CN217244178U - Cleaning base station and cleaning device - Google Patents

Abstract

The utility model provides a clean basic station and cleaning device. The cleaning base station comprises a base (100), a cleaning disc assembly (200), a water inlet valve (300) and a water outlet valve (400), wherein the base (100) is provided with a cleaning groove (110), and the cleaning disc assembly (200), the water inlet valve (300) and the water outlet valve (400) are all located on the base (100); the inlet valve (300) and the outlet valve (400) are synchronously controlled so that the inlet valve (300) is opened and the outlet valve (400) is closed, or so that the inlet valve (300) is closed and the outlet valve (400) is opened, and the inlet valve (300) and the outlet valve (400) are used for jointly controlling the liquid level in the cleaning tank (110). The utility model provides a clean basic station easy operation has improved user experience and has felt.

Description

Cleaning base station and cleaning device

Technical Field

The utility model relates to a cleaning products technique especially relates to a clean basic station and cleaning device.

Background

At present, with the improvement of life quality, people have more and more extensive demands on ground cleaning, and ground cleaning equipment is applied more and more widely due to the fact that physical labor can be liberated. At present, various cleaning devices, such as intelligent products of sweeping robots, mopping machines and the like, have been developed aiming at various demands of users in the market.

In order to clean the cleaning equipment, a cleaning base station is correspondingly arranged, and the cleaning base station can clean the floor brush in the cleaning equipment, remove dirt and impurities on the floor brush and further facilitate the next cleaning. In the prior art, a cleaning base station includes a base and a cleaning tray assembly, wherein the base has a cleaning tank thereon, the cleaning tank has a water inlet valve and a water outlet valve, the water outlet valve is manually pressed to open or close the water outlet valve, and the water inlet valve is manually pressed to control the opening or closing of the water inlet valve.

However, in this kind of clean base station, water inlet valve and outlet valve need independent control, and the operation of clean base station is complicated, and user experience is relatively poor.

SUMMERY OF THE UTILITY MODEL

The utility model provides a clean basic station and cleaning device, clean basic station's easy operation has promoted user experience.

In a first aspect, the present invention provides a cleaning base station, which includes a base, a cleaning disc assembly, a water inlet valve, and a water outlet valve, wherein the base has a cleaning groove, and the cleaning disc assembly, the water inlet valve, and the water outlet valve are all located on the base; and synchronously controlling the water inlet valve and the water outlet valve to open the water inlet valve and close the water outlet valve, or closing the water inlet valve and opening the water outlet valve, wherein the water inlet valve and the water outlet valve are used for jointly controlling the liquid level in the cleaning tank.

Therefore, the base station is easy to clean, and user experience is improved.

As an optional implementation mode, the utility model provides a clean basic station still includes the linkage subassembly, and the linkage subassembly can move for clean groove to synchronous control water intaking valve and outlet valve.

Therefore, the synchronous control of the water inlet valve and the water outlet valve is realized through the linkage assembly, and the accuracy of the synchronous control can be improved.

As an optional implementation manner, in the cleaning base station provided by the utility model, the linkage assembly is a lever assembly, and the lever assembly rotates relative to the cleaning tank;

the lever assembly rotates to be in contact with the water inlet valve and is separated from the water outlet valve, so that the water inlet valve is opened, and the water outlet valve is closed;

or the lever assembly rotates to be in contact with the water outlet valve and is separated from the water inlet valve, so that the water inlet valve is closed, and the water outlet valve is opened.

The lever assembly is in contact with one of the water inlet valve and the water outlet valve and is separated from the other one of the water inlet valve and the water outlet valve, so that the linkage assembly is convenient to realize, and the requirement on the precision of the installation positions of the water inlet valve and the water outlet valve is low.

As an alternative embodiment, the present invention provides a cleaning base station, wherein the inlet valve and the outlet valve can be triggered simultaneously, so that the inlet valve is opened and the outlet valve is closed; the inlet valve and the outlet valve may be simultaneously deactivated such that the inlet valve is closed and the outlet valve is open.

Thus, the control efficiency of the inlet valve and the outlet valve can be improved.

As an optional implementation manner, in the cleaning base station provided by the present invention, the linkage assembly is a connection rod assembly, the water inlet valve and the water outlet valve are both in contact with the connection rod assembly, and the connection rod assembly moves toward the bottom of the cleaning tank to trigger the water inlet valve and the water outlet valve at the same time; alternatively, the linkage assembly is moved toward a side of the tank bottom facing away from the cleaning tank to simultaneously deactivate the inlet and outlet valves.

Like this, the space scope that the linkage subassembly took is little, is difficult for taking place the interference with cleaning equipment.

As an optional implementation manner, the utility model provides a cleaning base station, the cleaning disc assembly can be lifted and lowered relative to the cleaning groove;

the cleaning disc assembly descends, the water inlet valve is opened, and the water outlet valve is closed; the cleaning disc assembly is lifted, the water inlet valve is closed, and the water outlet valve is opened.

Therefore, the water inlet valve and the water outlet valve are controlled simultaneously by descending and ascending of the cleaning disc assembly, so that the cleaning disc assembly is convenient to realize and high in reliability.

As an alternative embodiment, the present invention provides a cleaning base station, wherein the cleaning disc assembly is rotatable relative to the cleaning tank to raise and lower the cleaning disc assembly relative to the cleaning tank.

Therefore, the cleaning disc assembly can be driven by the cleaning piece to rotate relative to the cleaning groove, and automatic control over the water inlet valve and the water outlet valve can be realized without arranging an additional driving device.

As an optional implementation manner, the utility model provides a cleaning base station, cleaning disc subassembly include at least one cleaning disc and at least one rotatory lock, and the cleaning disc is connected with rotatory lock one-to-one, and rotatory lock sets up on the cleaning tank, and the cleaning disc is rotatory for rotatory lock to make the cleaning disc go up and down for rotatory lock.

Like this, through setting up cleaning disc and rotatory lock, the relative rotatory lock of cleaning disc goes up and down, simple structure like this, the realization of being convenient for.

As an optional implementation manner, the utility model provides a cleaning base station, the tank bottom of the cleaning tank has a recess, and the recess is used for accommodating the cleaning disc;

the concave part is provided with a water outlet, and the water outlet valve is used for closing or opening the water outlet.

Therefore, the water outlet is arranged on the concave part, so that the collection of the cleaning liquid is facilitated, and the cleaning liquid is convenient to discharge.

As an optional implementation mode, the utility model provides a clean basic station, clean dish include clean dish body and connecting portion, clean dish body and connecting portion coaxial coupling have the connecting hole on the connecting portion, and rotatory lock is inserted and is established in the connecting hole and pass through threaded connection with the connecting hole.

Like this, rotatory lock and cleaning dish realize the lift of cleaning dish relative rotation lock through threaded connection's mode, and structural reliability is high.

As an optional implementation manner, the utility model provides a cleaning base station, the connecting hole has an internal thread, the outer side of the rotary lock has an external thread matching with the internal thread;

the rotary lock is provided with a first limiting part, the first limiting part is contacted with the tail end of the top thread of the internal thread, and the cleaning disc body stops rotating.

