CN218508068U - Base, clothes treatment equipment and cleaning system - Google Patents

Abstract

The application relates to the technical field of clothes treatment, and provides a base, a clothes treatment device and a cleaning system, wherein the base comprises a base and a water inlet assembly, the base comprises a cleaning part and a sweeper cavity, and the cleaning part is used for cleaning a cleaning piece of the sweeper; the subassembly of intaking includes main water inlet waterway, the subassembly of intaking still include with the first branch road of intaking of main water inlet waterway intercommunication and/or with the second branch road of intaking of main water inlet waterway intercommunication, main water inlet waterway is used for communicating the running water route, first branch road intercommunication washing portion of intaking, the second is intake the branch road and is used for communicating the liquid container of machine of sweeping the floor. At least one of the cleaning part and the liquid container is provided with tap water by a main water inlet waterway.

Description

Base, clothes treatment equipment and cleaning system

Technical Field

The application relates to the technical field of clothes treatment, in particular to a base, a clothes treatment device and a cleaning system.

Background

The sweeper is used for cleaning the ground, the sweeper is provided with a base station, the base station is provided with a water replenishing water tank, and the water replenishing water tank is used for replenishing water for a liquid container of the sweeper, such as a clean water tank, so that the sweeper can clean the ground for a long time. In the related art, a user is required to manually fill water into a water replenishing tank.

SUMMERY OF THE UTILITY MODEL

In view of the above, it is desirable to provide a base, a laundry treating apparatus and a cleaning system, which can replenish a clean water tank of a sweeper.

To achieve the above object, an embodiment of the present application provides a base, including:

the base comprises a cleaning part and a sweeper cavity, and the cleaning part is used for cleaning a cleaning piece of the sweeper;

the subassembly of intaking, including main water inlet waterway, the subassembly of intaking still include with the first branch road of intaking of main water inlet waterway intercommunication and/or with the second branch road of intaking of main water inlet waterway intercommunication, main water inlet waterway is used for communicateing the running water route, first branch road intercommunication of intaking the washing portion, the second is intake the branch road and is used for communicateing the liquid container of machine of sweeping the floor.

In some embodiments, the water inlet assembly includes a direction valve, the direction valve includes a water inlet port, a first water outlet port, and a second water outlet port, the main water inlet path is communicated with the water inlet port, the first water inlet branch is communicated with the first water outlet port and the cleaning portion, and the second water inlet branch is used for communicating the second water outlet port and the liquid container.

In some embodiments, the base includes a reservoir disposed on the main inlet waterway, the reservoir being located upstream of the inlet valve port in a flow direction of the main inlet waterway.

In some embodiments, the base includes a lotion container in communication with the reservoir chamber.

In some embodiments, the base includes an overflow waterway communicating with the reservoir chamber, and the liquid in the reservoir chamber is discharged to the outside or the washing part through the overflow waterway in a case that a water level of the reservoir chamber is higher than a set water level.

In some embodiments, the base includes a ventilation path and a first switch valve, the ventilation path communicates the reservoir with the atmosphere, the first switch valve is disposed on the main water inlet path, and the first switch valve is located between the reservoir and the water inlet port.

In some embodiments, the base includes an overflow waterway, a first end of the overflow waterway is communicated with the ventilation air passage, and a second end of the overflow waterway is communicated with the outside or the cleaning portion.

In some embodiments, the base includes a first multi-way connector, the first end of the overflow waterway is communicated with the ventilation air passage through the first multi-way connector, and the first multi-way connector is a multi-way connector or a multi-way valve.

In some embodiments, the highest point of the overflow waterway is not higher than the lowest point of the ventilation airway.

In some embodiments, the water inlet assembly includes a third water inlet branch, the base includes a drain assembly, the drain assembly includes a drain waterway communicating with the washing portion and the outside, and a drain pump disposed on the drain waterway, a first end of the third water inlet branch is used for communicating with a tap water waterway, and a second end of the third water inlet branch is used for communicating with a pipeline between the drain waterway and the washing portion.

In some embodiments, the water inlet assembly includes a second switch valve disposed on the third water inlet branch, and the second switch valve is configured to switch on or off the tap water entering the third water inlet branch.

In some embodiments, the water inlet assembly includes a second multi-way connector, the first end of the third water inlet branch is communicated with the main water inlet waterway through the second multi-way connector, and the second multi-way connector is a multi-way joint or a multi-way valve.

In some embodiments, the drain assembly includes a water storage chamber disposed on the drain waterway, the water storage chamber is located upstream of the drain pump along a water flow direction of the drain waterway, and the second end of the third water inlet branch communicates with the water storage chamber.

In some embodiments, the drain assembly includes a third multi-way connector, the third multi-way connector is located upstream of the drain pump along a water flow direction of the drain waterway, the second end of the third water inlet branch communicates with the drain waterway through the third multi-way connector, and the third multi-way connector is a multi-way joint or a multi-way valve.

In some embodiments, the base includes an overflow water path and a reservoir disposed on the main water inlet path, the overflow water path communicates with the reservoir, the drain assembly includes a fourth multi-way connector disposed on the drain water path, the fourth multi-way connector is disposed at a downstream of the drain pump along a water flow direction of the drain water path, the overflow water path communicates with the drain water path through the fourth multi-way connector, and the fourth multi-way connector is a multi-way joint or a multi-way valve.

In some embodiments, the water inlet assembly includes a third on-off valve disposed on the main water inlet waterway, and the third on-off valve is used for turning on or off the running water entering the main water inlet waterway.

Another aspect of embodiments of the present application provides a laundry treating apparatus, including:

a laundry treating machine including a drum;

the base of any one of the above, wherein the base is disposed below the barrel.

