CN220655502U - Cleaning base station for cleaning equipment and cleaning system with same - Google Patents

Abstract

The utility model discloses a cleaning base station for cleaning equipment and a cleaning system with the same, wherein the cleaning base station comprises: a base station base, which is provided with a cleaning tank and a filter tank, wherein the filter tank is communicated with the cleaning tank, and the bottom wall of the filter tank is provided with a filter structure; the cleaning piece is movably arranged in the cleaning tank, and dirt in the cleaning tank is suitable for flowing into the filter tank under the stirring of the cleaning piece in the moving process of the cleaning piece. According to the cleaning base station, the filtering structure can well separate sewage and solid dirt, so that the sewage and solid dirt can be classified and treated conveniently according to different types of dirt, the blockage of a sewage drain pipe can be well avoided, the dirt in the cleaning tank is suitable for flowing into the filtering tank under the stirring of the cleaning piece, and the cleanliness in the cleaning tank is improved.

Description

Cleaning base station for cleaning equipment and cleaning system with same

Technical Field

The utility model relates to the technical field of cleaning appliances, in particular to a cleaning base station for cleaning equipment and a cleaning system with the same.

Background

Along with the improvement of the living standard of people, automatic cleaning equipment such as cleaning robots and the like gradually enter thousands of households, a great amount of households cleaning energy is saved for people, and along with the rapid development of the automatic cleaning equipment, the cleaning robots with the sweeping and mopping functions are increasingly selected by multiple users, in the working process of the cleaning robots with the sweeping and mopping functions, cleaning of mopping cloth is carried out by the cleaning base station, so that the cleaning capability of the cleaning robots is improved, the cleaning base station is required to have the self-cleaning function, but dirt generated after cleaning in the related art is discharged through a drain pipe, so that the interior of the drain pipe is possibly blocked, and the drain capability of the cleaning base station is affected.

Disclosure of Invention

The utility model provides a cleaning base station for cleaning equipment, which can better separate sewage and solid dirt through a filtering structure and can better avoid blockage of a sewage drain pipe.

The utility model further provides a cleaning system with the cleaning base station.

According to an embodiment of the utility model, a cleaning base station for a cleaning device comprises: a base station base, which is provided with a cleaning tank and a filter tank, wherein the filter tank is communicated with the cleaning tank, and the bottom wall of the filter tank is provided with a filter structure; the cleaning piece is movably arranged in the cleaning tank, and in the process of moving the cleaning piece, dirt in the cleaning tank is suitable for flowing into the filter tank under the stirring of the cleaning piece.

According to the cleaning base station for the cleaning equipment, provided by the embodiment of the utility model, the filtering structure can better separate sewage and solid dirt, and is convenient for classifying and treating different types of dirt, so that the treatment effect of the cleaning base station on the dirt in the cleaning tank can be better improved, the blockage of a sewage discharge pipeline can be better avoided, the dirt in the cleaning tank is suitable for flowing into the filtering tank under the stirring of the cleaning piece, the speed of the sewage entering the filtering tank can be better accelerated, meanwhile, the accumulation of the solid dirt on the inner wall of the cleaning tank can be better avoided, and the cleanliness in the cleaning tank can be improved.

According to some embodiments of the utility model, the bottom wall of the filter tank is lower than the bottom wall of the cleaning tank.

According to some embodiments of the utility model, the filter tank is located on an outer peripheral side of the cleaning tank.

According to some embodiments of the utility model, a communication notch is formed on the peripheral wall of the cleaning tank, and the communication notch communicates the filter tank with the cleaning tank.

According to some embodiments of the utility model, the cleaning member is rotatably disposed in the cleaning tank, and the rotation axis of the cleaning member extends in an up-down direction, and the cleaning member is adapted to pass over the filter tank during rotation of the cleaning member.

According to some embodiments of the utility model, at least a portion of the bottom wall of the washing tank is formed as a guide surface extending obliquely downward in a direction from the washing tank to the filtering tank.

According to some embodiments of the utility model, the cleaning base station further comprises a water supply assembly for supplying water to the cleaning tank; the inner peripheral wall of the cleaning tank is provided with a water supply hole, and the water supply assembly is communicated with the water supply hole through a water supply channel.

According to some embodiments of the utility model, the cleaning member comprises a cleaning member body and a first cleaning structure arranged on the bottom surface of the cleaning member body, the cleaning member body is rotatably arranged in the cleaning tank, and the cleaning member body drives the first cleaning structure to stir dirt in the cleaning tank to flow into the filtering tank when rotating.

According to some embodiments of the utility model, the first cleaning structure is adapted to be in contact with the bottom wall of the cleaning tank; and/or the first cleaning structure comprises at least one of a flexible adhesive tape and a brush.

According to some embodiments of the utility model, the cleaning element has a first cleaning state and a second cleaning state; in the first cleaning state, the cleaning piece is fixed relative to the base station base, and the cleaning piece is used for cleaning a cleaning piece of the cleaning equipment; in the second cleaning state, the cleaning member is movable to clean the cleaning tank.

According to some embodiments of the utility model, the cleaning base station further comprises a water supply assembly for supplying water to the cleaning tank, a water outlet tank is formed on the upper surface of the cleaning member, water of the water supply assembly is suitable for flowing into the water outlet tank, and water in the water outlet tank is suitable for overflowing into the cleaning tank.

According to some embodiments of the utility model, the inner peripheral wall of the washing tub is formed with a water supply hole, the water supply tank is communicated with the water supply hole through a water supply passage, and in the first washing state, the water outlet tank is adjacent to the water supply hole, and the water supply hole is adapted to supply water into the water outlet tank.

According to some embodiments of the utility model, the cleaning member is rotatably disposed in the cleaning tank, the rotation axis of the cleaning member extends in the up-down direction, a water supply gap is formed on the radially outer end surface of the cleaning member, and the water supply gap penetrates through the side wall of the water outlet tank; wherein, in the first cleaning state, the water supply notch is opposite to the water supply hole.

According to some embodiments of the utility model, the water outlet tank comprises a first tank zone and a second tank zone, the first tank zone is positioned on the radial outer side of the second tank zone, and the water supply notch is formed on the side wall of the first tank zone; wherein, in the first cleaning state, the mop covers the second groove area, and the first groove area is exposed to the outer peripheral side of the mop.

According to some embodiments of the utility model, the width of the first trough area is greater than the width of the second trough area in the direction of rotation of the cleaning member.

According to some embodiments of the utility model, the bottom wall of the second trough section is lower than the bottom wall of the first trough section.

According to some embodiments of the utility model, the cleaning base station further comprises a limiting member, wherein the limiting member is arranged on the base and is used for limiting the cleaning member; in the first cleaning state, the limiting piece is matched with the cleaning piece so that the cleaning piece is fixed relative to the base station base, and the cleaning piece is used for cleaning a cleaning piece of the cleaning equipment; in the second cleaning state, the limiting piece is separated from the cleaning piece, and the cleaning piece can move to clean the cleaning groove.

According to some embodiments of the utility model, the cleaning member is rotatably arranged in the cleaning tank, the cleaning member comprises a cleaning member body and a rotating shaft, a rotating hole is formed in the bottom wall of the cleaning tank, the rotating shaft is rotatably matched with the rotating hole, and the cleaning member body is positioned in the cleaning tank; in the first cleaning state, in the rotating direction of the cleaning piece, the limiting piece is abutted with the cleaning piece body, so that the cleaning piece is fixed relative to the base station base.

According to some embodiments of the utility model, the cleaning base station further comprises a drain assembly for draining the sewage generated in the cleaning tank; the base station base is also provided with a sewage buffer cavity, the sewage buffer cavity is positioned below the filter tank and is communicated with the filter tank through the filter structure, and the drainage component is used for draining sewage in the sewage buffer cavity.

According to some embodiments of the utility model, the drain assembly includes a drain connected to the bottom wall of the filter tank and in communication with the sewage buffer chamber, the drain being configured to drain sewage within the sewage buffer chamber.

According to some embodiments of the utility model, the drain assembly further comprises a sewage tank, and the sewage tank is communicated with the sewage buffer cavity through the drain pipe.

According to some embodiments of the utility model, the number of the cleaning tanks is two, the two cleaning tanks are arranged along the left-right direction, the filter tank is positioned between the two cleaning tanks, and the dirt in the two cleaning tanks is suitable for flowing into the filter tank.

A cleaning system according to an embodiment of the present utility model includes: the cleaning base station; the cleaning device is suitable for being matched with the cleaning base station, and the cleaning base station is at least used for cleaning a cleaning piece of the cleaning device.

According to the cleaning system provided by the embodiment of the utility model, the filtering structure can better separate sewage and solid dirt, and is convenient for classifying different types of dirt, so that the treatment effect of the cleaning base station on the dirt in the cleaning tank can be better improved, the blockage of a sewage discharge pipeline can be better avoided, the dirt in the cleaning tank is suitable for flowing into the filtering tank under the stirring of the cleaning piece, the speed of the sewage entering the filtering tank can be better accelerated, meanwhile, the accumulation of the solid dirt on the inner wall of the cleaning tank can be better avoided, and the cleanliness in the cleaning tank can be improved.

