a user, and a part special for restoring the first on-off component to the closed state is not required to be arranged, and the cost is saved.

Further, ventilative subassembly includes the bleeder vent that forms on the urceolus, has the open-ended detergent and holds the box and the ventilative pipeline of intercommunication bleeder vent and detergent and hold the box, through such setting for the urceolus can keep the intercommunication with the external world always, thereby makes when carrying out the ventilation procedure, thereby the air in the urceolus can discharge and wash dry integrative equipment and realize the ventilation, and can also balance the pressure with the external world in the urceolus, avoids producing danger because of the urceolus is too big with external pressure difference.

Furthermore, the ventilation component comprises a third baffle plate, a third rotating shaft and a third torsion spring, the third baffle plate is rotatably connected with the outer barrel through the third rotating shaft, the third torsion spring is sleeved on the third rotating shaft, when the washing and drying integrated equipment executes a drying program, the third torsion spring enables the third baffle plate to separate the outer barrel from the outside through the self elastic action, when the washing and drying integrated equipment executes a ventilation program, the third torsion spring is elastically twisted under the action of wind pressure so that the outer barrel is communicated with the outside through the third baffle plate, after the washing and drying integrated equipment finishes the ventilation program, the third torsion spring enables the third baffle plate to reset through the self elastic action so as to separate the outer barrel from the outside, through the arrangement, the third baffle plate can automatically reset after finishing the ventilation program, the third air duct baffle plate can act to separate the drying from the outside without resetting the third torsion spring by a user, and a special part for resetting the third baffle plate is not required, and the cost is saved.

Further, the inlet tube of integrative equipment is washed and dried includes U-shaped portion, and ventilative subassembly includes the outlet pipe with U-shaped portion bottom intercommunication and sets up the valve that just can control the outlet pipe break-make on the outlet pipe for need not to set up the opening that is used for making urceolus and external intercommunication specially on the urceolus, only need set up the inlet tube to include U type portion and with the help of this inlet tube and combine outlet pipe, valve to make urceolus and external intercommunication.

Further, the air-out portion includes first air-out pipe and second air-out pipe, first air-out pipe just is located the door glass's of the integrative equipment of washing and drying rake top through first air outlet and window pad intercommunication, the second air-out pipe passes the bellying of the fold of window pad, the second air outlet of second air-out pipe forms on the side that the second air-out pipe is located the bellying downside and the second air outlet is close to the bellying setting, through such setting, make the air that flows out from first air outlet can be when the door body is closed in the leading-in urceolus of rake, the air admission urceolus of being convenient for, improve drying, ventilation efficiency, and the air that flows out from the second air outlet can flow along bellying circumference, thereby accelerate the drying rate of window pad. .

Furthermore, the washing and drying integrated equipment further comprises a drain pipe, the drain pipe can selectively discharge water contained in the drying air channel out of the drying air channel, through the arrangement, the water contained in the drying air channel can be discharged through the drain pipe, the water is prevented from being always remained in the drying air channel, and the follow-up execution of a drying program is prevented from being hindered.

Drawings

Fig. 1 is a schematic structural view of an embodiment of the integrated washing and drying apparatus of the present invention when performing a drying process, and illustrates an air flow path when performing the drying process;

FIG. 2 is an enlarged view of a portion of FIG. 1 at A;

FIG. 3 is an enlarged view of a portion of FIG. 1 at B;

FIG. 4 is a schematic structural view of an embodiment of the integrated washing and drying apparatus of the present invention during a ventilation process, and illustrates an air flow path during the ventilation process;

FIG. 5 is an enlarged view of a portion of FIG. 4 at C;

fig. 6 is a partially enlarged view at D in fig. 4.