Like this, can avoid cleaning disc body rotatory when rising relatively through setting up first spacing portion, cleaning disc body breaks away from with rotatory lock, avoids cleaning disc body to throw away from clean groove.

As an optional implementation manner, in the cleaning base station provided by the present invention, the cleaning tank is provided with at least one mounting groove and at least one mounting post, and the mounting groove and the mounting post are located in the recessed portion;

the rotary lock and the connecting part are positioned in the mounting groove, the mounting columns are positioned in the mounting groove, and the mounting columns and the mounting groove are arranged in a one-to-one correspondence manner;

at least one of erection column and mounting groove has the rotation stopping portion, has at least one spacing portion of second on the rotatory lock, and the spacing portion of second contacts with rotation stopping portion one-to-one to fix the rotatory lock on the erection column.

Like this, can fix the spin lock at the erection column through setting up the portion of splining and the spacing portion of second, avoid the spin lock to take place to rotate to guarantee that the cleaning disc body can rotate the lift by the relative spin lock.

As an optional implementation manner, in the clean base station provided by the present invention, the rotation stopping portion is a limiting rib, the limiting rib is located at the bottom wall of the mounting groove, and the second limiting portion is a bottom thread start end of the external thread;

and/or, the rotation stopping part is a limiting groove, the limiting groove is positioned at the top end of the mounting column, the second limiting part is an insertion block of the inner side wall of the rotary lock, and the insertion block is inserted into the limiting groove.

Like this, the structure of rotation stopping portion and the spacing portion of second is simple, simple to operate, and the reliability is high.

As an optional implementation manner, the utility model provides a clean basic station, the quantity of cleaning disc and rotatory lock is two, and the rotation direction of two cleaning discs is opposite.

Therefore, the two cleaning discs can clean the two cleaning pieces simultaneously, and the cleaning efficiency is improved.

As an optional implementation manner, the cleaning base station provided by the utility model includes a base support and a base seat, the base support covers the base seat, and the base support is connected with the base seat, and the base support and the base seat together form an accommodating cavity;

the cleaning groove is positioned on the upper surface of the base support, and the water inlet valve is positioned in the accommodating cavity.

Like this, the base components of a whole that can function independently sets up, is favorable to the installation and the later maintenance of spare part in the base.

As an optional implementation manner, in the cleaning base station provided by the present invention, the water inlet valve includes a water inlet valve seat and a water inlet valve core, and the bottom of the cleaning tank has a water inlet hole;

the water inlet valve seat is connected with the inner surface of the base support, the water inlet valve seat is provided with an installation cavity and a water inlet communicated with the installation cavity, and the water inlet valve core is sleeved in the installation cavity;

the water inlet valve core enters the cleaning groove through the water inlet hole, the water inlet valve core is triggered, and the water inlet valve core opens the water inlet so as to communicate the water inlet with the water inlet hole; the water inlet valve core is released from triggering, and the water inlet valve core closes the water inlet.

Therefore, the water inlet valve core opens the water inlet or closes the water inlet through the up-and-down movement of the water inlet valve core, and the water inlet valve is simple in structure and convenient to operate.

As an optional implementation mode, the utility model provides a clean basic station, water intaking valve still include first elastic component, and the installation cavity has the installation department, and the case that intakes has the holding tank towards the one side of installation department, and a pot head of first elastic component elasticity direction is established on the installation department, and the other end of first elastic component elasticity direction is inserted and is established in the holding tank.

Therefore, when the cleaning equipment is separated from abutting contact with the water inlet valve, the water inlet valve core of the water inlet valve can move upwards under the action of the elastic force of the first elastic piece and recover to an unfired state.

As an optional implementation, the utility model provides a clean basic station, water intaking valve still include the sealing washer of intaking and the valve gap of intaking, and the sealing washer of intaking sets up on the valve gap of intaking, and the sealing washer of intaking is all established on the case of intaking with the valve gap of intaking, and the valve gap of intaking is connected with the valve seat of intaking, and the sealing washer butt of intaking is between the upper end of valve seat of intaking and the inside wall of valve gap of intaking.

Thus, the sealability of the inlet valve can be improved.

As an optional implementation manner, in the cleaning base station provided by the present invention, the water outlet valve includes a water outlet valve body and a water outlet sealing member, the water outlet sealing member is connected to a surface of the water outlet valve body facing the recessed portion, and the water outlet valve body is connected to the recessed portion; the water outlet valve body is triggered and moves towards the concave part to drive the water outlet sealing piece to seal the water outlet; the water outlet valve body is released from triggering, and the water outlet sealing piece moves towards the cleaning groove to drive the water outlet sealing piece to open the water outlet.

Therefore, the water outlet valve adopts a mechanical valve, and compared with an electronic valve, the water outlet valve is low in price and long in service life.

As an optional implementation mode, the utility model provides a clean basic station, at least one side of water valve body has the eye-splice, and the lateral wall of depressed part has the spout, and the extending direction of spout is unanimous with the moving direction of water valve body, and the eye-splice is inserted and is located in the spout, and slides along the extending direction of spout.

Thus, the outlet valve can be prevented from being separated from the concave part.

As an optional implementation mode, the utility model provides a clean basic station, outlet valve still include at least one second elastic component, and the outlet valve body passes through the second elastic component and is connected with the depressed part.

Therefore, when the cleaning equipment is separated from and abutted against the water outlet valve, the water outlet valve body of the water inlet valve can move upwards under the action of the elastic force of the second elastic piece and recover to an un-triggered state.

A second aspect of the present invention provides a cleaning apparatus, including the cleaning base station provided by the cleaning device and the above first aspect, the cleaning device is parked on the cleaning base station, and the cleaning device can synchronously control the water inlet valve and the water outlet valve of the cleaning base station.

In this way, the overall user experience of the cleaning device can be improved.

As an optional embodiment, the present invention provides a cleaning device, wherein the cleaning device includes a cleaning device body and a cleaning member, the cleaning member is connected to the cleaning device body, and the cleaning member rotates relative to the cleaning device body;

the cleaning piece is in contact with a cleaning disc assembly of the cleaning base station to drive the cleaning disc assembly to rotate, and the cleaning equipment body moves towards a cleaning groove of the cleaning base station so that the cleaning equipment body can trigger the water inlet valve and the water outlet valve at the same time; alternatively, the cleaning apparatus body is moved away from the cleaning tank of the cleaning station such that the cleaning apparatus body simultaneously de-activates the inlet valve and the outlet valve.

Like this, cleaning device simple structure, the good reliability washs convenient operation, does not need manual control to intake, can accomplish automatic water intaking and drainage through procedure and mechanical structure.

