CN217938134U - Base of cleaning system and cleaning system - Google Patents

Abstract

The application discloses a base of a cleaning system, which is used for detachably placing a floor brush assembly of the cleaning system, wherein the floor brush assembly comprises a rolling brush, the upper surface of the base is downwards sunken to form a first placing area and a second placing area, the first placing area is used for accommodating the rolling brush, and the second placing area is used for accommodating other floor brush assemblies except the rolling brush; the periphery in first district of placing sets up the recess, sets up the sealing member in the recess, and the sealing member will be first place the district and separate with other parts of upper surface. According to the base of the cleaning system, the sealing piece is arranged on the periphery of the first placing area, so that the rolling brush is completely sealed between the rolling brush shell and the first placing area, and sewage is prevented from splashing to other parts of the base or the ground around the base placing position from the first placing area in the self-cleaning process of the rolling brush. The application also discloses a cleaning system comprising the base.

Description

Base of cleaning system and cleaning system

Technical Field

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

Background

Along with the development of science and technology, in order to make things convenient for people's life, various mobilizable cleaning system enter into people's life, and cleaning system can treat clean surface and clear up, treats that clean surface clears up the completion after, and cleaning system need carry out self-cleaning to the round brush itself to prevent that the round brush from smelling, going mildy, breeding the bacterium and producing the peculiar smell, bring the risk for user's health. However, when the existing base is matched with the cleaning system for use, sewage on the rolling brush can be scattered on the upper surface of the base irregularly, even splashed to the surrounding ground of the base placing position, and the user needs to clean the base and the ground around the base placing position subsequently, so that the workload of the user is increased.

SUMMERY OF THE UTILITY MODEL

To the deficiency of the prior art, one of the objects of the present invention is to provide a base of a cleaning system, the base of the cleaning system is provided with a groove at the first periphery of the placing area, and a sealing member is provided in the groove, the sealing member separates the first placing area from the other parts of the upper surface, so that the rolling brush is completely sealed between the rolling brush shell and the first placing area, and the self-cleaning process of the rolling brush is hindered from splashing to the other parts of the base or the ground around the placing area of the base from the first placing area.

In order to achieve the above object, the present invention adopts the following technical means: a base of a cleaning system is used for detachably placing a floor brush assembly of the cleaning system, the floor brush assembly comprises a rolling brush, the upper surface of the base is downwards concave to form a first placing area and a second placing area, the first placing area is used for containing the rolling brush, and the second placing area is used for containing other floor brush assemblies except the rolling brush; the periphery in first district of placing sets up the recess, sets up the sealing member in the recess, and the sealing member will be first place the district and separate with other parts of upper surface.

The cross section of the sealing element is T-shaped and comprises a vertical plate and a transverse plate which are perpendicular to each other, so that the surface area of the sealing element contacting with other parts is large, the sealing element can completely cover the bottoms of a rolling brush shell covering the rolling brush on the floor brush component and the floor brush component, and the sealing effect can be guaranteed to the maximum extent.

The vertical plate is located in the groove, and the transverse plate is abutted to other parts of the upper surface beside the groove, so that the sealing effect is better.

Wherein, be provided with the cavity in the base, set up in the cavity and air-dry the subassembly, set up air outlet intercommunication cavity on the first district of placing. At this time, the base can support the cleaning host machine and can also utilize the air drying component to dry the rolling brush.

Wherein, the air outlet sets up along the axial of round brush, and the length of air outlet is longer this moment, and the amount of wind that the air outlet flows is more, and can make the wind direct action that flows from air outlet department on all surfaces of round brush.

Wherein, the first board that sets up vertically on placing the district, the arch is the radial setting along the round brush, and inside a plurality of bellied one end inserts the round brush, can extrude sewage at automatically cleaning in-process extrusion round brush, still can collect the hair on the round brush in addition, when first placing the district and setting up the air outlet, bellied one end inserts can increase the contact surface of round brush and air behind the round brush is inside, make wind can get into inside the round brush, thereby improve the air-dry effect of round brush, and accelerate the air-dry speed of round brush.

