CN216020827U - Be used for air-dried basic station of cleaning machines people - Google Patents

Abstract

The application provides a be used for air-dried basic station of cleaning machines people, cleaning machines people includes the fuselage, sets up the piece is wiped in dragging of fuselage bottom, the basic station is equipped with and is used for wasing drag the washing tank of piece and be used for right it carries out the air-dry subassembly of blowing to drag the piece of wiping, the subassembly of blowing include the fan and with the defeated wind passageway of fan intercommunication, the lateral wall of washing tank be equipped with first supply-air outlet and the second supply-air outlet of defeated wind passageway intercommunication, first supply-air outlet with the second supply-air outlet is located respectively drag the both sides of wiping a geometric center. The base station of this application can evenly air-dry the piece of dragging, improves air-dry effect.

Description

Be used for air-dried basic station of cleaning machines people

Technical Field

The application belongs to the technical field of cleaning equipment, and specifically provides a base station for cleaning robot air-drying.

Background

The bottom of the existing cleaning robot is provided with a mopping piece which is in contact with a surface to be cleaned, so that the cleaning robot can mop and clean the surface to be cleaned by using the mopping piece in the self-moving process. In order to improve cleaning robot's clean effect and provide more convenient using-way for the user, more and more cleaning robot all can be equipped with the basic station, cleaning robot can realize the butt joint with the basic station by oneself, the butt joint targets in place the back, the basic station can charge cleaning robot, simultaneously, cleaning robot drags to wipe in the middle of the piece can get into the washing tank of basic station, wash in the washing tank then, the cleaning robot who charges to finish or wash the completion just can leave the basic station and drop into cleaning work once more.

In the prior art, part of the base stations are also provided with a blowing assembly and an air supply outlet leading to the cleaning tank, and after the cleaning of the mopping piece of the cleaning robot is completed, the blowing assembly blows air to the mopping piece in the cleaning tank through the air supply outlet so as to air-dry the mopping piece. However, when the existing base station air-dries the mopping piece of the cleaning robot, the wind blowing to the mopping piece is not uniform enough, so that the drying degree of the mopping piece is different, and when the cleaning robot is put into cleaning work again, the difference of the cleaning effect to the cleaning surface is large, and the cleaning effect is influenced.

SUMMERY OF THE UTILITY MODEL

In order to solve the above problems in the prior art, that is, in order to solve the problem of uneven drying of the mopping piece, the present application provides a base station for air drying of a cleaning robot, where the cleaning robot includes a body, a mopping piece disposed at the bottom of the body, the base station is provided with a cleaning tank for cleaning the mopping piece, and a blowing assembly for air drying the mopping piece, the blowing assembly includes a blower and an air delivery channel communicated with the blower, a side wall of the cleaning tank is provided with a first air supply outlet and a second air supply outlet communicated with the air delivery channel, and the first air supply outlet and the second air supply outlet are respectively located at two sides of a geometric center of the mopping piece.

Optionally, the width of the mopping piece is not less than the maximum distance between the first air supply outlet and the second air supply outlet.

Optionally, the first air supply outlet and the second air supply outlet are symmetrical about a geometric center of the mop.

Optionally, the cleaning robot is provided with two rotating disc type cleaning pieces, and the two rotating disc type cleaning pieces correspond to the two sets of the first air supply outlet and the second air supply outlet respectively.

Optionally, the base station is provided with a third air supply outlet, and the third air supply outlet corresponds to a position between the two turntable type mopping pieces.

Optionally, aforementioned subassembly of blowing includes the heater, and aforementioned fan passes through the heater intercommunication with defeated wind passageway, and the central axis of the air exit of aforementioned fan sets up in the relative air inlet terminal surface slope of aforementioned heater.

Optionally, the air delivery channel includes a first air delivery channel and a second air delivery channel distributed left and right, the air outlet is disposed toward the air inlet end of the first air delivery channel, and the cross-sectional area of the air inlet end of the first air delivery channel is smaller than that of the air inlet end of the second air delivery channel.

Optionally, the base station includes a support base plate and a base station main body located at the lower part, and a connection wall disposed between the support base plate and the base station main body, and the washing tank is detachably fixed to the support base plate and/or the connection wall, so that the washing tank is supported on the support base plate.