Reference numerals:

1. an outer cylinder; 10a, window gasket; 2. an inner barrel; 3. a drying air duct; 31. an air inlet part; 32. an air outlet part; 321. a first air outlet pipe; 322. a second air outlet pipe; 30a, a fan; 4. a first on-off assembly; 41. a first magnetic member; 411. a plate member; 412. a magnet; 42. a second magnetic member; 5. a second disconnect assembly; 51. a third magnetic member; 52. a fourth magnetic member; 6. a venting assembly; 61. a fifth magnetic member; 62. a sixth magnetic member; 7. a door glass; 71. an inclined portion; 8. a drain pipe; 81. a water inlet part; 82. a water outlet part; 80a, a third water drain valve; 100. and (4) opening.

Detailed Description

Preferred embodiments of the present invention are described below with reference to the accompanying drawings. It should be understood by those skilled in the art that these embodiments are only for explaining the technical principle of the present invention, and are not intended to limit the scope of the present invention.

It should be noted that in the description of the present invention, the terms of direction or positional relationship indicated by the terms "upper", "lower", "inner", "outer", etc. are based on the directions or positional relationships shown in the drawings, which are merely for convenience of description, and do not indicate or imply that the device or element must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first," "second," "third," "fourth," "fifth," and "sixth" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

Furthermore, it should be noted that, in the description of the present invention, unless otherwise explicitly specified or limited, the terms "disposed," "connected," and "connected" are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood by those skilled in the art according to specific situations.

Based on the problem that the existing washing and drying integrated equipment is inconvenient to ventilate and remove odor in the prior art, the invention provides washing and drying integrated equipment, aiming at enabling the air flow path of the washing and drying integrated equipment to be conveniently switched between a drying state and a ventilating state, facilitating the ventilation and odor removal of the washing and drying integrated equipment, and enabling the washing and drying integrated equipment to be capable of efficiently ventilating, so that the odor removal is more quickly realized.

Specifically, as shown in fig. 1 to 6, the washing and drying integrated device includes an outer tub 1, an inner tub 2 rotatably disposed in the outer tub 1 for accommodating laundry, a window pad 10a connected to a front end of the outer tub 1, a drying duct 3, a fan 30a disposed in the drying duct 3, and a heat pump system for heating and dehumidifying, an air inlet 31 of the drying duct 3 is communicated with a rear portion of the outer tub 1, an air outlet 32 of the drying duct 3 is communicated with an upper portion of the window pad 10a, the heat pump system includes an evaporator, a condenser, and a compressor connected to each other, the compressor is disposed outside the drying duct 3, the evaporator for dehumidifying and the condenser for heating are sequentially disposed in the drying duct 3 along an air flow path, the drying duct 3 is provided with a first on-off assembly 4 and a second on-off assembly 5, the first on-off assembly 4 can be selectively opened or closed under the action of wind pressure to communicate or block the drying duct 3 with the outside, the second on-off component 5 can be selectively opened or closed under the action of wind pressure so as to enable the drying air duct 3 to be communicated with or separated from the outer barrel 1, the washing and drying integrated equipment further comprises a ventilation component 6, and the ventilation component 6 can enable the outer barrel 1 to be communicated with the outside.

The wind speed can be adjusted by adjusting the rotating speed of the fan 30a, so that the wind pressure can be adjusted, the initial states of the first on-off component 4 and the second on-off component 5 are both in a closed state, and the wind pressure threshold value for opening the first on-off component 4 is larger than the wind pressure threshold value for opening the second on-off component 5.

Specifically, the first wind pressure threshold value is used as a wind pressure threshold value for opening the first opening/closing unit 4, and the second wind pressure threshold value is used as a wind pressure threshold value for opening the second opening/closing unit 5. When the washing and drying integrated equipment executes a clothes drying program, the fan 30a is started to enable the air pressure in the drying air channel 3 to be larger than a second air pressure threshold value and smaller than a first air pressure threshold value, so that the first on-off component 4 is kept in a closed state and the second on-off component 5 is opened under the action of the air pressure, at the moment, as shown in fig. 1, the flow path of the air circularly flows through the window pad 10a of the drying air channel 3 and the outer cylinder 1 to form internal circulation of the air, in the process, the heat pump system is in a working state, the air flowing into the drying air channel 3 from the outer cylinder 1 is heated and dehumidified to be changed into dry hot air, and then the hot air flows into the outer cylinder 1 to dry clothes.

