CN220024937U - Base station and cleaning device - Google Patents

Abstract

The utility model discloses a base station and cleaning equipment, the base station includes: a body; the sewage collection assembly comprises a sewage collection box and a garbage collection piece, wherein the sewage collection box is provided with a sewage outlet, a sewage inlet and a drying air opening, the sewage outlet is positioned on the bottom wall of the sewage collection box, the drying air opening is positioned between the sewage outlet and the sewage inlet, the garbage collection piece is arranged in the sewage collection box, and the garbage collection piece is configured to collect garbage and filter sewage; and the drying fan is connected with the drying air port so as to supply air towards the interior of the dirt collecting box. The utility model provides a base station, which reduces the risk of sewer blockage by collecting solid garbage through a sewage collecting assembly, and inhibits bacteria breeding by drying the solid garbage through a drying assembly.

Description

Base station and cleaning device

Technical Field

The utility model relates to the field of cleaning tools, in particular to a base station and cleaning equipment.

Background

The floor washing machine is a cleaning machine which is suitable for cleaning the ground and sucking the sewage at the same time, and can separate the sewage from the site, and has the advantages of environmental protection, energy saving, high efficiency and the like.

In the related art, garbage and sewage can be collected in a sewage tank of the floor washing machine when the floor washing machine cleans the floor, when the floor washing machine is matched with a base station, the base station can pump the garbage and sewage in the sewage tank into a sewage collecting tank of the floor washing machine, and finally the garbage and sewage in the sewage collecting tank are discharged into a sewer together.

In the technical scheme, garbage and sewage are discharged into the sewer together, so that the condition of blocking the sewer is easy to occur, and the use of a user is influenced.

Disclosure of Invention

The present utility model aims to solve at least one of the technical problems existing in the prior art. Therefore, the utility model provides the base station, the risk of sewer blockage is reduced by collecting the solid garbage through the sewage collecting assembly, and bacteria breeding is inhibited by drying the solid garbage through the drying assembly.

The utility model also provides cleaning equipment comprising the base station.

The base station according to the embodiment of the utility model comprises: a body; the sewage collection assembly comprises a sewage collection box and a garbage collection piece, wherein the sewage collection box is provided with a sewage outlet, a sewage inlet and a drying air opening, the sewage outlet is positioned on the bottom wall of the sewage collection box, the drying air opening is positioned between the sewage outlet and the sewage inlet, the garbage collection piece is arranged in the sewage collection box, and the garbage collection piece is configured to collect garbage and filter sewage; and the drying fan is connected with the drying air port so as to supply air towards the interior of the dirt collecting box.

According to the base station provided by the embodiment of the utility model, on one hand, the solid garbage is collected through the garbage collecting piece, so that the solid garbage is prevented from directly entering a sewer, and the possibility of sewer blockage is reduced; on the other hand can dry the solid garbage that garbage collection spare was collected through drying blower, can also dry garbage collection spare itself and the inner wall of collection dirty case for the environment in the collection dirty case is in dry state, has restrained breeding of bacterium, has still reduced the user simultaneously when handling solid garbage, and the possibility of solid garbage drip.

In some embodiments, the drying tuyere is located between the sewage outlet and the sewage inlet in a height direction.

In some embodiments, the drying tuyere is located at a lower portion of the sump housing.

In some embodiments, the drying tuyere is disposed directly opposite to a side lower end of the garbage collection member.

In some embodiments, the drying fan is connected with the dirt collection box through a drying air duct.

In some embodiments, at least a portion of the drying duct extends upward in a direction away from the drying tuyere.

In some embodiments, the drying duct includes a first portion and a second portion, the lower end of the first portion is connected to the drying tuyere, the upper end of the first portion is connected to the upper end of the second portion through a connection section, and the second portion extends downward to be connected to the drying blower.

In some embodiments, an upper end of the second portion is located above the drying tuyere in a height direction.

In some embodiments, a heating module for heating air is disposed in the drying duct.

In some embodiments, the dirt collection box is provided with a vacuumizing port above the dirt inlet, the dirt inlet is connected with a dirt inlet pipeline, and the vacuumizing port is connected with a vacuumizing fan.

In some embodiments, the base station further comprises an air duct assembly, the air duct assembly is arranged in the dirt collecting box, an air flowing space is arranged in the air duct assembly, an air inlet communicated with the inner space of the dirt collecting box is arranged in the air flowing space, an air outlet communicated with the vacuumizing port is arranged in the air flowing space, and the air inlet and the air outlet are arranged in a staggered mode.

In some embodiments, an air filter assembly is disposed within the windward space, the air filter assembly being located between the air inlet and the air outlet.

In some embodiments, a separation assembly is disposed within the vaned space, the separation assembly configured such that an air flow path within the vaned space has at least one corner.

In some embodiments, the air duct assembly further comprises a guide pipeline, wherein the guide pipeline is respectively communicated with the space in the dirt collecting box and the dirt inlet, and the guide pipeline and the windward space are arranged in an isolated mode.

In some embodiments, the dirt collection box comprises a box body and a cover body, wherein an opening is formed in the top of the box body, the cover body is used for opening or closing the opening, and the garbage collection piece is arranged in the box body.

In some embodiments, the cover is removably positioned in the opening and the waste collection member is secured to the cover.

In some embodiments, a guide pipeline communicated with the sewage inlet is arranged in the sewage collection box; the garbage collection piece comprises a garbage basket and a garbage net bag, and the garbage net bag is arranged in the garbage basket and detachably arranged in the guide pipeline.

The cleaning equipment provided by the embodiment of the utility model comprises the base station in the technical scheme.

Additional aspects and advantages of the utility model will be set forth in part in the description which follows, and in part will be obvious from the description, or may be learned by practice of the utility model.

