CN218026781U - Base subassembly and clothing processing apparatus - Google Patents

Abstract

The embodiment of the application provides a base assembly and a clothes treatment device, which comprise a base and a dust collecting assembly, wherein the base is provided with an accommodating space for accommodating a cleaning robot, and the accommodating space is provided with a dust collecting opening and an air return opening; the dust collecting component comprises a dust collector, a dust collecting pipe and a return air pipe, the dust collecting pipe is communicated with a dust collecting opening and an air inlet of the dust collector, the return air pipe is communicated with an air outlet and an air return opening of the dust collector, and the length of the dust collecting pipe is smaller than that of the return air pipe. According to the base assembly, impurities in the dust storage space of the cleaning robot are sucked into the dust collector under the action of negative pressure, and gas can circularly flow between the dust storage space and the dust collection assembly, so that the air inlet volume of the assembly can be increased, and dust can be discharged more thoroughly; the length of the return air pipe is longer, the length of the dust collecting pipe is shorter, and the dust collecting pipe has a shorter air flow path so as to reduce the retention probability of dust in the dust collecting pipe; and the return air pipe mainly passes through the filtered air flow, so that the problems of impurity blockage and stay in the pipe do not exist.

Description

Base subassembly and clothing processing apparatus

Technical Field

The application belongs to the technical field of it is clean, especially, relate to a base subassembly and clothing processing apparatus.

Background

In the related art, a base station is configured for a cleaning robot, a higher upright post is arranged at the rear side of the base station, and a dust removal system is configured in the upright post; realize through the basic station to cleaning machines people's functions such as dust exhaust, charge, accomodate. However, the base station occupies a large placing space indoors due to the large volume, and in addition, the base station cannot completely discharge dust for the cleaning robot.

SUMMERY OF THE UTILITY MODEL

In view of the above, embodiments of the present invention provide a base assembly and a laundry treating apparatus, which do not occupy additional space in a room and can exhaust dust more thoroughly.

The embodiment of the application provides a base subassembly for clothing processing apparatus includes:

the cleaning robot comprises a base and a cleaning mechanism, wherein the base is provided with an accommodating space for accommodating the cleaning robot, and the accommodating space is provided with a dust collecting opening and an air return opening;

the dust collecting assembly comprises a dust collector, a dust collecting pipe and a return air pipe, wherein the dust collecting pipe is communicated with the dust collecting opening and the air inlet of the dust collector, the return air pipe is communicated with the air outlet of the dust collector and the air return opening, and the length of the dust collecting pipe is smaller than that of the return air pipe.

In some embodiments, the dust collector is disposed at either lateral side of the accommodating space.

In some embodiments, the dust collector is spaced apart from the base in a left-right direction, and the dust collecting pipe is disposed at a space therebetween.

In some embodiments, the dust collector is disposed at the right side of the accommodating space, the dust collector includes a dust collecting box and a dust collecting motor, the dust collecting motor is disposed at the rear of the dust collecting box, the dust collecting opening is disposed at the right rear side wall of the accommodating space, the air inlet of the dust collector is disposed on the left side wall of the dust collecting box, and the dust collecting pipe is wound around from the dust collecting opening to the air inlet of the left side wall of the dust collecting box.

In some embodiments, the air return inlet is disposed at a left rear corner of a side wall of the accommodating space, and the air return pipe is wound from the rear of the base to the air return inlet.

In some embodiments, the base assembly includes a drying assembly, the drying assembly includes a fan and a drying tunnel, the fan is placed on the top surface of the base, the rear side wall of the accommodating space is provided with an air inlet, and the drying tunnel is communicated with the air inlet and an air outlet at the rear end of the fan.

In some embodiments, the drying tunnel is disposed between the dust collection opening and the air return opening in a left-right direction of the base assembly.

In some embodiments, the return air duct is disposed behind the drying tunnel.

In some embodiments, a charging terminal is disposed on a rear side wall of the accommodating space, the number of the drying tunnels is two, the two drying tunnels are arranged side by side in a left-right direction, and the charging terminal is located between the two drying tunnels.

In some embodiments, the bottom wall of the accommodating space is provided with a cleaning groove, the base assembly comprises a water inlet assembly, the water inlet assembly comprises a water inlet passage for supplying water to the cleaning groove, a water inlet valve and a pressure relief container, the water inlet valve is arranged on the water inlet passage, and the water inlet valve is located at the upstream of the pressure relief container.

In some embodiments, the pressure relief container is disposed above the air return opening.

In some embodiments, the bottom wall of the accommodating space is provided with a cleaning tank, the base assembly comprises a drainage assembly, the drainage assembly comprises a drainage channel communicated with the cleaning tank, a water storage container and a drainage pump, the water storage container and the drainage pump are sequentially arranged on the drainage channel along a drainage direction, and a water inlet end of the drainage channel extends into the cleaning tank from top to bottom and sucks water in the cleaning tank upwards under the action of the drainage pump.

In some embodiments, the water reservoir is disposed above the dust collection port.