The embodiment of the application further provides a cleaning system, which is characterized by comprising a sweeper provided with a cleaning piece and the clothes processing equipment, wherein the sweeper can enter and exit the sweeper cavity.

At least one in the base that this application embodiment provided, washing portion and the liquid container is by main water inlet waterway provide running water. Like this, on the one hand, leading-in washing portion with the running water through main water inlet water route and first main water inlet way, the cleaning member of machine of sweeping the floor can be washd to the water liquid of washing portion, and the base can provide clean function for the cleaning member, and the user can not need manual washing cleaning member, and user experience is good. On the other hand, the tap water is guided into the liquid container through the main water inlet waterway and the second water inlet branch, the base can save a water replenishing water tank for replenishing water for the liquid container, the cost is lower, the space occupied by the liquid container can be reduced, and the size and the height of the base are smaller and lower. In another aspect, the main water inlet waterway is communicated with the tap water waterway, and then water is sent to at least one of the first water inlet branch and the second water inlet branch, so that the change to the tap water waterway of a user can be reduced, for example, the user does not need to set two tap water taps.

Drawings

FIG. 1 is a schematic view of a cleaning system according to an embodiment of the present application;

FIG. 2 is a schematic diagram of water inlet and outlet of a first base according to the present application;

FIG. 3 is a schematic diagram of water supply and drainage of a second base according to the present application;

FIG. 4 is a schematic diagram of water supply and drainage of a third base of the present application;

FIG. 5 is a schematic diagram of water inlet and outlet of a fourth base according to the present application;

FIG. 6 is a schematic diagram of water inlet and outlet of a fifth base according to the present application;

FIG. 7 is a schematic diagram of water inlet and outlet of a sixth base according to the present application;

FIG. 8 is a schematic diagram of water inlet and outlet of a seventh base according to the present application;

FIG. 9 is a schematic diagram of water inlet and outlet of the eighth base of the present application.

Description of the reference numerals

A base 1; a cleaning section 1a; a sweeper cavity 1b;

a water inlet component 2; a main water intake passage 21; a header pipe 211; a branch pipe 212; a direction change valve 22; inlet valve port 22a; a first outlet port 22b; a second outlet port 22c; a first water inlet branch 23; a second water inlet branch 24; a third water inlet branch 25; a second on-off valve 26; a second multi-way connector 27; a main water inlet 27a; the first branch port 27b; a second branch port 27c; the third on-off valve 28;

a liquid storage cavity 3;

a lotion container 4;

an overflow water path 5;

a ventilation gas circuit 6;

a first on-off valve 7;

a first multi-way connector 8;

a drain assembly 9; a drain water path 91; a first drain sub-circuit 911; a second drain sub-line 912; a drain pump 92; a reservoir chamber 93; a third multi-way connector 94; the first water inlet 94a; a second water inlet 94b; an outlet 94c; a fourth multi-way connector 95;

a cleaning head 10;

a support frame 101;

the laundry treating machine 100;

a sweeper 200;

a floor drain 1000.

Detailed Description

It should be noted that, in the present application, technical features in examples and embodiments may be combined with each other without conflict, and the detailed description in the specific embodiment should be understood as an explanation of the gist of the present application and should not be construed as an improper limitation to the present application.

In the embodiments of the present application, the "up" and "down" orientations and positional relationships are based on the orientations and positional relationships shown in fig. 1, it is to be understood that these orientation terms are only used for convenience in describing the present application and for simplifying the description, but do not indicate or imply that the referred device or element must have a specific orientation, be constructed in a specific orientation, and be operated, and thus should not be construed as limiting the present application. The present application will be described in further detail with reference to the following drawings and specific embodiments.

Referring to fig. 1 to 9, embodiments of the present application provide a base capable of being used in a laundry treating apparatus.

The base comprises a base 1 and a water inlet assembly 2.

The base 1 includes a cleaning portion 1a and a sweeper cavity 1b. The cleaning part 1a is used for cleaning the cleaning members of the sweeper 200. The cleaning member is used to contact a surface to be cleaned, such as a floor surface, to clean the surface to be cleaned. The cleaning member can roll, rotate or slide relative to the floor surface, etc., so that the cleaning member rubs against the surface to be cleaned, and thus the surface to be cleaned is rubbed by the cleaning member for cleaning.

Exemplary cleaning members include, but are not limited to, roll brushes and/or wipes, and the like.

Referring to fig. 2 to 9, the water inlet assembly 2 includes a main water inlet path 21, the water inlet assembly 2 further includes a first water inlet branch 23 communicated with the main water inlet path 21 and/or a second water inlet branch 24 communicated with the main water inlet path 21, and the main water inlet path 21 is used for communicating with a tap water path. That is, the main intake waterway 21 can supply water to the first intake branch 23, and the main intake waterway 21 can supply water to the second intake branch 24. The water intake assembly 2 comprises at least one of a first water intake branch 23 and a second water intake branch 24.

The first water inlet branch 23 is communicated with the cleaning part 1a, and the second water inlet branch 24 is used for being communicated with a liquid container of the sweeper. Thus, the first water inlet branch 23 can supply tap water to the washing part 1a. The second water inlet branch 24 can supply tap water to the liquid container of the sweeper.

The liquid container of the sweeper can be used to contain fresh water and/or a lotion. Illustratively, the liquid container includes, but is not limited to, a clean water tank.