When the washing and drying integrated equipment executes a ventilation program, before the fan 30a is started, water is injected into the drying air duct 3, the water is accumulated at the second on-off component 5 to separate wind, the fan 30a is started to enable the wind pressure in the drying air duct 3 to be larger than a first wind pressure threshold value, so that the first on-off component 4 is opened under the action of the wind pressure, and the second on-off component 5 is prevented from being influenced by the wind due to the separation of the wind by the water in the drying air duct 3 to keep a closed state, at the moment, as shown in figure 4, the air flows in from the first on-off component 4 of the drying air duct 3 along the flow path of the air, sequentially flows through the drying air duct 3, the window pad 10a and the outer barrel 1, and is finally discharged out of the outer barrel 1 from the ventilating component 6, after being discharged out of the outer barrel 1, the air can be discharged out of the washing and drying integrated equipment from a gap of the washing and drying integrated equipment, and in the process, the heat pump system can be in a working state, air in the air duct 3 of drying carries out heating dehumidification and makes it become dry hot air to remove the flavor at the ventilation and dry urceolus 1 more fast, interior bucket and window pad 10a more, avoid remaining moisture in urceolus 1, interior bucket and window pad 10a, breed the bacterium, of course, when carrying out the ventilation procedure, heat pump system also can be in the closed condition, also can be taken away through the water on circulation of air urceolus 1, interior bucket and the window pad 10a, thereby make urceolus 1, interior bucket and window pad 10a by the drying.

It should be noted that, be provided with water inlet structure (not shown in the figure) on stoving wind channel 3, pour into water into to stoving wind channel 3 through water inlet structure, this water inlet structure can adopt inlet tube, water inlet etc. and the concrete structure of water inlet structure can be set up in the practical application in a flexible way to the technical staff in the art, as long as can pour into water into to stoving wind channel 3 through this water inlet structure can.

It should be noted that, besides the heat pump system, a heater strip may be disposed in the drying air duct 3 to heat air, and a condenser may be disposed in the drying air duct 3 to dehumidify air, so that the air in the drying air duct 3 becomes hot dry air, and the clothes in the outer tub 1 are dried.