An embodiment of the present application provides a clothes treatment apparatus, including:

a laundry treating machine;

and a base assembly according to any embodiment of the present application, the base assembly being disposed below the laundry treating machine.

In the embodiment of the application, the base assembly is integrated below the clothes treating machine, on one hand, the cleaning robot can be accommodated in the space below the clothes treating machine, and does not need to occupy extra indoor placing space; on the other hand, the clothes processor is placed near the water faucet and the floor drain, so that water inlet and water drainage are facilitated, water inlet and water drainage are facilitated for the base assembly through the existing convenience of water inlet and water drainage of the clothes processor, and the problem of a water inlet and water drainage waterway of the base assembly is solved.

When the cleaning robot returns to the accommodating space, the air return inlet is in butt joint with the air return interface, the dust collecting opening is in butt joint with the dust exhaust opening, and the dust collecting pipe, the dust collector, the air return pipe and the dust storage space are sequentially communicated to form a circulating air path. When the dust collector works, negative pressure is generated in the space in the dust collector, so that the dust collecting port is also in a negative pressure environment, impurities in the dust storage space of the cleaning robot are sucked into the dust collector under the action of the negative pressure, gas can circularly flow between the dust storage space and the dust collecting component, the air inlet amount of the component can be increased, and dust can be discharged more thoroughly.

According to the base assembly of the embodiment of the application, the length of the air return pipe is longer, the length of the dust collecting pipe is shorter, and the dust collecting pipe is provided with a shorter air flow path, so that the staying probability of dust in the dust collecting pipe can be reduced; and the return air pipe is mainly used for filtering air flow, so that the problems of impurity blockage and stay in the pipe do not exist, and the return air pipe can be arranged to be longer.

Drawings

Fig. 1 is a schematic structural view of a laundry treating apparatus according to an embodiment of the present application;

FIG. 2 is a schematic view of a base unit and a cleaning robot according to an embodiment of the present application;

FIG. 3 is a schematic view of the structure of FIG. 2 from another perspective;

FIG. 4 is a top view of FIG. 3;

FIG. 5 is a schematic structural diagram of a base assembly according to an embodiment of the present application;

FIG. 6 is a schematic view of the structure of FIG. 5 from another perspective;

FIG. 7 is a schematic view of the structure shown in FIG. 5 with the return air duct and the drying assembly omitted;

FIG. 8 is a schematic view of the structure of FIG. 7 from another perspective;

FIG. 9 is a schematic view of the structure shown in FIG. 8 in cooperation with a drying assembly;

FIG. 10 is a schematic view of the structure shown in FIG. 5 from another perspective, wherein the base, the drying assembly and the detergent dispensing assembly disposed thereon are omitted;

FIG. 11 is a simplified schematic diagram of a base assembly according to an embodiment of the present application.

Description of the reference numerals

A base unit 1000; a base assembly 100; a laundry treating machine 4000; a cleaning robot 3000;

a base 1; an accommodation space 11; a dust collection port 12; an air return opening 13; a water inlet 14; an air inlet 15; a cleaning tank 16; a charging terminal 17;

a dust collection assembly 2; a dust collecting pipe 21; a dust collector 2'; a dust collecting case 22; a drawing port 22a; a dust collection housing 221; a filter member 222; a dust collection motor 23; a return air duct 25;

a power supply module 31; a control main board 32;

a drying component 4; a fan 41; a drying tunnel 42;

a water inlet component 5; a water inlet valve 51; a water inlet port 51a; a pressure relief container 52; a water inlet passage 53; a first line 531; a second conduit 532; a branch passage 55;

a detergent putting device 6; a detergent box 61; a dosing pump 62;

a drainage assembly 7; a drain pump 71; a drain passage 72; a water reservoir 73;

a carrier 200; the installation space 200a;

Detailed Description

Embodiments of the present application will be described in further detail below with reference to the drawings and examples. The following examples are intended to illustrate the present application but are not intended to limit the scope of the present application.

In the description of the embodiments of the present application, it should be noted that the terms "center", "longitudinal", "lateral", "up", "down", "front", "back", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", and the like indicate orientations or positional relationships based on orientations or positional relationships shown in the drawings, and are only for convenience of description of the embodiments of the present application and to simplify the description, but 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 thus should not be construed as limiting the embodiments of the present application. Furthermore, the terms "first," "second," and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

The embodiment of the application provides a base assembly 100 for a clothes treatment device.

Referring to fig. 1, a laundry treating apparatus includes a laundry treating machine 4000 and a pedestal assembly 100 according to any embodiment of the present application, wherein the pedestal assembly 100 is located below the laundry treating machine 4000.

The base assembly 100 includes a base 1, and the base 1 has a receiving space 11 for receiving the cleaning robot 3000 (see fig. 3 and 6). The accommodation space 11 refers to an area where the cleaning robot 3000 is parked.