In the base provided by the embodiment of the application, tap water is supplied from the main water inlet waterway 21 to at least one of the cleaning part 1a and the liquid container. Like this, on the one hand, leading-in washing portion 1a of running water through main water inlet waterway 21 and first water inlet branch 23, the cleaning member of machine 200 can be washd to washing portion 1 a's water liquid, and the base can provide clean function for the cleaning member, and the user can not need manual washing cleaning member, and user experience is good. On the other hand, tap water is guided into the liquid container through the main water inlet waterway 21 and the second water inlet branch 24, so that a water replenishing water tank for replenishing water to the liquid container can be omitted, the cost is lower, the space occupied by the liquid container can be reduced, and the base is smaller in size and lower in height. In another aspect, by connecting the main water inlet waterway 21 to the tap water waterway and then supplying water to at least one of the first water inlet branch 23 and the second water inlet branch 24, the modification of the tap water waterway of the user may be reduced, for example, the user may not have to set two tap water taps.

In an embodiment, referring to fig. 2 to 9, the water inlet assembly 2 includes a main water inlet waterway 21, a reversing valve 22, a first water inlet branch 23 and a second water inlet branch 24, the reversing valve 22 includes a water inlet valve port 22a, a first water outlet valve port 22b and a second water outlet valve port 22c, the main water inlet waterway 21 is communicated with the water inlet valve port 22a, the first water inlet branch 23 is communicated with the first water outlet valve port 22b and the cleaning portion 1a, and the second water inlet branch 24 is used for communicating the second water outlet valve port 22c with a liquid container of the sweeper 200. That is, the water intake assembly 2 includes a first water intake branch 23 and a second water intake branch 24.

Illustratively, the main water inlet waterway 21, the first water inlet branch 23 and the second water inlet branch 24 may be of a pipe structure.

In this embodiment, the selector valve 22 can guide the tap water from the main water inlet passage 21 to the cleaning portion 1a and/or the liquid container. Through main water inlet waterway 21 intercommunication running water waterway, rethread reversing valve 22 shunts, can reduce the change to user's running water waterway for example the user can not set up two running water tap, not only can practice thrift the pipeline, can also realize the independent intake control respectively to first branch road 23 of intaking and second branch road 24.

The particular type of the diverter valve 22 is not limited, and, for example, the diverter valve 22 includes, but is not limited to, a solenoid valve.

Referring to fig. 1, a laundry treating apparatus provided in an embodiment of the present application includes a laundry treating machine 100 and a pedestal in any embodiment of the present application, the laundry treating machine 100 includes a drum, and a base 1 is disposed below the drum. So, utilize laundry treatment machine 100's below space to place base 1, avoid base 1 additionally to occupy floor area, practice thrift the space, user experience is good, and base 1 still can provide the holding power for laundry treatment machine 100.

The sweeper 200 may be an intelligent sweeper 200, that is, the sweeper 200 includes a control unit and a walking structure, and the control unit may control the walking structure to walk autonomously and the cleaning member to work autonomously. Taking the walking structure as the roller as an example, the control unit controls the roller to roll to drive the sweeper 200 to move, and the cleaning member can clean the ground during the walking process of the sweeper 200.

In one embodiment, the sweeper 200 includes a first communication module, the base includes a second communication module, and the sweeper 200 and the laundry treatment device can communicate with each other through the first communication module and the second communication module. For example, the sweeper 200 can return to the sweeper chamber 1b by wireless communication via the first communication module and the second communication module.

Illustratively, the first communication module and the second communication module may include, but are not limited to, one or more of a bluetooth module, a Wireless Fidelity (WIFI) module, a fourth or fifth Generation (4 th Generation/5th Generation, 4G/5G) communication module, or an infrared module.

In one embodiment, the base includes a controller for controlling the operation of various electronic components of the base, such as the diverter valve 22.

The laundry treating machine 100 has functions not limited thereto, and for example, the laundry treating machine 100 may have a washing function, and/or a drying function. That is, the laundry treating machine 100 may be a washing machine, a dryer, and/or a washer-dryer, etc.

In some embodiments, the laundry treating machine 100 includes a water container rotatably disposed in the water container, and the water container is formed with water holes through which water may flow between the water container and the water container. The drum is used for placing and treating laundry, e.g. the drum is used for washing and/or drying laundry, etc.

The axis of rotation of the barrel may be in a vertical direction, an oblique direction, or a horizontal direction. That is, the laundry treating machine 100 may be a pulsator type laundry treating machine 100 or a drum type laundry treating machine 100, or the like.

In one embodiment, referring to fig. 2 to 9, the water inlet assembly 2 includes a third on-off valve 28 disposed on the main water inlet waterway 21, and the third on-off valve 28 is used for turning on or off the running water entering the main water inlet waterway 21. Thus, the main water inlet waterway 21 can be autonomously controlled to feed water through the third on/off valve 28.

In one embodiment, the third on/off valve 28 may have a flow restricting function. That is, in the case where the flow rate of the water flowing through the third on/off valve 28 is greater than the set value, the third on/off valve 28 is closed. In this way, the flow rate of the water from the main water inlet passage 21 is prevented from becoming excessive.

The type of the third on/off valve 28 is not limited, and the third on/off valve includes, but is not limited to, a solenoid valve, for example.

In one embodiment, the laundry treating machine 100 includes a water injection path in communication with the drum, and the main water inlet path 21 is in communication with the water injection path. Specifically, the water injection waterway is used for being communicated with a tap water waterway. Main water route 21 and water injection water route can share a tap, and the water liquid that comes from tap gets into base, barrel through water injection water route and main water route 21 respectively, realizes the running water reposition of redundant personnel, practices thrift the structure, reduces the change to user's running water route.