Optionally, the base station further comprises a guide bottom plate disposed at a front end of the base station main body, and the guide bottom plate and the cleaning tank are integrally formed.

Optionally, a plurality of cleaning convex ribs are arranged in the cleaning tank, and a drainage groove is arranged between every two adjacent cleaning convex ribs.

As can be appreciated by those skilled in the art, the base station for air drying of the cleaning robot described in the foregoing of the present application has at least the following beneficial effects:

1. through setting up first supply-air outlet and second supply-air outlet to make first supply-air outlet and second supply-air outlet be located and drag the both sides of wiping a geometric center, make the wind energy that the subassembly of blowing produced blow simultaneously to the part that drags the geometric center both sides of wiping a, improve the homogeneity of blowing to dragging wiping a, make to drag wiping a whole by dry degree relatively more even, when cleaning machines people carries out cleaning work once more, it is better to drag the cleaning effect of wiping a treatment cleaning surface.

Furthermore, the width of the mopping piece is larger than the maximum distance between the first air supply outlet and the second air supply outlet, so that blown air can be guaranteed to be blown onto the mopping piece to the maximum extent, and the utilization rate of the air is improved.

2. Through making first supply-air outlet and second supply-air outlet symmetrical about the geometric centre that drags the piece, can further improve the homogeneity of blowing to dragging the piece for it is whole by the dry degree more even to drag the piece.

3. When two rotating disc type mopping pieces are arranged, in order to avoid the cleaning dead angle between the two rotating disc type mopping pieces, the two rotating disc type mopping pieces can be partially overlapped, the overlapped part of the two rotating disc type mopping pieces can be air-dried by arranging a third air supply outlet corresponding to the position between the two rotating disc type mopping pieces, the moisture accumulated in the overlapped part is avoided, and therefore the air drying effect of the rotating disc type mopping pieces is improved.

4. The heater is arranged between the fan and the air delivery channel, so that cold air flow blown out by the fan is heated by the heater to be hot air flow blown to the mopping piece, the cold air flow drying process is converted into a hot air flow drying process, and the drying efficiency and the drying effect are greatly improved.

In addition, the central axis through the air exit with the fan sets up for the air inlet terminal surface slope of heater for the fan is at power, under the all certain circumstances of air exit cross-sectional area, compare in the air conditioning and directly blow to the mode of the air inlet end of heater through the bore of airing exhaust, the slope is blown to the air inlet end and is helped reducing the wind loss of the wind of fan when passing through the heater, increase the wind pressure of fan, especially, do benefit to the air quantity transmission process of long distance in the fan, thereby make the air quantity of the stoving in-process of subassembly of blowing maintain at a higher level.

5. Through dividing into first defeated wind passageway and second defeated wind passageway with defeated wind passageway, can widen the air-out scope of whole defeated wind passageway through reasonable arranging, form to dragging a plurality of air supplies of wiping piece, help further promoting drying efficiency. And the air outlet is arranged towards the first air conveying channel, so that the inclination requirement of the air outlet is met, the cross sectional area of the air inlet end of the second air conveying channel is smaller than that of the air inlet end of the first air conveying channel, the air quantity entering the first air conveying channel and the air quantity entering the second air conveying channel are relatively balanced, the mopping piece is uniformly blown everywhere, the drying effect is improved, and the possibility of wind noise caused by turbulent flow generated when air flows is reduced.

6. Can dismantle with supporting baseplate through making the washing tank and be connected for the washing tank can be dismantled alone and get off and carry out the omnidirectional and wash, not only convenient and fast more, be difficult to have moreover and wash the dead angle, thereby avoid the washing tank to accumulate filth because of long-time the use.

7. Because wash protruding muscle and can extrude the sewage that drags in the piece, so wash near protruding muscle sewage than many, through be equipped with the drainage groove between adjacent washing protruding muscle, can play preliminary aggregation effect to sewage, prevent that sewage from persisting near wasing protruding muscle to improve the efficiency that sewage was taken away.