The cleaning robot 3000 may be used to automatically clean dust, hair, and the like on the floor, and in the case where the cleaning robot 3000 is provided with a mop, the cleaning robot 3000 may perform a mopping operation on the floor after cleaning the floor. The functions of the base assembly 100 in the embodiment of the present application include, but are not limited to, charging, dusting, washing, drying, and sterilizing the cleaning robot 3000.

Illustratively, the cleaning robot 3000 includes a first communication module, the base assembly 100 includes a second communication module, and communication between the cleaning robot 3000 and the base assembly 100 may be via the first and second communication modules. For example, when the cleaning robot 3000 needs to discharge dust or charge, wireless communication may be performed through the first communication module and the second communication module, so as to return to the accommodating space 11 by itself. 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.

The laundry treating machine 4000 may include various forms such as a washing machine, a dehydrating machine, a drying machine, a washing and drying all-in-one machine, and the like. The specific application scenario of the laundry machine 4000 does not limit the structure of the base assembly 100 of the present invention.

In the embodiment of the present application, the base assembly 100 is integrated under the laundry treating machine 4000, on one hand, the cleaning robot 3000 can be accommodated in the space under the laundry treating machine 4000, and the cleaning robot does not need to occupy an additional space in a room; on the other hand, the clothes processor 4000 is placed near the faucet and the floor drain, so that water inlet and water discharge are facilitated, water inlet and water discharge are facilitated for the base assembly through the existing convenience of water inlet and water discharge of the washing processor, and the problem of a water inlet and water discharge waterway of the base assembly is solved.

The specific manner in which the pedestal assembly 100 is integrated under the laundry treating machine 4000 is not limited.

For example, in some embodiments, the lower portion of the laundry treating machine has a mounting cavity in which the base assembly is disposed. In this embodiment, an installation cavity is reserved in the existing laundry treating machine 4000 for assembling the pedestal assembly 100.

In other embodiments, referring to fig. 1, the laundry treating apparatus includes a carrier 200 for carrying the laundry treating machine 4000, the carrier 200 defines an installation space 200a therein, the base assembly 100 is disposed in the installation space 200a, and the carrier 200 and the base assembly 100 form a base assembly 1000. The laundry treating machine 4000 is supported on the carrier 200. The pedestal device 1000 and the laundry treating machine 4000 may be used individually or in combination.

The carrier 200 needs to carry the entire weight of the laundry machine 4000 and to have sufficient strength.

In some embodiments, the laundry treating machine 4000 and the carrier 200 are non-detachably coupled, for example, welded, riveted, etc.

In other embodiments, the laundry treating machine 4000 may be detachably mounted to the carrier 200.

In this embodiment, the laundry treating machine 4000 and the pedestal set 1000 can be separately packaged and separately transported during transportation, and thus, the package size can be reduced; the pedestal device 1000 may be an optional part, which is assembled or not assembled to the laundry treating machine 4000 according to a user's selection, and the pedestal device 1000 itself does not affect the independent use of the laundry treating machine 4000, thereby improving the user's selection flexibility.

Referring to fig. 6, the accommodating space 11 is provided with a dust collecting port 12, and the dust collecting port 12 is adapted to be abutted against a dust discharging port of a dust storage space of the cleaning robot 3000. Specifically, when the cleaning robot 3000 returns to the accommodating space 11, the dust collection port 12 is butted against the dust discharge port of the dust storage space of the cleaning robot 3000, so that the dust collection port 12 is communicated with the dust storage space.

Referring to fig. 6 and 10, a return air inlet 13 is disposed on a side wall of the accommodating space 11, and the return air inlet 13 is used for being abutted to a return air interface of a dust storage space of the cleaning robot 3000.

The base assembly 100 includes a dust collecting assembly 2 (see fig. 6), referring to fig. 5, 8, 9 and 10, the dust collecting assembly 2 includes a dust collector 2 ", a dust collecting tube 21 and a return air duct 25, the dust collector 2" has an air inlet and an air outlet, the dust collecting tube 21 communicates with the dust collecting opening 12 and the air inlet of the dust collector 2 ", and the return air duct 25 communicates with the air outlet and the air return opening 13 of the dust collector 2".

When the cleaning robot 3000 returns to the accommodating space 11, the return air inlet 13 is in butt joint with the return air port, the dust collecting port 12 is in butt joint with the dust discharging port, and the dust collecting pipe 21, the dust collector 2 ″, the return air pipe 25 and the dust storage space are sequentially communicated to form a circulation air path. When the dust collector 2 ″ works, negative pressure is generated in the space inside the dust collector 2 ″ so that the dust collecting port 12 is also in a negative pressure environment, impurities in the dust storage space of the cleaning robot 3000 are sucked into the dust collector 2 ″ under the action of the negative pressure, and gas can circularly flow between the dust storage space and the dust collecting component 2, so that the air inlet volume of the component 2 can be increased, and dust can be discharged more thoroughly.

It should be noted that, the dust collector 2 "has a filtering component 222 therein, the filtering component 222 is used for filtering and containing the impurities in the air flow entering the dust collector 2", the impurities are intercepted in the filtering component 222, and the air flow entering the dust collector 2 "2 is filtered by the filtering component 222 and then flows to the return air pipe 25, that is, the air flow in the return air pipe 25 basically does not carry the impurities.