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

FIG. 1 is a schematic illustration of a cleaning station portion and a mop according to an embodiment of the present utility model;

FIG. 2 is a top view of a portion of a cleaning base station and a mop in accordance with an embodiment of the present utility model;

FIG. 3 is a partial schematic view of a cleaning base station according to an embodiment of the present utility model;

FIG. 4 is a partial top view of a cleaning base station according to an embodiment of the present utility model;

FIG. 5 is a partial exploded view of a cleaning base station according to an embodiment of the present utility model;

fig. 6 is a cross-sectional view of an over center of a cleaning base station in a front-rear direction according to an embodiment of the present utility model;

FIG. 7 is an enlarged view of area A of FIG. 6;

FIG. 8 is a schematic diagram of another view of a portion of a cleaning base station according to an embodiment of the present utility model;

FIG. 9 is an enlarged view of area B of FIG. 8;

FIG. 10 is a schematic view of a cleaning element for cleaning a base station according to an embodiment of the present utility model;

fig. 11 is a schematic view of a drying duct member, a collecting duct member, a connecting duct member, a suction nozzle, a filtering part, and a drain pipe of a cleaning base station according to an embodiment of the present utility model;

FIG. 12 is a bottom side view of a cleaning station drying tunnel member, a collection tunnel member, a connecting tunnel member, and a suction nozzle according to an embodiment of the present utility model;

fig. 13 is a schematic view of a drying duct member, a collecting duct member, a connecting duct member, and a suction nozzle of a cleaning base station according to an embodiment of the present utility model;

fig. 14 is a schematic view of a drying duct member, a collecting duct member, and a connecting duct member of a cleaning base station according to an embodiment of the present utility model;

fig. 15 is a schematic view of a suction nozzle for cleaning a base station according to an embodiment of the present utility model.

Reference numerals:

cleaning the base station 100;

a base station base 1;

a base body 11; a cleaning tank 111; a rotation hole 112; a communication notch 113; a water supply hole 114;

a filter member 12; a filter hole 121; a connecting branch pipe 122;

a filter tank 13; a sewage buffer chamber 14;

a cleaning member 2;

a cleaning member body 21; a first sidewall 211; a second sidewall 212; a first cleaning structure 213;

a rotation shaft 22; a water outlet groove 23; a first slot region 231; a second slot region 232;

a water supply gap 24; cleaning the protrusions 25;

a limiting member 3; a limit part 31;

a drain pipe 4;

a drying air duct member 5; a drying duct 51;

a collecting duct member 6; a collection duct 61;

a suction nozzle 7;

a suction portion 71; suction port 711; scraping the wall 712; a deflector wall 713;

A sliding portion 72; a first sliding portion 721; a second sliding portion 722;

a communication chamber 723; a first communication channel 7231; a second communication passage 7232;

the air duct piece 8 is connected; a first channel 81; a second channel 82;

a slide chamber 83; a first sliding chamber 831; a second sliding chamber 832; a relief hole 84;

a driving mechanism 9; the mop 200.

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 and intended to explain the present utility model and should not be construed as limiting the utility model.

The following disclosure provides many different embodiments, or examples, for implementing different structures of the utility model. In order to simplify the present disclosure, components and arrangements of specific examples are described below. They are, of course, merely examples and are not intended to limit the utility model. Furthermore, the present utility model may repeat reference numerals and/or letters in the various examples. This repetition is for the purpose of simplicity and clarity and does not in itself dictate a relationship between the various embodiments and/or configurations discussed. In addition, the present utility model provides examples of various specific processes and materials, but one of ordinary skill in the art will recognize the applicability of other processes and/or the use of other materials.

A cleaning base station 100 for a cleaning apparatus according to an embodiment of the present utility model is described below with reference to the accompanying drawings.

The cleaning base station 100 can better clean dirt adhered to the cleaning device in the cleaning process by the cleaning device, so that the cleanliness of the cleaning device by the cleaning device can be better ensured, the cleaning effect of the cleaning device is improved, the energy of a user for frequently cleaning the cleaning device can be better saved, and the use experience of the cleaning device is improved. In a specific example, the cleaning device is a cleaning robot, and after the cleaning robot operates in the cleaning mode for a certain time or after a large amount of dirt is accumulated on the cleaning member 200 of the cleaning robot, the cleaning robot may automatically move to the cleaning base station 100 and cooperate with the cleaning base station 100 to clean the cleaning member 200 of the cleaning robot through the cleaning base station 100, for example, remove the dirt on the cleaning member 200, and the cleaning robot may be separated from the cleaning base station 100 after the cleaning of the cleaning member 200 is completed and continue the cleaning operation.

As shown in fig. 1 to 15, a cleaning base station 100 according to an embodiment of the present utility model includes: base station base 1 and washing piece 2, base station base 1 is formed with washing tank 111 and filter vat 13, and filter vat 13 and washing tank 111 intercommunication, the diapire of filter vat 13 is formed with filtering structure. That is, the sewage in the cleaning tank 111 can flow into the filtering tank 13 along with the sewage, so that the sewage in the cleaning tank 111 can be well prevented from overflowing the base station base 1 to pollute the environment, the sewage collected in the filtering tank 13 can pass through the filtering structure, and the solid sewage such as solid particles and hair carried in the sewage can be well intercepted by the filtering structure, namely, the sewage and the solid sewage can be well separated by the filtering structure in the filtering tank 13, so that the sewage can be conveniently classified for different types of sewage, and the treatment effect of the cleaning base station 100 on the sewage in the cleaning tank 111 can be well promoted. In addition, in the sewage discharging process, for example, when the filter tank 13 is communicated with the sewage discharging channel for discharging sewage through the filter structure, the filter structure can well prevent solid sewage in the filter tank 13 from entering the sewage discharging channel to block the sewage discharging channel so as to ensure that the sewage discharging channel is smooth, and further ensure that the sewage can be smoothly discharged through the sewage discharging channel.

Wherein the cleaning member 2 is movably disposed in the cleaning tank 111, and during the movement of the cleaning member 2, the dirt in the cleaning tank 111 is adapted to flow into the filter tank 13 under agitation of the cleaning member 2. That is, the flow of the sewage in the cleaning tank 111 can be well agitated by the movement of the cleaning member 2, so that the speed of the sewage entering the filter tank 13 can be well accelerated, in addition, the flowing sewage can well drive the solid dirt adhered to the inner wall of the cleaning tank 111 to flow together, so that the solid dirt can flow into the filter tank 13 along with the sewage, that is, the solid dirt can be well prevented from accumulating on the inner wall of the cleaning tank 111 by the rotation of the cleaning member 2 relative to the cleaning tank 111, such as preventing the adhesion of hairs, viscous substances and the like to the wall of the cleaning tank 111, so as to promote the cleaning effect of the cleaning member 2 to the cleaning tank 111, and facilitate the promotion of the cleanliness in the cleaning tank 111.

According to the cleaning base station 100 for the cleaning device, the filtering structure can better separate sewage and solid dirt, and is convenient for classifying different types of dirt, so that the treatment effect of the cleaning base station 100 on the dirt in the cleaning tank 111 can be better improved, the blockage of a sewage drain pipe can be better avoided, the dirt in the cleaning tank 111 is suitable for flowing into the filtering tank 13 under the stirring of the cleaning piece 2, the speed of the sewage entering the filtering tank 13 can be better accelerated, meanwhile, the accumulation of the solid dirt on the inner wall of the cleaning tank 111 can be better avoided, and the cleanliness in the cleaning tank 111 can be improved.

In a specific example, the cleaning tank 111 is approximately circular, and the rotation axis of the cleaning member 2 extends along the up-down direction, so that the cleaning member 2 can form a circular cleaning area in the rotation process, therefore, the cleaning member 2 can be in a strip shape with the same length as the diameter of the cleaning tank 111 and the central position in the length direction can be rotatably arranged at the central position of the cleaning tank 111, can also be in a strip shape with the same length as the radius of the cleaning tank 111 and one end in the length direction can be rotatably arranged at the central position of the cleaning tank 111, can also be in a fan shape with the same radius as the radius of the cleaning tank 111 and the central position of the shaft center position can be rotatably arranged at the cleaning tank 111, and the like, and the cleaning member 2 can form a circular cleaning area in the rotation process so as to ensure that the cleaning area can cover any position in the cleaning tank 111, thereby the requirements on the shape and the size of the cleaning member 2 can be well reduced, and the application range is wide.

According to some embodiments of the utility model, the bottom wall of the filter tank 13 is lower than the bottom wall of the cleaning tank 111. Thus, the sewage in the cleaning tank 111 can flow toward the inside of the filter tank 13 under the action of gravity, that is, the sewage in the cleaning tank 111 can be ensured to smoothly flow into the filter tank 13, and the sewage can be well prevented from remaining in the cleaning tank 111. It should be noted that, when the bottom wall of the cleaning tank 111 is non-planar, for example, when there is a certain gradient in the bottom wall of the cleaning tank 111, the bottom wall of the filter tank 13 is lower than the lowest position of the bottom wall of the cleaning tank 111, so as to avoid the sewage from remaining in the cleaning tank 111.

According to some embodiments of the present utility model, the filter tank 13 is located at the outer peripheral side of the cleaning tank 111. Therefore, the space of the base station base 1 in the horizontal direction can be fully utilized by the filter tank 13 and the cleaning tank 111, so that the space occupied by the filter tank 13 and the cleaning tank 111 in the up-down direction can be reduced well, the thickness dimension of the base station base 1 in the up-down direction can be controlled, and the layout is reasonable. In addition, the filtering structure and the sewage buffer cavity 14 are both positioned on the outer peripheral side of the cleaning tank 111, so that the shielding of the structures such as the cleaning piece 2 in the cleaning tank 111 above the filtering tank 13 can be well avoided, and the difficulty in cleaning the filtering structure and the sewage buffer cavity 14 can be reduced.