Drawings

Some embodiments of the present application are described below with reference to the accompanying drawings, in which:

fig. 1 is a bottom view of a cleaning robot in a first embodiment of the present application;

fig. 2 is an exploded view of a base station in a first embodiment of the present application;

FIG. 3 is a schematic structural view of a cleaning disc in the first embodiment of the present application;

FIG. 4 is an enlarged view at A in FIG. 3;

FIG. 5 is a schematic view showing the positions of the first and second air outlets and the mop in the first embodiment of the present application;

fig. 6 is a schematic structural view of a blowing assembly in the first embodiment of the present application;

figure 7 is a cross-sectional view of a blower assembly in a first embodiment of the present application;

fig. 8 is a schematic structural diagram of a part of base stations in a fourth embodiment of the present application.

Description of reference numerals:

11. a body; 12. a mopping member; 13. a drive wheel; 14. a sewage suction port; 15. roller brushing;

21. a base station main body; 22. a support base; 221. a support base plate; 222. a connecting wall; 23. cleaning the disc; 231. a guide bottom plate; 232. a cleaning tank; 233. cleaning the convex ribs; 234. a dirt suction part; 235. a water collecting groove; 24. a clear water tank; 25. a sewage tank; 26. a blowing assembly; 261. a fan; 2611. an air outlet; 262. a heater; 263. a wind delivery channel; 2631. a first air delivery channel; 2632. a second air delivery channel; 27. a first air supply outlet; 28. a second air supply outlet; 29. and a third air supply outlet.

Detailed Description

It should be understood by those skilled in the art that the embodiments described below are only a part of the embodiments of the present application, and not all embodiments of the present application, and the part of the embodiments are intended to explain the technical principles of the present application and not to limit the scope of the present application. All other embodiments that can be obtained by a person skilled in the art based on the embodiments provided in the present application without inventive effort shall still fall within the scope of protection of the present application.

It should be noted that in the description of the present application, the terms "center", "upper", "lower", "top", "bottom", "left", "right", "vertical", "horizontal", "inner", "outer", and the like, which indicate directions or positional relationships, are based on the directions or positional relationships shown in the drawings, which are for convenience of description only, and do not indicate or imply that the device or element must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be construed as limiting 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.

Furthermore, it should be noted that, in the description of the present application, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, e.g., as being fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; either directly or indirectly through intervening media, or through the communication between two elements. The specific meaning of the above terms in the present application can be understood by those skilled in the art as the case may be.

The application provides a be used for air-dried basic station of cleaning machines people, cleaning machines people includes the fuselage, sets up the piece is wiped in dragging of fuselage bottom, the basic station is equipped with and is used for wasing drag the washing tank of piece and be used for right it carries out the air-dry subassembly of blowing to drag the piece of wiping, the subassembly of blowing include the fan and with the defeated wind passageway of fan intercommunication, the lateral wall of washing tank be equipped with first supply-air outlet and the second supply-air outlet of defeated wind passageway intercommunication, first supply-air outlet with the second supply-air outlet is located respectively drag the both sides of wiping a geometric center.

The base station of this application is through setting up first supply-air outlet and second supply-air outlet to make first supply-air outlet and second supply-air outlet be located and drag the both sides of wiping a geometric centre, make the wind energy that the subassembly of blowing produced blow simultaneously to the part that drags the geometric centre both sides of wiping a, improve the homogeneity of wiping a piece and blowing, make and drag the whole degree by dry more even of wiping a piece, when cleaning machines people carries out cleaning work once more, it treats the cleaning effect of cleaning surface better to drag the wiping piece.

The following describes a specific structure of a base station for drying a cleaning robot according to the present invention with reference to the accompanying drawings.

The first embodiment of the present application:

as shown in fig. 1, the cleaning robot of the present embodiment includes a body 11, and a mop 12, a driving wheel 13, a soil suction port 14, and a roller brush 15 provided at the bottom of the body 11. The two mopping pieces 12 are cleaning turntables, and the mopping pieces 12 are rotatably arranged at the bottom of the machine body 11. The roller brush 15 is arranged in the dirt suction port 14, when the cleaning robot performs cleaning work, the driving wheel 13 rolls on a surface to be cleaned to drive the cleaning robot to move, in the moving process, the roller brush 15 sweeps garbage on the surface to be cleaned into the dirt suction port 14, then a dirt suction component communicated with the dirt suction port 14 sucks away the garbage, and the rotating mopping piece 12 is in contact with the surface to be cleaned to wipe the surface to be cleaned.