In one possible case, as shown in fig. 1, 2, 4 and 5, the first on-off assembly 4 includes a first magnetic member 41 and a second magnetic member 42 capable of attracting each other under the action of magnetic force and connected to the drying air duct 3, the first magnetic member 41 is rotatably connected to the drying air duct 3, the second magnetic member 42 is fixedly connected to the drying air duct 3, when the washing and drying integrated device executes the drying program, the first magnetic member 41 and the second magnetic member 42 contact under the action of the magnetic attraction force to block the drying air duct 3 from the outside, when the washing and drying integrated equipment executes the ventilation program, the first magnetic member 41 rotates under the action of wind pressure, so that the first magnetic member 41 is separated from the second magnetic member 42 to communicate the drying air duct 3 with the outside, after the washing and drying integrated device finishes the ventilation procedure, the first magnetic member 41 and the second magnetic member 42 are reset under the action of the magnetic attraction force to block the drying air duct 3 from the outside. Of course, the second magnetic member 42 may be rotatably connected to the drying air duct 3, the first magnetic member 41 may be fixedly connected to the drying air duct 3, in this case, when the washing and drying integrated device performs the ventilation procedure, the second magnetic member 42 may rotate under the wind pressure to separate the first magnetic member 41 from the second magnetic member 42 so as to communicate the drying air duct 3 with the outside, or both the first magnetic member 41 and the second magnetic member 42 may be rotatably connected to the drying air duct 3, in this case, when the washing and drying integrated device performs the ventilation procedure, both the first magnetic member 41 and the second magnetic member 42 may rotate under the wind pressure so as to separate from each other so as to communicate the drying air duct 3 with the outside. It should be noted that the first on-off component 4 may be disposed on the side wall of the drying air duct 3 to control the opening and closing of the opening on the side wall of the drying air duct 3, so as to communicate or block the drying air duct 3 with the outside, for example: the drying air duct 3 is communicated with the outside through an opening arranged on the side wall, when the first on-off component 4 is in a closed state, the first magnetic part 41 and the second magnetic part 42 are contacted under the action of magnetic attraction force to cover the opening and close the opening, so that the drying air duct 3 is separated from the outside, when the first on-off component 4 is in an open state, the first magnetic part 41 and the second magnetic part 42 are separated to open the opening, so that the drying air duct 3 is communicated with the outside, of course, the on-off of the drying air duct 3 can be controlled by the cross-sectional position arranged in the drying air duct 3, so that the drying air duct 3 is communicated with or separated from the outside (the situation shown in fig. 1, 2, 4 and 5 is the following), for example: the drying air duct 3 is communicated with the outside through an opening 100 located on the cross section of the drying air duct 3, when the first on-off assembly 4 is in a closed state, the first magnetic member 41 and the second magnetic member 42 are in contact under the action of magnetic attraction to cover the opening 100 and enable the opening 100 to be closed (or the first magnetic member 41 and the second magnetic member 42 are arranged close to the opening 100 and are in contact under the action of magnetic attraction and located at the cross section position in the drying air duct 3, so that air cannot enter through the opening 100), so that the drying air duct 3 is isolated from the outside, when the first on-off assembly 4 is in an open state, the first magnetic member 41 is separated from the second magnetic member 42, so that the opening 100 is opened (or the first magnetic member 41 is separated from the second magnetic member 42, so that air can enter through the opening 100), so that the drying air duct 3 is communicated with the outside. The first magnetic member 41 may be a magnetic member having magnetism throughout, for example: a permanent magnet or an electromagnet is used, and besides, the first magnetic member 41 may be partially magnetic, for example: as shown in fig. 5, the first magnetic member 41 includes a plate 411 and a magnet 412 (permanent magnet or electromagnet) disposed on the plate 411, the plate 411 is rotatably connected to the drying air duct 3, the first magnetic member 41 is attracted to the second magnetic member 42 through the magnet 412, when the first switching assembly 4 is in the closed state, the plate 411 contacts the second magnetic member 42 to block the drying air duct 3 from the outside, and when the second switching assembly 5 is in the open state, the plate 411 is separated from the second magnetic member 42 to connect the drying air duct 3 to the outside, and those skilled in the art can flexibly set the specific structure of the first magnetic member 41 in practical applications, and such adjustment and change of the specific structure of the first magnetic member 41 do not limit the present invention, and should be limited within the protection scope of the present invention. Similarly, the second magnetic member 42 may be wholly or partially magnetic, and those skilled in the art can flexibly set the specific structure of the second magnetic member 42 in practical applications, and such modifications and changes to the specific structure of the second magnetic member 42 should not be construed as limitations on the present invention, and shall not be limited to the protection scope of the present invention.

