CN219331542U - Cleaning base station and cleaning system - Google Patents

Abstract

The embodiment of the application discloses clean basic station and clean system, wherein clean basic station includes liquid portion and drain portion, the drain portion has included drain pipe and blowdown groove, and the drain pipe has included imbibition section and non return section, through setting up the non return section on the drain pipe, the setting of non return section can avoid sewage to flow backward, and then make the liquid emission of drain portion more thorough, reduced the residual of liquid on the drain portion, and then greatly reduced the sewage remain in clean basic station bottom narrow space, breed the bacterium and produce the probability of peculiar smell, make clean basic station's use cleaner, health, can improve user experience.

Description

Cleaning base station and cleaning system

Technical Field

The embodiment of the application relates to the technical field of intelligent home, in particular to a cleaning base station and a cleaning system.

Background

Along with the development of scientific technology, various technical innovations are gradually changed, and particularly the intelligent robot technology is rapidly advanced in recent years, wherein the sweeping robot gradually enters the daily life of a common household by virtue of technical innovations such as an artificial intelligent algorithm, a washing and dragging integrated body, intelligent dust collection, intelligent washing and cleaning and the like.

Cleaning system among the conventional art is cleaned the ground with mopping the floor the back at house, gets back to clean the base station and accomplishes intelligent dust collection, intelligent washing clean back, and the sewage can remain in clean base station bottom narrow space, breeds the bacterium and produce the peculiar smell, has influenced user experience.

Disclosure of Invention

The present utility model aims to solve at least one of the technical problems existing in the prior art or related art.

To this end, a first aspect of the utility model provides a cleaning base station.

A second aspect of the utility model provides a cleaning system.

In view of this, a first aspect according to an embodiment of the present application proposes a cleaning base station comprising:

a liquid collecting part;

the sewage draining part comprises a sewage draining groove and a sewage draining pipe, one end of the sewage draining pipe is communicated with the sewage draining groove, and the other end of the sewage draining pipe is communicated with the liquid collecting part;

the drain pipe comprises a liquid suction section and a check section, the liquid suction section is communicated with the drain tank and the liquid collecting part, and the check section is positioned at the middle section of the liquid suction section.

In one possible embodiment, the non-return section comprises at least one bend.

In one possible embodiment, the bending portion includes:

at least one of an S-bend, a V-bend, and a U-bend.

In one possible embodiment, the non-return sections are two or more.

In a possible implementation mode, the bottom surface of the sewage draining groove is obliquely arranged, a sewage draining outlet is formed on the sewage draining groove, and the sewage draining pipe is communicated to the sewage draining outlet.

In one possible embodiment, the cleaning base station further comprises:

the filtering part covers the sewage draining groove, and a plurality of through holes are formed in the filtering part.

In one possible embodiment, the density of the through holes is positively correlated with the depth of the drain tank.

In one possible embodiment, the cleaning base station further comprises:

the heating component is arranged on one side of the sewage draining groove and is used for providing heat energy for the sewage draining groove.

In one possible embodiment, the heating assembly comprises:

the heat conducting plate is arranged on one side of the sewage draining groove and is used for providing heat energy for the sewage draining groove;

the heat source is arranged on one side of the heat conducting plate, which is away from the sewage draining groove, and is used for providing heat energy for the heat conducting plate.

In a possible embodiment, the drain tank is made of a heat conducting material, and the heating assembly comprises a heat source arranged at one side of the drain tank for providing heat to the drain tank.

In one possible embodiment, the cleaning base station further comprises:

the heat insulation part is arranged at one side of the heating component, which is away from the sewage draining groove;

and the bottom cover is arranged on one side of the heat insulation groove, which is away from the heating component.

In one possible embodiment, the heat insulating part includes: the first heat insulation layer is arranged on one side of the heating component, which is away from the sewage draining part;

the device comprises a heating assembly and a first heat insulation layer, wherein an avoidance part is formed on the first heat insulation layer and used for avoiding devices on the heating assembly.

In one possible embodiment, the heat insulating part includes:

a first air gap formed at one side of the heating assembly facing away from the sewage draining part;

the first heat dissipation holes are formed in the side parts of the cleaning base station and are communicated to the first air gaps.