The structure of the present invention and other objects and advantages thereof will be more clearly understood from the following description of the preferred embodiments taken in conjunction with the accompanying drawings.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings needed to be used in the description of the embodiments or the prior art will be briefly described below, and it is obvious that the drawings in the following description are some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

Fig. 1 is a schematic structural diagram of a clean base station according to an embodiment of the present invention;

fig. 2 is a schematic view of a water inlet valve and a water outlet valve simultaneously triggered in a cleaning base station according to an embodiment of the present invention;

FIG. 3 is an enlarged view of a portion of FIG. 2 at A;

FIG. 4 is a schematic view of the cleaning base station according to the present invention when the inlet valve and the outlet valve are simultaneously deactivated;

FIG. 5 is a partial enlarged view of the portion B in FIG. 4;

fig. 6 is a schematic structural diagram of a linkage assembly in a clean base station according to an embodiment of the present invention;

fig. 7 is another schematic structural diagram of a linkage assembly in a clean base station according to an embodiment of the present invention;

FIG. 8 is a schematic view of a cleaning tray assembly in a cleaning station according to an embodiment of the present invention in a lowered position;

FIG. 9 is a schematic view of a cleaning tray assembly in a cleaning station according to an embodiment of the present invention in an elevated position;

fig. 10 is a schematic structural diagram of a base in a cleaning base station according to an embodiment of the present invention;

FIG. 11 is an enlarged view of a portion of FIG. 10 at C;

fig. 12 is a schematic diagram illustrating a positional relationship between a cleaning tray and a rotary lock in a cleaning base station according to an embodiment of the present invention;

fig. 13 is an exploded view of a clean base station according to an embodiment of the present invention;

fig. 14 is an exploded view of another perspective of a cleaning base station provided by an embodiment of the present invention;

FIG. 15 is an enlarged view of a portion of FIG. 8 at D;

fig. 16 is a schematic view illustrating a positional relationship between a base bracket and a water outlet valve in a cleaning base station according to an embodiment of the present invention;

fig. 17 is a partial enlarged view at E in fig. 16;

fig. 18 is a schematic structural diagram of a cleaning device in the cleaning apparatus according to the embodiment of the present invention.

Description of reference numerals:

100-a base;

110-cleaning tank; 111-a recess; 1111-a water outlet; 1112-a chute; 112-mounting grooves; 113-mounting posts; 1131, rotation stop unit; 114-water inlet hole; 120-a base support; 130-a base mount; 140-a containment chamber; 150-screw post;

200-a cleaning disc assembly;

210-a cleaning tray; 211-cleaning disc body; 2111-scraping dirty strip; 2112-through hole; 212-a connecting portion; 2121-connecting hole; 220-rotation lock; 221-a first limiting part; 222-a second stop;

300-a water inlet valve;

310-water inlet valve seat; 311-a mounting cavity; 3111-a mounting portion; 312-a water inlet; 320-a water inlet valve core; 321-accommodating grooves; 330-a first elastic member; 340-a water inlet sealing ring; 350-a water inlet valve cover;

400-water outlet valve;

410-a water outlet valve body; 411-eye-splice; 420-a water outlet seal; 430-a second elastic member;

500-a linkage assembly;

600-a cleaning device;

610-cleaning the device body; 611-a first abutment; 612-a second abutment; 620-cleaning member;

700-cleaning a base station;

800-clear water tank water outlet.

Detailed Description

In the description of the present invention, it should be noted that unless otherwise explicitly stated or limited, the terms "mounted," "connected" and "connected" are to be construed broadly and may include, for example, a fixed connection, an indirect connection through an intermediary, a connection between two elements, or an interaction between two elements. The specific meaning of the above terms in the present invention can be understood according to specific situations by those of ordinary skill in the art.

In the description of the present invention, it is to be understood that the terms "upper", "lower", "front", "rear", "vertical", "horizontal", "top", "bottom", "inner", "outer", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplicity of description, and do not indicate or imply that the device or element referred to must have a particular orientation, be constructed and operated in a particular orientation, and therefore, should not be construed as limiting the present invention.

The terms "first," "second," and "third" (if any) in the description and claims of this invention and the above-described drawings are used for distinguishing between similar elements and not necessarily for describing a particular sequential or chronological order. It is to be understood that the data so used is interchangeable under appropriate circumstances such that the embodiments of the invention described herein are, for example, capable of operation in sequences other than those illustrated or otherwise described herein.

Moreover, the terms "comprises," "comprising," and "having," and any variations thereof, are intended to cover a non-exclusive inclusion, such that a process, method, system, article, or maintenance tool that comprises a list of steps or elements is not necessarily limited to those steps or elements explicitly listed, but may include other steps or elements not expressly listed or inherent to such process, method, article, or maintenance tool.

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are some, but not all, embodiments of the present invention. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts belong to the protection scope of the present invention.

In the prior art, a cleaning base station comprises a base and a cleaning disc assembly, wherein the base is provided with a cleaning groove, the cleaning groove is provided with a water inlet valve and a water outlet valve, the water outlet valve is opened or closed by manually pressing the water outlet valve, and the water inlet valve is manually pressed to control the opening or closing of the water inlet valve. Therefore, when the floor brush is soaked and washed, the water outlet valve is manually pressed to close the water outlet valve, then the water inlet valve is manually pressed to control the water inlet valve to open, and therefore cleaning liquid enters the cleaning groove and is retained in the cleaning groove. When the floor brush is dewatered, the water outlet valve is manually pressed to be opened, then the water inlet valve is manually pressed to control the water inlet valve to be closed, and therefore cleaning liquid is discharged out of the cleaning tank. In the cleaning base station, the water inlet valve and the water outlet valve need to be controlled independently, the operation of the cleaning base station is complex, and the user experience is poor.

In order to solve the technical problem, the utility model provides a clean basic station and cleaning device, the water intaking valve and the outlet valve of clean basic station can be triggered simultaneously to make the water intaking valve open, the outlet valve is closed; the inlet valve and the outlet valve are simultaneously de-triggered, the inlet valve is closed, and the outlet valve is opened. Therefore, the base station is easy to clean, and user experience is improved.

Fig. 1 is the utility model provides a structure schematic diagram of clean basic station, fig. 2 is the utility model discloses the schematic diagram when water intaking valve and outlet valve are triggered simultaneously in the clean basic station that provides, fig. 3 is the local enlargements of A department in fig. 2, fig. 4 is the utility model provides a water intaking valve and outlet valve remove the schematic diagram when triggering simultaneously in the clean basic station that provides, fig. 5 is the local enlargements of B department in fig. 4.

Referring to fig. 1 to 5, the present invention provides a cleaning apparatus including a cleaning device 600 and a cleaning base station 700. Among them, the cleaning apparatus 600 includes a cleaning apparatus body 610 and cleaning members 620.

The cleaning station 700 includes a base 100, a cleaning pan assembly 200, an inlet valve 300, and an outlet valve 400, the base 100 having a cleaning tank 110, the cleaning pan assembly 200, the inlet valve 300, and the outlet valve 400 all located on the base 100. The inlet valve 300 and the outlet valve 400 are synchronously controlled such that the inlet valve 300 is opened and the outlet valve 400 is closed, or such that the inlet valve 300 is closed and the outlet valve 400 is opened, and the inlet valve 300 and the outlet valve 400 are used to collectively control the liquid level in the cleaning tank 110.

In this application, the base 100 is used to mount the cleaning pan assembly 200, the inlet valve 300 and the outlet valve 400, and the base 100 has the cleaning groove 110 therein for containing the cleaning liquid and the cleaning member 620, and the cleaning liquid and the cleaning pan assembly 200 is used to wash the cleaning member 620. The inlet valve 300 is closed and the outlet valve 400 is opened, so that the sewage after the cleaning member 620 is cleaned is discharged out of the cleaning tank 110, and the liquid level in the cleaning tank 110 is lowered. The inlet valve 300 is opened and the outlet valve 400 is closed, so that the cleaning liquid in the clean water tank is delivered to the cleaning tank 110, the liquid level in the cleaning tank 110 is raised, and the cleaning member 620 is soaked or cleaned.