In a possible situation, the first on-off assembly 4 includes a first baffle, a first rotating shaft and a first torsion spring, the first baffle is rotatably connected with the drying air duct 3 through the first rotating shaft, and the first torsion spring is sleeved on the first rotating shaft, when the drying program is executed by the washing and drying integrated device, the first torsion spring enables the drying air duct 3 to be separated from the outside through self elastic action, when the ventilation program is executed by the washing and drying integrated device, the first torsion spring is elastically twisted under wind pressure action to enable the drying air duct 3 to be communicated with the outside through the first baffle, and after the ventilation program is finished by the washing and drying integrated device, the first torsion spring enables the first baffle to be reset through self elastic action to separate the drying air duct 3 from the outside. If the first torsion spring can achieve the above-mentioned functions, the first torsion spring is inevitably configured such that the first end of the first torsion spring does not move relative to the first rotating shaft, and the second end of the second torsion spring can move relative to the first rotating shaft when the first baffle rotates, specifically, the first end of the first torsion spring is directly and fixedly disposed on the first rotating shaft, and the second end of the first torsion spring is directly and fixedly disposed on the drying air duct 3, of course, the above-mentioned positions for disposing both ends of the first torsion spring are only one possible situation, and those skilled in the art can flexibly set the positions for disposing both ends of the first torsion spring in practical applications, as long as such positions enable the first torsion spring to achieve the above-mentioned functions, for example: the first end of the first torsion spring may be directly fixed to a member fixed to the first rotating shaft, and the second end of the first torsion spring may be directly fixed to a member fixed to the drying duct 3. It should be noted that the first on-off component 4 may be disposed on the side wall of the drying air duct 3 to control the opening and closing of the opening on the side wall of the drying air duct 3, so as to communicate or block the drying air duct 3 with the outside, for example: drying air duct 3 communicates with the external world through the opening that sets up on the lateral wall, first break-make subassembly 4 is when the closed condition, first baffle covers this opening so that it closes to make drying air duct 3 and external separation under first torsion spring self elastic action, first break-make subassembly 4 is when the open condition, first torsion spring is twisted round by elasticity so that first baffle rotates to make this opening open thereby making drying air duct 3 and external intercommunication under the wind pressure effect, of course, can also be the break-make that sets up cross section position control drying air duct 3 in drying air duct 3 so that drying air duct 3 and external intercommunication or separation, for example: the drying air duct 3 is communicated with the outside through an opening 0 on the cross section of the drying air duct 3, when the first on-off component 4 is in a closed state, the first baffle covers the opening under the elastic action of the first torsion spring to close the opening (or the first baffle is arranged close to the opening and is positioned in the cross section position in the drying air duct 3 under the elastic action of the first torsion spring to prevent air from entering through the opening), so that the drying air duct 3 is separated from the outside, when the first on-off component 4 is in an open state, the first torsion spring is elastically twisted under the air pressure action to enable the first baffle to rotate to open the opening (or the first torsion spring is elastically twisted under the air pressure action to enable the first baffle to rotate so as to enable air to enter through the opening), so that the drying air duct 3 is communicated with the outside.

Those skilled in the art can flexibly set the specific structure of the first on-off assembly 4 in practical applications, as long as the first on-off assembly 4 can be selectively opened or closed under the action of wind pressure to connect or block the drying air duct 3 with the outside.

In one possible case, as shown in fig. 1 and 4, the second cut-off assembly 5 includes a third magnetic member 51 and a fourth magnetic member 52 capable of attracting each other under magnetic force and connected to the drying duct 3, the third magnetic member 51 is rotatably connected to the drying duct 3, the fourth magnetic member 52 is fixedly connected to the drying duct 3, when the integrated washing and drying apparatus performs a drying procedure, the third magnetic member 51 is rotated under wind pressure to separate the third magnetic member 51 from the fourth magnetic member 52 and connect the drying duct 3 to the tub 1, and when the integrated washing and drying apparatus performs a ventilation procedure, water contained in the drying duct 3 blocks wind to allow the third magnetic member 51 to contact the fourth magnetic member 52 and block the drying duct 3 from the tub 1. Of course, similar to the first on-off assembly 4, the fourth magnetic member 52 may be rotatably connected to the drying air duct 3, the third magnetic member 51 may be fixedly connected to the drying air duct 3, or both the third magnetic member 51 and the fourth magnetic member 52 may be rotatably connected to the drying air duct 3. Like the first magnetic member 41, the third magnetic member 51 and the fourth magnetic member 52 may be entirely or partially magnetic, and those skilled in the art can flexibly set the specific structures of the third magnetic member 51 and the fourth magnetic member 52 in practical applications, and such adjustment and change of the specific structures of the third magnetic member 51 and the fourth magnetic member 52 should not be construed as a limitation to the present invention, and should be limited within the scope of the present invention.