As shown in fig. 2 to 6, the base station of the present embodiment includes a base station main body 21, a support base 22, a wash tray 23, a clean water tank 24, a dirty water tank 25, and a blower assembly 26. The supporting base 22 is used for supporting a cleaning tray 23, the cleaning tray 23 is used for accommodating and cleaning the mop 12 of the cleaning robot, the clean water tank 24 is used for providing cleaning liquid (clean water or mixed liquid of clean water and cleaning agent) required for cleaning the mop 12 (shown in fig. 1), and the sewage tank 25 is used for collecting sewage generated by cleaning. The blower assembly 26 is used to blow the mop 12 after cleaning.

With continued reference to fig. 2, the support base 22 has a support bottom plate 221 and a connecting wall 222, the support bottom plate 221 being for contact with the placement surface of the base station. The supporting base 22 is detachably mounted (including various ways such as clamping, plugging or screw fixing) at the bottom of the base station main body 21, so that the base station mainly contacts with a surface to be cleaned through the bottom surface of the supporting base 22, and the bottom of the base station is convenient to clean. Wash dish 23 and place on supporting base 22 to form the butt joint with base station body 21, be equipped with draw-in groove (not marking in the figure) on the support base 22, be equipped with button (not marking in the figure) and telescopic buckle (not marking in the figure) on washing dish 23, make the buckle shrink through pressing down the button, make wash dish 23 and base station body 21, support base 22 accomplish the butt joint after, then loosen the button, make the buckle reset and imbed in the draw-in groove, thereby realize fixing.

It should be noted that the cleaning tray 23 may have a detachable connection structure that is matched with the supporting bottom plate 221, a detachable connection structure that is matched with the connection wall 222, a detachable connection structure that is matched with the base station main body 21, or a detachable connection structure that is matched with two or three of the base station main body 21, the supporting bottom plate 221, and the connection wall 222. In addition, the above-mentioned detachable connection manner is only an example, and the detachable connection manner that can be adopted includes any feasible manner such as a snap connection, a latch connection, and the like.

In addition, the connecting wall may be integrally formed with the supporting base plate, or may be detachably connected. Alternatively, only one support floor may be provided without the connecting wall. Alternatively, the connecting wall is integrally formed with the base station main body.

As shown in fig. 3, the washing tray 23 is formed with a guide bottom plate 231 and a washing tub 232, and the guide bottom plate 231 is provided with an inclined surface inclined to a high place from a placing surface (i.e., a surface to be cleaned) of the base station so that the cleaning robot on the surface to be cleaned can climb along the inclined surface of the guide bottom plate 231 to complete docking with the base station. After the cleaning robot is docked in position with the base station, the mop 12 (shown in fig. 1) is positioned within the cleaning tank 232 to effect cleaning within the cleaning tank 232. Specifically, the washing tank 232 includes about two washing districts (two of cleaning robot drag wipe the piece 12 respectively corresponding region), all is equipped with the protruding muscle 233 of washing in two washing districts, be located the washing tank 232 in the middle of drag wipe the piece 12 can with wash protruding muscle 233 butt, consequently, the pivoted drags wipe the piece 12 can scrape each other with wasing protruding muscle 233 to will drag the filth on wiping the piece 12 and scrape away, realize the cleanness to dragging wiping the piece 12.