In one embodiment, the laundry machine 100 includes a fourth switch valve disposed on the water filling path, and the main water inlet path 21 is connected to a path of the water filling path located upstream of the fourth switch valve. The fourth switch valve controls the water injection waterway to feed water into the barrel, and the third switch valve 28 controls the main water inlet waterway 21 to feed water, so that the main water inlet of the base and the main water inlet of the barrel are respectively and independently controlled. For example, the water flow in the washing part 1a can be independently controlled by the third on/off valve 28, and the third on/off valve 28 may be energized without being affected by the water used in the laundry machine 100, so that the third on/off valve 28 can be independently operated even if the fourth on/off valve is not energized and does not operate. In a similar way, the water flow of the cylinder body can be independently controlled, and is not influenced by water for the base, and the fourth switch valve is powered on.

In one embodiment, referring to fig. 1, the base includes a supporting frame 101 having a placing cavity, the base 1 is located in the placing cavity, and the laundry treating machine 100 may be supported above the supporting frame 101. The support frame 101 is used to support the weight of the laundry machine 100, and the base 1 does not need to bear a large weight, so that the base 1 can be made of a light material such as plastic, thereby reducing material cost. The cleaning part 1a and the supporting frame 101 are separated by the base 1 to prevent the water in the cleaning part 1a from contacting the supporting frame 101.

The structure of the cleaning portion 1a is not limited, and for example, in one embodiment, referring to fig. 2 to 9, the cleaning portion 1a has a groove-shaped structure with an opening at the upper side. Thus, the cleaning portion 1a can receive the clean water from the first water inlet branch 23 and also can receive the dirty water generated by cleaning the cleaning member.

In an exemplary embodiment, the laundry treating machine 100 includes a cabinet, in which the outer tub and the drum are accommodated, and the cabinet is located above the supporting frame 101 and connected to the supporting frame 101. Therefore, the box body and the supporting frame 101 can be manufactured respectively, the installation of the cylinder body, the base 1 and the like is facilitated, and the manufacturing difficulty is reduced.

In other embodiments, the laundry treatment apparatus comprises a housing in which both the base 1 and the drum are located. That is, the base 1 and the cylinder share one housing.

In some embodiments, referring to fig. 2 to 9, the base includes a cleaning head 10 disposed on the first water inlet branch 23, and the cleaning head 10 can spray water to the cleaning portion 1a or the cleaning member. In this way, the cleaning elements can be rinsed by the cleaning head 10, facilitating the dirt on the cleaning elements to be removed. Or the cleaning pieces can rotate by themselves so as to be contacted with the water in the cleaning part 1a to promote the dirt on the cleaning pieces to fall off.

In one embodiment, referring to fig. 2 to 9, the water inlet assembly 2 includes a third water inlet branch 25, the base includes a drainage assembly 9, the drainage assembly 9 includes a drainage waterway 91 and a drainage pump 92, the drainage waterway 91 is communicated with the cleaning portion 1a and the outside, the drainage pump 92 is disposed on the drainage waterway 91, a first end of the third water inlet branch 25 is used for being communicated with the tap water waterway, and a second end of the third water inlet branch 25 is communicated with a pipeline of the drainage waterway 91 between the drainage pump 92 and the cleaning portion 1a.

Illustratively, the third water inlet branch 25 and the water discharge channel 91 may be of a pipe structure.

The drain pump 92 is used for driving the water in the drain water path 91 to flow to the outside. The specific type of the drain pump 92 is not limited herein, and the drain pump 92 may be an impeller pump, for example.

Here, the drain assembly 9 uses venturi effect to drain, and in particular, when draining, water flows into the drain water path 91 through the third water inlet branch 25 and is discharged to the outside, for example, the floor drain 1000, through the drain pump 92, whereby air in the drain water path 91 can be discharged as much as possible. After the air in the drainage water path 91 is substantially exhausted, the liquid in the washing unit 1a is automatically sucked into the drainage water path 91 and finally discharged to the outside, for example, the floor drain 1000 by the drainage pump 92, thereby discharging the liquid in the washing unit 1a.

It should be noted that the water flow from the third water inlet branch 25 may continuously flow to the drain water path 91 throughout the draining process, that is, the water flow from the third water inlet branch 25 is discharged to the outside together with the liquid in the washing part 1a through the drain pump 92. Alternatively, after the air in the drain water channel 91 is substantially exhausted, the flow path of the third water inlet branch channel 25 to the drain water channel 91 may be closed, and at this time, only the liquid in the washing portion 1a discharged to the outside by the drain pump 92 may be discharged, and the water flow from the third water inlet branch channel 25 may be eliminated.

In an embodiment, referring to fig. 4 and 5, the water inlet assembly 2 includes a second switch valve 26 disposed on the third water inlet branch 25, and the second switch valve 26 is used to connect or disconnect the tap water from entering the third water inlet branch 25. The waterway of the third water inlet branch 25 can be independently controlled through the second switch valve 26, and the degree of autonomy is improved. For example, after the air in the drain water channel 91 is substantially exhausted, the water flow path from the third water inlet branch channel 25 to the drain water channel 91 may be blocked by the second on-off valve 26.

In one embodiment, the second switching valve 26 may have a flow restricting function. That is, in the case where the flow rate of the water flowing through the second on-off valve 26 is greater than the set value, the second on-off valve 26 is closed. In this way, excessive flow rates of water from the third water inlet branch 25 are avoided.

The type of the second on-off valve 26 is not limited, and the second on-off valve 26 includes, but is not limited to, a solenoid valve, for example.

In some embodiments, the third water inlet branch 25 and the main water inlet waterway 21 may be respectively communicated with a tap water waterway of a user, for example, the third water inlet branch 25 is separately communicated with a tap water, and the third water inlet branch 25 may control the tap water flow path through the second switch valve 26. The main water inlet path 21 is separately connected to a running water tap, and the main water inlet path 21 may control a running water flow path through the third on/off valve 28.