Further, a communication notch 113 is formed on the peripheral wall of the cleaning tank 111, and the communication notch 113 communicates the filter tank 13 with the cleaning tank 111. That is, the communication notch 113 is located between the cleaning tank 111 and the filter tank 13 and penetrates the peripheral wall of the cleaning tank 111 in the horizontal direction, so that a communicating water flow channel can be formed between the cleaning tank 111 and the filter tank 13, and thus the dirt in the cleaning tank 111 can smoothly enter the filter tank 13 through the communication notch 113 to separate the sewage from the solid dirt.

Further, the cleaning member 2 is rotatably provided in the cleaning tank 111, and the rotation axis of the cleaning member 2 extends in the up-down direction. Therefore, the area swept by the cleaning member 2 in the horizontal direction can be increased well, so that the stirring effect of the cleaning member 2 on the dirt in the cleaning tank 111 can be improved well, the speed of the dirt in the cleaning tank 111 entering the filter tank 13 can be further increased, and solid dirt can be prevented from accumulating on the inner wall of the cleaning tank 111. Wherein the cleaning member 2 is adapted to pass over the filter tank 13 during rotation of the cleaning member 2. Thus, the dirt in the cleaning tank 111 can be well pushed into the filter tank 13 by the part of the cleaning member 2 passing over the filter tank 13, so that the speed of the dirt in the cleaning tank 111 entering the filter tank 13 can be increased.

According to some embodiments of the present utility model, at least a portion of the bottom wall of the cleaning tank 111 is formed as a flow guiding surface, wherein the entire bottom wall of the cleaning tank 111 may be formed as a flow guiding surface, or a portion of the bottom wall of the cleaning tank 111 may be formed as a flow guiding surface, and the flow guiding surface may be flexibly set according to actual requirements, which is not particularly limited herein. Further, the guide surface extends obliquely downward in the direction from the cleaning tank 111 to the filter tank 13. That is, under the action of gravity, the dirt in the cleaning tank 111 has a tendency to flow along the guide surface toward the inside of the filter tank 13, so that the guide surface can well drain the dirt in the cleaning tank 111, thereby well avoiding the accumulation of the dirt in the cleaning tank 111 and being beneficial to improving the cleanliness in the cleaning tank 111. Meanwhile, the structure for driving dirt into the filter tank 13 can be better omitted, which is beneficial to simplifying the structure of the cleaning base station 100 and has low investment and use cost.

According to some embodiments of the present utility model, the cleaning base station 100 further includes a water supply assembly for supplying water to the cleaning tank 111. The water supply assembly may be a water supply pipe, and two ends of the water supply pipe are respectively communicated with the cleaning tank 111 and an external water source such as a tap water pipe, so that the external water source can directly enter the cleaning tank 111 through the water supply pipe; the water supply assembly may also be a water supply tank provided in the cleaning base station 100, the water supply tank being in communication with the cleaning tank 111, and a user may manually add water into the water supply tank so that the water in the water supply tank may flow into the cleaning tank 111; the water supply assembly may further include a water supply pipe and a water supply tank, both ends of the water supply pipe are respectively communicated with an external water source such as a tap water pipe and the water supply tank, and the water supply tank is communicated with the cleaning tank 111, so that automatic water addition from the external water source into the water supply tank can be realized.

In a specific example, the inner peripheral wall of the cleaning tank 111 is formed with a water supply hole 114, and the water supply assembly communicates with the water supply hole 114 through a water supply passage. That is, a water flow passage communicating between the water supply assembly and the cleaning tank 111 may be formed through the water supply passage and the water supply hole 114, so that water of the water supply assembly may be discharged into the cleaning tank 111 through the water supply passage and through the water supply hole 114, so that solid dirt in the cleaning tank 111 may be softened well by the water in the cleaning tank 111, dirt adhered to an inner wall of the cleaning tank 111 may be separated easily, and dirt on the inner wall of the cleaning tank 111 may be washed well by stirring the liquid flow in the cleaning tank 111 by the movement of the cleaning member 2, so that dirt adhering to a peripheral wall of the cleaning tank 111 may be avoided well, and the cleanliness of the cleaning tank 111 may be improved.

Optionally, the water supply assembly includes a water supply tank communicated with the water supply hole, and when the water supply tank holds clean water, clean water can be continuously injected into the cleaning tank 111, so that the inner wall of the cleaning tank 111 can be flushed by clean water under the driving of the cleaning piece 2, and the cleanliness of the cleaning tank 111 can be further improved. The clean water can be stored in the water supply tank, of course, clean water mixed with a cleaning agent can be added in the water supply tank, disinfectant and the like can be added in the water supply tank, so that the cleaning force of liquid in the water supply tank to the cleaning tank 111 is improved, the cleanliness in the cleaning tank 111 is guaranteed, and the type of liquid stored in the water supply tank is not particularly limited.

According to some embodiments of the present utility model, the cleaning element 2 includes a cleaning element body 21 and a first cleaning structure 213 disposed on a bottom surface of the cleaning element body 21, wherein the cleaning element body 21 is rotatably disposed in the cleaning tank 111, and the cleaning element body 21 rotates to drive the first cleaning structure 213 to stir dirt in the cleaning tank to flow into the filter tank 13. That is, the first cleaning structure 213 is moved by the cleaning member body 21 to agitate the flow of the sewage in the cleaning tank 111, so that the speed of the sewage entering the filter tank 13 can be increased, and in addition, the sewage flowing through can drive the solid dirt adhered to the inner wall of the cleaning tank 111 to flow together, so that the solid dirt can flow into the filter tank 13 along with the sewage.

According to some alternative embodiments of the present utility model, first cleaning structure 213 is adapted to contact the bottom wall of cleaning tank 111. Therefore, in the process of rotating the cleaning member 2 relative to the cleaning tank 111, friction can be generated between the cleaning member 2 and the bottom wall of the cleaning tank 111 through the first cleaning structure 213, so that dirt on the bottom wall of the cleaning tank 111 can be scraped through the first cleaning structure 213, the dirt can be better prevented from adhering and accumulating on the bottom wall of the cleaning tank 111, and the cleaning effect of the cleaning member 2 on the cleaning tank 111 is improved to improve the cleanliness of the cleaning tank 111.

According to some alternative embodiments of the present utility model, the first cleaning structure 213 comprises at least one of a flexible glue strip, a brush, cotton, sponge, or the like. In some embodiments, the first cleaning structure 213 may be a flexible adhesive tape, so that the first cleaning structure 213 may be well attached to the bottom wall of the cleaning tank 111, that is, the first cleaning structure 213 may be in closer contact with the bottom wall of the cleaning tank 111, so that in the process of rotating the cleaning member 2 relative to the cleaning tank 111, the first cleaning structure 213 may scrape the dirt on the bottom wall of the cleaning tank 111 more comprehensively and thoroughly, which is beneficial to improving the cleaning effect of the first cleaning structure 213 on the bottom wall of the cleaning tank 111; the first cleaning structure 213 may also be a brush, so that in the process of rotating the cleaning member 2 relative to the cleaning tank 111, dirt on the bottom wall of the cleaning tank 111 can be better cleaned by the brush, and the dirt can flow through the gap of the brush, so as to reduce the resistance to the dirt in the cleaning tank 111; of course, the first cleaning structure 213 may also be formed by a flexible adhesive tape and a brush, that is, a part of the first cleaning structure 213 is a flexible adhesive tape, and another part is a brush, and the specific structure of the first cleaning structure 213 may be flexibly adjusted according to design requirements.

According to some embodiments of the present utility model, the radially outer end surface of the cleaning member body 21 is provided with a second cleaning structure adapted to be in contact with the inner peripheral wall of the cleaning tank 111. The radially outer end face of the cleaning member body 21 herein refers to the side face of the cleaning member body 21 opposite to the inner peripheral wall of the cleaning tank 111 in the longitudinal direction of the cleaning member 2. Therefore, in the process of rotating the cleaning piece 2 relative to the cleaning tank 111, friction can be generated between the cleaning piece 2 and the inner peripheral wall of the cleaning tank 111 through the second cleaning structure, so that dirt on the inner peripheral wall of the cleaning tank 111 can be scraped through the second cleaning structure, the dirt can be better prevented from being adhered and accumulated on the inner peripheral wall of the cleaning tank 111, and the cleaning effect of the cleaning piece 2 on the cleaning tank 111 is improved to improve the cleanliness of the cleaning tank 111. Wherein the second cleaning structure may comprise at least one of a flexible adhesive tape, a brush, cotton cloth, sponge, etc.

It should be noted that the foregoing is merely illustrative of specific configurations of the first cleaning structure 213 and the second cleaning structure to facilitate understanding of the cleaning manner of the cleaning tank 111 by the first cleaning structure 213 and the second cleaning structure, and the first cleaning structure 213 and the second cleaning structure may be any cleaning member having cleaning capability, such as capable of scraping the inner wall of the cleaning tank 111, and the specific configurations and materials of the first cleaning structure 213 and the second cleaning structure are not limited herein.

According to some embodiments of the present utility model, the cleaning member 2 has a first cleaning state and a second cleaning state, wherein in the first cleaning state, the cleaning member 2 is fixed relative to the base station base 1 (i.e. the limiting member 3 is located in the movement range of the cleaning member 2 and limits the cleaning member 2), and the cleaning member 2 is used for cleaning the mop 200 of the cleaning device. That is, when the cleaning device is required to clean the cleaning element 200, the cleaning element 2 is switched to the first cleaning state, the cleaning device can drive the cleaning element 200 to enter the cleaning tank 111, and the cleaning device drives the cleaning element 200 to move, so that the cleaning element 200 and the cleaning element 2 can move relatively, and the cleaning element 2 can clean the cleaning element 200 more comprehensively, so that the cleaning effect of the cleaning base station 100 on the cleaning element 200 is improved, at this time, the cleaning base station 100 is in the cleaning mode of the cleaning element, and the cleaning device can carry the cleaned cleaning element 200 to continue the cleaning operation, thereby being beneficial to improving the cleaning effect of the cleaning device. In a specific example, the cleaning member 200 may be pressed against the cleaning member 2 after entering the cleaning tank 111, and thus, the moving cleaning member 200 may be rubbed against the fixed cleaning member 2 by a relative motion, so that the cleaning member 2 may remove dirt on the cleaning member 200 by the relative friction with the cleaning member 200 to perform a cleaning operation of the cleaning base station 100 on the cleaning member 200.