The design that one end of a plurality of bulges inserted into the rolling brush is chamfered can prolong the service life of the rolling brush and avoid scraping and even breaking of the brush hairs of the rolling brush and the bulges.

Wherein, the first placing area is arc-shaped. The curved first cladding of placing the district ability better and supporting the round brush for the base of cleaning system can the steady support fuselage, and in addition, the curved first contact surface of placing the district and can increase arch and round brush improves the air-dry effect of round brush, accelerates the air-dry speed of round brush.

Wherein, air-dry the subassembly and include heat source spare and wind source spare, heat source spare sets up between the air-out end and the air outlet of wind source spare, can convert cold wind into on the hot-blast round brush of back transmission through the air outlet.

Another object of the present invention is to provide a cleaning system, which comprises a cleaning host and a base of the cleaning system, wherein the cleaning host is detachably disposed on the base of the cleaning system.

The beneficial effect of this application is: the base of the cleaning system is provided with the sealing element at the periphery of the first placing area to separate the first placing area from other parts of the upper surface, so that the rolling brush is completely sealed between the rolling brush shell and the first placing area, and sewage splashed to other parts of the base or the ground around the base placing position from the first placing area in the self-cleaning process of the rolling brush is prevented. When this cleaning system's base was including air-drying subassembly and air outlet, set up the sealing member in the first periphery of placing the district and can also seal the round brush in first placing the district when the round brush air-dries to reduce the amount of wind and run off, improve the air-dry effect of round brush, and accelerate the air-dry speed of round brush.

Simultaneously the base of the cleaning system of this application is vertical on first placing the district and is set up a plurality of archs, inside a plurality of bellied one end inserted the round brush, can extrude sewage at automatically cleaning in-process extrusion round brush, hair on the round brush still can be collected in addition, when first placing the district and set up the air outlet, bellied one end inserts can increase the contact surface of round brush and air behind the round brush is inside, make wind can get into inside the round brush, thereby improve the air-dry effect of round brush, and accelerate the air-dry speed of round brush.

Drawings

Fig. 1 is a schematic diagram of a cleaning system 1000 according to an embodiment of the present invention;

fig. 2 is a schematic diagram of the base 100 of the cleaning system 1000 according to an embodiment of the present invention;

FIG. 3 is an enlarged schematic view of FIG. 2 at A in an application scenario;

fig. 4 is a cross-sectional view of a portion of a cleaning system 1000 according to an embodiment of the present invention;

FIG. 5 is an enlarged schematic view of FIG. 4 at B in an application scenario;

fig. 6 is a schematic structural view of a base 100 of a cleaning system 1000 according to yet another embodiment of the present invention;

fig. 7 is a partial schematic structural view of the sealing member 130 according to an embodiment of the present invention.

Detailed Description

As required, detailed embodiments of the present invention will be disclosed herein. However, it is to be understood that the disclosed embodiments are merely exemplary of the invention, which may be embodied in various forms. Therefore, specific details disclosed herein are not to be interpreted as limiting, but merely as a basis for the claims and as a representative basis for teaching one skilled in the art to variously employ the present invention in virtually any appropriately detailed manner, including employing various features disclosed herein in conjunction with other features that may not be explicitly disclosed herein.

In the description of the present application, it is to be understood that the terms "length," "upper," "lower," "front," "rear," "left," "right," "horizontal," "top," "bottom," "inner," "outer," "circumferential," and the like are used in the orientations and positional relationships indicated in the drawings, which are based on the orientations and positional relationships indicated in the drawings, and are used for convenience in describing the present application and for simplicity in description, but do not indicate or imply that the devices or elements referred to must have a particular orientation, be constructed in a particular orientation, and be operated, and thus, should not be construed as limiting the present application.