Drawings

The foregoing and/or additional aspects and advantages of the utility model will become apparent and may be better understood from the following description of embodiments taken in conjunction with the accompanying drawings in which:

FIG. 1 is a schematic view of a cleaning apparatus according to an embodiment of the present utility model;

fig. 2 is a schematic structural diagram of a base station according to an embodiment of the present utility model;

fig. 3 is a schematic diagram of an internal structure of a base station according to some embodiments of the present utility model;

fig. 4 is a sectional view of the base station in order to show a flow path of sewage when the base station pumps the sewage;

fig. 5 is a schematic diagram illustrating an internal structure of a base station according to other embodiments of the present utility model;

fig. 6 is a sectional view of a base station for illustrating an air supply path of a drying blower;

fig. 7 is an exploded view of the dirt collection assembly and the drying assembly;

fig. 8 is a cross-sectional view of a base station according to an embodiment of the present utility model;

FIG. 9 is an enlarged schematic view of portion A of FIG. 8;

fig. 10 is a schematic view showing the internal structure of a base station for illustrating a cleaning module.

Reference numerals: 100. a cleaning device; 1. a host; 11. a sewage tank; 200. a base station; 3. a body; 31. a sewage inlet pipeline; 32. a first pair of interfaces; 33. a second pair of interfaces; 34. vacuumizing an air duct; 4. a dirt collection assembly; 41. a dirt collection box; 411. a case; 412. a cover body; 413. a sewage inlet; 414. a sewage outlet; 415. a vacuum pumping port; 416. drying the air port; 42. a garbage collection member; 421. a garbage basket; 4211. a water filtering hole; 4212. a support; 5. a drying assembly; 51. a heating module; 52. a drying fan; 53. a drying air duct; 531. a first portion; 532. a second portion; 54. a temperature detecting member; 6. a vacuum blower; 7. an air duct assembly; 71. a windward space; 72. an air inlet; 73. an air outlet; 74. an air filtration assembly; 75. a partition assembly; 751. a turning part; 752. a top wall; 753. a bottom wall; 754. a first extension wall; 755. a second extension wall; 756. a third extension wall; 757. a fourth extension wall; 758. a side wall of the air duct; 76. a filter screen; 77. a guide duct; 8. cleaning the assembly; 81. a water storage bucket; 82. a transport assembly; 821. a first pump body; 83. an electromagnetic valve; 84. a storage box; 85. and a second pump body.

Detailed Description

Embodiments of the present utility model are described in detail below, examples of which are illustrated in the accompanying drawings, wherein like or similar reference numerals refer to like or similar elements or elements having like or similar functions throughout. The embodiments described below by referring to the drawings are illustrative only and are not to be construed as limiting the utility model.

In the description of the present utility model, it should be understood that the terms "center", "longitudinal", "lateral", "length", "width", "thickness", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", "clockwise", "counterclockwise", "axial", "radial", "circumferential", etc. indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings are merely for convenience in describing the present utility model and simplifying the description, and do not indicate or imply that the device or element being referred to must have a specific orientation, be configured and operated in a specific orientation, and therefore should not be construed as limiting the present utility model. Furthermore, features defining "first", "second" may include one or more such features, either explicitly or implicitly. In the description of the present utility model, unless otherwise indicated, the meaning of "a plurality" is two or more.

In the description of the present utility model, it should be noted that, unless explicitly specified and limited otherwise, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be either fixedly connected, detachably connected, or integrally connected, for example; can be mechanically or electrically connected; can be directly connected or indirectly connected through an intermediate medium, and can be communication between two elements. The specific meaning of the above terms in the present utility model will be understood in specific cases by those of ordinary skill in the art.

A base station 200 according to an embodiment of the present utility model is described below with reference to fig. 1 to 10.

Referring to fig. 1, 2 and 3, the base station 200 according to the embodiment of the present utility model is the base station 200 of the cleaning apparatus 100, and the cleaning apparatus 100 further includes a main body 1, and the main body 1 is provided with a sewage tank 11. The base station 200 of the embodiment of the present utility model includes: a main body 3 and a dirt collecting assembly 4 arranged on the main body 3. When the host 1 is docked with the base station 200, the base station 200 can pump the sewage and waste in the sewage tank 11 into the sewage collection assembly 4, so that the host 1 can continue to operate, and the sewage tank 11 of the host 1 can continue to contain the waste and sewage.

Referring to fig. 2, 4 and 5, the dirt collection assembly 4 includes a dirt collection tank 41 and a waste collection member 42 disposed inside the dirt collection tank 41, the waste collection member 42 being for collecting solid waste within the dirt collection tank 41, the waste collection member 42 being configured for collecting the waste and filtering the waste water. When sewage and solid garbage enter the garbage collection box 41 and then enter the garbage collection piece 42, the solid garbage is intercepted in the garbage collection piece 42, and the sewage can be filtered and discharged out of the garbage collection piece 42, so that solid-liquid separation can be realized, and the sewage and the solid garbage can be treated respectively conveniently.

Referring to fig. 2, 4 and 5, the sump housing 41 is provided with a sewage outlet 414 and a sewage inlet 413, the sewage outlet 414 being located at an upper end of the sump housing 41, and the sewage outlet 414 being located at a bottom wall of the sump housing 41.

When the host 1 is docked with the base station 200, the sewage inlet 413 is communicated with the sewage tank 11 of the host 1, the base station 200 can pump sewage and solid garbage in the sewage tank 11 into the sewage collecting tank 41 through the sewage inlet 413, and the sewage and the solid garbage enter the sewage collecting tank 41 and then enter the garbage collecting piece 42, so that the solid garbage is intercepted in the garbage collecting piece 42. When the base station 200 needs to treat sewage in the sewage collection tank 41, the sewage outlet 414 is opened, because the sewage outlet 414 is positioned at the bottom wall of the sewage collection tank 41, under the action of gravity, sewage can be directly discharged through the sewage outlet 414, and solid garbage is collected through the garbage collecting piece 42, so that the solid garbage is prevented from directly entering a sewer, and the possibility of blockage of the sewer is reduced.