In some embodiments, referring to fig. 2, 3, and 6 to 9, the water inlet assembly 2 includes a second multi-way connector 27, a first end of the third water inlet branch 25 is connected to the main water inlet waterway 21 through the second multi-way connector 27, and the second multi-way connector 27 is a multi-way joint or a multi-way valve. Illustratively, the second multi-way connection 27 is located downstream of the third on/off valve 28 in the water flow direction of the main water inlet waterway 21. Through the second multi-way connector 27, the third water inlet branch 25 can be communicated to the main water inlet waterway 21, and tap water can be shunted to the third water inlet branch 25 from the main water inlet waterway 21, so that the third water inlet branch 25 and the main water inlet waterway 21 can share one tap water, the tap water can be reduced, the cost is saved, and the change of the tap water waterway of a user is reduced.

The multi-way joint is a connecting structure for keeping a plurality of interfaces in conduction. Taking the three-way joint as an example, the three-way joint comprises three interfaces, and the three interfaces are kept in a conducting state. It is understood that the multi-way joint is not limited to a three-way joint, but may be a four-way joint or a five-way joint, etc., which are not listed herein.

The multi-way valve refers to a connecting structure with a plurality of valve ports capable of being opened or closed. Taking the three-way valve as an example, the three-way joint comprises three valve ports, and the three valve ports can be respectively and independently opened or closed. It is understood that the multi-way valve is not limited to a three-way valve, but may be a four-way valve, a five-way valve, or the like, which are not listed herein.

The type of multi-way valve is not limited, and the multi-way valve may be a solenoid valve, for example.

Taking the second multi-way connector 27 as an example of a multi-way valve, referring to fig. 2, 3, and 6 to 9, the second multi-way connector 27 may include a main water inlet 27a, a first branch port 27b, and a second branch port 27c, the main water inlet channel 21 includes a main pipe 211 and a branch pipe 212, the main pipe 211 communicates the main water inlet 27a with the tap water channel, the branch pipe 212 communicates the first branch port 27b with the water inlet valve port 22a, and the third water inlet branch 25 communicates the second branch port 27c. The main water inlet 27a, the first branch port 27b, and the second branch port 27c can be independently opened or closed.

For example, when the water needs to be drained, the main water inlet 27a and the second branch port 27c may be opened, the first branch port 27b may be closed, and the drainage pump 92 may be kept in an operation state, so that the tap water may be introduced into the drainage channel 91 through the third water inlet branch 25, so as to be drained by the negative pressure. When the water needs to be replenished into the liquid container of the sweeper 200, the main water inlet 27a, the first diversion port 27b and the second water outlet valve port 22c can be opened, and the second diversion port 27c and the first water outlet valve port 22b can be closed, so that tap water enters the liquid container to replenish the liquid container with water. The base can also realize the function of adding water to the cleaning part 1a alone or adding water to the cleaning part 1a and the liquid container simultaneously, and those skilled in the art can know the specific function implementation according to the examples disclosed in the present application, and the detailed description is omitted here.

The plurality of means includes two or more. The second multi-way connector 27 can be a multi-way joint or a multi-way valve, and the number of the interfaces of the multi-way joint and the number of the ports of the multi-way valve can be selected according to requirements, which is not described herein again.

In some embodiments, referring to fig. 2, 4, 6, 8 and 9, the drainage assembly 9 includes a water storage cavity 93 disposed on the drainage channel 91, the water storage cavity 93 is located upstream of the drainage pump 92 along the water flow direction of the drainage channel 91, and the second end of the third water inlet branch 25 communicates with the water storage cavity 93. Water from the third inlet branch 25 may be temporarily stored in the reservoir chamber 93. The water storage cavity 93 is used for storing water liquid, when water is drained, water can be injected into the water storage cavity 93 through the third water inlet branch 25, water in the water storage cavity 93 is sucked through the drainage pump 92, and therefore negative pressure is formed in the drainage water channel 91, the liquid in the cleaning portion 1a can be sucked, automatic drainage is achieved, and convenience of base drainage is improved.

In some embodiments, referring to fig. 3, 5 and 7, the drain assembly 9 includes a third multi-way connector 94, the third multi-way connector 94 is located upstream of the drain pump 92 along the water flow direction of the drain waterway 91, the second end of the third water inlet branch 25 is communicated with the drain waterway 91 through the third multi-way connector 94, and the third multi-way connector 94 is a multi-way joint or a multi-way valve.

Here, both the third water inlet branch 25 and the drain waterway 91 may have a pipe structure. The third multi-way connector 94 functions to connect the third water inlet branch 25, the drain water path 91 and the drain pump 92, and the third multi-way connector 94 can feed the water from the third water inlet branch 25 into the drain branch for exhausting the air in the drain water path 91, so that the drain pump 92 can suck the liquid in the cleaning part 1a under negative pressure.

For example, referring to fig. 3, 5 and 7, the drainage waterway 91 includes a first drainage sub-pipeline 911 and a second drainage sub-pipeline 912, the third multi-way connector 94 includes a first water inlet 94a, a second water inlet 94b and a water outlet 94c, the first drainage sub-pipeline 911 communicates with the washing unit 1a and the first water inlet 94a, the second end of the third water inlet branch 25 communicates with the second water inlet 94b, the inlet of the drainage pump 92 communicates with the water outlet 94c, and the second drainage sub-pipeline 912 communicates with the outlet of the drainage pump 92 and the outside, such as the floor drain 1000. A part of the first discharging sub-pipe 911 is higher than the highest height of the cleaning part 1a, and at least a part of the first discharging sub-pipe 911 extends upward. In this way, the water in the water storage chamber 93 is sucked by the drain pump 92, so that a negative pressure is formed in the first drain sub-pipe 911, and a siphon effect is generated between the water storage chamber 93 and the cleaning part 1a, so that the liquid in the cleaning part 1a is sucked and discharged to the outside.