As shown in fig. 1 and 2, the cleaning system 1000 includes a base 100 of the cleaning system 1000 and a cleaning main unit 900, and the cleaning main unit 900 is used for cleaning the daily living environment, such as the floor, the carpet, etc. The cleaning main unit 900 may be a floor washing machine, a vacuum cleaner, etc., according to usage. The cleaning main machine 900 comprises a ground brush assembly 910, the ground brush assembly 910 comprises a rolling brush 911 and a rolling brush housing 912, the rolling brush housing 912 covers part of the rolling brush 911 and the rolling brush housing 912 and the base 100 together form a rolling brush accommodating area, and the ground brush assembly 910 is arranged at the bottom of the cleaning main machine 900, so that a user can clean the ground or other surfaces to be cleaned by using the ground brush assembly 910 at the bottom of the cleaning main machine 900 when holding the cleaning main machine 900.

It is understood that the cleaning main unit 900 is separated from the base 100 during daily use, and the cleaning main unit 900 can be placed on the base 100 after cleaning, and the base 100 provides a seat for the cleaning main unit 900. Certainly, as the technology advances, the base 100 is endowed with more functions, for example, an electric power storage device (not shown) is arranged in the cleaning host 900, and when the cleaning host 900 is placed in the base 100 after being used up, the base 100 can charge the cleaning host 900; for another example, after the cleaning host 900 completes the cleaning, a self-cleaning or self-checking process may be performed on the base 100, and at this time, an auxiliary component may be disposed on the base 100 to assist the cleaning host 900 to complete the above-mentioned functions.

In one embodiment, as shown in fig. 2, 3 and 4, the upper surface of the base 100 is recessed downward to form a first placing area 111 and a second placing area 112, the first placing area 111 is used for accommodating the roller 911, and the second placing area 112 is used for accommodating other ground brush assemblies 910 except the roller 911; the periphery of the first placing area 111 is provided with the groove 120, the groove 120 is internally provided with the sealing element 130, the sealing element 130 separates the first placing area 111 from other parts of the upper surface, so that the rolling brush 911 is completely sealed between the rolling brush shell 912 and the first placing area 111, the sewage splashed from the first placing area 111 to other parts of the base 100 or the ground around the placing position of the base 100 in the self-cleaning process of the rolling brush 911 is prevented, compared with the situation that the sealing element is only arranged between the first placing area 111 and the second placing area 112, the sealing element 130 is arranged around the first placing area 111, so that the rolling brush 911 can be completely sealed in the first placing area 111 when the air drying function of the base 100 can be realized, the air drying effect of the rolling brush 911 is improved, and the air drying speed of the rolling brush 911 is increased.

It should be noted that, the first placing area 111 and the second placing area 112 are only used for conveniently describing the area of the upper surface of the base body 110 for accommodating different components of the floor brush assembly 910, and do not indicate that the first placing area 111 and the second placing area 112 are two separate components, and the two can be an integrally formed structure or a separate structure, which is not limited herein.

As shown in fig. 7, the cross section of the sealing member 130 is T-shaped, and includes a vertical plate 1301 and a horizontal plate 1302 perpendicular to each other, the vertical plate 1301 and the groove 120 are matched and located in the groove 120, so as to fix the position of the sealing member 130 and prevent the sealing member 130 from being moved when the cleaning host 900 is taken from the base 100. The transverse plate 1320 abuts the other portion of the upper surface beside the recess 120. Compared with other sealing elements, the sealing element 130 with the T-shaped cross section has a larger surface area of the transverse plate 1302, that is, the transverse plate 1302 has a larger surface area in contact with other components, so that the sealing element 130 completely covers the roller brush housing 912 on the floor brush assembly 910 and the bottom of the floor brush assembly 910, and the sealing can be maximally realized. The riser 1301 of the seal 130 can be provided as a hollow structure, increasing the elasticity of the seal 130 and reducing the weight of the seal 130. In addition, in order to enhance the structural strength of the sealing element 130, a reinforcing rib can be additionally arranged in the hollow structure of the vertical plate 1301. Of course, the riser 1301 may be provided as a solid structure or other structure that facilitates assembly, and is not limited thereto.