For example, referring to fig. 10, the dust collection pipe 21 has a length smaller than that of the return air pipe 25. In this embodiment, the length of the return air duct 25 is longer, the length of the dust collecting duct 21 is shorter, and the dust collecting duct 21 has a shorter air flow path to reduce the probability of dust staying in the dust collecting duct 21; the return air pipe 25 mainly passes through the filtered air flow, so that the problems of impurity blockage and stay in the pipe do not exist, and the return air pipe 25 can be arranged longer.

Illustratively, referring to fig. 5, 8 and 9, the dust collector 2 ″ includes a dust box 22 and a dust collection motor 23, the dust collection motor 23 being configured to suck air in the dust box 22 so that a negative pressure is generated in the dust box 22. The air inlet of the dust collector 2 'is arranged on the dust collecting box 22, the air outlet of the dust collector 2' is the air outlet of the dust collecting motor 23, and the air flow discharged from the dust collecting motor 23 enters the return air pipe 25.

Illustratively, the dust collecting case 22 includes a dust collecting housing 221 and the filter member 222, and the filter member 222 is drawably disposed in the dust collecting housing 221.

The specific type of filter element 222 is not limited, and may be in the form of a dust bag or dust box, for example.

Illustratively, the front side of the dust collection housing 221 is provided with a drawing opening 22a for drawing the filter member 222, and the filter member 222 is drawn out of the dust collection housing 221 or put into the dust collection housing 221 through the drawing opening 22 a.

When used for a period of time, the user can pull out the filter element 222 for cleaning, and after cleaning, place the filter element 222 into the dust collection housing 221. In this embodiment, the filter element 222 is reusable. Alternatively, the filter member 222 may be drawn out as a disposable and discarded, and a new filter member 222 may be placed in the dust collection housing 221.

Illustratively, the dust collector 2 ″ is disposed at either lateral side of the accommodating space 11.

The lateral side refers to any side in a plane perpendicular to the up-down direction, for example, the left side, the right side, the front side, the rear side, and the like.

In this embodiment, the dust container 2 ″ and the accommodating space 11 are arranged side by side in a lateral direction, that is, the dust container 2 ″ is not located above the base 1, and thus, it is helpful to reduce the size of the pedestal assembly 100 in an up-down direction, so that the pedestal assembly 100 is in a flattened design, and thus, it is convenient to integrate the pedestal assembly 100 under the laundry treating machine 4000.

In the related art, the dust collector 2 "is located obliquely above the accommodating space 11, and during the dust discharging process, large impurities cannot be sucked into the dust collector 2" upwards due to large gravity, the dust discharging is incomplete, the impurities remain in the pipeline, and the pipeline is easy to be blocked.

In the embodiment of the present application, since the dust container 2 ″ and the accommodating space 11 are laterally arranged side by side, the foreign substances are moved substantially horizontally from the dust collecting port 12 to the dust container 2 ″ during the dust exhaust process, and the negative pressure does not need to overcome the gravity of the foreign substances, so that the foreign substances can smoothly enter the dust container 2 ″ and the dust exhaust is more thorough.

Illustratively, the height of the dust collector 2 "does not exceed the height of the top of the base 1. That is, the dust container 2 ″ does not increase the height of the base assembly 100 additionally.

Illustratively, referring to fig. 6, the dust collectors 2 ″ and the accommodating spaces 11 are arranged side by side and at intervals in the left-right direction. I.e., the dust container 2 "and the base 1 have a space in the left-right direction, and the dust collection pipe 21 is disposed at the space of the dust container 2" and the base 1 in the left-right direction. So, dust collecting tube 21 length is shorter, can shorten the removal route of impurity in dust collecting tube 21, reduces the windage, promotes dust exhaust efficiency, still is favorable to reducing the assembly size of whole dust collection component 2.

Illustratively, the dust collector 2 ″ is disposed at the right of the accommodating space 11, thus making it easy to make a large space for the left and rear sides of the base 1 and to arrange parts related to water inflow and drainage.

Referring to fig. 7, 8, 9 and 10, a dust collection motor 23 and a dust collection box 22 are disposed in a front-rear direction, and the dust collection motor 23 is disposed at the rear of the dust collection box 22. The air inlet of the dust collector 2 "is arranged on the left side wall of the dust collecting box 22, and the air outlet of the dust collector 2" is positioned at the rear end of the dust collecting motor 23. Thus, the space at the rear side of the dust collecting box 22 can be fully utilized, and the dimension of the base assembly 100 along the left-right direction is prevented from being excessively increased; in addition, the access of the filter element 222 is not affected.

Illustratively, the dust collection pipe 21 is convoluted from the dust collection port 12 to an air intake port on the left side wall of the dust collection box 22. In this embodiment, the air inlet end of the dust collecting pipe 21 can be smoothly bent forward from the right rear corner of the base 1, so as to facilitate pipe distribution.