Further, in the second cleaning state, the cleaning member 2 is movable to clean the cleaning tank 111. It can be appreciated that during the process of cleaning the cleaning base station 100 to clean the cleaning element 200, the cleaning tank 111 can accommodate the dirt falling off from the cleaning element 200, so that the dirt generated during the cleaning process of the cleaning element 200 can be better prevented from overflowing, and further, the space where the cleaning base station 100 is located can be better prevented from being polluted by the dirt. Therefore, after the cleaning of the cleaning element 200 is finished, the cleaning element 2 can be controlled to switch to the second cleaning state, so that the cleaning tank 111 can be cleaned by the movement of the cleaning element 2 relative to the base station base 1, meanwhile, dirt in the cleaning tank 111 can be stirred into the filter tank 13 by the rotation of the cleaning element 2 relative to the base station base 1, at this time, the cleaning base 100 is in the cleaning tank cleaning mode, thereby self-cleaning of the cleaning tank 111 by the cleaning base 100 can be realized, dirt generated in the cleaning process of the cleaning element 200 can be prevented from accumulating in the cleaning tank 111, further dirt can be prevented from accumulating in the cleaning tank 111 to form silt or dirt, and the cleaning of the cleaning tank 111 is facilitated to be improved. Meanwhile, the frequency of cleaning the cleaning tank 111 by a user can be reduced well, and the use experience of the user is improved.

Therefore, the cleaning member 2 can be switched between the first cleaning state and the second cleaning state, so that the cleaning base station 100 can be switched between the cleaning mop 200 and the cleaning tank 111, that is, the cleaning base station 100 has the cleaning mop 200 and the cleaning tank 111, and the automatic level of the cleaning base station 100 is improved to improve the user experience. Specifically, after the dirt adheres to the cleaning member 200, the cleaning device may be moved to the cleaning base station 100 and engaged with the cleaning base station 100, at this time, the cleaning member 200 is located in the cleaning tank 111 and pressed against the cleaning member 2, and first, the cleaning member 2 is controlled to be in a first cleaning state, and the cleaning device drives the cleaning member 200 to move so that the cleaning member 200 moves relative to the cleaning member 2, so that the cleaning member 2 may remove the dirt on the cleaning member 200. The cleaning tank 111 can accommodate dirt falling from the mop 200, and after the mop 200 is cleaned, the cleaning member 2 is switched to the second cleaning state, so that the cleaning member 2 can move relative to the base station base 1 under the driving of the mop 200, and the dirt in the cleaning tank 111 is cleaned by the moving cleaning member 2.

According to some embodiments of the present utility model, the cleaning base station 100 further includes a water supply assembly for supplying water to the cleaning tank 111. Wherein, the upper surface of the cleaning member 2 is formed with a water outlet groove 23, water in the water supply assembly is suitable for flowing into the water outlet groove 23, and water in the water outlet groove 23 is suitable for overflowing into the cleaning tank 111. That is, a certain amount of water can be stored in the water outlet tank 23, water can be added into the water outlet tank 23 through the water supply assembly, so that when the cleaning member 2 is in the first cleaning state, the cleaning member 200 is pressed on the cleaning member 2 and can sweep the water outlet tank 23 when rotating relative to the cleaning member 2, so that the cleaning member 200 can be wetted by the water in the water outlet tank 23, dirt on the cleaning member 200 can be better adsorbed and dissolved by the water, dirt on the cleaning member 200 can be separated from the cleaning member 200 along with the water, and clean water can be continuously injected into the water outlet tank 23 through the water supply assembly, namely, the cleaning member 200 can be repeatedly cleaned by dipping the clean water in the water outlet tank 23, secondary pollution of the cleaning member 200 caused by sewage in the cleaning tank 111 can be better avoided, and the cleaning effect of the cleaning member 200 is improved.

Wherein, the inner peripheral wall of the cleaning tank 111 is formed with a water supply hole 114, the water supply assembly is communicated with the water supply hole 114 through a water supply channel, and in the first cleaning state, the water outlet tank 23 is adjacent to the water supply hole 114, and the water supply hole 114 is suitable for supplying water into the water outlet tank 23. That is, when the cleaning member 2 is in the first cleaning state, the water of the water supply assembly can enter the water outlet tank 23 through the water supply channel via the water supply hole 114, so that the cleaning efficiency and the cleaning effect of the cleaning member 200 can be improved by continuously wetting the cleaning member 200 with the clean water in the water outlet tank 23 during the cleaning process of the cleaning member 200; when the cleaning piece 2 is in the second cleaning state, the water of the water supply assembly can directly flow to the cleaning tank 111 through the water supply hole 114 to perform cleaning on the cleaning tank 111, so as to improve the cleaning effect of the cleaning piece 2 on the cleaning tank 111. In addition, by providing the water supply hole 114 on the inner peripheral wall of the cleaning tank 111, the space within the cleaning tank 111 can be fully utilized, while the water supply passage can be hidden outside the inner peripheral wall of the cleaning tank 111, and the layout is smart and reasonable.

Further, the cleaning member 2 is rotatably provided in the cleaning tank 111, and the rotation axis of the cleaning member 2 extends in the up-down direction. Therefore, the area of the cleaning piece 2 sweeping in the horizontal direction can be well increased, so that the stirring effect of the cleaning piece 2 on the dirt in the cleaning tank 111 can be well improved, the speed of the dirt in the cleaning tank 111 entering the filter tank 13 can be further increased, solid dirt is prevented from accumulating on the inner wall of the cleaning tank 111, the cleaning area of the cleaning piece 2 on the cleaning tank 111 can be well increased, and the cleaning effect of the cleaning piece 2 on the cleaning tank 111 can be improved.

Wherein, the radial outer end surface of the cleaning member 2 is formed with a water supply notch 24, the radial outer end surface of the cleaning member 2 is the side wall of the cleaning member 2 facing the inner peripheral wall of the cleaning tank 111 in the length direction, the water supply notch 24 penetrates the side wall of the water outlet tank 23, and in the first cleaning state, the water supply notch 24 is opposite to the water supply hole 114. That is, when the cleaning member 2 is in the first cleaning state, the water supply notch 24 and the water supply hole 114 are disposed opposite to each other in the radial direction of the cleaning tank 111, so that water flowing out of the water supply hole 114 can enter the water outlet tank 23 through the water supply notch 24, so as to realize the water adding operation of the water supply assembly to the water outlet tank 23. Therefore, by arranging the water supply notch 24, the cleaning piece 2 can rotate relative to the cleaning tank 111 to clean the cleaning tank 111, the difficulty of adding water to the water outlet tank 23 through the water supply hole 114 is reduced, and the structure is simple.

Further, the water outlet groove 23 includes a first groove region 231 and a second groove region 232, the first groove region 231 is located radially outside the second groove region 232, and the water supply gap 24 is formed at a sidewall of the first groove region 231. That is, when the cleaning member 2 is in the first cleaning state, the first tank region 231 is located between the water supply hole 114 and the second tank region 232 and is in communication with the second tank region 232, the first tank region 231 is disposed adjacent to the water supply hole 114 compared with the second tank region 232, the water supply notch 24 is formed on a sidewall of the first tank region 231 facing the water supply hole 114, i.e. radially outside, and water flowing out of the water supply hole 114 enters the first tank region 231 through the water supply notch 24 and flows into the second tank region 232 along the first tank region 231, so that the water outlet tank 23 can be filled with water, and the water supply operation of the water supply assembly on the water outlet tank 23 is realized.

Wherein, in the first cleaning state, the mop 200 is covered on the second groove area 232, and the first groove area 231 is exposed on the outer peripheral side of the mop 200. That is, when the cleaning member 2 is in the first cleaning state and the mop 200 rotates relative to the cleaning member 2, the outer peripheral edge of the mop 200 does not exceed the radially outer end edge of the second groove region 232, i.e., the mop 200 is wetted by the water in the second groove region 232. Thus, the mop 200 can be better prevented from covering the first groove region 231 to cover the water supply hole 114 and the water supply gap 24 to influence the water supply hole 114 to supply water to the water outlet groove 23, so that the water flowing out from the water supply hole 114 can stably enter the first groove region 231 through the water supply gap 24 and flow into the second groove region 232 to wet the mop 200.

According to some alternative embodiments of the present utility model, the width of the first groove region 231 is greater than the width of the second groove region 232 in the rotation direction of the cleaning member 2. Therefore, the size of the first groove region 231 in the rotation direction of the cleaning member 2 can be increased well, a larger setting space is reserved for the water supply gap 24, namely, the water supply gap 24 with a larger width can be arranged on the first groove region 231, so that the alignment difficulty of the water supply hole 114 and the water supply gap 24 can be reduced well, and meanwhile, the water storage capacity of the first groove region 231 can be increased, thereby ensuring the water supply capacity of the first groove region 231 to the second groove region 232 well, and preventing the cleaning effect of the mop 200 from being influenced by the cutoff in the second groove region 232.