In one possible embodiment, the heat insulating part includes:

the second heat insulation layer is arranged on one side of the heating component, which is away from the sewage draining part;

the second air gap is formed at one side of the second heat insulation layer, which is away from the sewage draining part;

the second heat dissipation hole is formed in the side part of the cleaning base station and is communicated with the second air gap;

the second heat insulation layer is provided with an avoidance portion, and the avoidance portion is used for avoiding devices on the heating assembly.

According to a second aspect of embodiments of the present application, there is provided a cleaning system comprising:

cleaning a base station according to any of the above aspects;

and the cleaning equipment is used for cleaning the cleaning equipment by the cleaning base station.

Compared with the prior art, the utility model at least comprises the following beneficial effects:

the clean basic station that this embodiment provided has included receipts liquid portion and drain portion, the drain portion has included drain pipe and drain groove, and the drain pipe has included imbibition section and non return section, in the use, cleaning system's cleaning equipment is after accomplishing clean task, can return to clean basic station and wash, sewage after the washing can be through the drain portion discharge to receipts liquid portion in, can unify the sewage and store, can accept the sewage that accomplishes cleanly and produce better through the drain groove, can avoid sewage to spill, be convenient for discharge sewage to receipts liquid portion through the setting of drain pipe, and set up the non return section on the drain pipe, can avoid sewage to flow backward through the setting of non return section, and then make the liquid discharge of drain portion more thoroughly, the residual of liquid on the drain portion has been reduced, and then greatly reduced the sewage remains in clean basic station bottom narrow space, the probability that breeds the bacterium and produces, make clean basic station's use cleaner, sanitary, user experience can improve.

Drawings

Various other advantages and benefits will become apparent to those of ordinary skill in the art upon reading the following detailed description of the preferred embodiments. The drawings are only for purposes of illustrating the preferred embodiments and are not to be construed as limiting the application. Also, like reference numerals are used to designate like parts throughout the figures. In the drawings:

FIG. 1 is a schematic block diagram of a cleaning base station according to one embodiment provided herein;

FIG. 2 is a schematic block diagram of a drain pipe of a cleaning base station according to one embodiment provided herein;

FIG. 3 is a schematic block diagram of an operating state of a cleaning station drain pipe according to one embodiment of the present application;

FIG. 4 is a schematic block diagram of another operating state of a cleaning station drain pipe according to one embodiment of the present application;

FIG. 5 is a schematic block diagram of a cleaning base station according to another embodiment provided herein;

FIG. 6 is a schematic block diagram of a heating assembly of a cleaning base station according to one embodiment provided herein;

fig. 7 is a schematic block diagram showing an exploded state of a part of the structure of a cleaning base station according to an embodiment provided in the present application;

FIG. 8 is a schematic block diagram illustrating an angle profile of a cleaning base station according to one embodiment of the present application;

FIG. 9 is a schematic block diagram of a drain tank of a cleaning base station according to one embodiment provided herein;

FIG. 10 is a schematic block diagram of a filtering portion of a cleaning base station according to one embodiment provided herein;

fig. 11 is a schematic structural view of a filtering part of a cleaning base station according to another embodiment provided in the present application.

The correspondence between the reference numerals and the component names in fig. 1 to 11 is:

110 a sewage discharging part, 120 a liquid collecting part, 130 a heating component, 140 a heat insulation part, 150 a bottom cover, 160 a filtering part, 170 a shell, 180 a cleaning component, 190 a water supply part, 200 a dust collecting part and 210 a guide slope;

a 111 blow-down pipe, a 112 blow-down groove, a 131 heat-conducting plate, a 132 heat source and a 141 first heat-radiating hole;

1111 fluid intake section, 1112 non-return section.

Detailed Description

In order to better understand the technical solutions described above, the technical solutions of the embodiments of the present application are described in detail below through the accompanying drawings and the specific embodiments, and it should be understood that the embodiments of the present application and the specific features in the embodiments are detailed descriptions of the technical solutions of the embodiments of the present application, and not limit the technical solutions of the present application, and the embodiments of the present application and the technical features in the embodiments of the present application may be combined with each other without conflict.

As shown in fig. 1 to 11, according to a first aspect of an embodiment of the present application, a cleaning base station is provided, including: a liquid collection unit 120; the sewage disposal part 110, the sewage disposal part 110 comprises a sewage disposal groove 112 and a sewage disposal pipe 111, one end of the sewage disposal pipe 111 is communicated with the sewage disposal groove 112, and the other end is communicated with the liquid collecting part 120; the drain pipe 111 includes a liquid suction section 1111 and a check section 1112, the liquid suction section 1111 is connected to the drain tank 112 and the liquid receiving portion 120, and the check section 1112 is located at a middle section of the liquid suction section 1111.