When the third multi-way connector 94 is a multi-way joint, the third water inlet branch 25, the inlet of the drain pump 92, and the first drain sub-pipeline 911 are kept in a conduction state. When the third multi-way connector 94 is a multi-way valve, the water flow paths of the three structures can be switched on or off as required. For example, in the drainage state of the drainage assembly 9, the first inlet 94a, the second inlet 94b and the outlet 94c of the third multi-way connector 94 are communicated with each other. In the non-operating state of the drainage assembly 9, the first water inlet 94a, the second water inlet 94b and the water outlet 94c of the third multi-way connector 94 may all be cut off.

In one embodiment, referring to fig. 2 to 9, the base includes a liquid storage cavity 3 disposed on the main water inlet waterway 21, and the liquid storage cavity 3 is located at an upstream of the water inlet valve port 22a along a water flow direction of the main water inlet waterway 21. That is to say, the water flow in the main water inlet waterway 21 flows through the liquid storage cavity 3 first and then flows through the reversing valve 22, and the liquid storage cavity 3 plays a role of pressure relief and slow flow, so that the water flow flows at a proper flow rate, and the water pressure in the main water inlet waterway 21 is prevented from being too high.

In one embodiment, referring to fig. 2 to 9, the base comprises a lotion container 4, and the lotion container 4 is communicated with the liquid storage chamber 3. The lotion container 4 is used for containing lotion. Illustratively, the lotion container 4 is located in the placement chamber and above the base 1. The lotion container 4 can add lotion to the reservoir 3, which enters the cleaning part 1a along with the aqueous liquid, for better disposal of the cleaning elements.

Lotions include, but are not limited to, fluids such as a cleanser and/or fragrance.

The appearance shape of the lotion container is not limited, and the lotion container can be in a cylindrical or conical bottle body structure by way of example. The lotion container can also be in the shape of a polyhedral, e.g. hexahedral, box structure.

In some embodiments, lotion container 4 can be a single-use device, and after lotion in lotion container 4 is used up, lotion container 4 can be removed and replaced with a new lotion container 4. In other embodiments, a user can pour lotion into the lotion container 4, and the lotion container 4 can be reused, so that the energy conservation and environmental protection are realized.

In one embodiment, the base comprises a dosing pump for pumping the lotion in the lotion container 4 into the reservoir 3. Illustratively, the dosing pump may be disposed within the placement chamber above the base 1. The lotion is pumped by the delivery pump, so that the lotion is delivered independently, quantitatively and accurately, and the automation degree is improved.

In one embodiment, the base includes a controller that can be used to electrically control various electronic components of the base, such as the diverter valve 22, the third on/off valve 28, and the dosing pump. Illustratively, the controller may be located in the placing chamber and disposed above the base 1. On the one hand, various electronic components of the base can be independently controlled without being influenced by the electronic components of the clothes processor 100, and only the controller needs to be connected into the power supply, so that various electronic components of the base can also independently work even if the electronic components of the clothes processor 100 are not powered on or work. On the other hand, the controller is disposed above the base 1, and the space above the base 1 can be fully utilized.

In one embodiment, referring to fig. 2 to 9, the base includes an overflow water path 5 communicated with the liquid storage chamber 3, and when the water level of the liquid storage chamber 3 is higher than the set water level, the liquid in the liquid storage chamber 3 is discharged to the outside or the cleaning portion 1a through the overflow water path 5. Like this, be convenient for with the water level restriction in the stock solution chamber 3 below setting for the water level, avoid the water yield in the stock solution chamber 3 too much, water pressure is too big, causes risks such as pipe explosion. For example, the water from the overflow water path 5 may be discharged to the outside, such as the floor drain 1000. Thus, the overflowing water is directly discharged to the sewer through the floor drain 1000. For another example, the water from the overflow water path 5 can be discharged to the cleaning part 1a, thereby avoiding the waste of the water.

The outside refers to an environment outside the base. Illustratively, the environment may be a floor drain 1000 outside the base.

In one embodiment, referring to fig. 2 to 9, the base includes a ventilation air channel 6 and a first switch valve 7, the ventilation air channel 6 communicates the liquid storage cavity 3 with the atmosphere, the first switch valve 7 is disposed on the main water inlet waterway 21, and the first switch valve 7 is located between the liquid storage cavity 3 and the water inlet valve port 22 a. The first on-off valve 7 is used to control the flow of water from the reservoir 3. On one hand, under the state that first ooff valve 7 is closed, the liquid in stock solution chamber 3 can not flow out, and lotion and the water liquid in stock solution chamber 3 can be discharged after mixing earlier, dilutes the lotion better. On the other hand, the ventilation gas path 6 is used to keep the air pressure in the reservoir chamber 3 balanced. For example, when the first on-off valve 7 is not operated, the reservoir chamber 3 is connected to the atmosphere through the ventilation air passage 6, and the water from the main water inlet passage 21 can smoothly enter the reservoir chamber 3.

Illustratively, the first switching valve 7 includes, but is not limited to, a solenoid valve.

In some embodiments, referring to fig. 8 and 9, the ventilation air passage 6 and the overflow water passage 5 may be independent pipes. Illustratively, two through holes are formed in the liquid storage cavity 3, and the two through holes are respectively communicated with the ventilation air passage 6 and the overflow water passage 5, so that the ventilation air passage 6 and the overflow water passage 5 do not interfere with each other.