After the sewage in the sewage collecting box 41 is discharged, the sewage collecting box 41 is still in a moist environment, and bacteria are easy to breed. Before the user disposes the solid garbage in the garbage collecting part 42, the dirt collecting box 41 needs to be opened, so that the wet environment in the dirt collecting box 41 seriously affects the use of the user, and if the solid garbage in the garbage collecting part 42 is disposed at this time, the solid garbage may drip water and pollute the indoor environment. In order to improve at least one of the above problems, referring to fig. 5, 6 and 7, the sump housing 41 according to an embodiment of the present utility model is further provided with a drying air inlet 416, and the drying air inlet 416 is located between the sewage outlet 414 and the sewage inlet 413. The base station 200 further comprises a drying assembly 5, the drying assembly 5 comprises a drying fan 52, the drying fan 52 is connected with the drying air port 416, and the drying fan 52 is used for blowing air towards the interior of the dirt collection box 41.

When the base station 200 discharges the sewage in the sewage collection tank 41, the drying assembly 5 can dry the solid garbage collected by the garbage collection member 42, and also can dry the garbage collection member 42 itself and the inner wall of the sewage collection tank 41. The environment in the dirt collection box 41 is in a dry state, so that bacteria are restrained from breeding, and meanwhile, the possibility of dripping of the solid garbage when a user processes the solid garbage is reduced.

According to the base station 200 of the embodiment of the utility model, the solid garbage is collected by the garbage collection piece 42, so that the solid garbage is prevented from directly entering a sewer, and the possibility of sewer blockage is reduced; the solid garbage collected by the garbage collecting part 42 can be dried by the drying fan 52, and the garbage collecting part 42 and the inner wall of the sewage collecting box 41 can be dried, so that the environment in the sewage collecting box 41 is in a dry state, the breeding of bacteria is inhibited, and meanwhile, the possibility of dripping of the solid garbage when a user processes the solid garbage is reduced.

Referring to fig. 5, 6 and 7, in some embodiments, the drying tuyere 416 is located between the sewage outlet 414 and the sewage inlet 413 in a height direction.

By the above technical solution, since the sewage outlet 414 is located at the upper end of the sewage collecting tank 41, the sewage outlet 414 is located at the bottom wall of the sewage collecting tank 41, and sewage can be directly discharged through the sewage outlet 414 under the action of gravity. And the drying air port 416 is arranged between the sewage outlet 414 and the sewage inlet 413, and after the sewage is discharged from the sewage outlet 414, the drying air port 416 can blow the air provided by the drying fan 52 to the garbage between the sewage outlet 414 and the sewage inlet 413, so that the garbage drying speed is accelerated.

Referring to fig. 5, 6 and 7, in some embodiments, the drying tuyere 416 is located at a lower portion of the sump housing 41. Because the hot air moves upwards generally, the utility model can blow the hot air in the dirt collecting box 41 from bottom to top by arranging the drying air opening 416 at the lower part of the dirt collecting box 41, so that the hot air stays in the dirt collecting box 41 for a longer time, the hot air is in full contact with garbage, and the environment inside the dirt collecting box 41 can be dried better.

Referring to fig. 5, 6 and 7, in some embodiments, the drying tuyere 416 is disposed directly opposite to the side lower end of the garbage collection member 42.

Through the above technical scheme, when the drying fan 52 sends air, the air can be blown to the garbage collecting piece 42 through the drying air opening 416, so that the drying efficiency of the garbage collecting piece 42 and the solid garbage in the garbage collecting piece 42 is improved.

Referring to fig. 5, 6 and 7, in some embodiments, a drying blower 52 is connected to the sump housing 41 through a drying duct 53. That is, one end of the drying air duct 53 is connected to the drying air duct 53, and the other end is connected to the drying air port 416, so that when the drying fan 52 works, generated air enters the dirt collection box 41 through the drying air duct 53 and the drying air port 416.

Because the drying air port 416 is located at the lower part of the dirt collecting box 41, if there is sewage in the dirt collecting box 41, the sewage may enter the drying air duct 53 through the drying air port 416 and even flow to the drying fan 52, so that the work of the drying fan 52 is affected, and potential safety hazards are formed. To improve at least one of the above technical problems, in some embodiments, at least a portion of the drying air duct 53 extends upward in a direction away from the drying air port 416, so as to effectively reduce the possibility of sewage contacting the drying blower 52 and improve the use safety of the base station 200.

Referring to fig. 5, 6 and 7, in some embodiments, the drying duct 53 includes: the lower end of the first portion 531 is connected to the drying tuyere 416, the upper end of the first portion 531 is connected to the upper end of the second portion 532 through a connection section, and the second portion 532 extends downward to be connected to the drying blower 52.

By the above technical scheme, because the first portion 531 extends upwards, the possibility that sewage enters the second portion 532 is reduced, the possibility that sewage contacts the drying fan 52 is effectively reduced, and the use safety of the base station 200 is improved.

Referring to fig. 5, 6 and 7, in some embodiments, the upper end of the second portion 532 is positioned above the drying tuyere 416 in the height direction, reducing the possibility of sewage and garbage in the sump housing 41 entering the second portion 532.

Referring to fig. 5, 6 and 7, in some embodiments, a heating module 51 for heating air is provided in the drying duct 53.