As an alternative embodiment, the cleaning station 700 further includes a linkage assembly 500, the linkage assembly 500 being movable relative to the cleaning tank 110 to synchronously control the inlet valve 300 and the outlet valve 400. The linkage assembly 500 is arranged to realize the synchronous control of the water inlet valve 300 and the water outlet valve 400, so that the accuracy of the synchronous control can be improved.

Fig. 6 is a schematic structural diagram of a linkage assembly in a clean base station according to an embodiment of the present invention. Referring to fig. 6, the linkage assembly 500 is a lever assembly that rotates with respect to the cleaning tank 110. The lever assembly rotates into contact with the inlet valve 300 and out of contact with the outlet valve 400 such that the inlet valve 300 is opened and the outlet valve 400 is closed. Alternatively, the lever assembly is rotated to contact the outlet valve 400 and out of contact with the inlet valve 300 such that the inlet valve 300 is closed and the outlet valve 400 is opened.

Specifically, the lever assembly comprises a lever and a driving part, the lever is hinged to a connecting seat arranged on the cleaning groove 110, the connecting seat is located between the water inlet valve 300 and the water outlet valve 400, the driving part is located on one side, facing the water inlet valve 300, of the connecting seat, the bottom of the driving part is fixedly connected with the groove bottom of the cleaning groove 110, a piston rod of the driving part is connected with the lever, when the piston rod retracts completely, the lever is in contact with the water inlet valve 300 and is separated from the water outlet valve 400, the water inlet valve 300 is opened, the water outlet valve 400 is closed, the piston rod extends out, the lever rotates, when the piston rod extends out completely, the lever is in contact with the water outlet valve 400 and is separated from the water inlet valve 300, the water inlet valve 300 is closed, and the water outlet valve 400 is opened. Wherein the driving member may be an electric push rod. It will be appreciated that the linkage assembly 500 requires less precision in the mounting positions of the inlet valve 300 and the outlet valve 400, and does not require that the activation heights of the inlet valve 300 and the outlet valve 400 be the same.

According to the cleaning base station 700 provided by the embodiment, by arranging the base 100, the cleaning disc assembly 200, the inlet valve 300 and the outlet valve 400, the base 100 is provided with the cleaning tank 110, the inlet valve 300 and the outlet valve 400 are both positioned on the cleaning tank 110, and the inlet valve 300 and the outlet valve 400 are synchronously controlled, so that the inlet valve 300 is opened, the outlet valve 400 is closed, or the inlet valve 300 is closed, the outlet valve 400 is opened, and the inlet valve 300 and the outlet valve 400 are used for jointly controlling the liquid level in the cleaning tank 110. Compared with the prior art that the water inlet valve 300 and the water outlet valve 400 need to be controlled independently, the water outlet valve 400 is controlled to be opened or closed by manually pressing the water outlet valve 400, and the water inlet valve 300 is controlled to be opened or closed by manually pressing the water inlet valve 300. The operation of the clean base station 700 provided by the embodiment is simple, and the user experience is improved.

In some embodiments, the inlet valve 300 and the outlet valve 400 may be simultaneously activated to open the inlet valve 300 and close the outlet valve 400, and the inlet valve 300 and the outlet valve 400 may be simultaneously deactivated to close the inlet valve 300 and open the outlet valve 400. In this way, the control efficiency of the inlet valve 300 and the outlet valve 400 can be improved.

Fig. 7 is another schematic structural diagram of a linkage assembly in a clean base station according to an embodiment of the present invention. Referring to FIG. 7, the linkage assembly 500 is a linkage assembly, and both the inlet valve 300 and the outlet valve 400 are in contact with the linkage assembly, and the linkage assembly moves toward the bottom of the cleaning tank 110 to simultaneously activate the inlet valve 300 and the outlet valve 400. Alternatively, the linkage assembly is moved toward a side away from the bottom of the cleaning tank 110 to simultaneously deactivate the inlet valve 300 and the outlet valve 400.

Specifically, the connecting rod assembly comprises a connecting rod and a driving member, the driving member is located between the water inlet valve 300 and the water outlet valve 400, the bottom of the driving member is fixedly connected with the bottom of the cleaning tank 110, a piston rod of the driving member is connected with the connecting rod, when the piston rod is completely retracted, the connecting rod simultaneously triggers the water inlet valve 300 and the water outlet valve 400, the water inlet valve 300 is opened, and the water outlet valve 400 is closed. When the piston rod extends out, the connecting rod moves towards the side away from the bottom of the cleaning tank 110, the water inlet valve 300 and the water outlet valve 400 are simultaneously released from being triggered, the water inlet valve 300 is closed, and the water outlet valve 400 is opened. Wherein the driving member may be an electric push rod. It will be appreciated that the range of movement of such linkage assembly is small, and thus it occupies a small space and is not susceptible to interference with the cleaning apparatus 600.

The inlet valve 300 and the outlet valve 400 are synchronously controlled by the linkage assembly 500 in the above embodiments, and in some embodiments, the inlet valve 300 and the outlet valve 400 may also be synchronously controlled by the rotation of the cleaning member 620.

Referring to fig. 1 to 5, the cleaning apparatus 600 includes a cleaning apparatus body 610 and cleaning members 620, the cleaning members 620 are coupled to the cleaning apparatus body 610, and the cleaning members 620 rotate with respect to the cleaning apparatus body 610. The cleaning apparatus 600 is docked on the cleaning base station 700, and the cleaning apparatus 600 can synchronously control the inlet valve 300 and the outlet valve 400 of the cleaning base station 700.

When the cleaning member 620 is rotated by the driving member of the cleaning apparatus body 610, dehydration of the cleaning member can be achieved. The cleaning member 620 is in interference with the cleaning disc assembly 200, the cleaning member 620 can rotate the cleaning disc assembly 200 together, and the cleaning disc assembly 200 can be lifted relative to the cleaning slot 110. Since the cleaning members 620 are maintained in contact with the cleaning tray assembly 200 and the cleaning members 620 are coupled to the cleaning device body 610, the cleaning device body 610 can be elevated with respect to the cleaning bath 110.

When the cleaning member 620 drives the cleaning disc assembly 200 to rotate to the low position, the cleaning device body 610 simultaneously triggers the water inlet valve 300 and the water outlet valve 400 of the cleaning base station 700, so that the water outlet valve 400 is closed, the water inlet valve 300 is opened, and thus the cleaning liquid in the clean water tank enters the cleaning tank 110 to clean the cleaning member 620. When the cleaning member 620 rotates the cleaning disc assembly 200 to the high position, the cleaning apparatus body 610 simultaneously releases the inlet valve 300 and the outlet valve 400 triggering the cleaning base 700, so that the outlet valve 400 is opened and the inlet valve 300 is closed, thereby allowing the sewage after the cleaning member 620 is washed to be discharged out of the cleaning tank 110.