In one embodiment, referring to fig. 2 to 7, the base includes an overflow water path 5 communicated with the liquid storage chamber 3, a first end of the overflow water path 5 is communicated with the ventilation air path 6, and a second end of the overflow water path 5 is communicated with the outside or the cleaning portion 1a. That is, the overflow water path 5 and the air path 6 may share a part of the path. Like this, not only can practice thrift the pipeline, simplify the pipeline overall arrangement, can also reduce the opening on the stock solution chamber 3, exemplarily, can highly set up the intercommunication mouth in setting for of stock solution chamber 3, the gas circuit 6 and the intercommunication mouth intercommunication of ventilating. Thus, when the water level in the liquid storage cavity 3 reaches the position of the communication port, the water enters the overflow water path 5 through the communication port.

Illustratively, the communication port may be opened at the top surface or the peripheral side surface of the reservoir chamber 3, or the like.

In one embodiment, referring to fig. 2 to 7, the base includes a first multi-way connector 8, a first end of the overflow waterway 5 is connected to the ventilation air passage 6 through the first multi-way connector 8, and the first multi-way connector 8 is a multi-way connector or a multi-way valve. The ventilation air passage 6 and the overflow water passage 5 can be of a pipeline structure. The overflow water path 5 may be communicated to the air-breather path 6 through the first multi-way connector 8, so that the overflow water path 5 and the air-breather path 6 may share a part of the path.

The first multi-way connecting piece 8 is a multi-way joint, so that the ventilation air passage 6 and the overflow water passage 5 are always kept in a conducting state. Or the first multi-way connecting piece 8 is a multi-way valve, so that the ventilation air passage 6 and the overflow water passage 5 can be selectively switched on or off according to requirements.

In one embodiment, referring to fig. 2 to 9, the highest point of the overflow waterway 5 is not higher than the lowest point of the ventilation airway 6. That is, the highest point of the overflow water path 5 is flush with or lower than the lowest point of the ventilation air path 6. This prevents liquid in the overflow water path 5 from entering the ventilation air path 6.

In some embodiments, referring to fig. 2 to 5, the base includes an overflow waterway 5 and a reservoir 3 disposed on the main water inlet waterway 21, the overflow waterway 5 is communicated with the reservoir 3, the reservoir 3 is located at an upstream of the water inlet valve port 22a along a water flow direction of the main water inlet waterway 21, the drainage assembly 9 includes a fourth multi-way connector 95 disposed on the drainage waterway 91, the fourth multi-way connector 95 is located at a downstream of the drainage pump 92 along the water flow direction of the drainage waterway 91, the overflow waterway 5 is communicated with the drainage waterway 91 through the fourth multi-way connector 95, and the fourth multi-way connector 95 is a multi-way joint or a multi-way valve. The fourth multi-way connecting piece 95 plays a role in communicating the overflow water path 5, the drainage water path 91 and the outside, so that the overflow water path 5 and the drainage water path 91 can share one floor drain 1000, and the floor drain 1000 does not need to be arranged for the overflow water path 5 and the drainage water path 91 respectively, so that structural members are saved.

The fourth multi-way connector 95 is a multi-way connector, so that the overflow water path 5, the drain water path 91 and the outside are always kept in a conduction state. Alternatively, the fourth multi-way connector 95 is a multi-way valve, so that the overflow water path 5 and the drain water path 91 can be selectively opened or closed according to the demand.

In some embodiments, the laundry treating machine 100 is provided with a drain waterway communicating with the water drum for draining the liquid in the water drum to the outside of the laundry treating machine 100, and in one embodiment, the drain waterway 91 may communicate with the drain waterway, that is, the base may realize draining by means of the drain waterway of the laundry treating machine 100. For example, the drain waterway 91 may be in direct communication with the sewage waterway. Alternatively, in another embodiment, the drain pump 92 may be directly communicated with the drain waterway, which is equivalent to the drain waterway 91 may be indirectly communicated with the drain waterway through the drain pump 92. In this way, the drain waterway 91 and the soil discharge waterway may share one floor drain 1000.

After the cleaning member is washed, the liquid in the washing part 1a may flow into the drain water path through the drain water path 91 and then be discharged to the outside of the laundry treating apparatus through the drain water path, thereby improving convenience of drainage.

In some embodiments, the liquid in the water container may flow into the drainage waterway 91 through the sewage drainage waterway 91 and then be drained to the outside of the laundry treating machine 100 through the drainage waterway 91, that is, the laundry treating machine 100 may use the drainage waterway 91 of the base to drain, or the drainage waterway 91 may be provided independently, that is, the drainage waterway 91 and the sewage drainage waterway are respectively and independently drained to the respective floor drains 1000.

Referring to fig. 1, the cleaning system includes a sweeper 200 configured with a cleaning member and a clothes processing apparatus in any embodiment of the present application, and the sweeper 200 can enter and exit the sweeper cavity 1b.

According to the cleaning system provided by the embodiment of the application, the clothes treatment machine 100 can be used for treating clothes such as washing clothes, the sweeper 200 can be used for cleaning the ground, the base 1 is used for providing accommodating space for the sweeper 200, the floor area is not occupied additionally, the space is saved, and the user experience is good.

The base may also be used to provide charging and/or drying functions, etc. for the sweeper 200.

In one embodiment, the base includes a charging terminal and a power module electrically connected to the charging terminal, the charging terminal is disposed on the peripheral side of the base 1, and the power module is located above the base 1. When the sweeper 200 is located in the sweeper cavity 1b, the sweeper 200 can be electrically connected with the charging terminal to realize charging. The power module is configured to convert ac power of the utility power into dc power, and the charging terminal charges the sweeper 200 with the dc power.