Through the above technical scheme, the heating module 51 can change the wind sent by the drying air duct 53 into hot air during operation, so that the environmental drying speed in the dirt collection box 41 is effectively improved.

Referring to fig. 5, 6 and 7, in some embodiments, a temperature detecting member 54 for detecting the temperature of the supplied air is further disposed in the drying air duct 53, and when the detected temperature is higher than the set value, the heating module 51 stops working, so that the condition of excessively high temperature in the dirt collection box 41 is avoided, and the safety of the base station 200 is ensured.

In some embodiments, both the heating module 51 and the temperature detector 54 are disposed in the second portion 532. The risk of sewage contacting the heating module 51 and the temperature detecting member 54 is reduced.

Referring to fig. 8, 9 and 10, in some embodiments, the dirt collection assembly 4 is provided with a vacuum port 415, the vacuum port 415 being connected to the vacuum blower 6. When the host 1 is in butt joint with the base station 200, the sewage tank 11 is communicated with the sewage tank 41, the vacuum fan 6 works, and the vacuum fan 6 extracts gas in the sewage tank 41 through the vacuumizing port 415, so that the inside of the sewage tank 41 is in a negative pressure state, and the sewage tank 41 can extract sewage and solid garbage in the sewage tank 11 into the sewage tank 41.

In some embodiments, the base station 200 is further provided with a vacuum air channel 34, one end of the vacuum air channel 34 is communicated with the vacuum fan 6, and the other end is communicated with the vacuum opening 415.

Referring to fig. 2, 3 and 4, in some embodiments, the main body 3 is provided with a first pair of interfaces 32, and the base station 200 further includes a sewage inlet pipe 31, one end of the sewage inlet pipe 31 is connected to the first pair of interfaces 32, and the other end of the sewage inlet pipe 31 is communicated with the sewage inlet 413 of the sewage collection tank 41.

When the host 1 is in butt joint with the base station 200, the first pair of interfaces 32 on the base station 200 is in butt joint communication with the sewage tank 11 of the host 1, the first pair of interfaces 32 are communicated with the sewage tank 41 through the sewage inlet pipeline 31, the sewage tank 41 can be in a negative pressure state when the vacuum fan 6 works, and garbage and sewage in the sewage tank 11 sequentially enter the sewage tank 41 through the first pair of interfaces 32, the sewage inlet pipeline 31 and the sewage inlet 413.

Referring to fig. 5, 6 and 7, in some embodiments, a vacuum port 415 is formed on a peripheral wall of the sump housing 41, and the vacuum port 415 is located above the sump inlet 413. Under the influence of gravity, the possibility that sewage and garbage enter the vacuumizing port 415 after entering the sewage collecting box 41 from the sewage inlet 413 is reduced.

Referring to fig. 5, 6 and 7, in some embodiments, when the drying blower 52 is operated, wind is blown to the dirt collection tank 41 through the drying wind port 416, and simultaneously, the vacuum blower 6 is operated to draw out air in the dirt collection tank 41 through the vacuumizing port 415, so that the flow of air in the dirt collection tank 41 is accelerated, and the drying speed of liquid in the dirt collection tank 41 is accelerated.

In some embodiments, the vacuum port 415 is formed on a sidewall of the sump housing 41, the drying air port 416 is also formed on a sidewall of the sump housing 41, and the sidewall provided with the vacuum port 415 is disposed opposite to the sidewall provided with the drying air port 416. The vacuumizing port 415 is positioned at the upper end of the dirt collecting box 41, and the drying air port 416 is positioned at the lower end of the dirt collecting box 41.

Through the above technical scheme, the distance between the vacuumizing port 415 and the drying air port 416 is prolonged, namely the residence time of the hot air in the dirt collecting box 41 is prolonged, so that the hot air can dry the garbage better.

Referring to fig. 8, 9 and 10, in some embodiments, the dirt collection assembly 4 further includes a duct assembly 7, the duct assembly 7 being located between the vacuum port 415 and the dirt inlet 413, the duct assembly 7 being configured to block the ingress of debris into the vacuum port 415.

In the above technical scheme, the air duct assembly 7 is arranged between the vacuumizing port 415 and the sewage inlet 413, and the possibility that the sewage or the garbage of the sewage collecting box 41 enters the vacuumizing port 415 is reduced through the blocking of the air duct assembly 7, so that the possibility that the sewage or the garbage affects the operation of the vacuum fan 6 is reduced, the reliability of the operation of the vacuum fan 6 is improved, and meanwhile, the possibility that the sewage and the garbage enter the vacuumizing air duct 34 or the vacuum fan 6 is also reduced, and the inside of the base station 200 is smelly is caused.

Referring to fig. 8, 9 and 10, in some embodiments, the air duct assembly 7 is disposed on the dirt collection box 41, the air duct assembly 7 is provided with an air-passing space 71, the air-passing space 71 is provided with an air inlet 72 communicated with the inner space of the dirt collection box 41, the air-passing space 71 is further provided with an air outlet 73 communicated with the vacuumizing port 415, and the air inlet 72 and the air outlet 73 are arranged in a staggered manner.

Through the above technical scheme, when the host 1 is in butt joint with the base station 200 and the vacuum fan 6 works, air in the sewage tank 11 enters the sewage collecting tank 41 through the first pair of interfaces 32, the sewage inlet pipeline 31 and the sewage inlet 413, and air in the sewage collecting tank 41 flows to the vacuum fan 6 through the air inlet 72, the air outlet 73 and the vacuumizing port 415. Because the air inlet 72 and the air outlet 73 are arranged in a staggered manner, the possibility that sewage and garbage pass through the vacuumizing port 415 is reduced while the air in the sewage collecting box 41 can smoothly pass through the vacuumizing port 415, the possibility that sewage or garbage contacts the vacuum fan 6 is reduced, the working safety of the vacuum fan 6 is improved, and meanwhile the possibility that sewage and garbage enter the drying air channel 53 or the vacuum fan 6 is reduced, so that the base station 200 is odorized.