As shown in fig. 4, a cavity 140 is disposed in the base 100, an air drying assembly 150 is disposed in the cavity 140, and an air outlet 1111 is disposed on the first placement area 111 and communicates with the cavity 140. At this time, the base 100 may also dry the roll brush 911 using the drying assembly 150 in addition to supporting the cleaning main unit 900.

In an embodiment, the air outlet 1111 is disposed along an axial direction of the roller brush 911, and at this time, the length of the air outlet 1111 is longer, and the amount of air flowing out of the air outlet 1111 is larger, and the air flowing out of the air outlet 1111 can directly act on all surfaces of the roller brush 911. In other embodiments, the air outlet may also be disposed at any position of the first placement area, and is not limited to be disposed along the axial direction of the rolling brush, as long as the air generated by the air drying assembly can flow out from the air outlet.

Air-dry subassembly 150 includes heat source piece 151 and wind source piece 152, and heat source piece 151 sets up between the air-out end of wind source piece 152 and air outlet 1111, can convert cold wind into hot-blast back and flow out through air outlet 1111, and hot-blast air-dry speed that makes round brush 911 is faster. The heat source 151 may be a PTC heater chip, a heating wire, an electric heating tube, an electric heating plate, or the like. In this embodiment, the heat source 151 is a PTC heating plate, which is composed of a ceramic heating element and an aluminum tube, and has the advantages of low thermal resistance, high heat exchange efficiency, automatic constant temperature, and power saving, and the PTC heating plate does not generate a "red" phenomenon on the surface of the electric heating tube heater, thereby causing potential safety hazards such as scalding and fire hazard, and being beneficial to the safety of household appliances. The heat source 151 is at least partially located below the first placement area 111. At this time, the heat source unit 151 may transfer heat to the base 100 in addition to changing the cool wind into the warm wind, thereby indirectly transferring heat to the drum brush 911 to accelerate drying of the drum brush 911.

The air source 152 may be an axial flow fan with air inlet and outlet along the fan axis or a centrifugal fan with air inlet and outlet along the axial direction. The air source 152 may be a bladed fan or a bladeless fan, and the specific form of the air source 152 is not particularly limited in the embodiments of the present application. In the present embodiment, the wind source 152 includes at least one fan, and the wind force of the two fans is larger than that of the conventional method in which only one fan is provided, so that the air drying can be accelerated. In the present embodiment, the air source 152 is located in the middle portion of the cavity 140, and compared to the conventional method in which the air source 152 is disposed at an end of the cavity 140 far from the air outlet 1111 or in the charging post, the present embodiment in which the air source 152 is disposed in the middle portion of the cavity 140 can shorten the air duct and reduce the air volume loss.

In other embodiments, the air drying assembly can be provided with no heat source, only an air source, and the rolling brush can be dried by cold air, so that the problems of bacterial breeding and the like after heating are reduced. The position of the wind source parts and the number of the fans are not limited, and the wind source parts can be the same as the fans in the prior art, and can realize the function of generating wind.

As shown in fig. 2, a plurality of protrusions 1112 are vertically arranged on the first placement area 111, and one ends of the protrusions 1112 are inserted into the rolling brush 911, so that the rolling brush 911 can be squeezed to extrude sewage in the self-cleaning process, and in addition, hairs on the rolling brush 911 can be collected.

Specifically, the protrusions 1112 are plate members vertically arranged in the radial direction of the roller brush 911, and regular plate members are mechanically stronger and are more easily inserted into the inside of the roller brush 911. In other embodiments, the specific structure of the protrusion is not limited as long as it can be inserted into the inside of the roll brush, and the bristles of the roll brush are separated such that the inside of the roll brush is exposed to the air.