According to some alternative embodiments of the present utility model, the bottom wall of the second trough area 232 is lower than the bottom wall of the first trough area 231. That is, the bottom wall of the water outlet groove 23 extends downward in the direction of the first groove section 231 toward the second groove section 232. Thereby, the water in the first tank section 231 can automatically flow into the second tank section 232 along the bottom wall of the water outlet tank 23 under the action of gravity, so as to ensure the supply of the water in the second tank section 232.

According to some alternative embodiments of the present utility model, the cleaning base station 100 further comprises a limiting member 3, wherein the limiting member 3 is disposed on the base and is used for limiting the cleaning member 2, and in the first cleaning state, the limiting member 3 is matched with the cleaning member 2, so that the cleaning member 2 is fixed relative to the base station base 1, and the cleaning member 2 is used for cleaning the cleaning member 200 of the cleaning device.

That is, the movement of the cleaning member 2 with respect to the cleaning tank 111 can be preferably restricted by the cooperation of the stopper 3 with the cleaning member 2. Specifically, when the cleaning device is required to clean the cleaning device, the cleaning device drives the cleaning device to drive the cleaning device 200 to enter the cleaning tank 111, and the cleaning device drives the cleaning device 200 to move, so that the cleaning device 200 can move relative to the cleaning device 2, and the cleaning device 2 can clean the cleaning device 200 more comprehensively, so that the cleaning effect of the cleaning base station 100 on the cleaning device 200 is improved, and at this time, the cleaning base station 100 is in the cleaning mode of the cleaning device. The cleaning device can carry the cleaned mop 200 to continue cleaning operation, which is beneficial to improving the cleaning effect of the cleaning device. Specifically, the mop 200 may be pressed against the cleaning member 2 after entering the cleaning tank 111. Therefore, after the cleaning member 2 is fixed by the limiting member 3, the moving cleaning member 200 rubs against the fixed cleaning member 2 in a relative movement, so that the cleaning member 2 can remove dirt on the cleaning member 200 by the relative friction between the cleaning member 2 and the cleaning member 200, thereby realizing the cleaning operation of the cleaning base station 100 on the cleaning member 200.

In addition, in the second cleaning state, the stopper 3 is disengaged from the cleaning member 2, and the cleaning member 2 is movable to clean the cleaning bath 111. It can be understood that in the process of cleaning the cleaning base station 100 to clean the cleaning piece 200, dirt falling off from the cleaning piece 200 can be contained by the cleaning tank 111, so that dirt generated in the cleaning process of the cleaning piece 200 can be better prevented from overflowing, and further the space where the cleaning base station 100 is located can be better prevented from being polluted, therefore, after the cleaning of the cleaning piece 200 is finished, the cleaning base station 100 can enter the second cleaning state through the separation of the limiting piece 3 and the cleaning piece 2 to clean the cleaning tank 111 by the cleaning piece 2, at this time, the cleaning base station 100 is in the cleaning tank cleaning mode, meanwhile, the dirt in the cleaning tank 111 can be stirred into the filter tank 13 through the rotation of the cleaning piece 2 relative to the base station base 1, and therefore self-cleaning of the cleaning base station 100 to the cleaning tank 111 can be realized, dirt generated in the cleaning process of the cleaning piece 200 can be prevented from accumulating in the cleaning tank 111, further dirt can be prevented from accumulating in the cleaning tank 111, and the dirt can be better cleaned, and the cleaning piece 2 is beneficial to improving the cleanliness of the cleaning tank 111. Meanwhile, the frequency of cleaning the cleaning tank 111 by a user can be reduced well, and the use experience of the user is improved.

Therefore, the cleaning base station 100 can realize the switching of the cleaning piece 2 between the first cleaning state and the second cleaning state by controlling the limiting piece 3, so that the cleaning piece 2 is switched between the first cleaning state and the second cleaning state without changing the moving direction of the cleaning piece 200, thereby better reducing the requirement of the cleaning base station 100 on cleaning equipment and being beneficial to improving the application range of the cleaning base station 100.

Further, the cleaning member 2 is rotatably disposed in the cleaning tank 111, the cleaning member 2 includes a cleaning member body 21 and a rotating shaft 22, a rotating hole 112 is formed on a bottom wall of the cleaning tank 111, the rotating shaft 22 is rotatably matched with the rotating hole 112, and the cleaning member body 21 is disposed in the cleaning tank 111. That is, the cleaning member 2 is rotatable relative to the cleaning tank 111 by the cooperation of the rotation shaft 22 and the rotation hole 112, and the stability of the cleaning member 2 when rotated relative to the cleaning tank 111 can be well ensured. In addition, in the rotation direction of the cleaning member 2, the area swept by the cleaning member body 21 during the rotation can be raised well, and when the cleaning member 2 rotates relative to the cleaning tank 111, dirt in the cleaning tank 111 can be cleaned well by the cleaning member body 21, and at the same time, the flow of the cleaning tank 111 into the filter tank 13 can be agitated well. Thereby, the cleaning effect of the cleaning member 2 on the cleaning tank 111 is facilitated to be improved.

In the first cleaning state, the limiting member 3 abuts against the cleaning member body 21 in the rotation direction of the cleaning member 2, so that the cleaning member 2 is fixed relative to the base station base 1. That is, in the first cleaning state, at least a portion of the stopper 3 is located at one side or within a coverage area of the cleaning member 2 in the rotation direction, so that the cleaning member 2 is fixed in position with respect to the base station base 1 by the portion of the stopper 3 located at one side of the cleaning member 2 in the rotation direction, and the mop 200 can be moved with respect to the cleaning member 2 by the driving of the cleaning device to perform the cleaning operation of the cleaning member 2 on the mop 200; in the second cleaning state, the restriction of the rotation of the cleaning member 2 by the stopper 3 can be released by withdrawing the portion of the stopper 3 located at one side of the cleaning member 2 in the rotation direction or from the coverage area, that is, the cleaning member 2 can be freely rotated with respect to the cleaning tank 111, and the cleaning tank 111 can be cleaned in the process of the rotation of the cleaning member 2.

In a specific example, the cleaning device may drive the mop 200 to rotate, the rotation axis of the mop 200 extends in the up-down direction, and the cleaning device drives the mop 200 to rotate relative to the cleaning member 2 fixed by the limiting member 3, that is, in the first cleaning state, so that the cleaning member 2 can remove dirt on the mop 200 through relative motion friction with the mop 200; when the cleaning piece 2 is in the second cleaning state, the cleaning piece 2 can automatically rotate relative to the base station base 1, and as the cleaning piece 200 is pressed on the cleaning piece 2, the cleaning equipment can drive the cleaning piece 200 and drive the cleaning piece 2 to rotate in the cleaning tank 111 through friction force between the cleaning piece 200 and the cleaning piece 2, so that the cleaning operation of the cleaning tank 111 is realized, the matching mode of the cleaning piece 200 and the cleaning piece 2 is simple, and the cleaning equipment is beneficial to simplifying the structures of the cleaning piece 200 and the cleaning piece 2. In addition, when the cleaning member 2 is in the first cleaning state, the cleaning device can drive the cleaning member 200 to rotate forward or reverse, so that the cleaning member 2 can clean the cleaning member 200 in a clockwise direction or a counterclockwise direction, and when the cleaning member 2 is in the second cleaning state, the cleaning device can drive the cleaning member 200 to rotate forward or reverse to drive the cleaning member 2 to rotate forward or reverse, so that the cleaning member 2 can clean the cleaning tank 111 in the clockwise direction or the counterclockwise direction, and the cleaning effect on the cleaning member 200 and the cleaning tank 111 is facilitated to be improved.

According to some embodiments of the present utility model, the cleaning base station 100 further includes a drain assembly for draining the sewage generated in the cleaning tank 111. Wherein, the drainage assembly can be a drainage pipe, and two ends of the drainage pipe are respectively communicated with the cleaning tank 111 and a sewer pipe sewer, so that sewage in the cleaning tank 111 can be directly discharged into the sewer pipe through the drainage pipe; the drainage assembly can also be a sewage tank arranged on the cleaning base station 100, the sewage tank can be communicated with the cleaning tank 111 through a drain pipe 4, sewage in the cleaning tank 111 can flow into the sewage tank, and a user can manually clean the sewage in the sewage tank; the drain assembly may further include a sewage tank and a drain pipe, both ends of the drain pipe are respectively communicated with the sewage tank and a sewer pipe, and the sewage tank may be communicated with the cleaning tank 111 through the drain pipe 4, so that sewage in the sewage tank may be automatically discharged into the sewer pipe through the drain pipe. Wherein, the water supply assembly and the water discharge assembly together form a water supply and drainage module to discharge sewage in the cleaning tank 111 while guaranteeing water supply to the cleaning tank 111.

In one specific example, the cleaning base station 100 includes a water supply assembly for supplying water into the cleaning tank 111, and a drain assembly for draining sewage generated in the cleaning tank 111, the water supply assembly and the drain assembly together constituting a water supply and drain module.

Wherein, still be formed with sewage buffer chamber 14 in the basic station base, sewage buffer chamber 14 is located the below of filter tank 13 and passes through filtration intercommunication with filter tank 13, and drainage assembly is used for discharging the sewage in the sewage buffer chamber. That is, the sewage flowing downwards in the filter tank 13 through the filter structure can flow into the sewage buffer cavity 14 for temporary storage, and meanwhile, the filter structure can well avoid that solid particles, hairs and other solid dirt enter the sewage buffer cavity 14 and are difficult to clean, and the solid dirt is accumulated on the filter structure positioned on the sewage buffer cavity 14, so that the difficulty in cleaning the solid dirt on the filter structure can be well reduced. It should be noted that, the sewage in the filtering tank 13 may also be directly discharged through the sewage drain after passing through the filtering structure, so that the residence time of the sewage in the cleaning base station 100 may be reduced, and the discharge manner of the sewage is not particularly limited.