Referring to fig. 8, 9, and 10, in some embodiments, an air filter assembly 74 is disposed within the plenum 71, the air filter assembly 74 being located between the air intake 72 and the air outlet 73.

Through the above technical scheme, on one hand, the possibility that sewage and garbage pass through the vacuumizing port 415 can be further reduced through the air filtering component 74, and on the other hand, air can be filtered through the air filtering component 74, so that the situation that the air exhausted by the base station 200 pollutes the surrounding environment is avoided.

In some embodiments, the air filter assembly 74 is configured as a hepa structure.

Referring to fig. 8, 9 and 10, in some embodiments, a partition assembly 75 is provided within the plenum 71, the partition assembly 75 being configured such that the air flow path within the plenum 71 has at least one turn 751.

Through the above technical scheme, when the host 1 is in butt joint with the base station 200, and the vacuum fan 6 works, if part of garbage or garbage enters the ventilation space 71 through the air inlet 72, the garbage or sewage can be intercepted through the turning part 751, so that the possibility that the sewage and garbage pass through the vacuumizing port 415 is further reduced.

Referring to fig. 8, 9 and 10, in some embodiments, the air inlet 72 and the air outlet 73 are respectively located on opposite sides of the air duct assembly 7, and the air outlet 73 is disposed opposite to the vacuum port 415.

Referring to fig. 8, 9, and 10, in some embodiments, the separation assembly 75 includes: a top wall 752 and a bottom wall 753 are arranged at intervals, a side of the top wall 752 away from the vacuumizing port 415 is provided with a downward extending air channel side wall 758, the bottom wall 753 is provided with an upward extending first extending wall 754, the first extending wall 754 is arranged at intervals with the air channel side wall 758 so as to form an air inlet 72 between the first extending wall 754 and the air channel side wall 758, and the top end of the first extending wall 754 is arranged at intervals with the top wall 752 so as to form a turning part 751.

The top wall 752 is provided with a downwardly extending second extension wall 755, the second extension wall 755 being spaced from the bottom wall 753 to form a corner 751.

The bottom wall 753 is also provided with an upwardly extending third extension wall 756, the third extension wall 756 being spaced from the top wall 752 to form a corner 751.

The top wall 752 is further provided with a fourth extending wall 757 extending downward, and the air outlet 73 is disposed on the fourth extending wall 757.

The first extension wall 754, the second extension wall 755, the third extension wall 756, and the fourth extension wall 757 are arranged in this order in a direction of the air inlet 72 toward the air outlet 73.

Referring to fig. 8, 9 and 10, in some embodiments, the air duct assembly 7 is further provided with a filter screen 76 for blocking the garbage, and the risk of the garbage passing through the vacuumizing port 415 is further reduced by blocking the filter screen 76.

Referring to fig. 8, 9, and 10, in some embodiments, filter screen 76 is disposed between first extension wall 754 and duct side wall 758.

Referring to fig. 8, 9, and 10, in some embodiments, the air filter assembly 74 is disposed between the second extension wall 755 and the third extension wall 756.

Referring to fig. 8, 9 and 10, in some embodiments, the air duct assembly 7 further includes a guide duct 77, the guide duct 77 communicating with the space within the dirt collection tank 41 and the dirt inlet 413, respectively, the guide duct 77 for guiding the dirt and debris at the dirt inlet 413 to the debris collection member 42. The guide duct 77 is disposed apart from the windward space 71.

Through the above technical scheme, when the host 1 is docked with the base station 200, the first pair of interfaces 32 is communicated with the sewage tank 11, the vacuum fan 6 works, so that the interior of the sewage tank 41 is in a negative pressure state, sewage and solid garbage in the sewage tank 11 sequentially enter the sewage tank 41 through the first pair of interfaces 32, the sewage inlet pipe 31 and the sewage inlet 413, and then the sewage and garbage at the sewage inlet 413 enter the garbage collecting part 42 under the guidance of the guide pipe 77, so that the solid garbage is intercepted in the garbage collecting part 42.

Referring to fig. 4, 7, and 8, in some embodiments, the garbage collection element 42 includes: the garbage basket 421, the top of the garbage basket 421 is provided with an opening opposite to the guide pipeline 77, and the peripheral side wall and the bottom wall of the garbage basket 421 are provided with water filtering holes 4211 for sewage to pass through.

Through the above technical scheme, when the host 1 is docked with the base station 200, the sewage collection tank 41 of the base station 200 is communicated with the sewage tank 11 of the host 1 through the sewage inlet 413, so that the garbage and sewage in the sewage tank 11 can be conveyed into the sewage collection tank 41, the garbage and sewage entering the sewage collection tank 41 from the sewage inlet 413 can directly enter the garbage basket 421 through the opening at the top of the garbage basket 421, so that solid garbage is collected in the garbage basket 421, and when the sewage outlet 414 is in an open state, the sewage in the garbage basket 421 is discharged out of the garbage basket 421 through the water filtering holes 4211 on the garbage basket 421 and is discharged out of the sewage collection tank 41 through the sewage outlet 414.

Referring to fig. 4, 7 and 8, in some embodiments, the bottom wall of the waste basket 421 is at least partially upwardly convex.

Through above-mentioned technical scheme, increased the area of garbage basket 421 diapire, again because stoving wind channel 53 intercommunication is to the lower part of dirt collection box 41, the hot air is upwards rising from garbage basket 421 bottom, and the diapire of garbage basket 421 is partly upwards protruding at least, has increased garbage basket 421 and hot air's area of contact promptly, the inside rubbish of garbage basket 421 of being convenient for stoving.