This clean basic station that this embodiment provided has included receipts liquid portion 120 and drain portion 110, drain portion 110 has included drain 111 and drain groove 112, and drain 111 has included liquid suction section 1111 and non return section 1112, in the use, cleaning equipment of clean system is after accomplishing the cleaning task, can return to clean the basic station and wash, sewage after the washing can discharge to receipts liquid portion 120 in through drain portion 110, can unify the storage to sewage through receipts liquid portion 120, can accept the sewage that accomplishes the cleanness and produce better through drain groove 112, can avoid sewage to spill, be convenient for discharge sewage to receipts liquid portion 120 through the setting of drain 111, and set up the non return section on the drain 1112, can avoid sewage to flow backward through the setting of non return section 1112, and then make the liquid discharge of drain portion 110 more thoroughly, the residual of liquid on the drain portion 110 has been reduced, and then greatly reduced sewage remains in clean basic station bottom narrow space, the probability that breeds the bacterium and produces, make the use of clean basic station cleaner, sanitary, can improve user experience.

As shown in fig. 3 and 4, wherein the hatching in fig. 3 and 4 indicates sewage, the pipe body on the right side in fig. 3 and 4 is used to communicate with the liquid receiving part 120, in fig. 3, the operating state of the sewage pipe is such that the power source applies suction to the sewage, the sewage is sucked, and in fig. 4, the power source stops sucking the sewage, the sewage loses suction, and the sewage is stored in the non-return section 1112 under the action of gravity.

In some examples, to facilitate the full discharge of the liquid in the sewage draining tank 112, the cleaning base station may further include a pump body, and the gas in the liquid collecting portion 120 is pumped by the pump body to form negative pressure, so that the sewage in the sewage draining tank 112 is pumped into the liquid collecting portion 120, and the sewage in the sewage draining tank 112 can be discharged by using the negative pressure by opening the pump body, so that the sewage discharging effect is better.

It is understood that the suction section 1111 and the non-return section 1112 of the drain pipe 111 may be constructed as one piece in order to increase the mechanical strength of the drain pipe 111.

As shown in fig. 2-4, in one possible embodiment, the check section 1112 includes at least one bend.

In this technical scheme, further provided the style of non return section 1112, non return section 1112 can include the kink, so set up to take into account, traditional technique when sucking sewage through the power supply, when the power supply lost power, the liquid that holds in blow off pipe 111 can flow back to the drain groove under the effect of gravity, and then leads to the liquid in the drain groove to discharge incompletely for can't take residual sewage and dirty completely to dry when sucking sewage and dirty, remain more, produce putrefactive peculiar smell easily.

In one possible embodiment, the bend includes at least one of an S-bend, a V-bend, or a U-bend.

According to the drain pipe 111 of the cleaning base station, through one or more of the arrangement of the bending part, the S-shaped bending part or the U-shaped bending part, when the power source loses power, the bending part, the S-shaped bending part or the U-shaped bending part can store countercurrent liquid, on one hand, the stored liquid cannot flow into the drain groove 112 in a countercurrent manner, further sewage on the drain groove 112 can be pumped more thoroughly, and the probability of storing liquid on the drain groove 112 is reduced; on the other hand, the liquid stored in the bending part, the S-shaped bending or the U-shaped bending can play a role in blocking the sewage drain pipe 111, and the probability of the peculiar smell scattering can be reduced, so that the base station cleaning can be used more hygienically and neatly.

In one possible embodiment, the check segments 1112 are two or more. By providing two or more non-return sections 1112, the non-return effect of the liquid can be further improved, and the backflow of the liquid to the drain tank 112 can be further suppressed.

As shown in fig. 9, in one possible embodiment, the bottom surface of the drain tank 112 is inclined, and a drain port is formed on the drain tank 112, and the drain pipe 111 communicates to the drain port.

In this technical scheme, the bottom surface slope of drain 112 sets up, so sets up more does benefit to sewage discharge to the drain 111 in, the discharge of the sewage of being convenient for more, can reduce the total amount of sewage deposit simultaneously, and then suppresses breeding of bacterium to a great extent, greatly reduced produces the probability of peculiar smell for clean use of basic station is cleaner, sanitary, can improve user experience.