According to some alternative embodiments of the present utility model, the drain assembly includes a drain pipe 4, the drain pipe 4 is connected to the bottom wall of the filter tank 13 and is in communication with the sewage buffer chamber 14, and the drain pipe 4 is used for draining sewage in the sewage buffer chamber 14. Therefore, the sewage in the sewage buffer cavity 14 can be timely discharged through the sewage discharge pipe 4, so that the sewage buffer cavity 14 can continuously receive the sewage flowing into the filter tank 13 from the cleaning tank 111, and the sewage in the cleaning tank 111 can be well prevented from overflowing the base station base 1 beyond the upper limit of the capacity, so that the space where the cleaning base station 100 is located is prevented from being polluted by sewage.

In addition, the connection position of the drain pipe 4 and the bottom wall of the filter tank 13 is positioned above the sewage buffer cavity 14, so that the overhaul and maintenance difficulty of the drain pipe 4 can be reduced well. In a specific example, the bottom wall of the filter tank 13 is provided with a connecting branch pipe 122, the connecting branch pipe 122 extends in a backward inclined manner in the direction from bottom to top, the lower end of the connecting branch pipe 122 forms a sewage outlet, the sewage outlet is opposite to and communicated with the sewage buffer cavity 14, and the sewage pipe 4 is sleeved at the upper end of the connecting branch pipe 122.

Further, the drainage assembly further comprises a sewage tank, and the sewage tank is communicated with the sewage buffer cavity 14 through a drain pipe 4. That is, the sewage in the sewage buffer chamber 14 may flow into the sewage tank through the sewage pipe 4, that is, the sewage generated during the operation of the cleaning base station 100 is temporarily stored in the sewage tank, so that the user may clean the sewage tank according to the storage amount of the sewage in the sewage tank, so that the cleaning base station 100 may simultaneously implement the functions of cleaning the cleaning member 200, self-cleaning and sewage recovery, and the automation level of the cleaning base station 100 may be better improved to reduce the operation of the user, thereby facilitating the improvement of the use experience of the user.

According to some embodiments of the present utility model, the number of the cleaning tanks 111 is two, which are arranged in the left-right direction, the filter tank 13 is located between the two cleaning tanks 111, and dirt in both cleaning tanks 111 is adapted to flow into the filter tank 13. In other words, the filter tank 13 can receive the dirt in the two cleaning tanks 111 at the same time, that is, the two cleaning tanks 111 can share one filter tank 13, so that the number of the filter tanks 13 can be reduced well, the installation space occupied by the filter tanks 13 can be saved, and the overall size of the cleaning base station 100 can be controlled. In addition, the two cleaning tanks 111 can respectively clean the two cleaning elements 200 on the cleaning device, which is beneficial to improving the cleaning efficiency of the cleaning base station 100 on the cleaning elements 200.

A cleaning base station 100 for a cleaning apparatus according to a specific embodiment of the present utility model is described below with reference to fig. 1 to 15. It is noted that the following description is exemplary only, and is intended to be illustrative of the utility model and not to be construed as limiting the utility model.

The cleaning base station 100 comprises a base station base 1, a cleaning member 2, a limiting member 3, a drain pipe 4, a sewage tank, a drying and collecting assembly, a connecting air duct member 8, a driving mechanism 9 and a water supply tank.

The base station base 1 comprises a base body 11 and a filtering component 12, two cleaning tanks 111 which are arranged along the left-right direction are formed on the base body 11, each cleaning tank 111 is round or approximately round, a cleaning piece 2 is in a strip shape which extends along the radial direction of the cleaning tank 111, the cleaning piece 2 is rotatably arranged in the cleaning tank 111 around the center of the cleaning tank 111, a rotating hole 112 is formed in the bottom wall of each cleaning tank 111, the rotating hole 112 is a blind hole with an upward opening, the opening of the rotating hole 112 is located on the bottom wall of the cleaning tank 111, the cleaning piece 2 comprises a cleaning piece body 21 and a rotating shaft 22 arranged on the bottom surface of the cleaning piece body 21, the rotating shaft 22 is adjacent to the central position of the cleaning piece body 21 in the length direction, the rotating shaft 22 is rotatably arranged in the rotating hole 112 along the circumferential direction of the cleaning tank 111, a first limiting protrusion is arranged on the inner circumferential wall of the rotating hole 112, a second limiting protrusion is arranged on the outer circumferential wall of the rotating shaft 22, and after the cleaning piece 2 is assembled on the base body 11, the second limiting protrusion is located on the lower side of the first limiting protrusion so as to limit the upward movement of the cleaning piece 2 to be separated from the rotating hole 112 through the cooperation of the first limiting protrusion and the second limiting protrusion. Further, a first cleaning structure 213 is provided on the bottom surface of the cleaning member body 21, the first cleaning structure 213 is in contact with the bottom wall of the cleaning tank 111, a second cleaning structure is provided on the radially outer end surface of the cleaning member body 21, the second cleaning structure is in contact with the inner peripheral wall of the cleaning tank 111, and during the rotation of the cleaning member 2 relative to the cleaning tank 111, the bottom wall of the cleaning tank 111 is brushed by the first cleaning structure 213, and the inner peripheral wall of the cleaning tank 111 is brushed by the second cleaning structure.

Further, the base body 11 and the filtering component 12 together define a filtering tank 13 and a sewage buffer cavity 14 which are arranged along the up-down direction, the filtering component 12 is provided with a connecting branch pipe 122, the connecting branch pipe 122 penetrates through the filtering component 12 along the up-down direction, the connecting branch pipe 122 is arranged at the rear end of the filtering component 12, the lower end of the connecting branch pipe 122 protrudes out of the lower surface of the filtering component 12 and is arranged at intervals with the bottom wall of the sewage buffer cavity 14, the bottom wall of the sewage buffer cavity 14 extends obliquely downwards from front to back, the upper end of the connecting branch pipe 122 protrudes out of the upper surface of the filtering component 12 and is connected with a sewage drain pipe 4, and one end of the sewage drain pipe 4 away from the connecting branch pipe 122 is communicated with a sewage tank.

In addition, the upper surface of the filter member 12 constitutes the diapire of filter tank 13, the diapire of filter tank 13 is lower than the diapire of washing tank 111, be formed with a plurality of filtration holes 121 that link up from top to bottom on the filter member 12, a plurality of filtration holes 121 jointly constitute the filtration structure on the filter tank 13 diapire, filter tank 13 is located between two washing tanks 111, the lateral wall that two washing tanks 111 are adjacent filter tank 13 all is formed with the intercommunication breach 113 that link up, washing tank 111 communicates with filter tank 13 through intercommunication breach 113, the diapire of intercommunication breach 113 is parallel and level with the diapire of washing tank 111, the left and right sides both ends of filter tank 13 front side stretch into respectively in two washing tanks 111, in the direction from washing tank 111 towards filter tank 13, the diapire downward sloping extension of washing tank 111 forms the guide surface.

The drying and collecting assembly comprises a drying assembly, a collecting assembly, a suction nozzle 7 and a connecting air duct piece 8. The stoving subassembly includes stoving wind channel spare 5, heating member and drying blower, form stoving wind channel 51 in the stoving wind channel spare 5, in stoving wind channel 51 is located to stoving blower and heating member, collect the subassembly and collect wind channel spare 6, collect the fan and collect dirt part, collect wind channel spare 6 and stoving wind channel spare 5 along controlling the direction interval and arrange, blow off pipe 4 is located and collects between wind channel spare 6 and the stoving wind channel spare 5, collect and form in the wind channel spare 6 and collect wind channel 61, collect the fan and locate in collecting wind channel 61, form the dust collecting chamber in the dust collecting part, suction nozzle 7 is located in connecting wind channel spare 8 along fore-and-aft direction slidable, in the direction from bottom to top, stoving wind channel 51 and collect wind channel 61 slope extension towards the direction that keeps away from each other, and the cross-sectional area of stoving wind channel 51 and collecting wind channel 61 increases gradually.

Further, the connecting duct member 8 forms a first passage 81 communicating with the drying duct 51, a second passage 82 communicating with the collecting duct 61, a sliding chamber 83 communicating with the first passage 81 and the second passage 82, and a relief hole 84, the first passage 81 and the second passage 82 extending in the up-down direction, and the first passage 81 and the second passage 82 also communicating through the sliding chamber 83. The sliding cavity 83 includes a first sliding cavity 831 and a second sliding cavity 832 extending in a front-rear direction and arranged in a left-right direction, a rear end of the first sliding cavity 831 is communicated with a lower end of the first channel 81, one end, i.e., an upper end, of the first channel 81 far from the first sliding cavity 831 is communicated with an outlet end of the drying air channel 51, and a first control valve is arranged at a position, adjacent to the outlet end, of the drying air channel 51, and is used for controlling on-off of the drying air channel 51 and the first channel 81; the rear end of the second sliding cavity 832 is communicated with the rear end of the first sliding cavity 831 and the second channel 82, one end, i.e. the upper end, of the second channel 82 far away from the second sliding cavity 832 is communicated with the inlet end of the collecting air duct 61, and a second control valve is arranged at the position, adjacent to the inlet end, of the collecting air duct 61 and used for controlling the on-off of the collecting air duct 61 and the second channel 82. In addition, the avoidance hole 84 is located between the first sliding chamber 831 and the second sliding chamber 832 and penetrates the connection air duct member 8 in the up-down direction, the avoidance hole 84 is located above the connection branch pipe 122, the drain pipe 4 is penetrated in the avoidance hole 84, and the drain pipe 4 extends obliquely upward in the forward-backward direction.