Referring to fig. 4, 7 and 8, in some embodiments, a support 4212 is provided between the waste basket 421 and the bottom wall of the sump housing 41, the support 4212 supporting the waste basket 421 to form a protrusion.

In the above technical solution, on one hand, the bottom wall of the garbage basket 421 can be made to protrude upwards through the supporting member 4212 so as to increase the contact area between the bottom wall of the garbage basket 421 and hot air, and on the other hand, the bottom wall of the garbage basket 421 can be supported through the supporting member 4212, so that the stability of the structure of the garbage basket 421 is enhanced.

In some embodiments, the support member 4212 is an integral piece with the waste basket 421, reducing the cost of the waste collection member 42.

In some embodiments, the garbage collection 42 further comprises: the replaceable rubbish string bag is detachably sleeved on the guide pipeline 77, so that part of the guide pipeline 77 stretches into the rubbish string bag. The rubbish string bag is constructed to have the structure of a plurality of filtration holes, and a plurality of filtration holes are convenient for rubbish string bag separation rubbish and sewage, and rubbish can be intercepted in rubbish string bag, and sewage can be discharged through the filtration hole. The garbage net bag is provided with a plurality of filtering holes, so that hot air can conveniently penetrate through the filtering holes to dry garbage.

Through the above technical scheme, the guide pipeline 77 is detachably sleeved with the garbage net bag, and when the garbage net bag is sleeved on the guide pipeline 77, the part of the guide pipeline 77 stretches into the garbage net bag, so that sewage and garbage discharged from the guide pipeline 77 can directly enter the garbage net bag, and when the garbage net bag is sleeved on the sewage inlet pipeline 31, the garbage net bag is still positioned in the garbage basket 421 and is supported by the garbage basket 421. When the base station 200 draws out sewage in the sewage tank 11, the sewage and garbage in the sewage tank 11 enter the garbage net bag through the sewage inlet 413, wherein solid garbage is intercepted in the garbage net bag, and when the sewage outlet 414 is in an opened state, the sewage can be discharged out of the sewage collecting tank 41 through the sewage outlet 414, and the solid garbage is collected in the garbage net bag. When a user handles solid garbage, the user only needs to open the garbage collection box 41, detach the garbage net bag from the garbage inlet pipeline 31, throw away the garbage in the garbage net bag and the garbage net bag together, and install a new garbage net bag on the garbage inlet pipeline 31, so that garbage can be collected by the garbage collection piece 42.

Because the sewage in the sewage tank 11 occupies a relatively large amount and the solid garbage occupies a relatively small amount, the base station 200 can collect a relatively small amount of solid garbage by the garbage bag when cleaning the sewage and garbage in the sewage tank 11 at a single time, that is, the base station 200 does not need to frequently treat the garbage bag, and the user can treat the garbage bag at a regular time (for example, one week).

Referring to fig. 4, 7 and 8, in some embodiments, the waste basket 421 is removably disposed within the waste bin 41. When the user forgets to install a new garbage net bag, solid garbage can be collected through the garbage basket 421, and when the solid garbage needs to be treated, the garbage collection box 41 is only required to be opened, the garbage basket 421 is taken out, and the solid garbage in the garbage basket 421 is poured out.

In some embodiments, the dirt collection tank 41 includes a tank 411 and a cover 412, the top of the tank 411 is provided with an opening, the cover 412 is used for opening or closing the opening, and the garbage collection member 42 is disposed in the tank 411.

Through the above technical scheme, when the user needs to clear up the solid rubbish in the rubbish collection member 42, open the opening of box 411, the user just can take out the solid rubbish in the rubbish collection member 42, convenient and fast.

Referring to fig. 4, 7 and 8, in some embodiments, the cover 412 is removably secured to the opening of the housing 411, and the waste collection member 42 is secured to the cover 412.

Through the above technical scheme, when a user needs to clean the solid garbage in the garbage collection piece 42, the cover 412 is detached from the box 411, and meanwhile, the garbage collection piece 42 is taken out from the box 411, so that the user can conveniently treat the solid garbage.

Referring to fig. 4, 7 and 8, in some embodiments, the cover 412 is located above the garbage basket 421 and spaced apart from the garbage basket 421, and the cover 412 is fixedly connected to the garbage basket 421 by a bracket, so that the garbage basket 421 can be detached from the case 411 together with the cover 412. And because the cover 412 is spaced from the waste basket 421, a user can take out the solid waste from the space between the cover 412 and the waste basket 421.

In order to facilitate the entry of sewage and waste into the waste collection member 42, the guide conduit 77 needs to be positioned above the waste collection member 42, and in order that the guide conduit 77 does not obstruct the removal of the waste collection member 42 from the housing 411, the guide conduit 77 is also positioned on the cover 412 such that the guide conduit 77 can be removed from the housing 411 with the cover 412 and the waste collection member 42.

Referring to fig. 4, 7 and 8, in some implementations, the vacuum port 415 and the dirt inlet 413 are both disposed on the housing 411, the air duct assembly 7 is disposed on the cover 412, and when the cover 412 is mounted on the housing 411, the air outlet 73 of the air duct assembly 7 communicates with the vacuum port 415 on the housing 411, and the guide duct 77 communicates with the dirt inlet 413. When the cover 412 is detached from the case 411, the duct assembly 7 is also detached from the case 411 together with the cover 412.

The air duct assembly 7 is located above the garbage basket 421 and is arranged at intervals with the garbage basket 421, so that a user can take out the garbage net bag from between the air duct assembly 7 and the garbage basket 421.