The cleaning device body 610 moves relative to the cleaning tank 110 of the cleaning base station 700 by rotating the cleaning disc assembly 200 by the cleaning member 620, thereby simultaneously activating the inlet valve 300 and the outlet valve 400 or simultaneously deactivating the inlet valve 300 and the outlet valve 400. Thus, automatic water inlet and drainage can be accomplished by a program and a mechanical structure without the need for a manual inlet valve 300 and an outlet valve 400.

In some embodiments, the cleaning tray assembly 200 includes at least one cleaning tray 210, the cleaning tray 210 is positioned within the cleaning slot 110, and the cleaning tray 210 is moved relative to the cleaning slot 110 of the cleaning base station 700 to simultaneously activate the inlet valve 300 and the outlet valve 400 or to simultaneously deactivate the inlet valve 300 and the outlet valve 400.

In one possible implementation, the shape of the cleaning plate 210 matches the shape of the cleaning member 620, and the cleaning member 620 rotates the cleaning plate 210, thereby moving the cleaning plate 210 relative to the cleaning tank 110 of the cleaning base 700.

In another possible implementation, the lifting of the cleaning tray 210 may be controlled by the cleaning base station 700.

Illustratively, a driving assembly is disposed in the cleaning tank 110 of the cleaning base station 700, the driving assembly is connected to the cleaning disc 210, the driving assembly rotates to drive the cleaning disc 210 to rotate, and the cleaning disc 210 moves relative to the cleaning tank 110 of the cleaning base station 700, or the driving assembly moves linearly to push the cleaning disc 210 to move linearly relative to the cleaning tank 110 of the cleaning base station 700.

The cleaning base station 700 further comprises a water receiving piece, the water receiving piece is located in the base 100 and detachably connected with the base 100, the water receiving piece is communicated with the water outlet valve 400, the water receiving piece is used for receiving sewage discharged from the water outlet valve 400, and the water receiving piece can be detached from the base 100 so as to pour the sewage in the water receiving piece.

Fig. 8 is a schematic view of the cleaning disc assembly in the cleaning base station provided by the embodiment of the present invention when located at a low position, and fig. 9 is a schematic view of the cleaning disc assembly in the cleaning base station provided by the embodiment of the present invention when located at a high position.

Referring to fig. 8 and 9, the cleaning pan assembly 200 may be elevated with respect to the cleaning tank 110. When the cleaning pan assembly 200 is lowered, the inlet valve 300 is opened and the outlet valve 400 is closed. The cleaning pan assembly 200 is raised, the inlet valve 300 is closed, and the outlet valve 400 is opened.

Specifically, when the cleaning member 620 drives the cleaning disc assembly 200 to rotate to the low position, the inlet valve 300 and the outlet valve 400 of the cleaning base station 700 are triggered at the same time, so that the outlet valve 400 is closed, and the inlet valve 300 is opened, so that the cleaning liquid in the clean water tank enters the cleaning tank 110, and the cleaning member 620 is cleaned. When the cleaning member 620 rotates the cleaning disc assembly 200 to the high position, the inlet valve 300 and the outlet valve 400 of the cleaning base 700 are simultaneously deactivated, so that the outlet valve 400 is opened and the inlet valve 300 is closed, thereby allowing the sewage after the cleaning member 620 is cleaned to be discharged out of the cleaning tank 110.

It will be appreciated that when a soak flush of the cleaning apparatus is required, the cleaning pan assembly 200 is lowered, the inlet valve 300 is opened, the outlet valve 400 is closed, and cleaning liquid enters the cleaning tank 110. When the cleaning apparatus is required to be spin-dried, the cleaning tray assembly 200 is raised, the inlet valve 300 is closed, and the outlet valve 400 is opened, so that the contaminated water after washing the cleaning members 620 is discharged out of the cleaning tank 110. The water inlet valve 300 and the water outlet valve 400 are simultaneously controlled by descending and ascending of the cleaning disc assembly 200, so that the cleaning disc assembly is convenient to realize and high in reliability.

In one possible embodiment, the cleaning disc assembly 200 may be rotated with respect to the cleaning bath 110 to raise and lower the cleaning disc assembly 200 with respect to the cleaning bath 110.

Thus, the cleaning disc assembly 200 can be driven by the cleaning member to rotate relative to the cleaning groove 110, and automatic control of the inlet valve 300 and the outlet valve 400 can be realized without providing an additional driving device.

Specifically, the cleaning tray assembly 200 includes at least one cleaning tray 210 and at least one rotating lock 220, the cleaning tray 210 is connected to the rotating lock 220 in a one-to-one correspondence, the rotating lock 220 is disposed on the cleaning tank 110, and the cleaning tray 210 rotates with respect to the rotating lock 220, so that the cleaning tray 210 is lifted with respect to the rotating lock 220.

Illustratively, the cleaning tray assembly 200 includes two cleaning trays 210 and two rotation locks 220.

It can be understood that, by arranging the cleaning disc 210 and the rotating lock 220, the cleaning disc 210 is lifted relative to the rotating lock 220, so that the structure is simple and convenient to implement.

In another possible embodiment, the cleaning tray assembly 200 may be linearly moved in a vertical direction with respect to the cleaning bath 110. Illustratively, a lifting spring is provided between the cleaning platter assembly 200 and the cleaning bath 110, and the cleaning platter assembly 200 compresses the spring to achieve a linear movement in a vertical direction with respect to the cleaning bath 110.

Fig. 10 is a schematic structural diagram of a base in a cleaning base station according to an embodiment of the present invention. Referring to fig. 10, the groove bottom of the cleaning groove 110 has a recess 111, and the recess 111 receives the cleaning disk 210. The recess 111 has a water outlet 1111 thereon, and the water outlet valve 400 is used for closing or opening the water outlet 1111. The water outlet 1111 is disposed in the recess 111, so that the collection of the cleaning liquid is facilitated, and the cleaning liquid can be discharged conveniently.

Fig. 11 is a partial enlarged view of C in fig. 10, fig. 12 is a schematic diagram of a positional relationship between a cleaning disc and a rotary lock in a cleaning base station provided in an embodiment of the present invention, fig. 13 is an explosion diagram of the cleaning base station provided in an embodiment of the present invention, fig. 14 is an explosion diagram of another angle of the cleaning base station provided in an embodiment of the present invention, and fig. 15 is a partial enlarged view of D in fig. 8.

Referring to fig. 11 to 15, the cleaning tray 210 includes a cleaning tray body 211 and a connection part 212, the cleaning tray body 211 is coaxially connected to the connection part 212, the connection part 212 has a connection hole 2121 thereon, and the rotary lock 220 is inserted into the connection hole 2121 and is threadedly connected to the connection hole 2121.

The lifting of the cleaning disc 210 relative to the rotating lock 220 is realized by the threaded connection of the rotating lock 220 and the cleaning disc 210, and the structural reliability is high.

Wherein, the cleaning disc body 211 is provided with at least one dirt scraping strip 2111 on the surface deviating from the connecting part 212, and the cleaning disc body 211 is provided with a plurality of through holes 2112. The cleaning piece is cleaned by the dirt scraping strip 2111, so that the attached impurities on the cleaning piece can be scraped, and the cleaning effect of the cleaning piece is improved. By having a plurality of through holes 2112 in the cleaning tray body 211, the flow of the cleaning liquid is facilitated, and the cleaning effect on the cleaning members is improved.