In another possible case, the second on-off assembly 5 includes a second baffle, a second rotating shaft and a second torsion spring, the second baffle is rotatably connected to the drying air duct 3 through the second rotating shaft, and the second torsion spring is sleeved on the second rotating shaft, when the drying program is executed by the washing and drying integrated device, the second torsion spring is elastically twisted under the action of wind pressure to enable the second baffle to communicate the drying air duct 3 with the outer tub 1, and when the ventilation program is executed by the washing and drying integrated device, the water contained in the drying air duct 3 blocks the wind to allow the second torsion spring to block the drying air duct 3 from the outer tub 1 through the elastic action of the second torsion spring. If the second torsion spring can realize the above-mentioned function, then the second torsion spring must set up that the first end of second torsion spring does not take place relative movement with the second pivot, and the second end of second torsion spring can take place relative movement relative to the second pivot when the second baffle rotates, specifically speaking, can be that the first end of second torsion spring is directly fixed to be set up in the second pivot, the second end direct fixation of second torsion spring sets up on stoving wind channel 3, of course, the setting position at the above-mentioned second torsion spring both ends is only a possible situation, technical staff in the art can set up the setting position at the second torsion spring both ends in practical application in a flexible way, as long as this kind of setting position can make the second torsion spring realize its above-mentioned function can, for example: or the first end of the second torsion spring is directly and fixedly arranged on the part fixed on the second rotating shaft, and the second end of the second torsion spring is directly and fixedly arranged on the part fixed on the drying air duct 3.

Those skilled in the art can flexibly set the specific structure of the second cut-off assembly 5 in practical application, as long as the second cut-off assembly 5 can be selectively opened or closed under the action of wind pressure to connect or block the drying air duct 3 with the outer tub 1.

Preferably, the airing assembly 6 includes an airing hole formed on the tub 1, a detergent containing box having an opening, and an airing pipe communicating the airing hole with the detergent containing box. Because the washing containing box is provided with the opening, the outer barrel can be communicated with the outside all the time through the air holes, the air permeable pipeline and the detergent containing box, therefore, when a ventilation program is executed, air in the outer barrel 1 can be discharged out of the washing and drying integrated equipment through the air holes, the air permeable pipeline and the detergent containing box in sequence, and ventilation is realized.

Preferably, the ventilation assembly 6 comprises a third baffle, a third rotating shaft and a third torsion spring, the third baffle is rotatably connected with the outer barrel 1 through the third rotating shaft, the third torsion spring is sleeved on the third rotating shaft, when the washing and drying integrated equipment executes a drying program, the third torsion spring enables the third baffle to separate the outer barrel 1 from the outside through the self elastic action, when the washing and drying integrated equipment executes a ventilation program, the third torsion spring is elastically twisted under the action of wind pressure to enable the third baffle to communicate the outer barrel 1 with the outside, and after the washing and drying integrated equipment finishes the ventilation program, the third torsion spring enables the third baffle to reset through the self elastic action to separate the outer barrel 1 from the outside. If the third torsion spring can achieve the above-mentioned functions, the third torsion spring must be set such that the first end of the third torsion spring does not move relative to the third rotating shaft, and the second end of the third torsion spring can move relative to the third rotating shaft when the third baffle rotates, specifically, the first end of the third torsion spring is directly and fixedly disposed on the third rotating shaft, and the second end of the third torsion spring is directly and fixedly disposed on the outer barrel 1, of course, the setting positions at the two ends of the third torsion spring are only one possible situation, and those skilled in the art can flexibly set the setting positions at the two ends of the third torsion spring in practical application, as long as the setting positions enable the third torsion spring to achieve the above-mentioned functions, for example: alternatively, the first end of the third torsion spring may be directly and fixedly disposed on the member fixed to the third rotating shaft, and the second end of the third torsion spring may be directly and fixedly disposed on the member fixed to the outer cylinder 1.