Referring to fig. 2, 9 and 10, in some embodiments, the base station 200 further comprises: the cleaning component 8, the cleaning component 8 is arranged on the machine body 3, the cleaning component 8 is provided with a liquid outlet, and the cleaning component 8 can provide cleaning liquid through the liquid outlet.

The body 3 is further provided with a second pair of interfaces 33, the second pair of interfaces 33 being in communication with the liquid outlet, the second pair of interfaces 33 being adapted to interface with the host 1 for delivering cleaning liquid towards the host 1. The cleaning liquid can be clear water or a mixed liquid of clear water and a cleaning agent.

Through the above technical solution, when the host 1 is docked with the base station 200, the second pair of interfaces 33 is in communication with the host 1, so that the liquid outlet of the cleaning assembly 8 is in communication with the host 1, and the base station 200 can provide cleaning liquid for the host 1 through the second pair of interfaces 33.

Referring to fig. 2, 6 and 10, in some embodiments, the liquid outlet of the cleaning assembly 8 communicates with the dirt inlet 413 of the dirt collection tank 41. That is, the cleaning assembly 8 may also provide cleaning liquid into the dirt collection tank 41 to clean the solid waste within the dirt collection tank 41.

When the host 1 is in butt joint with the base station 200, the first pair of interfaces 32 are communicated with the sewage tank 11 of the host 1, when the vacuum fan 6 works, garbage and sewage in the sewage tank 11 can be pumped into the sewage collecting tank 41, after the pumping work is finished, the sewage outlet 414 is opened, sewage in the sewage collecting tank 41 is discharged through the sewage outlet 414, and solid garbage in the sewage collecting tank 41 is intercepted in the garbage collecting piece 42. At this time, the cleaning liquid can be supplied into the dirt collecting tank 41 through the cleaning assembly to clean the solid garbage in the dirt collecting tank 41, the garbage collecting member 42 and the inner wall of the dirt collecting tank 41, so that the cleanliness of the interior of the dirt collecting tank 41 is improved, and the risk of odor in the dirt collecting tank 41 is further reduced. Finally, the solid garbage in the dirt collection box 41, the garbage collection piece 42 and the inner wall of the dirt collection box 41 are dried through the drying assembly 5.

Through above-mentioned technical scheme, not only wash dirty case 41 inside through cleaning element 8, still dry dirty case 41 inside through stoving subassembly 5 for dirty case 41 inside has clean, dry environment, has reduced the inside possibility of stinking of dirty case 41, has reduced the possibility of breeding a large amount of bacteria in the dirty case 41 of album.

The liquid outlet communicates with the second pair of ports 33 and/or the dirt inlet 413. That is, in some embodiments, the liquid outlet of the cleaning assembly 8 communicates with the second pair of interfaces 33, and the cleaning assembly 8 can provide cleaning liquid to the host 1; in other embodiments, the liquid outlet of the cleaning assembly 8 communicates with the dirt inlet 413 of the dirt collection tank 41, and the cleaning assembly 8 may provide cleaning liquid to the dirt collection tank 41; in still other embodiments, the liquid outlet of the cleaning assembly 8 is in communication with the second pair of interfaces 33, and the liquid outlet of the cleaning assembly 8 is also in communication with the inlet 413 of the dirt collection tank 41, that is, the cleaning assembly 8 may provide cleaning liquid to the host 1 or to the dirt collection tank 41.

Referring to fig. 2, 6 and 10, in some embodiments, the cleaning assembly 8 includes: the water storage barrel 81 and the conveying assembly 82, wherein the water storage barrel 81 is used for storing clean water, the conveying assembly 82 is connected with the water storage barrel 81, and the conveying assembly 82 is suitable for conveying liquid in the water storage barrel 81 to the second pair of interfaces 33 and/or the sewage inlet 413.

That is, the conveying assembly 82 may convey clean water into the main machine 1 through the second pair of interfaces 33, and may also convey clean water into the dirt collection tank 41 through the dirt inlet 413.

Referring to fig. 2, 6 and 10, in some embodiments, the delivery assembly 82 includes a first pump body 821, the first pump body 821 being in communication with the water storage tub 81, the first pump body 821 also being in communication with the second pair of interfaces 33 and/or the dirt inlet 413.

Referring to fig. 2, 6 and 10, in some embodiments, the base station 200 further includes a solenoid valve 83, the solenoid valve 83 being connected to the water storage tub 81, the solenoid valve 83 being adapted to be connected to a mains water supply. When the electromagnetic valve 83 is in an open state, clean water can be directly supplied to the water storage barrel 81 through a tap water pipeline, and convenience and rapidness are realized.

Referring to fig. 2, 6 and 10, in some embodiments, the cleaning assembly 8 further comprises: the storage box 84 and the second pump body 85, the storage box 84 is suitable for placing cleaning agent, and the second pump body 85 is respectively connected with the storage box 84 and the water storage barrel 81.

Through the above technical scheme, the second pump body 85 can convey the cleaning agent in the storage tank 84 into the water storage barrel 81, so that the cleaning agent and the clean water in the water storage barrel 81 are mixed to form mixed liquid, and the conveying component 82 can convey the mixed liquid into the host 1 and/or the dirt collecting tank 41, so that the cleaning effect of the host 1 and/or the dirt collecting tank 41 is effectively improved.

Referring to fig. 2, 6 and 10, in some embodiments, at least one of the storage tank 84 and the water storage tub 81 is provided with a liquid outlet. That is, the cleaning liquid provided by the cleaning assembly 8 may be clear water, a cleaning liquid, or a mixture of a cleaning liquid and clear water.