As can be seen from fig. 2 and 3, in one embodiment, the protrusions 1112 are disposed along an axial direction of the roller brush 911, the air outlet 1111 is disposed along the axial direction of the roller brush 911, and the protrusions 1112 divide the air outlet 1111. Specifically, the air outlet 1111 is disposed on a side of the first placement area 111 away from the second placement area 112, and the protrusion 1112 is vertically disposed on the air outlet 1111 and extends toward the middle of the first placement area 111. The air outlet 1111 and the protrusions 1112 are designed in a related manner, so that the protrusions 1112 can guide the air blown out from the air outlet 1111, and the air flows along the gap between the two protrusions 1112, and then directly acts on the inside of the roller brush 911, thereby maximizing the efficacy. In addition, compared with the arrangement of the plurality of protrusions 1112 along the radial direction of the roller brush 911, under the condition that the gap between two protrusions 1112 is the same, more protrusions 1112 can be arranged along the axial direction of the roller brush 911, so that the contact surface of the whole roller brush 911 and air is increased, and secondly, all parts of the roller brush 911 along the length direction of the roller brush 911 are in contact with the protrusions 1112, so that all parts of the roller brush 911 can be dried simultaneously, and the efficacy is maximized. The length of air outlet 1111 is longer when air outlet 1111 sets up along the axial of round brush 911, and the amount of wind that air outlet 1111 flows out is more, and can make the wind that flows out from air outlet 1111 directly act on all surfaces of round brush 911. In other embodiments, the protrusions may be dispersed throughout the first placement region, and are not limited to being disposed along the axial direction of the rolling brush as long as the protrusions are disposed to be insertable into the inside of the rolling brush. The air outlet also can be set up everywhere in first district of placing at will, is not restricted to along the axial setting of round brush, as long as air-dry the wind that the subassembly produced can follow air outlet department and flow can, accessible other sealed means make wind act on the round brush. The bulges and the air drying components can be arranged respectively, and the bulges and the air drying components do not have fixed position relation and can be used for respective functions. Obviously, can set up the air outlet at will when the arch sets up along the round brush axial, perhaps the air outlet sets up at will along the round brush axial, sets up the arch at will, and the position of arch and air outlet does not all do not make specific restriction.

In one embodiment, the protrusions 1112 are parallel to each other and have the same distance therebetween, so that the roller brush 911 can be uniformly air-dried, and the situation that part of the air-dried part is not air-dried is avoided. In other embodiments, in combination with the position of the air source in the air drying assembly, a few protrusions may be provided at the relative position between the rolling brush and the air outlet end of the air source, a few protrusions may be provided at other areas, that is, a few protrusions may be provided at a place with a large wind, and a few protrusions may be provided at a place with a small wind, so as to achieve simultaneous air drying of each part of the rolling brush.

As shown in fig. 3, in one embodiment, one end of the protrusions 1112 inserted into the roller brush 911 is chamfered, so as to prolong the service life of the roller brush 911 and prevent the bristles of the roller brush 911 from scraping against the protrusions 1111 or even breaking. In the self-cleaning process, the arrangement of the protrusions 1112 can also extrude the rolling brush 911 to accelerate the seepage of moisture in the rolling brush 911, and in addition, the protrusions 1112 can also play a role in collecting hairs on the rolling brush 911 to assist in cleaning the rolling brush 911.