The specific position of the air return opening 13 is not limited, and may be, for example, a rear side wall, a left side wall, or the like.

For example, referring to fig. 6 and 10, the dust collector 2 ″ is disposed at the right side of the base 1, the return air opening 13 is disposed at the left rear corner of the sidewall of the accommodating space 11, and the return air duct 25 is wound around the return air opening 13 from the rear of the base 1. In this embodiment, the return duct 25 is arranged in a relatively smooth manner, and does not need to be bent greatly, so that the resistance of the air flow in the return duct 25 is reduced, and in addition, the space behind the base 1 can be fully utilized.

For example, referring to fig. 6, 7, 8 and 10, the base assembly 100 includes a charging terminal 17 disposed on a rear sidewall of the accommodating space 11, and the cleaning robot 3000 returns to the accommodating space 11 and can be electrically connected to the charging terminal 17 to realize charging.

Referring to fig. 7, 8, 9 and 10, the base assembly 100 includes a power module 31, the power module 31 is electrically connected to the charging terminal 17, the power module 31 is used for converting an incoming ac power into a dc power, and the charging terminal 17 charges the cleaning robot 3000 with the dc power.

It is understood that the dust collection motor 23 can be directly supplied with ac power.

Referring to fig. 5 and 9, the base assembly 100 includes a drying assembly 4, and referring to fig. 6, an air inlet 15 is formed in a rear sidewall of the accommodating space 11, hot air generated by the drying assembly 4 is introduced into the accommodating space 11 through the air inlet 15, and a user dries mops of the cleaning robot 3000.

It should be noted that the inlet air is as close as possible to the lower part of the rear side wall of the receiving space 11, which facilitates the hot air flow to be directed to the mops at the bottom of the cleaning robot 3000.

Referring to fig. 5 and 9, the drying assembly 4 includes a blower 41 and a drying tunnel 42, and it should be noted that a heating element is disposed inside the drying tunnel 42 or inside the blower 41, and the heating element is used for heating air, so that the air flow discharged from the drying tunnel 42 is a hot air flow.

The fan 41 is placed on the top surface of the base 1, and the air outlet of the fan 41 is located at the rear end of the fan 41 and faces the rear of the base 1. The drying tunnel 42 communicates the air inlet 15 with an air outlet at the rear end of the fan 41.

The blower 41 is flatly placed on the top surface of the base 1, that is, the rotation axis direction of the impeller of the blower 41 is substantially along the up-down direction, the blower 41 is substantially in a flat structure along the axial direction, and the flat structure is flatly placed on the top surface of the base 1, so that the size of the blower 41 in the up-down direction can be reduced, and the base assembly 100 is conveniently designed in a flat manner.

The drying tunnel 42 extends downward from the outlet of the blower 41, and the drying tunnel 42 has a substantially flat tubular structure and is attached to the rear surface of the base 1 so as to minimize the size of the drying tunnel 42 in the front-rear direction.

The number of drying tunnels 42 is not limited, and may be one or more.

Illustratively, referring to fig. 9, the number of drying tunnels 42 is two, and the number of air inlets 15 is two. Two income wind gaps 15 stagger along left and right directions and arrange, and the upper end of two drying tunnels 42 all is connected with the air outlet of fan 41, and the other end is connected with a income wind gap 15 that corresponds separately, so, can the multi-azimuth to cleaning machines people 3000's mop air-out, promote drying efficiency. In addition, the two drying tunnels 42 share the air volume of the fan 41, so that the flow rate of each drying tunnel 42 can be reduced, and the small-size design of each drying tunnel 42 is facilitated.

Illustratively, referring to fig. 10, the return duct 25 is disposed behind the drying tunnel 42, that is, the drying tunnel 42 is located between the return duct 25 and the rear side surface of the base 1. Because the return air duct 25 needs to have a large air volume, the size of the return air duct 25 is relatively large, the return air duct 25 cannot be attached to the surface of the base 1, the return air duct 25 is arranged behind the drying tunnel 42, interference between the drying tunnel 42 and the return air duct 25 can be avoided, the space between the return air duct 25 and the rear side surface of the base 1 can be fully utilized, and the base assembly is compact in structure.

For example, referring to fig. 9, the charging terminal 17 is located approximately at the middle area of the rear sidewall of the accommodating space 11 in the left-right direction, and two drying tunnels 42 are located at the left and right sides of the charging terminal 17. That is, each of the charging terminals 17 is located between two drying tunnels 42, so that the space between the two drying tunnels 42 can be fully utilized, and interference between the two drying tunnels 42 and the charging terminal 17 can be avoided.

Illustratively, the drying tunnel 42 is disposed between the dust collection opening 12 and the return air opening 13 in the left-right direction of the base assembly 1000. Thus, the space between the air inlet end of the dust collecting pipe 21 and the air outlet end of the air return pipe 25 can be fully utilized, and the structure is more compact.