Referring to fig. 12 and 15, the coupling hole 2121 has an internal thread therein, and the outer side surface of the rotary lock 220 has an external thread matching the internal thread.

The rotation lock 220 has a first position-limiting portion 221, the first position-limiting portion 221 contacts with the top thread tail end of the internal thread, and the cleaning disc body 211 stops rotating. By providing the first position-limiting portion 221, the cleaning disc body 211 is prevented from being separated from the rotation lock 220 when the cleaning disc body 211 rotates and rises relative to the rotation lock 220, and the cleaning disc body 211 is prevented from being thrown out of the cleaning groove 110.

Referring to fig. 10 and 11, the cleaning tank 110 is provided with at least one mounting groove 112 and at least one mounting post 113, and the mounting groove 112 and the mounting post 113 are located in the recess 111.

Wherein, rotatory lock 220 and connecting portion 212 are located mounting groove 112, and erection column 113 is located mounting groove 112, and erection column 113 sets up with mounting groove 112 one-to-one.

At least one of the mounting post 113 and the mounting slot 112 has a rotation stop portion 1131, the rotation lock 220 has at least one second limiting portion 222, and the second limiting portions 222 are in one-to-one corresponding contact with the rotation stop portions 1131, so as to fix the rotation lock 220 on the mounting post 113.

It can be understood that the rotation-stopping portion 1131 and the second limiting portion 222 are arranged to fix the rotation lock 220 on the mounting post 113, so as to prevent the rotation lock 220 from rotating, thereby ensuring that the cleaning disc body 211 can rotate and lift relative to the rotation lock 220.

In one possible implementation manner, the rotation stop portion 1131 is a limiting rib located on the bottom wall of the mounting groove 112, and the second limiting portion 222 is a bottom thread start end of the external thread.

With continued reference to fig. 15, in another possible implementation direction, the rotation-stopping portion 1131 is a limiting groove located at the top end of the mounting post 113, and the second limiting portion 222 is an insertion block of the inner side wall of the rotating lock 220, and the insertion block is inserted into the limiting groove.

In order to improve the fixing effect of the rotation lock 220, the two rotation-preventing portions 1131 and the second limiting portion 222 may be provided at the same time. The rotation stop portion 1131 and the second limiting portion 222 provided in this embodiment have simple structures, are convenient to install, and have high reliability.

When mounting, the rotary lock 220 is first mounted in the connection hole 2121 of the cleaning tray 210, and then the rotary lock 220 is fitted over the mounting post 113.

In some embodiments, the number of cleaning discs 210 and the rotation locks 220 is two, and the two cleaning discs 210 rotate in opposite directions.

Specifically, when the cleaning plate 210 rotates inward relative to the cleaning tank 110, the cleaning plate 210 descends, the inlet valve 300 is opened, the outlet valve 400 is closed, and the cleaning liquid enters the cleaning tank 110. When the cleaning plate 210 is rotated to the outside with respect to the cleaning tank 110, the cleaning plate 210 is lifted up, the inlet valve 300 is closed, and the outlet valve 400 is opened, thereby discharging the cleaned cleaning liquid out of the cleaning tank 110.

It can be understood that the cleaning discs 210 are arranged in one-to-one correspondence with the cleaning members 620, and the two cleaning discs 210 can clean the two cleaning members at the same time, so that the cleaning efficiency is improved.

Referring to fig. 8 and 9, the base 100 includes a base support 120 and a base seat 130, the base support 120 covers the base seat 130, and the base support 120 and the base seat 130 are connected, and the base support 120 and the base seat 130 together form a receiving cavity 140.

Wherein the cleaning tank 110 is located on the upper surface of the base bracket 120, and the inlet valve 300 is located in the receiving chamber 140. Thus, the base 100 is arranged in a split manner, which is beneficial to installation and later maintenance of parts in the base 100.

Next, the structure of the inlet valve 300 will be described.

With continued reference to fig. 2-5, the inlet valve 300 includes an inlet valve seat 310 and an inlet valve core 320, and the bottom of the cleaning tank 110 has an inlet hole 114. The periphery of the inlet opening 114 may be provided with a plurality of auxiliary inlet openings, which are evenly distributed around the axis of the inlet opening 114.

The water inlet valve seat 310 is connected with the inner surface of the base support 120, the water inlet valve seat 310 is provided with a mounting cavity 311 and a water inlet 312 communicated with the mounting cavity 311, and the water inlet valve core 320 is sleeved in the mounting cavity 311. The water inlet valve core 320 enters the cleaning tank 110 through the water inlet hole 114, the water inlet valve core 320 is triggered, and the water inlet valve core 320 opens the water inlet 312, so that the water inlet 312 is communicated with the water inlet hole 114. The water inlet valve core 320 is deactivated, and the water inlet valve core 320 closes the water inlet 312.

Specifically, the cleaning base station 700 further includes a clean water tank, the clean water tank has a clean water tank water outlet 800, the clean water tank water outlet 800 is used for discharging the cleaning liquid in the clean water tank, the clean water tank water outlet 800 is connected to the water inlet 312 through a pipeline, so as to convey the cleaning liquid in the clean water tank into the cleaning tank 110 through the water inlet 312.

It can be understood that the water inlet valve core 320 opens the water inlet 312 or the water inlet valve core 320 closes the water inlet 312 by moving the water inlet valve core 320 up and down, so that the water inlet valve has a simple structure and is convenient to operate.

In order to enable the water inlet valve 300 to automatically rebound when the water inlet valve 300 is deactivated, the water inlet valve 300 further includes a first elastic member 330, the mounting cavity 311 has a mounting portion 3111 therein, one surface of the water inlet valve core 320 facing the mounting portion 3111 has a receiving groove 321, one end of the first elastic member 330 in an elastic direction is sleeved on the mounting portion 3111, and the other end of the first elastic member 330 in the elastic direction is inserted in the receiving groove 321. Thus, when the cleaning apparatus body 610 is disengaged from the inlet valve core 320 of the inlet valve 300, the inlet valve core 320 of the inlet valve 300 can move upward under the elastic force of the first elastic member 330, and return to the non-triggered state.

In use, the inlet valve cartridge 320 is triggered by the cleaning apparatus body 610, the first elastic member 330 is compressed, and the inlet valve cartridge 320 moves toward the mounting portion 3111. The inlet valve spool 320 is deactivated and the first elastic member 330 is extended to move the inlet valve spool 320 toward the cleaning tank 110.

In some embodiments, the inlet valve 300 further includes an inlet sealing ring 340 and an inlet valve cover 350, the inlet sealing ring 340 is disposed on the inlet valve cover 350, the inlet sealing ring 340 and the inlet valve cover 350 are both sleeved on the inlet valve core 320, the inlet valve cover 350 is connected to the inlet valve seat 310, and the inlet sealing ring 340 abuts between an upper end of the inlet valve seat 310 and an inner side wall of the inlet valve cover 350.