As shown in fig. 9, in some examples, the drain tank 112 may be funnel-shaped, which may be provided to further facilitate the drainage of sewage.

As shown in fig. 6 and 7, in one possible embodiment, the cleaning base station further comprises: the filtering part 160, the filtering part 160 covers the sewage discharging part 110, and a plurality of through holes are formed in the filtering part 160.

In this technical scheme, clean basic station can also include filter unit 160, and filter unit 160 covers on drain tank 112, is formed with a plurality of through-holes on the filter unit 160, and in the course of the work, the sewage that accomplishes clean production can flow through filter unit 160 earlier and carry out preliminary filtration, then enter into in the drain tank 112, so the setting can make the granule rubbish in the sewage by filter unit 160 interception, can avoid drain tank 112 and drain pipe 111 to be stopped up.

As shown in fig. 10 and 11, in one possible embodiment, the density of the through holes is positively correlated with the depth of the drain 112.

In some examples, the through holes above the filter 160, on the one hand, may act as a filter; on the other hand, it is convenient to discharge the water vapor generated after the sewage in the sewage discharge portion 110 is heated, so that the distribution of the through holes above the filtering portion 160 may be uneven, for example, the distribution of the through holes is denser at a place where the water level of the sewage discharge portion 110 is lower, so that the arrangement of the through holes is denser in consideration of the liquid flow rate at a place where the depth of the sewage discharge tank 112 is deeper, and the filtering effect can be improved.

As shown in fig. 5 to 8, in one possible embodiment, the cleaning base station further comprises: and a heating assembly 130, the heating assembly 130 being disposed at one side of the sump 112 for providing heat energy to the sump 112.

In this technical scheme, considering that there may be a small amount of liquid stored in the drain tank 112, therefore, the cleaning base station provided in this embodiment of the present application may further include a heating component 130, in the working process, after completing the cleaning task, the cleaning device of the cleaning system may return to the cleaning base station to clean, the sewage after cleaning may be discharged into the liquid receiving portion 120 through the drain portion 110, and the sewage may be uniformly stored through the liquid receiving portion 120, however, there may still be a part of sewage stored in the drain portion 110, and the drain tank 112 is often open, bacteria may be easily bred, and an odor may be generated, based on this, by the cleaning base station provided in this embodiment of the present application, the heating component 130 may be turned on, so as to provide heat energy for the drain tank 112, so that the liquid stored in the drain tank 112 is dried, and further, the bacterial breeding may be greatly inhibited, the probability of generating an odor may be greatly reduced, and the use of the cleaning base station may be cleaner and sanitary, and the user experience may be improved.

In this technical scheme, heating element 130 sets up in the one side of blowdown groove 112, so set up so that heating element 130 can contact with blowdown groove 112, do benefit to heating element 130's heat energy and directly act on blowdown groove 112 on, can improve heat transfer efficiency, and then improve the drying efficiency of deposited liquid.

As shown in fig. 7 and 8, in one possible embodiment, the heating assembly 130 includes: the heat conducting plate 131, the heat conducting plate 131 is set up on one side of the blowdown trough 112, the heat conducting plate 131 is used for providing the blowdown trough 112 with heat energy; the heat source 132 is arranged on one side of the heat conducting plate 131, which is away from the sewage draining groove 112, and the heat source 132 is used for providing heat energy for the heat conducting plate 131; wherein the heat conductive plate 131 is made of a metal material, and the thickness of the heat conductive plate 131 is 0.8mm to 3mm.

In this technical scheme, further provided the structure of heating element 130 is constituteed, heating element 130 can include heat conduction board 131 and heat source 132, can provide heat energy for heat conduction board 131 through heat source 132, and heat energy can pass through heat conduction board 131 and transmit to blowdown groove 112, can dry the sewage in the blowdown groove 112 based on this, through the setting of heat conduction board 131 and heat source 132, can avoid heat source 132 direct and blowdown groove 112 contact, can avoid the seepage liquid to enter into in the heat source 132, improved the stability of clean basic station operation.

In this embodiment, the heat conductive plate 131 is made of a metal material, so that the heat conductive plate 131 transfers heat energy to the drain tank 112.