The concrete arrangement positions of the lotion container 4, the power module, the third on-off valve 28 and the like in the placing chamber are not limited, and in an exemplary embodiment, the lotion container 4 and the power module are arranged at intervals in the left-right direction, and the third on-off valve 28 is positioned at the rear side of the lotion container 4. The back of the support frame 101 is usually close to the wall and the lotion container 4 is close to the front, so that the user can take and put the lotion container 4 from the front of the support frame 101. The third switch valve 28 is located behind the lotion container 4, so that the third switch valve 28 can be conveniently connected with a tap water channel on the wall, and a pipeline between the third switch valve 28 and the tap water channel is shortened.

In one embodiment, the clothes treating apparatus may further include a blower and a drying duct disposed on the base 1, and the drying duct communicates the blower and the sweeper chamber 1b. The fan ventilates the sweeper cavity 1b through the drying duct to rapidly dry the cleaning elements of the sweeper 200.

The above description is only for the specific embodiments of the present application, but the protection scope of the present application is not limited thereto, and any person skilled in the art can easily think of the changes or substitutions within the technical scope of the present application, and shall be covered by the protection scope of the present application. Therefore, the protection scope of the present application shall be subject to the protection scope of the claims.

Claims (18)

1. A base, comprising:

the base comprises a cleaning part and a sweeper cavity, wherein the cleaning part is used for cleaning a cleaning piece of the sweeper;

the water inlet assembly comprises a main water inlet waterway, and further comprises a first water inlet branch communicated with the main water inlet waterway and/or a second water inlet branch communicated with the main water inlet waterway, wherein the main water inlet waterway is used for communicating with a tap water waterway, the first water inlet branch is communicated with the cleaning part, and the second water inlet branch is used for communicating with a liquid container of the sweeper.

2. The base of claim 1, wherein the water inlet assembly comprises a direction valve, the direction valve comprises a water inlet valve port, a first water outlet valve port and a second water outlet valve port, the main water inlet waterway is communicated with the water inlet valve port, the first water inlet branch is communicated with the first water outlet valve port and the cleaning portion, and the second water inlet branch is used for communicating the second water outlet valve port and the liquid container.

3. The base of claim 2, comprising a reservoir disposed on the main inlet waterway upstream of the inlet valve port in a direction of flow of the main inlet waterway.

4. The base of claim 3, comprising a lotion container in communication with the reservoir chamber.

5. The base of claim 3, comprising an overflow waterway communicating with the reservoir chamber, through which the liquid in the reservoir chamber is discharged to the outside or the washing part in a case where the level of the reservoir chamber is higher than a set level.

6. The base of claim 3, wherein the base comprises a ventilation circuit and a first switch valve, the ventilation circuit connects the reservoir chamber with the atmosphere, the first switch valve is disposed on the main water inlet waterway, and the first switch valve is located between the reservoir chamber and the water inlet valve port.

7. The base of claim 6, wherein the base comprises an overflow waterway, a first end of the overflow waterway is communicated with the ventilation air passage, and a second end of the overflow waterway is communicated with the outside or the cleaning part.

8. The base of claim 7, wherein the base comprises a first multi-way connector, the first end of the overflow waterway is communicated with the ventilation air passage through the first multi-way connector, and the first multi-way connector is a multi-way connector or a multi-way valve.

9. The base of claim 7, wherein the highest point of the overflow waterway is no higher than the lowest point of the vent airway.

10. The base of claim 1, wherein the water inlet assembly includes a third water inlet branch, the base includes a water drain assembly, the water drain assembly includes a water drain path and a water drain pump, the water drain path communicates with the washing portion and the outside, the water drain pump is disposed on the water drain path, a first end of the third water inlet branch is used for communicating with a tap water path, and a second end of the third water inlet branch communicates with a pipeline between the water drain pump and the washing portion.

11. The base of claim 10, wherein the water inlet assembly comprises a second switch valve disposed on the third water inlet branch, and the second switch valve is used for switching on or off the running water entering the third water inlet branch.

12. The base of claim 10, wherein the water inlet assembly comprises a second multi-way connector, the first end of the third water inlet branch is communicated with the main water inlet waterway through the second multi-way connector, and the second multi-way connector is a multi-way connector or a multi-way valve.

13. The base of claim 10, wherein the drain assembly includes a reservoir chamber disposed on the drain path, the reservoir chamber being located upstream of the drain pump in a flow direction of the drain path, the second end of the third inlet branch communicating with the reservoir chamber.

14. The base of claim 10, wherein the drain assembly comprises a third multi-way connector, the third multi-way connector is located upstream of the drain pump along a flow direction of the drain waterway, a second end of the third water inlet branch communicates with the drain waterway through the third multi-way connector, and the third multi-way connector is a multi-way joint or a multi-way valve.

15. The base of claim 10, wherein the base comprises an overflow waterway and a reservoir disposed on the main water inlet waterway, the overflow waterway is communicated with the reservoir, the drain assembly comprises a fourth multi-way connector disposed on the drain waterway, the fourth multi-way connector is disposed downstream of the drain pump along a water flow direction of the drain waterway, the overflow waterway is communicated with the drain waterway through the fourth multi-way connector, and the fourth multi-way connector is a multi-way joint or a multi-way valve.

16. The base of any one of claims 1 to 15, wherein the water inlet assembly comprises a third on-off valve disposed on the main water inlet waterway, and the third on-off valve is configured to turn on or off the running water to enter the main water inlet waterway.

17. A laundry treating apparatus, comprising:

a laundry treating machine including a drum;

the base of any one of claims 1 to 16, wherein said base is disposed below said barrel.

18. A cleaning system comprising a sweeper configured with cleaning elements and the garment treatment device of claim 17, said sweeper being accessible to said sweeper cavity.

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