It will be appreciated that the sealing of the inlet valve 300 may be improved by providing an inlet seal 340 and an inlet valve cover 350.

When the inlet valve 300 is installed, the inlet sealing ring 340 is first installed on the inlet valve cover 350, the inlet valve core 320 and the first elastic member 330 are installed on the inlet valve seat 310, and then the two structures are integrally installed. Finally, the water inlet valve seat 310 is fixed to the screw post 150 of the base 100 by screws.

Next, the structure of the outlet valve 400 will be described.

Fig. 16 is a schematic diagram of a positional relationship between a base bracket and a water outlet valve in the cleaning base station according to the embodiment of the present invention, and fig. 17 is a partially enlarged view of a position E in fig. 16.

Referring to fig. 16 and 17, the outlet valve 400 includes an outlet valve body 410 and an outlet sealing member 420, the outlet sealing member 420 is connected to a surface of the outlet valve body 410 facing the recess 111, and the outlet valve body 410 is connected to the recess 111. The outlet valve 400 is a mechanical valve, which is cheaper than an electronic valve, and has a long service life.

When the cleaning device is used, the water outlet valve body 410 is triggered by the cleaning device body 610, and the water outlet valve body 410 moves towards the concave portion 111 to drive the water outlet sealing member 420 to close the water outlet 1111. The water outlet valve body 410 is released from the trigger, and the water outlet sealing member 420 moves towards the cleaning groove 110 to drive the water outlet sealing member 420 to open the water outlet 1111.

In order to prevent the outlet valve 400 from separating from the recess 111, at least one side of the outlet valve body 410 has a plug 411, the side wall of the recess 111 has a sliding groove 1112, the extending direction of the sliding groove 1112 is the same as the moving direction of the outlet valve body 410, and the plug 411 is inserted into the sliding groove 1112 and slides along the extending direction of the sliding groove 1112.

In order to make the outlet valve 400 automatically rebound, the outlet valve 400 further comprises at least one second elastic member 430, and the outlet valve body 410 is connected to the recess 111 through the second elastic member 430. Thus, when the cleaning device is disengaged from the outlet valve 400, the outlet valve body 410 of the inlet valve 300 can move upward under the elastic force of the second elastic member 430, and return to the non-activated state.

Illustratively, the number of the second elastic members 430 is two, and the second elastic members 430 are symmetrically disposed, so that the outlet valve body 410 can move stably.

It should be noted that the water outlet valve body 410 further has a fixing rib and two spring ribs, the two spring ribs are located at two opposite sides of the fixing rib, the fixing rib is used for fixing the water outlet sealing member 420, and the spring rib is used for limiting the position of the second elastic member 430. When the outlet valve 400 is installed, the outlet sealing member 420 is installed at the fixing rib of the outlet valve body 410, and the second elastic member 430 is sleeved at the spring rib of the outlet valve body 410. The outlet valve 400 is then installed at the chute 1112 of the base 100.

Fig. 18 is a schematic structural diagram of a cleaning device in the cleaning apparatus according to the embodiment of the present invention. Referring to fig. 18, the driving member of the cleaning device body 610 is controlled to rotate forward and backward by the start program, so that the cleaning member 620 rotates forward or backward relative to the cleaning device body 610. The cleaning member 620 is in an interference state with the cleaning tray 210, and the cleaning member 620 rotates the cleaning tray assembly 200, so that the cleaning tray assembly 200 is lifted and lowered with respect to the cleaning tank 110, and thus, the cleaning apparatus body 610 may move toward the cleaning tank 110 of the cleaning base station 700. The cleaning apparatus body 610 includes a first abutting portion 611 and a second abutting portion 612, the first abutting portion 611 and the second abutting portion 612 are located between the two cleaning members 620, and the first abutting portion 611 and the second abutting portion 612 are located on opposite sides of the cleaning members 620. The first abutting portion 611 moves relative to the cleaning groove 110, the first abutting portion 611 abuts against or disengages from the outlet valve 400, and the outlet valve 400 is activated or deactivated, the second abutting portion 612 moves relative to the cleaning groove 110, and the second abutting portion 612 abuts against or disengages from the inlet valve 300, and the inlet valve 300 is activated or deactivated.

Finally, it should be noted that: the above embodiments are only used to illustrate the technical solution of the present invention, and not to limit the same; although the present invention has been described in detail with reference to the foregoing embodiments, it should be understood by those skilled in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some or all of the technical features may be equivalently replaced; such modifications or substitutions do not depart from the scope of the invention in its corresponding aspects.

Claims (23)

1. A cleaning station comprising a base (100), a cleaning pan assembly (200), an inlet valve (300) and an outlet valve (400), the base (100) having a cleaning tank (110), the cleaning pan assembly (200), the inlet valve (300) and the outlet valve (400) all being located on the base (100);

synchronously controlling the inlet valve (300) and the outlet valve (400) such that the inlet valve (300) is open and the outlet valve (400) is closed, or such that the inlet valve (300) is closed and the outlet valve (400) is open, the inlet valve (300) and the outlet valve (400) being used to jointly control the liquid level within the cleaning tank (110).

2. The cleaning base station of claim 1, further comprising a linkage assembly (500), the linkage assembly (500) being movable relative to the cleaning tank (110) to synchronously control the inlet valve (300) and the outlet valve (400).

3. The cleaning base station of claim 2, wherein the linkage assembly (500) is a lever assembly that rotates relative to the cleaning tank (110);

the lever assembly rotates to contact with the inlet valve (300) and is out of contact with the outlet valve (400) so that the inlet valve (300) is opened and the outlet valve (400) is closed;

alternatively, the lever assembly rotates to contact with the outlet valve (400) and out of contact with the inlet valve (300) such that the inlet valve (300) is closed and the outlet valve (400) is open.

4. The cleaning station of claim 2, wherein the inlet valve (300) and the outlet valve (400) can be triggered simultaneously such that the inlet valve (300) is open and the outlet valve (400) is closed; the inlet valve (300) and the outlet valve (400) may be simultaneously de-activated such that the inlet valve (300) is closed and the outlet valve (400) is open.

5. The cleaning base station of claim 4, wherein the linkage assembly (500) is a linkage assembly with which both the inlet valve (300) and the outlet valve (400) are in contact, the linkage assembly moving towards the floor of the cleaning tank (110) to simultaneously activate the inlet valve (300) and the outlet valve (400); alternatively, the linkage assembly is moved towards a side of the tank bottom facing away from the cleaning tank (110) to simultaneously deactivate the inlet valve (300) and the outlet valve (400).

6. The cleaning base station of claim 4, wherein the cleaning pan assembly (200) is liftable relative to the cleaning tank (110);

the cleaning disc assembly (200) is lowered, the inlet valve (300) is opened, and the outlet valve (400) is closed; the cleaning pan assembly (200) is raised, the inlet valve (300) is closed, and the outlet valve (400) is opened.

7. The cleaning base station of claim 6, wherein the cleaning disc assembly (200) is rotatable relative to the cleaning tank (110) to raise and lower the cleaning disc assembly (200) relative to the cleaning tank (110).