In this technical scheme, heat conduction board 131 sets up in the one side of blowdown groove 112, and heat source 132 sets up in the one side that heat conduction board 131 deviates from in blowdown groove 112, so set up make heat conduction board 131 can contact with the cell wall of blowdown groove 112, do benefit to heat energy of heat conduction board 131 and directly act on blowdown groove 112 on, can improve heat transfer efficiency, and then improve the drying efficiency of deposited liquid.

In this technical scheme, the heat source 132 is disposed on one side of the heat conducting plate 131 away from the sewage draining groove 112, so that heat energy of the heat source 132 can directly act on the heat conducting plate 131, meanwhile, the heat source 132 and the heat conducting plate 131 can be separated through the arrangement of the heat conducting plate 131, the heat source 132 can be protected, the heat source 132 is prevented from being polluted by water vapor or dirt, and the service life of the heating assembly 130 is prolonged.

In this technical solution, the thickness of the heat conducting plate 131 is 0.8mm to 3mm, so that the heat conducting efficiency can be ensured, and meanwhile, the heat energy can be uniformly supplied to the sewage draining groove 112, if the thickness of the heat conducting plate 131 is smaller than 0.8mm, the heat energy output is possibly uneven, and the sewage draining groove 112 cannot be effectively dried in a partial area, if the thickness of the heat conducting plate 131 is larger than 3mm, the heat conducting efficiency is reduced, and the power consumption of the heat source 132 is increased.

In some examples, to further improve the heat conduction efficiency, the heat conduction plate 131 may be made of aluminum material.

In some examples, the heat source 132 may be a spot heating heat source 132 or a surface heating heat source 132, e.g., the heat source 132 may be a heating film, so that heat energy is uniformly supplied to the heat conductive plate 131.

In one possible embodiment, the sump 112 is made of a thermally conductive material, and the heating assembly 130 includes a heat source 132, the heat source 132 being disposed on one side of the sump 112 for providing heat to the sump 112.

In this embodiment, the drain tank 112 may be made of a heat conductive material, so that the heat energy of the heat source 132 may be directly transferred to the drain tank 112, which is advantageous for simplifying the structure of the cleaning base station, in particular, for simplifying the structure of the heating assembly 130, i.e., the heating assembly 130 may not include the heat conductive plate 131 but only include the heat source 132.

As shown in fig. 8 and 9, in one possible embodiment, the cleaning base station further comprises: the heat insulating part 140 is disposed at a side of the heating assembly 130 facing away from the drain part 110.

In this technical scheme, clean basic station can also include thermal insulation portion 140, through the setting of thermal insulation portion 140, can make the heat energy export to blowdown portion 110, the waste of heat energy that significantly reduces can reduce clean basic station's energy consumption, and then improves user's experience.

In one possible embodiment, the heat insulating part 140 includes: a first insulation layer disposed on a side of the heating assembly 130 facing away from the drain 110; wherein, be formed with the portion of dodging on the first insulating layer, dodging the portion of dodging and be used for dodging the device on the heating assembly 130.

In this technical scheme, further provide the structure of thermal-insulated portion 140 and constitute, thermal-insulated portion 140 can include first insulating layer, first insulating layer can laminate in heating element 130 one side that deviates from in blowdown portion 110, based on this heat energy will be more easily to blowdown portion 110 output, can significantly reduce the waste of heat energy, can reduce clean basic station's energy consumption, and then improve user's experience, can make the liquid of blowdown portion 110 inner deposit dried, and then greatly inhibit the breeding of bacterium, greatly reduced produces the probability of peculiar smell, make clean basic station's use cleaner, sanitation, can improve user experience.

In this technique, be formed with on the first insulating layer and dodge the portion, so set up and dodge heating element 130's device, if can dodge heating element 130 on the fuse, reservation NTC, terminal point are glued protruding for heating element 130's work is more stable.

As shown in fig. 9, in one possible embodiment, the heat insulating portion 140 includes: a first air gap formed at a side of the heating assembly 130 facing away from the drain 110; the first heat dissipation hole 141 is opened at the side of the cleaning base station and is connected to the first air gap.

In this technical scheme, further provide the structure constitution of thermal-insulated portion 140, thermal-insulated portion 140 can include first air gap, the coefficient of heat conductivity of air is low, and form through first air gap and insulate against heat with low costs, can significantly reduce the waste of heat energy, can reduce clean basic station's energy consumption, and then improve user's experience, can make the liquid of blowdown portion 110 internal deposit dried, and then greatly inhibit the growth of bacterium, greatly reduced produces the probability of peculiar smell for clean basic station's use is cleaner, sanitary, can improve user experience.