Referring to fig. 5, 7 and 8, the base assembly 100 includes a control board 32, and the control board 32 is used for electrically controlling the electrical devices of the base assembly 1000, such as the dust collecting motor 23, the blower fan 41, the power module 31, the charging terminal 17, and the like. That is, the base assembly 1000 of the embodiment of the present application can be independently controlled, and is not affected by the laundry machine, and only the control main board 32 needs to be connected to the power supply, so that the base assembly 1000 can also independently operate even if the laundry machine is not powered on or operated.

For example, referring to fig. 5, 7 and 8, the control main board 32 is disposed on the top of the base 1 and is arranged side by side with the fan 41 in the left-right direction. In this way, the space on the top of the base 1 can be fully utilized.

Illustratively, the control main board 32 is located at the right side of the blower 41, so that the control main board 32 is closer to the dust collection motor 23 and the power module 31, and the length of the electric wire between the two is shortened.

For example, referring to fig. 11, a cleaning tank 16 is disposed on a bottom wall of the accommodating space 11, the cleaning tank 16 is used for storing a cleaning solution, and the cleaning solution may be tap water or a mixture of tap water and a detergent. After the cleaning robot 3000 returns to the base station, the mop of the cleaning robot 3000 may be cleaned with the cleaning solution in the cleaning tank 16.

The mode of realizing the mop cleaning function is not limited, and the cleaning robot 3000 can control the mop to rotate or vibrate to contact with the water in the cleaning tank 16, so as to realize the cleaning function. Also can be through setting up friction piece such as brush head in clean groove, through the contact friction of control brush head and the mop on cleaning machines people 3000, realize the cleaning function.

The base assembly 100 includes a water inlet assembly 5, the water inlet assembly 5 includes a water inlet passage 53 for supplying water to the wash bowl 16 and a water inlet valve 51 provided on the water inlet passage 53, and the water inlet passage 53 is used to introduce an external water source and guide a flow of water into the wash bowl 16.

In this embodiment, the water inlet passage 53 automatically introduces an external water source, and the user does not need to manually add water. It should be noted that, in some embodiments, the water inlet passage 53 may be completely independent from the water inlet system of the laundry treating machine, i.e., both may be independently connected to different water taps. In other embodiments, the water inlet passage 53 and the water inlet system of the laundry machine are connected to the same water tap through a three-way pipe or the like.

In some embodiments, the inlet valve 51 may be a flow restriction valve having a flow restriction function. That is, in the case where the flow rate of the water flowing through the feed valve 51 is greater than the set value, the feed valve 51 is closed. Thus, the flow speed of the water flow is prevented from being too high.

Referring to fig. 5, 7, 8 and 9, the water inlet assembly 5 includes a pressure relief container 52, the pressure relief container 52 is disposed on the water inlet path 53, and the water inlet valve 51 is located upstream of the pressure relief container 52, that is, the water in the water inlet path 53 flows through the water inlet valve 51, then flows through the pressure relief container 52, and finally enters the cleaning tank 16. The pressure relief container 52 can perform the function of pressure relief and flow slowing, so that water flows at a proper flow rate, and splashing of water due to overlarge water pressure of the water inlet passage 53 is avoided.

Illustratively, the water inlet valve 51 and the pressure relief container 52 are both disposed at the left rear side of the base 1, so that the water inlet valve 51 and the water inlet position of the laundry treating machine 4000 are located at the same side of the laundry treating apparatus in the left-right direction, thereby facilitating centralized arrangement of water pipes and reducing the length of the water pipes.

Illustratively, the pressure relief container 52 is disposed above the air return opening 13. Because the air outlet end of the air return pipe 25 needs to be bent at the air return opening 13, and the bent part needs to have a larger bending radius, the pressure relief container 52 is arranged above the air return opening 13, so that the size of the base 1 in the front-back direction and the left-right direction is not additionally increased by the pressure relief container 52.

Referring to fig. 6, the left and right side walls of the accommodating space 11 are respectively provided with one water inlet 14, and referring to fig. 7 and 8, the water inlet passage 53 includes a first pipe 531 and a second pipe 532 communicated with the pressure relief container 52, the first pipe 531 is wound from the right rear of the base 1 to the water inlet 14 on the right side of the base 1, and the second pipe 532 is wound from the left rear of the base 1 to the water inlet 14 on the left side of the base 1. In this embodiment, the plurality of water inlets 14 are simultaneously supplied to facilitate increasing the water supply rate of the cleaning tank 16 and also facilitate supplying water to the cleaning tank 16 from a plurality of angles. For example, in some embodiments, water discharged from the water inlet 14 may first flush the mops and then be directed back into the washing tub 16, thus allowing for multiple angles of flushing.

In alternative embodiments, the water inlet 14 may be provided as one, if the water inlet speed is not a concern.

Illustratively, the base assembly 100 includes a detergent delivery device 6 disposed at the top of the base 1, the detergent delivery device 6 being used to pump detergent directly or indirectly into the wash tank 16, enhancing the cleaning effect on the mops.