In an embodiment, referring to fig. 6, it can be seen that, in the radial direction of the rolling brush 911 in the first placement area 111, the protrusion 1112 completely covers the first placement area 111, that is, the protrusion 1112 in this embodiment extends from the air outlet 1111 to the first placement area 111 until the whole first placement area 111 is full, the contact surface between the protrusion 1112 and the rolling brush 911 is increased by increasing the area of the protrusion 1112, and at this time, the protrusion 1112 supports the rolling brush 911, that is, the rolling brush 911 does not have a region completely attached to the first placement area 111, so that the wind can circulate around the rolling brush 911 between two protrusions 1112. In another embodiment, the protrusion 1112 does not completely cover the first placing area 111, and as shown in fig. 2, the protrusion 1112 is only arranged at the end of the first placing area 111 close to the air outlet 1111, that is, when a part of the rolling brush 911 completely fits on the first placing area 111, the protrusion 1112 in this embodiment is smaller than the protrusion 1112 shown in fig. 6, and the contact surface with the rolling brush 911 is smaller, but it is easier to insert into the rolling brush 911 than the protrusion 1112 shown in fig. 6, even if a small amount of wind can circulate around the rolling brush 911 because a part of the rolling brush 911 completely fits on the first placing area 111 in this embodiment, but the entire air drying of the rolling brush 911 can be realized by the rotation of the rolling brush 911. In addition, compared with the arrangement mode that the protrusions 1112 completely cover the first placing area 111, the protrusions 1112 are only arranged at the end part of the first placing area 111, so that the phenomenon that sewage seeping from the rolling brush 911 contacts the protrusions 1112 for a long time to pollute the protrusions 1112 can be avoided. In other embodiments, when the protrusion is not completely arranged to cover the first placement region, the position of the protrusion is not limited to the end portion near the air outlet shown in fig. 2, and may be arranged freely in the first placement region.

As shown in fig. 2, in an embodiment, the air outlet 1111 is disposed at an end of the first placement area 111 far from the second placement area 112 along the axial direction of the roller brush 911, the protrusions 1112 are also disposed along the axial direction of the roller brush 911 and divide the air outlet 1111, at this time, the vertical plate 131 of the sealing element 130 abuts against the air outlet 1111, and the horizontal plate 132 of the sealing element 130 abuts against the protrusions 1112. One end of the transverse plate 132 is pressed by the rolling brush shell 912 to deform and then is attached to the protrusions 1112, the groove 120 is communicated with the air outlet 1111, so that the sealing element 130 arranged in the groove 120 can play a role in guiding the wind direction and preventing the wind generated by the air drying component 150 from overflowing, the wind direction flows out from the original direction along the air outlet 1111 to flow out along the vertical plate 131 of the sealing element 130, then flows out along the transverse plate 132 of the third sealing element 130, finally flows into the protrusions 1112, directly acts inside the rolling brush 911 between the protrusions 1112, the contact surface of the rolling brush 911 and the air is increased, the wind can enter the rolling brush 911, the air drying effect of the rolling brush 911 is improved, and the air drying speed of the rolling brush 911 is increased.

As shown in fig. 2, in an embodiment, the first placing area 111 is arc-shaped, and the arc-shaped first placing area 111 can better cover and support the rolling brush 911, so that the base 100 of the cleaning system 1000 can stably support the cleaning host 900, and in addition, when the protrusion 1112 is located at the end of the first placing area 111, the arc-shaped first placing area 111 is more favorable for the protrusion 1112 to be inserted into the rolling brush 911, so as to increase the contact surface between the protrusion 1112 and the rolling brush 911 and accelerate the air drying speed of the rolling brush 911. In addition, the first placing area 111 with an arc-shaped design can better accommodate the sewage generated during the self-cleaning of the roller brush 911, and prevent the sewage from flowing into the second placing area 112. In the present embodiment, the height of the first placing region 111 in the vertical direction along the two sides of the rolling brush 911 in the radial direction is higher than that of the second placing region 112, so that firstly, the installation of the sealing member can be facilitated, secondly, the overflow of the sewage can be avoided, and in addition, the installation can be better matched with the floor brush assembly 910. In other embodiments, whether the height of the first placement area in the vertical direction on both sides of the first placement area in the radial direction of the rolling brush is higher than the height of the second placement area is not limited, and may be the same as the height of the second placement area.

As shown in FIG. 2, the base 100 further includes a step 160, and the step 160 is fixedly connected to the outer side of the base 100 for assisting the separation of the floor brush assembly 910 from the base 100. In order to stably fix the cleaning host 900 on the base 100, the scrubbing brush unit 910 is connected to the upper surface of the base 100 in a clamping manner, when the cleaning host 900 is taken from the base 100, the cleaning host 900 is difficult to separate from the base 100, the base 100 is driven to move together in the taking process, the pedal 160 is arranged to avoid the occurrence of the situation, when the cleaning host 900 is taken from the base 100, the pedal 160 is treaded or pressed, the base 100 can be fixed, and the cleaning host 900 can be taken easily.