In this technical scheme, thermal-insulated portion 140 can also include first louvre 141, and first louvre 141 is seted up in the lateral part of clean base station, switches on to the air gap, and the effect of radiating can be played in this way to the setting, can avoid heat energy direct output to on user's the floor, can further improve user experience.

In one possible embodiment, the heat insulating part 140 includes: a second insulating layer disposed on a side of the heating assembly 130 facing away from the drain 110; a second air gap formed at a side of the heating assembly 130 facing away from the drain 110; the second heat dissipation holes are formed in the side parts of the cleaning base station and are communicated with the air gaps; wherein, the second thermal insulation layer is formed with an avoiding portion, and the avoiding portion is used for avoiding devices on the heating assembly 130.

In this technical scheme, further provide the structure of thermal-insulated portion 140 and constitute, thermal-insulated portion 140 can include second insulating layer and second air gap, the insulating layer can laminate in heating element 130 one side that deviates from in blowdown portion 110, will export to blowdown portion 110 more easily based on this heat energy, can significantly reduce the waste of heat energy, can reduce clean basic station's energy consumption, and then improve user's experience, can make the liquid of blowdown portion 110 inner deposit dried, and then greatly inhibit the breeding of bacterium, greatly reduced produces the probability of peculiar smell, make clean basic station's use cleaner, sanitation, can improve user experience. The thermal conductivity of air is low, and forms through the second air gap and insulate against heat with low costs, can significantly reduce the waste of heat energy, can reduce clean basic station's energy consumption, and then improve user's experience, can make the liquid of the accumulation in the drain 110 dried, and then greatly restrain the breeding of bacterium, greatly reduced produces the probability of peculiar smell for clean basic station's use is cleaner, sanitary, can improve user experience. The heat insulation effect can be improved through the arrangement of the second heat insulation layer and the second air gap. The heat insulation part 140 can further comprise a second heat dissipation hole, the second heat dissipation hole is formed in the side part of the cleaning base station and is communicated with the second air gap, so that the heat dissipation effect can be achieved, heat energy can be prevented from being directly output onto the floor of a user, and user experience can be further improved.

In this technique, be formed with on the second insulating layer and dodge the portion, so set up and dodge heating element 130's device, if can dodge heating element 130 on the fuse, reservation NTC, terminal point are glued protruding for heating element 130's work is more stable.

As shown in fig. 5, in one possible embodiment, the cleaning base station further comprises: a housing 170, the drain portion 110, the liquid receiving portion 120, and the heating assembly 130 being disposed on the housing 170; a cleaning assembly 180, the cleaning assembly 180 being movably coupled to the housing 170; a water supply part 190, the water supply part 190 being connected to the cleaning assembly 180; a dust collection part 200, the dust collection part 200 is arranged on the shell 170 and is communicated to the sewage disposal part 110; a guide slope 210 provided on the housing 170, one end of the guide slope 210 being guided to the cleaning assembly 180.

In this technical scheme, clean basic station can also include casing 170, cleaning element 180, water supply portion 190, dust collection portion 200 and direction slope 210, casing 170 provides the mounted position for drain portion 110, receipts liquid portion 120 and heating element 130, in the course of the work, after cleaning system's cleaning device is accomplished cleaning task, cleaning element is put back to clean basic station through direction slope 210 and is taken one's place, start dust collection, cleaning action, water supply portion 190 feedwater to cleaning element 180 this moment, cleaning element 180 reciprocating motion accomplishes self-cleaning to cleaning element's rag, the sewage that produces is evacuated in the air pump through drain portion 110 and is produced the negative pressure and take up liquid portion 120, a small amount of sewage remains in drain portion 110, heating element 130 accomplishes the stoving of residual sewage through heating evaporation mode, collect the dust through dust collection portion 200, and then greatly inhibit the breeding of bacterium, greatly reduce the probability of producing the peculiar smell, make cleaning basic station's use cleaner, sanitary, user experience can be improved.

As shown in fig. 1 to 11, a cleaning system according to a second aspect of an embodiment of the present application is provided, including: a cleaning base station according to any one of the above aspects; and the cleaning equipment is used for cleaning the cleaning equipment by the cleaning base station.