8. The cleaning base station of claim 7, wherein the cleaning disc assembly (200) comprises at least one cleaning disc (210) and at least one rotating lock (220), the cleaning disc (210) is connected with the rotating lock (220) in a one-to-one correspondence, the rotating lock (220) is arranged on the cleaning slot (110), and the cleaning disc (210) rotates relative to the rotating lock (220) to lift the cleaning disc (210) relative to the rotating lock (220).

9. The cleaning base station according to claim 8, characterized in that the groove bottom of the cleaning groove (110) has a recess (111), the recess (111) being used for accommodating the cleaning disc (210);

the concave part (111) is provided with a water outlet (1111), and the water outlet valve (400) is used for closing or opening the water outlet (1111).

10. The cleaning base station of claim 9, wherein the cleaning disc (210) comprises a cleaning disc body (211) and a connecting portion (212), the cleaning disc body (211) is coaxially connected with the connecting portion (212), the connecting portion (212) has a connecting hole (2121), and the rotary lock (220) is inserted into the connecting hole (2121) and is in threaded connection with the connecting hole (2121).

11. The cleaning base station according to claim 10, wherein the connection hole (2121) has an internal thread therein, and the outer side surface of the rotary lock (220) has an external thread matching the internal thread;

the rotary lock (220) is provided with a first limiting part (221), the first limiting part (221) is in contact with the tail end of the top thread of the internal thread, and the cleaning disc body (211) stops rotating.

12. The cleaning base station according to claim 11, characterized in that the cleaning tank (110) is provided with at least one mounting groove (112) and at least one mounting column (113), the mounting groove (112) and the mounting column (113) being located in the recess (111);

the rotary lock (220) and the connecting part (212) are positioned in the mounting groove (112), the mounting column (113) is positioned in the mounting groove (112), and the mounting columns (113) and the mounting groove (112) are arranged in a one-to-one correspondence manner;

at least one of the mounting column (113) and the mounting groove (112) is provided with a rotation stopping part (1131), the rotating lock (220) is provided with at least one second limiting part (222), and the second limiting parts (222) are in one-to-one corresponding contact with the rotation stopping parts (1131) so as to fix the rotating lock (220) on the mounting column (113).

13. The base station as claimed in claim 12, wherein the rotation stopping portion (1131) is a limiting rib, the limiting rib is located at the bottom wall of the mounting groove (112), and the second limiting portion (222) is the starting end of the bottom thread of the external thread;

and/or, rotation stopping portion (1131) is a limiting groove, the limiting groove is located at the top end of mounting column (113), second limiting portion (222) is an insertion block of the inner side wall of rotary lock (220), and the insertion block is inserted into the limiting groove.

14. The cleaning base station according to any of claims 8 to 13, characterized in that the number of cleaning discs (210) and the number of rotating locks (220) are both two, and the rotating directions of the two cleaning discs (210) are opposite.

15. The cleaning base station according to any one of claims 8 to 13, characterized in that the base (100) comprises a base support (120) and a base (130), the base support (120) is covered on the base (130), and the base support (120) and the base (130) are connected, the base support (120) and the base (130) together form a receiving cavity (140);

the cleaning groove (110) is positioned on the upper surface of the base bracket (120), and the water inlet valve (300) is positioned in the accommodating cavity (140).

16. The cleaning base station of claim 15, wherein the inlet valve (300) comprises an inlet valve seat (310) and an inlet valve core (320), and the bottom of the cleaning tank (110) is provided with an inlet hole (114);

the water inlet valve seat (310) is connected with the inner surface of the base support (120), the water inlet valve seat (310) is provided with an installation cavity (311) and a water inlet (312) communicated with the installation cavity (311), and the water inlet valve core (320) is sleeved in the installation cavity (311);

the water inlet valve core (320) enters the cleaning tank (110) through the water inlet hole (114), the water inlet valve core (320) is triggered, and the water inlet valve core (320) opens the water inlet (312) so that the water inlet (312) is communicated with the water inlet hole (114); the water inlet valve core (320) is released from triggering, and the water inlet valve core (320) closes the water inlet (312).

17. The cleaning base station as claimed in claim 16, wherein the inlet valve (300) further comprises a first elastic member (330), the mounting cavity (311) has a mounting portion (3111) therein, one surface of the inlet valve core (320) facing the mounting portion (3111) has a receiving groove (321), one end of the elastic direction of the first elastic member (330) is sleeved on the mounting portion (3111), and the other end of the elastic direction of the first elastic member (330) is inserted into the receiving groove (321).

18. The clean base station of claim 16, wherein the inlet valve (300) further comprises an inlet sealing ring (340) and an inlet valve cover (350), the inlet sealing ring (340) is disposed on the inlet valve cover (350), the inlet sealing ring (340) and the inlet valve cover (350) are both sleeved on the inlet valve core (320), the inlet valve cover (350) is connected with the inlet valve seat (310), and the inlet sealing ring (340) abuts between an upper end of the inlet valve seat (310) and an inner side wall of the inlet valve cover (350).

19. The cleaning base station according to any one of claims 9 to 13, characterized in that the outlet valve (400) comprises an outlet valve body (410) and an outlet seal (420), the outlet seal (420) is connected with a surface of the outlet valve body (410) facing the recess (111), and the outlet valve body (410) is connected with the recess (111); the water outlet valve body (410) is triggered, and the water outlet valve body (410) moves towards the concave part (111) to drive the water outlet sealing piece (420) to close the water outlet (1111); the water outlet valve body (410) is released from triggering, and the water outlet sealing piece (420) moves towards the cleaning groove (110) to drive the water outlet sealing piece (420) to open the water outlet (1111).

20. The cleaning base station according to claim 19, characterized in that at least one side of the water outlet valve body (410) is provided with a plug-in button (411), the side wall of the recess (111) is provided with a sliding groove (1112), the extending direction of the sliding groove (1112) is consistent with the moving direction of the water outlet valve body (410), and the plug-in button (411) is inserted into the sliding groove (1112) and slides along the extending direction of the sliding groove (1112).

21. The cleaning base station according to claim 19, characterized in that the outlet valve (400) further comprises at least one second elastic member (430), and the outlet valve body (410) is connected with the recess (111) through the second elastic member (430).

22. A cleaning apparatus, comprising a cleaning device (600) and a cleaning base station (700) according to any one of claims 1 to 21, wherein the cleaning device (600) rests on the cleaning base station (700), and wherein the cleaning device (600) can synchronously control the water inlet valve (300) and the water outlet valve (400) of the cleaning base station (700).

23. The cleaning apparatus according to claim 22, wherein the cleaning device (600) comprises a cleaning device body (610) and a cleaning member (620), the cleaning member (620) is connected to the cleaning device body (610), and the cleaning member (620) rotates relative to the cleaning device body (610);

the cleaning piece (620) is in contact with a cleaning disc assembly (200) of the cleaning base station (700) to drive the cleaning disc assembly (200) to rotate, and the cleaning device body (610) moves towards a cleaning groove (110) of the cleaning base station (700) so that the cleaning device body (610) simultaneously triggers the water inlet valve (300) and the water outlet valve (400); alternatively, the cleaning apparatus body (610) is moved away from the cleaning tank (110) of the cleaning base (700) to simultaneously deactivate the inlet valve (300) and the outlet valve (400) from the cleaning apparatus body (610).

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