Further, the suction nozzle 7 constitutes the stopper 3, the suction nozzle 7 includes the suction portion 71 and the sliding portion 72, the suction portion 71 is provided at the front end of the sliding portion 72, the suction portion 71 is located in the filter tank 13, the suction portion 71 is provided therein with the suction port 711, the suction port 711 extends obliquely downward in the rear-to-front direction, the suction port 711 is in a flat mouth shape extending in the left-to-right direction, the upper side wall of the suction port 711 is formed as the guide wall 713, the guide wall 713 extends obliquely downward in the rear-to-front direction, the lower side wall of the suction port 711 is formed as the scraping wall 712, the front end edge of the guide wall 713 extends out of the front end edge of the scraping wall 712, the thickness of the scraping wall 712 gradually increases in the front-to-rear direction, and the front end edge of the scraping wall 712 abuts against the bottom wall of the filter tank 13, the driving mechanism 9 is provided on the outer peripheral side of the base body 11 and is connected with the suction nozzle 7 to drive the suction nozzle 7 to reciprocate in the front-to-rear direction relative to the connecting duct 8.

Next, a communication chamber 723 communicating with the suction port 711 is formed in the sliding portion 72, the sliding portion 72 includes a first sliding portion 721 and a second sliding portion 722 arranged in the left-right direction, the connection branch pipe 122 and the drain pipe 4 are both located between the first sliding portion 721 and the second sliding portion 722, front ends of the first sliding portion 721 and the second sliding portion 722 are both connected to a rear end of the suction portion 71, a first communication passage 7231 is formed in the first sliding portion 721, a front end of the first communication passage 7231 communicates with the suction port 711, a second communication passage 7232 is formed in the second sliding portion 722, a front end of the second communication passage 7232 communicates with the suction port 711, the first sliding portion 721 is slidably provided in the first sliding chamber 831 in the front-rear direction, the second sliding portion 722 is slidably provided in the second sliding chamber 832 in the front-rear direction, the suction port 711 communicates with the drying air duct 51 through the first communication passage 7231, the first sliding chamber 831 and the first passage 81, and the suction port 711 also communicates with the collection air duct 61 through the second communication passage 7232, the second sliding chamber 832 and the second passage 82.

Wherein the area swept by the cleaning member 2 when rotating relative to the cleaning tank 111 constitutes a cleaning area, and the suction nozzle 7 has a limit position and an non-limit position. In the limit position, the suction part 71 moves forward relative to the filter connection air duct member 8 until at least part of the suction part 71 extends into the cleaning region, the part of the suction part 71 located in the cleaning region forms a limit part 31, the rotation of the cleaning member 2 is blocked by the limit part 31 so that the cleaning member 2 is in the first cleaning state, and the upper surface of the limit part 31 is not higher than the upper surface of the cleaning member 2; in the non-limiting position, the suction portion 71 moves rearward relative to the filter connection duct member 8 until the suction portion 71 is located at the outer peripheral side of the cleaning area to release the restriction of the suction nozzle 7 to the cleaning member 2, so that the cleaning member 2 can rotate relative to the cleaning tank 111, at which time the cleaning member 2 is in the second cleaning state. Next, a buffer structure is disposed on the area where the cleaning member body 21 abuts against the suction nozzle 7, and two opposite side walls of the cleaning member body 21 in the circumferential direction of the cleaning member 2 are a first side wall 211 and a second side wall 212, respectively, and buffer layers are disposed on the first side wall 211 and the second side wall 212.

Further, a water outlet groove 23 and a cleaning protrusion 25 are formed on the upper surface of the cleaning member body 21, which are arranged along the length direction of the cleaning member 2, the water outlet groove 23 and the cleaning protrusion 25 are respectively located at both sides of the rotating shaft 22, the water outlet groove 23 includes a first groove region 231 and a second groove region 232, which are arranged along the length direction of the cleaning member 2, the first groove region 231 is located between the inner peripheral wall of the cleaning groove 111 and the second groove region 232, the width of the first groove region 231 is larger than the width of the second groove region 232 in the circumferential direction of the cleaning groove 111, the first groove region 231 is located at one side of the second groove region 232 facing away from the rotating shaft 22, the bottom wall of the second groove region 232 is lower than the bottom wall of the first groove region 231, the cleaning member 200 of the cleaning device is covered on the second groove region 232, and at least part of the first groove region 231 is located at the outer peripheral side of the cleaning member 200. Next, a water supply gap 24 is formed on the radial outer side wall of the first tank section 231, a water supply hole 114 is formed on the inner peripheral wall of the cleaning tank 111, the water supply tank communicates with the water inlet end of the water supply hole 114 through a water supply passage, the water supply hole 114 is provided adjacent to the filter tank 13, and when the cleaning member 2 is in the first cleaning state, the water supply hole 114 and the water supply gap 24 are provided opposite to each other in the radial direction of the cleaning tank 111.

Specifically, when the cleaning device's mop 200 needs to be cleaned, the cleaning device moves to the cleaning station 100 and cooperates with the cleaning station 100, such as locks, to ensure stability during cleaning of the mop 200. At this time, the two cleaning members 200 of the cleaning apparatus are respectively located in the two cleaning tanks 111 and respectively pressed against the two cleaning members 2. First, the driving mechanism 9 drives the suction nozzle 7 to move forward to the limit position, so that when the cleaning device drives the two cleaning members 200 to rotate, the cleaning member 2 is driven to rotate by friction force between the cleaning member 2, and when the cleaning member 2 rotates to a position against the suction nozzle 7 located at the limit position, the cleaning member 2 is fixed relative to the cleaning tank 111, the cleaning member 2 is in a first cleaning state, and impact between the suction nozzle 7 and the cleaning member 2 can be well buffered by a buffer layer on the cleaning member 2. Wherein the left mop 200 is adapted to rotate in a clockwise direction such that the left cleaning member 2 abuts on the left side wall of the suction nozzle 7, and the right mop 200 is adapted to rotate in a counter-clockwise direction such that the right cleaning member 2 abuts on the right side wall of the suction nozzle 7 to prevent the cleaning member 2 in the first cleaning state from blocking the filter tank 13.

After the cleaning member 2 is fixed in the first cleaning state by the suction nozzle 7, water is injected into the first tank area 231 through the water supply channel, the water supply hole 114 and the water supply notch 24, water entering the first tank area 231 continues to flow into the second tank area 232, the cleaning device continues to drive the cleaning member 200 to rotate relative to the cleaning member 2, so that the part of the cleaning member 200, which sweeps across the water outlet groove 23, is wetted, dirt on the cleaning member 200 can be cleaned by the mutual friction between the cleaning protrusions 25 on the upper surface of the cleaning member body 21 and the cleaning member 200, and the dirt of the cleaning member 200 can enter the cleaning tank 111 along with water flow, thereby completing the cleaning operation of the cleaning member 200. In this process, the generated sewage may enter the filter tank 13 through the communication notch 113.

After the cleaning of the cleaning member 200 is completed, the driving mechanism 9 drives the suction nozzle 7 to move backward to the non-limiting position so as to release the limiting effect of the suction nozzle 7 on the cleaning member 2, so that the cleaning member 200 can drive the cleaning member 2 to rotate relative to the cleaning tank 111 under the action of friction force between the cleaning member 200 and the cleaning member 2, the bottom wall of the cleaning tank 111 is brushed through the first cleaning structure 213, the inner peripheral wall of the cleaning tank 111 is brushed through the second cleaning structure, water can be injected into the cleaning tank 111 through the water supply channel and the water supply hole 114 so as to flush the inner wall of the cleaning tank 111 under the stirring of the cleaning member 2, and when the cleaning member 2 rotates relative to the cleaning tank 111, the cleaning member 2 sweeps the part of the filter tank 13 located in the cleaning tank 111, and dirt in the cleaning tank 111 can be driven into the filter tank 13 through the stirring of the cleaning member 2. During the cleaning process of the cleaning member 200 and the cleaning tank 111, the drying air duct 51 may be closed by the first control valve, and the collecting air duct 61 may be closed by the second control valve, so as to prevent water vapor from entering the drying air duct 51 and the collecting air duct 61.

Further, the sewage in the sewage entering the filter tank 13 can flow downwards into the sewage buffer cavity 14 through the plurality of filter holes 121 on the bottom wall of the filter tank 13 and flow towards the direction close to the connecting branch pipe 122, then the sewage is discharged into the sewage tank through the sewage discharging pipe 4 for storage, the filter structure can intercept the solid sewage on the filter component 12, and the drying mode is entered after the cleaning of the cleaning tank 111 is completed. In the drying mode, the first control valve is controlled to open the drying air duct 51, the second control valve is controlled to close the collecting air duct 61, so that the drying air duct 51 is communicated with the first channel 81, hot air in the drying air duct 51 is discharged into the filter tank 13 through the first channel 81, the sliding cavity 83, the first communication channel 7231, the second communication channel 7232 and the suction inlet 711 under the driving of the drying fan, and further is dissipated into the cleaning tank 111 through the communication notch 113, so that the drying assembly can perform drying treatment on dirt in the filter tank 13 and the cleaning piece 200 in the cleaning tank 111, before solid dirt in the filter tank 13 is not dried, the suction nozzle 7 is positioned at the rear end of the filter hole 121, and enters the solid dirt collecting mode after the drying of the dirt in the filter tank 13 is completed. In the solid dirt collecting mode, the first control valve is controlled to close the drying air duct 51, the second control valve is controlled to open the collecting air duct 61, the collecting air duct 61 is communicated with the second channel 82, the driving mechanism 9 drives the suction nozzle 7 to move forwards, solid dirt on the filtering structure is scraped through the scraping wall 712, so that the solid dirt can be separated from the filtering structure, and under the action of the collecting fan, the solid dirt in the filtering tank 13 enters the dust collecting cavity through the suction inlet 711, the first communication channel 7231, the second communication channel 7232, the sliding cavity 83, the second channel 82 and the collecting air duct 61 until the solid dirt in the filtering tank 13 is completely collected.