Preferably, the water inlet pipe of the washing and drying integrated equipment comprises a U-shaped part, the water inlet pipe is communicated with the outer barrel 1, when clothes are washed, water is injected into the outer barrel 1 through the water inlet pipe to wash or rinse the clothes, after the water injection is completed, part of water is stored in the U-shaped part, the outer barrel 1 cannot be communicated with the outside through the water inlet pipe, the air permeable component 6 comprises a water outlet pipe communicated with the bottom end of the U-shaped part and a valve which is arranged on the water outlet pipe and can control the on-off of the water outlet pipe, when a drying program is executed, the valve on the water outlet pipe is kept closed, the water stored in the U-shaped part can be prevented from flowing out, the outer barrel 1 is accordingly isolated from the outside, when a ventilation program is executed, the valve of the water outlet pipe is opened, the water stored in the U-shaped part flows out through the water outlet pipe, and the outer barrel 1 can be communicated with the outside through the water inlet pipe.

Preferably, as shown in fig. 1, 3, 4 and 6, the ventilation assembly 6 includes a fifth magnetic member 61 and a sixth magnetic member 62 capable of attracting each other under a magnetic force and connected to the tub 1, the fifth magnetic member 61 is rotatably connected to the tub 1, the sixth magnetic member 62 is fixedly connected to the tub 1, when the washing and drying integrated device performs a drying procedure, the fifth magnetic member 61 and the sixth magnetic member 62 contact under the magnetic attraction force to block the tub 1 from the outside, when the washing and drying integrated device performs a ventilation procedure, the fifth magnetic member 61 rotates under the wind pressure to separate the fifth magnetic member 61 and the sixth magnetic member 62 to communicate the tub 1 with the outside, and when the washing and drying integrated device finishes the ventilation procedure, the fifth magnetic member 61 and the sixth magnetic member 62 are reset under the magnetic attraction force to block the tub 1 from the outside. Of course, it is also possible that the sixth magnetic member 62 is rotatably connected to the outer tub 1, the fifth magnetic member 61 is fixedly connected to the outer tub 1, in which case when the washing and drying integrated apparatus performs the ventilation process, the sixth magnetic member 62 is rotated by the wind pressure so that the fifth magnetic member 61 is separated from the sixth magnetic member 62 to communicate the outer tub 1 with the outside, and it is also possible that the fifth magnetic member 61 and the sixth magnetic member 62 are both rotatably connected to the outer tub 1, in which case when the washing and drying integrated apparatus performs the ventilation process, the fifth magnetic member 61 and the sixth magnetic member 62 are both rotated by the wind pressure so as to be separated from each other to communicate the outer tub 1 with the outside. Similar to the first magnetic component 41, the fifth magnetic component 61 and the sixth magnetic component 62 may be wholly or partially magnetic, and those skilled in the art can flexibly set the specific structures of the fifth magnetic component 61 and the sixth magnetic component 62 in practical applications, and such adjustment and change of the specific structures of the fifth magnetic component 61 and the sixth magnetic component 62 should not be construed as a limitation to the present invention, and should be limited within the scope of the present invention.

The skilled person can flexibly set the specific structure of the air-permeable assembly 6 in practical application, and such adjustment and change of the specific structure of the air-permeable assembly 6 should not be construed as limiting the present invention, and should be limited within the scope of the present invention.