The specific type of the detergent is not limited, and may be laundry detergent, disinfectant fluid, perfume, etc., and is not limited herein.

For example, referring to fig. 7 and 8, the detergent dispensing device 6 includes a detergent box 61 for storing detergent and a dispensing pump 62 for pumping the detergent in the detergent box 61, and the dispensing pump 62 can automatically and quantitatively pump the detergent in the detergent box 61 to achieve automatic dispensing.

It should be noted that, in some embodiments, the detergent box 61 may be a disposable device, and after the detergent in the detergent box 61 is used up, the detergent box 61 is removed and replaced with a new detergent box 61. In other embodiments, a user may fill detergent into the detergent box 61, and the detergent box 61 may be reused.

In some embodiments, the detergent pumped from the dosing pump 62 directly enters the cleaning tank 16 and dissolves in the cleaning tank 16.

In other embodiments, the outlet of the detergent dispensing device 6 is connected to the pressure relief container 52, i.e. the outlet of the dispensing pump 62 is connected to the pressure relief container 52, so as to pump detergent to the pressure relief container 52 in a fixed amount. The detergent is dissolved in the pressure relief container 52 and flows toward the cleaning tank 16 along with the water in the water inlet passage 53. In this embodiment, the pressure release container 52 not only functions to release the pressure of the buffer water flow, but also functions to mix and dissolve the detergent. Furthermore, it is convenient to arrange the detergent dosing path of the detergent dosing device 6. In particular, due to the pressure relief container 52, the outlet of the dosing pump 62 can be conveniently connected to the pressure relief container 52, and the pressure relief container 52 has a relatively large size, so that the connection of the dosing pump 62 is facilitated, the flow path of the detergent can be reduced, and the flow resistance of the detergent can be reduced.

Illustratively, the inlet valve 51 and the pressure relief container 52 are disposed at the top of the left rear side of the base 1, and the inlet port 51a of the inlet valve 51 is located at the rear side of the inlet valve 51, so as to facilitate water to be drawn from the rear side of the inlet valve 51. The water inlet valve 51, the pressure relief container 52 and the detergent dispensing device 6 are arranged in this order from the rear to the front. For example, the left side of the fan 41 described above is disposed, so that the installation space 200a can be saved.

The draining of the water from the cleaning tank 16 is not limited, and can be performed by gravity.

The base assembly 100 includes a drain assembly 7, the drain assembly 7 includes a drain channel 72 communicated with the sink 16, a water reservoir 73 and a drain pump 71 sequentially disposed on the drain channel 72 along a drain direction, a water inlet end of the drain channel 72 extends into the sink 16 from top to bottom, and the drain pump 71 pumps up the water in the sink 16.

It should be noted that, because the position of the cleaning tank 16 itself is lower and is closer to the ground, and the cleaning liquid in the cleaning tank 16 is relatively less, if the cleaning liquid in the cleaning tank is directly sucked by the draining pump, because the water inlet of the draining pump itself has a larger pipe diameter, and the draining pump can only function when the water inlet of the draining pump needs to be completely covered by the water liquid, at this time, the water liquid in the cleaning tank is difficult to be smoothly pumped out, and the draining effect is poor.

In the above embodiment of the present application, the water in the cleaning tank 16 is pumped out by pumping from bottom to top, and the water is drained by using the siphon effect, so that the drainage effect can be improved, and the water can be conveniently drained to a floor drain and the like.

In some embodiments, the water intake assembly 5 includes a branch passage 55 and an intake passage 53 for supplying water to the rinse tank 16, the branch passage 55 communicating the intake passage 53 with the reservoir 73. That is, the water introduction unit 5 may supply water to both the wash bowl 16 and the water storage container 73. The water storage container 73 draws the water in the cleaning tank 16 under the action of the pump body and discharges the water from the pump body.

In this embodiment, the purpose of filling the reservoir 73 with water through the water inlet module 5 includes: it is possible to ensure that the water storage container 73 contains enough water before the drainage pump 71 is activated, and after the drainage pump 71 is activated, a pressure difference is generated between the water storage container 73 and the washing tub 16, so that the water in the washing tub 16 is pumped out based on a siphon effect.

It will be appreciated that in embodiments having a pressure relief reservoir 52, the reservoir 73 is connected between the outlet of the inlet valve 51 and the inlet 14 of the pressure relief reservoir 52 by a branch passage 55, preventing water in the pressure relief reservoir 52 from entering the reservoir 73.

It should be noted that the time for the water inlet assembly 5 to feed water into the water storage container 73 is not limited, for example, in some embodiments, after the water inlet valve 51 is opened, the water inlet assembly 5 simultaneously feeds water into the water inlet passage 53 and the branch passage 55, at this time, the drainage pump 71 does not operate, and when the water level in the water storage container 73 reaches a certain height, the branch passage 55 does not feed water under the action of the back pressure of the water storage container 73. For another example, in another embodiment, a three-way valve is provided at a connection position of the branch passage 55 and the water inlet passage 53, and the flow direction of the water flow is controlled by switching the three-way valve.