In some embodiments, the storage tank 84 is provided with a liquid outlet, that is, the cleaning assembly 8 may provide cleaning agent to the main machine 1 and/or to the dirt collection tank 41. In still other embodiments, the water storage tub 81 is provided with a liquid outlet, that is, the cleaning assembly 8 may provide clean water to the main machine 1 and/or clean water to the dirt collection tank 41. In some other embodiments, the cleaning assembly 8 may also provide a mixture of fresh water and detergent to the host 1; and/or to provide a mix of fresh water and cleaning agent to the sump 41.

Referring to fig. 1, 6 and 10, the cleaning apparatus 100 according to the embodiment of the present utility model includes the base station 200 in the above-described technical solution.

According to the cleaning device 100 of the embodiment of the utility model, on one hand, the solid garbage is collected by the garbage collecting part 42, so that the solid garbage is prevented from directly entering the sewer, and the possibility of blockage of the sewer is reduced; on the other hand, the solid garbage collected by the garbage collecting part 42 can be dried by the drying fan 52, and the garbage collecting part 42 and the inner wall of the sewage collecting box 41 can be dried, so that the environment in the sewage collecting box 41 is in a dry state, the breeding of bacteria is inhibited, and meanwhile, the possibility of dripping the solid garbage when a user processes the solid garbage is reduced.

In the description of the present specification, reference to the terms "one embodiment," "some embodiments," "illustrative embodiments," "examples," "specific examples," or "some examples," etc., means that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the utility model. In this specification, schematic representations of the above terms do not necessarily refer to the same embodiments or examples. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

While embodiments of the present utility model have been shown and described, it will be understood by those of ordinary skill in the art that: many changes, modifications, substitutions and variations may be made to the embodiments without departing from the spirit and principles of the utility model, the scope of which is defined by the claims and their equivalents.

Claims (18)

1. A base station (200), comprising:

a body (3);

a dirt collection assembly (4), the dirt collection assembly (4) comprises a dirt collection box (41) and a garbage collection piece (42), the dirt collection box (41) is provided with a sewage outlet (414), a dirt inlet (413) and a drying air opening (416), the sewage outlet (414) is positioned at the bottom wall of the dirt collection box (41), the drying air opening (416) is positioned between the sewage outlet (414) and the dirt inlet (413), the garbage collection piece (42) is arranged in the dirt collection box (41), and the garbage collection piece (42) is configured to collect garbage and filter sewage;

and the drying fan (52) is connected with the drying air opening (416) so as to supply air towards the interior of the dirt collection box (41).

2. The base station (200) of claim 1, wherein in a height direction, the drying tuyere (416) is located between the sewage outlet (414) and the sewage inlet (413).

3. The base station (200) of claim 2, wherein the drying tuyere (416) is located at a lower portion of the sump case (41).

4. The base station (200) of claim 2, wherein the drying tuyere (416) is disposed directly opposite to a side lower end of the garbage collection member (42).

5. The base station (200) of claim 1, wherein the drying blower (52) is connected to the dirt collection box (41) through a drying tunnel (53).

6. The base station (200) of claim 5, wherein at least a portion of the drying tunnel (53) extends upwardly in a direction away from the drying tuyere (416).

7. The base station (200) of claim 6, wherein the drying duct (53) includes a first portion (531) and a second portion (532), the lower end of the first portion (531) is connected to the drying tuyere (416), the upper end of the first portion (531) is connected to the upper end of the second portion (532) through a connection section, and the second portion (532) extends downward to be connected to the drying blower (52).

8. The base station (200) of claim 7, wherein an upper end of the second portion (532) is located above the drying tuyere (416) in a height direction.

9. The base station (200) according to claim 5, wherein a heating module (51) for heating air is provided in the drying duct (53).

10. The base station (200) according to claim 1, wherein the dirt collection box (41) is provided with a vacuumizing port (415) above the dirt inlet (413), the dirt inlet (413) is connected with the dirt inlet pipeline (31), and the vacuumizing port (415) is connected with the vacuumizing fan (6).

11. The base station (200) according to claim 10, further comprising an air duct assembly (7), wherein the air duct assembly (7) is arranged in the dirt collecting box (41), an air flowing space (71) is arranged in the air duct assembly (7), the air flowing space (71) is provided with an air inlet (72) communicated with the inner space of the dirt collecting box (41), the air flowing space (71) is provided with an air outlet (73) communicated with the vacuumizing opening (415), and the air inlet (72) and the air outlet (73) are arranged in a staggered mode.

12. The base station (200) of claim 11, wherein an air filter assembly (74) is disposed within the plenum (71), the air filter assembly (74) being located between the air inlet (72) and the air outlet (73).

13. The base station (200) of claim 11, wherein a separation assembly (75) is disposed within the vaned space (71), the separation assembly (75) being configured such that an air flow path within the vaned space (71) has at least one turn (751).

14. The base station (200) according to claim 11, wherein the air duct assembly (7) further comprises a guide pipe (77), the guide pipe (77) is respectively communicated with the space in the dirt collection box (41) and the dirt inlet (413), and the guide pipe (77) and the windward space (71) are arranged in a separated mode.

15. The base station (200) according to any one of claims 1-14, wherein the dirt collection box (41) comprises a box body (411) and a cover body (412), an opening is formed in the top of the box body (411), the cover body (412) is used for opening or closing the opening, and the garbage collection piece (42) is arranged in the box body (411).

16. The base station (200) of claim 15, wherein the cover (412) is detachably provided to an opening of the housing (411), and the garbage collection member (42) is fixed to the cover (412).

17. The base station (200) according to claim 15, wherein a guide pipeline (77) communicated with the sewage inlet (413) is arranged in the sewage collection box (41);

the garbage collection piece (42) comprises a garbage basket (421) and a garbage net bag, and the garbage net bag is arranged in the garbage basket (421) and is detachably arranged in the guide pipeline (77).

18. A cleaning device (100) characterized by comprising a base station (200) according to any of claims 1-17.