The base 100 of the cleaning system 1000 of the present application separates the first placing area 111 from other parts of the upper surface of the base 100 by providing the sealing member 130 at the periphery of the first placing area 111, so that the roller brush 911 is completely sealed between the roller brush housing 912 and the first placing area 111, and thus the splashing of the sewage from the first placing area 111 to other parts of the base 100 or the ground around the placing position of the base 100 during the self-cleaning process of the roller brush 911 is prevented. When the base 100 of the cleaning system 1000 comprises the air drying assembly 150 and the air outlet 1111, the sealing member 130 arranged at the periphery of the first placement area 111 can seal the rolling brush 911 in the first placement area 111 when the rolling brush 911 is dried, so that the air loss is reduced, the air drying effect of the rolling brush 911 is improved, and the air drying speed of the rolling brush 911 is increased.

Simultaneously the base 100 of the cleaning system 1000 of this application vertically sets up a plurality of archs 1112 on first place the district 111, inside the round brush 911 was inserted to the one end of a plurality of archs 1112, can extrude sewage at automatically cleaning in-process extrusion round brush 911, in addition can collect the hair on the round brush 911, when setting up the air outlet 1111 on first place the district 111, the one end of arch 1112 inserts can increase the contact surface of round brush 911 and air behind the round brush 911 is inside, make wind get into inside the round brush 911, thereby improve the air-dry effect of round brush 911, and accelerate the air-dry speed of round brush 911.

While the invention has been described with reference to the above specific details, it will be understood by those skilled in the art that various changes and modifications can be made in the above constructions and materials, including combinations of features disclosed herein either individually or in any combination as is deemed to be obvious and intended, without departing from the spirit of the invention. These variants and/or combinations fall within the technical field to which the invention relates and fall within the scope of protection of the claims of the present invention.

Claims (10)

1. A base for a cleaning system for detachably mounting a floor brush assembly of the cleaning system, the floor brush assembly comprising a roll brush, characterized in that: the upper surface of the base is downwards sunken to form a first placing area and a second placing area, the first placing area is used for accommodating the rolling brush, and the second placing area is used for accommodating other floor brush components except the rolling brush;

the periphery in first district of placing sets up the recess, set up the sealing member in the recess, the sealing member will first district of placing with other positions of upper surface separate.

2. The base of the cleaning system of claim 1, wherein: the cross section of sealing member is the T type, the sealing member includes mutually perpendicular's riser and diaphragm.

3. The base of the cleaning system of claim 2, wherein: the vertical plate is located in the groove, and the transverse plate is abutted to other parts of the upper surface beside the groove.

4. The base of the cleaning system of claim 1, wherein: a cavity is formed in the base, an air drying assembly is arranged in the cavity, and an air outlet communicated with the cavity is formed in the first placement area.

5. The base of the cleaning system of claim 4, wherein: the air outlet is arranged along the axial direction of the rolling brush.

6. The base of the cleaning system of claim 1, wherein: the first place the district go up vertical a plurality of archs that set up, the arch is the plate that sets up along the radial of round brush, and a plurality of bellied one end inserts inside the round brush.

7. The base of the cleaning system of claim 6, wherein: and one end of the plurality of bulges inserted into the rolling brush is chamfered.

8. The base of the cleaning system of claim 1, wherein: the first placing area is arc-shaped.

9. The base of the cleaning system of claim 4, wherein: the air drying assembly comprises a heat source piece and an air source piece, and the heat source piece is arranged between the air outlet end of the air source piece and the air outlet.

10. A cleaning system, characterized by: base comprising a cleaning system according to any of claims 1-9 and a cleaning host, which is detachably arranged on the base of the cleaning system.

Images