Preferably, as shown in fig. 1 and 4, the air outlet part 32 includes a first air outlet pipe 321 and a second air outlet pipe 322, the first air outlet pipe 321 is communicated with the window mat 10a through a first air outlet and is located above the inclined part 71 of the door glass 7 of the washing and drying integrated device, air moves to the inclined part 71 after flowing out from the first air outlet, the air is introduced into the outer tub 1 under the action of the inclined part 71, the second air outlet pipe 322 passes through the raised part of the wrinkles of the window mat 10a, a second air outlet of the second air outlet pipe 322 is formed on the side surface of the second air outlet pipe 322 located on the lower side of the raised part, and the second air outlet is located near the raised part. When the door body is closed, the window gasket 10a is positioned between the outer cylinder 1 and the door body to play a sealing role, the window gasket 10a is provided with folds, and the part protruding from the clothes feeding opening of the outer cylinder 1 to the periphery in the folds is a protruding part. It should be noted that, taking the second air outlet pipe 322 as a cylindrical pipe as an example, the second air outlet is formed on a side surface of the second air outlet pipe 322, that is, the second air outlet is disposed on a cylindrical wall surface, and since the second air outlet pipe 322 passes through the protruding portion, air flowing out of the second air outlet can flow along the circumferential direction of the protruding portion, thereby accelerating the drying speed of the window mat 10 a.

Preferably, the washing and drying integrated device further comprises a drain pipe 8, and the drain pipe 8 can selectively discharge water contained in the drying air duct 3 out of the drying air duct 3. Due to the arrangement, after the ventilation program is finished or before the drying program is started, the water contained in the drying air duct 3 can be discharged through the drain pipe 8, the water is prevented from being remained in the drying air duct 3 all the time, and the subsequent drying program is prevented from being hindered.

Preferably, the water inlet part 81 of the water drain pipe 8 is connected with the drying air duct 3 near the second on-off component 5, the water outlet part 82 of the water drain pipe 8 comprises a first water outlet pipe and a second water outlet pipe, the first water outlet pipe is provided with a first water drain valve capable of controlling the on-off of the first water outlet pipe, the first water outlet pipe is communicated with the bottom of the outer barrel 1, the second water outlet pipe is provided with a second water drain valve capable of controlling the on-off of the second water outlet pipe, and the second water outlet pipe is communicated with the water drain pipe of the washing and drying integrated equipment. When the ventilation procedure is finished and the user subsequently and quickly uses the washing and drying integrated equipment to wash or rinse clothes, the user can selectively control the first drain valve to open the water in the drying air channel 3 to drain into the outer cylinder 1 for subsequent washing or rinsing clothes, and when the user stops using the washing and drying integrated equipment after the ventilation procedure is finished, the user can selectively control the second drain valve to open the water in the drying air channel 3 to drain into the drain pipe so as to directly discharge the washing and drying integrated equipment, thereby avoiding breeding bacteria or generating peculiar smell due to the fact that water is accumulated in the washing and drying integrated equipment.

Preferably, as shown in fig. 1 and 4, the water inlet portion 81 of the drain pipe 8 is connected to the drying air duct 3 near the second opening/closing assembly 5, the water outlet portion 82 of the drain pipe 8 is only communicated with the bottom of the outer tub 1, and the drain pipe 8 is provided with a third drain valve 80a capable of controlling the opening/closing of the drain pipe 8. After the ventilation procedure is finished, the user can selectively control the third drain valve 80a to open to drain the water in the drying air duct 3 into the outer tub 1.

Preferably, the water inlet portion 81 of the drain pipe 8 is connected to the drying air duct 3 near the second opening/closing assembly 5, the water outlet portion 82 of the drain pipe 8 is only communicated with the drain pipe of the washing and drying integrated device, and the drain pipe 8 is provided with a fourth drain valve capable of controlling the opening/closing of the drain pipe 8. After the ventilation procedure, thereby the user can select the fourth drain valve of control to open and wash dry integrative equipment with the water discharge drain pipe in the wind channel 3 of drying, avoid because of water accumulation in wash dry integrative equipment inside lead to breeding the bacterium or produce the peculiar smell.

So far, the technical solutions of the present invention have been described in connection with the preferred embodiments shown in the drawings, but it is easily understood by those skilled in the art that the scope of the present invention is obviously not limited to these specific embodiments. Equivalent changes or substitutions of related technical features can be made by those skilled in the art without departing from the principle of the invention, and the technical scheme after the changes or substitutions can fall into the protection scope of the invention.