A cleaning system according to an embodiment of the present utility model is described below with reference to the accompanying drawings.

A cleaning system according to an embodiment of the present utility model includes: a cleaning station 100 and a cleaning device, the cleaning device being adapted to cooperate with the cleaning station 100, the cleaning station 100 being at least for cleaning a mop 200 of the cleaning device. For example, the cleaning base station 100 may clean only the cleaning device's mop 200, the cleaning base station 100 may clean the cleaning device's body, and the like, without being particularly limited thereto. Therefore, the cleanliness of the mopping piece 200 can be well ensured through the cooperation of the cleaning base station 100 and the cleaning equipment, so that the cleaning effect of the cleaning equipment is improved, the automation level of a cleaning system can be well improved, and the use experience of a user is improved.

Specifically, the cleaning device can drive the cleaning piece 200 to perform sweeping operation on the ground through movement, after more dirt is adhered to the cleaning piece 200, the cleaning device can move to the cleaning base station 100 and be matched with the cleaning base station 100, so that the cleaning piece 200 is cleaned through the cleaning base station 100, meanwhile, the dirt generated in the cleaning process of the cleaning piece 200 can be stirred and flows into the filter tank 13 by the cleaning base station 100, the sewage and the solid dirt can be well separated through the filter structure in the filter tank 13, the classification treatment of different types of dirt is facilitated, the treatment effect of the cleaning base station 100 on the dirt in the cleaning tank 111 can be well improved, and after the cleaning of the cleaning piece 200 is completed, the cleaning device continues to perform sweeping operation on the ground until the ground cleaning operation is completed.

According to the cleaning system of the embodiment of the utility model, the filter tank 13 is communicated with the cleaning tank 111, the bottom wall of the filter tank 13 is lower than the bottom wall of the cleaning tank 111, the sewage buffer cavity 14 is positioned below the filter tank 13 and is communicated with the filter tank 13 through the filter structure, and the filter structure can better separate sewage and solid dirt and is convenient for classifying different types of dirt, so that the treatment effect of the cleaning base station 100 on the dirt in the cleaning tank 111 can be better improved, the drain pipe of the sewage buffer cavity 14 can be better prevented from being blocked, the dirt in the cleaning tank 111 is suitable for flowing into the filter tank 13 under the stirring of the cleaning piece 2, the speed of the sewage entering the filter tank 13 can be better accelerated, meanwhile, the accumulation of the solid dirt on the inner wall of the cleaning tank 111 can be better avoided, and the cleanliness in the cleaning tank 111 can be improved.

In the present utility model, unless explicitly specified and limited otherwise, the terms "mounted," "connected," "secured," and the like are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally formed; can be directly connected or indirectly connected through an intermediate medium, and can be communicated with the inside of two elements or the interaction relationship of the two elements. The specific meaning of the above terms in the present utility model can be understood by those of ordinary skill in the art according to the specific circumstances.

In the description of the present specification, a description referring to terms "one embodiment," "some 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 present utility model. In this specification, schematic representations of the above terms are not necessarily directed to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples. Furthermore, the different embodiments or examples described in this specification and the features of the different embodiments or examples may be combined and combined by those skilled in the art without contradiction.

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 (23)

1. A cleaning base station for a cleaning apparatus, comprising:

a base station base, which is provided with a cleaning tank and a filter tank, wherein the filter tank is communicated with the cleaning tank, and the bottom wall of the filter tank is provided with a filter structure;

and the cleaning piece is movably arranged in the cleaning tank relative to the base station base, and in the process of moving the cleaning piece, the dirt in the cleaning tank is suitable for flowing into the filter tank under the stirring of the cleaning piece.

2. The cleaning base station of claim 1, wherein the bottom wall of the filter tank is lower than the bottom wall of the cleaning tank.

3. The cleaning base station of claim 1, wherein the filter tank is located on an outer peripheral side of the cleaning tank.

4. The cleaning base station according to claim 3, wherein a communication notch is formed in a peripheral wall of the cleaning tank, the communication notch communicating the filter tank with the cleaning tank.

5. The cleaning station of claim 4, wherein the cleaning member is rotatably disposed within the cleaning tank, and wherein the axis of rotation of the cleaning member extends in an up-down direction, the cleaning member being adapted to pass over the filter tank during rotation of the cleaning member.

6. The cleaning base station according to claim 1, wherein at least part of a bottom wall of the cleaning tank is formed as a guide surface extending obliquely downward in a direction from the cleaning tank to the filter tank.

7. The cleaning base station of claim 1, further comprising a water supply assembly for supplying water to the cleaning tank; the inner peripheral wall of the cleaning tank is provided with a water supply hole, and the water supply assembly is communicated with the water supply hole through a water supply channel.

8. The cleaning station of claim 1, wherein the cleaning element comprises a cleaning element body and a first cleaning structure disposed on a bottom surface of the cleaning element body, the cleaning element body is rotatably disposed in the cleaning tank, and the cleaning element body rotates to drive the first cleaning structure to agitate dirt in the cleaning tank to flow into the filtering tank.

9. The cleaning base station of claim 8, wherein the first cleaning structure is adapted to contact a bottom wall of the cleaning tank; and/or the first cleaning structure comprises at least one of a flexible adhesive tape and a brush.

10. The cleaning base station of claim 1, wherein the cleaning element has a first cleaning state and a second cleaning state;

In the first cleaning state, the cleaning piece is fixed relative to the base station base, and the cleaning piece is used for cleaning a cleaning piece of the cleaning equipment; in the second cleaning state, the cleaning member is movable to clean the cleaning tank.

11. The cleaning base station of claim 10, further comprising a water supply assembly for supplying water to the cleaning tank; the upper surface of the cleaning piece is provided with a water outlet groove, water of the water supply assembly is suitable for flowing into the water outlet groove, and water in the water outlet groove is suitable for overflowing into the cleaning groove.

12. The cleaning base station of claim 11, wherein the inner peripheral wall of the cleaning tank is formed with a water supply hole, the water supply assembly includes a water supply tank, the water supply tank is communicated with the water supply hole through a water supply passage, and in the first cleaning state, the water outlet tank is adjacent to the water supply hole, and the water supply hole is adapted to supply water into the water outlet tank.

13. The cleaning base station according to claim 12, wherein the cleaning member is rotatably provided in the cleaning tank, a rotation axis of the cleaning member extends in an up-down direction, a radially outer end surface of the cleaning member is formed with a water supply gap penetrating a side wall of the water outlet tank;

Wherein, in the first cleaning state, the water supply notch is opposite to the water supply hole.

14. The cleaning base station of claim 13, wherein the water outlet tank includes a first tank section and a second tank section, the first tank section being located radially outward of the second tank section, the water supply gap being formed in a sidewall of the first tank section;

wherein, in the first cleaning state, the mop covers the second groove area, and the first groove area is exposed to the outer peripheral side of the mop.

15. The cleaning station of claim 14, wherein the width of the first trough area is greater than the width of the second trough area in the direction of rotation of the cleaning member.

16. The cleaning station of claim 14, wherein the bottom wall of the second trough section is lower than the bottom wall of the first trough section.

17. The cleaning base station of claim 10, further comprising a limiting member disposed on the base for limiting the cleaning member;

in the first cleaning state, the limiting piece is matched with the cleaning piece so that the cleaning piece is fixed relative to the base station base, and the cleaning piece is used for cleaning a cleaning piece of the cleaning equipment; in the second cleaning state, the limiting piece is separated from the cleaning piece, and the cleaning piece can move to clean the cleaning groove.

18. The cleaning base station of claim 17, wherein the cleaning element is rotatably disposed in the cleaning tank, the cleaning element comprises a cleaning element body and a rotating shaft, a rotating hole is formed in a bottom wall of the cleaning tank, the rotating shaft is rotatably matched with the rotating hole, and the cleaning element body is located in the cleaning tank;

in the first cleaning state, in the rotating direction of the cleaning piece, the limiting piece is abutted with the cleaning piece body, so that the cleaning piece is fixed relative to the base station base.

19. The cleaning base station of any one of claims 1-18, further comprising a drain assembly for draining effluent generated within the cleaning tank; the base station base is also provided with a sewage buffer cavity, the sewage buffer cavity is positioned below the filter tank and is communicated with the filter tank through the filter structure, and the drainage component is used for draining sewage in the sewage buffer cavity.

20. The cleaning station of claim 19, wherein the drain assembly comprises a drain connected to the bottom wall of the filter tank and in communication with the sewage buffer chamber, the drain configured to drain sewage from the sewage buffer chamber.

21. The cleaning station of claim 20, wherein the drain assembly further comprises a sewage tank, the sewage tank being in communication with the sewage buffer chamber via the drain pipe.

22. The cleaning base station of any one of claims 1-18, wherein the number of cleaning tanks is two, arranged in a left-right direction, the filter tank is located between the two cleaning tanks, and dirt in both cleaning tanks is adapted to flow into the filter tank.

23. A cleaning system, comprising:

a cleaning base station according to any one of claims 1-22;

the cleaning device is suitable for being matched with the cleaning base station, and the cleaning base station is at least used for cleaning a cleaning piece of the cleaning device.