Illustratively, the drain assembly 7 is disposed at the right rear side of the base 1, the drain pump 71 is located at the right side of the water storage container 73, and the water outlet of the drain pump 71 faces the rear of the base 1, so that the drain pump 71 and the water outlet of the laundry treating machine 4000 are located at the same side of the laundry treating apparatus, facilitating centralized piping and draining.

Illustratively, the water reservoir 73 is disposed above the dust collection port 12. In this embodiment, since the air inlet end of the dust collecting pipe 21 needs to be bent at the dust collecting opening 12 and the bent portion needs a large bending radius, the water storage container 73 is disposed above the dust collecting opening 12, so that the water storage container 73 does not additionally increase the size of the base 1 in the front-rear direction and the left-right direction.

It should be noted that, in some embodiments, the drain passage 72 and the drain line of the laundry treating machine 4000 may drain water independently without affecting each other.

In other embodiments, the drain passage 72 may be connected to a drain line of the laundry treating machine 4000 by a tee pipe, and centrally drained to a drain such as a floor drain through the drain line.

In the description of the present application, reference to the description of the terms "one embodiment," "some embodiments," "an example," "a specific example," or "some examples," etc., means that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the embodiments of the present application. In this application, the schematic representations of the terms used above are not necessarily intended to refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples. Moreover, various embodiments or examples and features of various embodiments or examples described herein may be combined by one skilled in the art without being mutually inconsistent.

The above description is only a preferred embodiment of the present application and is not intended to limit the present application, and various modifications and changes may be made by those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present application shall be included in the protection scope of the present application.

Claims (14)

1. A base assembly for a laundry treatment apparatus, comprising:

the cleaning robot comprises a base and a cleaning mechanism, wherein the base is provided with an accommodating space for accommodating the cleaning robot, and the accommodating space is provided with a dust collecting opening and an air return opening;

the dust collecting assembly comprises a dust collector, a dust collecting pipe and a return air pipe, the dust collecting pipe is communicated with the dust collecting opening and the air inlet of the dust collector, the return air pipe is communicated with the air outlet of the dust collector and the air return opening, and the length of the dust collecting pipe is smaller than that of the return air pipe.

2. The base assembly of claim 1, wherein the dust collector is disposed at either lateral side of the receiving space.

3. The base assembly of claim 2, wherein the dust collector is spaced from the base in a left-right direction, and the dust collection tube is disposed at a space therebetween.

4. The base assembly of claim 1, wherein the dust collector is disposed at the right side of the accommodating space, the dust collector comprises a dust collecting box and a dust collecting motor, the dust collecting motor is disposed at the rear of the dust collecting box, the dust collecting opening is disposed at the right rear side wall of the accommodating space, the air inlet of the dust collector is disposed at the left side wall of the dust collecting box, and the dust collecting pipe is wound from the dust collecting opening to the air inlet of the left side wall of the dust collecting box.

5. The base assembly of claim 4, wherein the air return opening is disposed at a left rear corner of the side wall of the accommodating space, and the air return pipe is wound around from the rear of the base to the air return opening.

6. The pedestal assembly according to claim 5, wherein the pedestal assembly comprises a drying assembly, the drying assembly comprises a fan and a drying tunnel, the fan is flatly placed on the top surface of the pedestal, the rear side wall of the accommodating space is provided with an air inlet, and the drying tunnel is communicated with the air inlet and an air outlet at the rear end of the fan.

7. The base assembly of claim 6, wherein the drying tunnel is disposed between the dust collection opening and the air return opening in a left-right direction of the base assembly.

8. The base assembly of claim 6, wherein the return air duct is disposed rearward of the drying tunnel.

9. The base assembly of claim 6, wherein the receiving space is provided at a rear side wall thereof with a charging terminal, the number of the drying tunnels is two, the two drying tunnels are arranged side by side in a left-right direction, and the charging terminal is located between the two drying tunnels.

10. The base assembly of claim 1, wherein the bottom wall of the receiving space is provided with a sink, the base assembly comprising a water intake assembly, the water intake assembly comprising a water intake passage for supplying water to the sink, a water intake valve disposed on the water intake passage, and a pressure relief container, the water intake valve being located upstream of the pressure relief container.

11. The base assembly of claim 10, wherein said pressure relief container is disposed above said air return vent.

12. The base assembly as set forth in claim 1 wherein the bottom wall of the receiving space is provided with a cleaning tank, the base assembly includes a drain assembly, the drain assembly includes a drain passage communicating with the cleaning tank, a water storage container and a drain pump sequentially disposed on the drain passage along a drain direction, a water inlet end of the drain passage extends into the cleaning tank from top to bottom, and the drain pump pumps up the water in the cleaning tank.

13. The base assembly of claim 12, wherein the reservoir is disposed above the dirt collection port.

14. A laundry treating apparatus, comprising:

a laundry treating machine;

and a base assembly of any one of claims 1-13, disposed below the laundry treating machine.

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