According to the cleaning system provided by the embodiment of the application, the cleaning system comprises the cleaning base station of any one of the technical schemes, so that the cleaning system has all the beneficial effects of the cleaning base station of the technical scheme.

In some examples, the cleaning system may further include a cleaning device, which may be a cleaning robot. This application embodiment provides a clean base station of clean system has included receipts liquid portion 120 and drain portion 110, drain portion 110 has included drain pipe 111 and drain groove 112, and drain pipe 111 has included imbibition section and check section 1112, in the use, clean equipment of clean system can return to clean base station after accomplishing clean task, sewage after the washing can be discharged to receipts liquid portion 120 in through drain portion 110, can unify the storage to sewage through receipts liquid portion 120, can accept the sewage that clean and produced better through drain groove 112, can avoid sewage excessive, be convenient for discharge sewage to receipts liquid portion 120 through the setting of drain pipe 111, and set up check section 1112 on the drain pipe 111, can avoid sewage to flow backward through the setting of check section 1112, and then make drain portion 110's liquid discharge more thoroughly, the residual of liquid on drain portion 110 has been reduced, and then greatly reduced sewage and remain in clean base station bottom narrow space, the probability that breeds the bacterium and produce, make clean base station's use more clean, sanitary, user experience can be improved.

In the present utility model, the terms "first," "second," "third," and the like are used for descriptive purposes only and are not to be construed as indicating or implying relative importance; the term "plurality" means two or more, unless expressly defined otherwise. The terms "mounted," "connected," "secured," and the like are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected; "coupled" may be directly coupled or indirectly coupled through intermediaries. The specific meaning of the above terms in the present utility model can be understood by those of ordinary skill in the art according to the specific circumstances.

In the description of the present utility model, it should be understood that the directions or positional relationships indicated by the terms "upper", "lower", "left", "right", "front", "rear", etc. are based on the directions or positional relationships shown in the drawings, are merely for convenience of describing the present utility model and simplifying the description, and do not indicate or imply that the devices or units referred to must have a specific direction, be constructed and operated in a specific direction, and thus should not be construed as limiting the present utility model.

In the description of the present specification, the terms "one embodiment," "some embodiments," "particular embodiments," and the like, mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the present utility model. In this specification, schematic representations of the above terms do not necessarily 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.

The above is only a preferred embodiment of the present utility model, and is not intended to limit the present utility model, but various modifications and variations can be made to the present utility model by those skilled in the art. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present utility model should be included in the protection scope of the present utility model.

Claims (10)

1. A cleaning base station, comprising:

a liquid collecting part;

the sewage draining part comprises a sewage draining groove and a sewage draining pipe, one end of the sewage draining pipe is communicated with the sewage draining groove, and the other end of the sewage draining pipe is communicated with the liquid collecting part;

the drain pipe comprises a liquid suction section and a check section, the liquid suction section is communicated with the drain tank and the liquid collecting part, and the check section is positioned at the middle section of the liquid suction section.

2. The cleaning base station of claim 1, wherein the check segment comprises at least one bend.

3. The cleaning base station of claim 2, wherein the bend comprises:

at least one of an S-bend, a V-bend, and a U-bend.

4. The cleaning base station of claim 2, wherein,

the number of the non-return sections is two or more.

5. The cleaning base station of claim 1, wherein,

the bottom surface slope setting of blowdown groove, be formed with the drain on the blowdown groove, the blow off pipe intercommunication extremely the drain.

6. The cleaning base station of any of claims 1-5, further comprising:

the filtering part covers the sewage draining groove, and a plurality of through holes are formed in the filtering part.

7. The cleaning base station of claim 6, wherein,

the density of the through holes is positively correlated with the depth of the sewage draining groove.

8. The cleaning base station of any of claims 1-5, further comprising:

the heating component is arranged on one side of the sewage draining groove and is used for providing heat energy for the sewage draining groove.

9. The cleaning base station of claim 8, wherein the heating assembly comprises:

the heat conducting plate is arranged on one side of the sewage draining groove and is used for providing heat energy for the sewage draining groove;

the heat source is arranged on one side of the heat conducting plate, which is away from the sewage draining groove, and is used for providing heat energy for the heat conducting plate.

10. A cleaning system, comprising:

the cleaning base station of any one of claims 1 to 9;

and the cleaning equipment is used for cleaning the cleaning equipment by the cleaning base station.

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