Referring to fig. 2 and 3, further, a clean water tank 24 and a sewage tank 25 are installed in the base station main body 21. The base station is further provided with a water pipe (not shown in the figure) and a delivery pump (not shown in the figure), the cleaning tank 232 is provided with a spraying opening (not marked in the figure), the water pipe is used for communicating the clean water tank 24 with the spraying opening, the opened delivery pump can deliver the cleaning solution in the clean water tank 24 to the spraying opening through the water pipe and then supply the cleaning solution to the mop 12 from the spraying opening, so that the mop 12 is soaked. The basic station still is equipped with and takes out dirty pipe (not shown in the figure) and take out dirty pump (not shown in the figure), and the washing dish 23 is equipped with takes out dirty portion 234 and water collection recess 235, and water collection recess 235 is concave down by the surface of washing tank 232 and forms to water collection recess 235 sets up the middle part in two washing districts, thereby makes the sewage that two washing districts produced can assemble to water collection recess 235. Preferably, drainage grooves (not marked) are formed between adjacent cleaning ribs 233 to primarily collect the sewage and then guide the sewage into the water collection grooves 235, thereby preventing the sewage from remaining near the cleaning ribs 233, and thus improving the efficiency of pumping the sewage away. The sewage pumping part 234 is a tubular structure extending to the bottom of the water collecting groove 235, and the sewage pumping part 234 is communicated with the sewage tank 25 through a sewage pumping pipe, so that the opened sewage pumping pump can pump the sewage into the sewage tank 25 through the sewage pumping part 234 and the sewage pumping pipe.

As can be understood by those skilled in the art, the recessed water collecting groove 235 is disposed on the cleaning tank 232, so that the sewage in the cleaning tank 232 can be collected into the water collecting groove 235, and the sewage pumping part 234 can pump the sewage away, which is beneficial to reducing the residual sewage in the cleaning tank 232.

It should be noted that the spraying port can be arranged on one side of the cleaning convex rib facing the mopping piece; the spraying port can also be additionally provided with a conveying structure which is not contacted with the mopping piece, so that the spraying port is formed on the conveying structure, and at the moment, the cleaning liquid can be directly sprayed on the mopping piece and also can be conveyed into the cleaning tank until the liquid level is contacted with the mopping piece.

As shown in fig. 6 and 7, the blowing assembly 26 includes a fan 261 for generating wind, a heater 262 and a wind delivery passage 263, wherein the heater 262 is a PTC heater. The wind generated by the fan 261 is blown to the heater 262 through the exhaust port 2611, heated by the heater 262 to be hot wind, and enters the wind conveying channel 263. The blowing component 26 is disposed on the base station main body, and as shown in fig. 3 and fig. 4, the side wall of the cleaning tank 232 is provided with a first air supply outlet 27 and a second air supply outlet 28, when the cleaning tray 23 is butted with the base station main body in place, the first air supply outlet 27 and the second air supply outlet 28 are communicated with the outlet end of the air delivery channel 263, and the air generated by the blowing component 26 is blown from the first air supply outlet 27 and the second air supply outlet 28 to the mopping member 12 located in the cleaning tank 232, so as to air-dry the mopping member 12. Specifically, two mopping units 12 of the cleaning robot each have a first air supply outlet 27 and a second air supply outlet 28, that is, a total of four air supply outlets are disposed on the side wall of the cleaning tank 232, correspondingly, the air duct 263 includes a first air duct 2631 and a second air duct 2632 corresponding to the two mopping units 12, respectively, the first air duct 2631 and the second air duct 2632 have two air ducts, that is, the blowing unit 26 has four air ducts corresponding to the four air supply outlets one by one.

Referring to fig. 7, the side wall of the fan 261 connected to the air outlet 2611 is inclined such that the central axis (shown by the long and short lines in fig. 7) of the air outlet 2611 is inclined with respect to the air inlet end surface of the heater 262.

As can be understood by those skilled in the art, the central axis of the air outlet 2611 of the fan 261 is obliquely arranged relative to the air inlet end surface of the heater, so that when the power of the fan 261 and the area of the air outlet 2611 are both constant, compared with a mode that cold air flows through the air outlet aperture and directly blows to the air inlet end of the heater, the oblique blowing to the air inlet end helps to reduce the wind loss of the wind of the fan 261 when the wind passes through the heater 262, increase the wind pressure of the fan 261, and is particularly beneficial to the long-distance wind volume transmission process in the fan 261, so that the wind volume in the drying process of the blowing assembly 26 is maintained at a higher level.

The plane of the air outlet may be inclined with respect to the air inlet end surface of the heater.

With continued reference to fig. 7, the cross-sectional area of the air inlet end of the second air delivery passage 2632 is larger than the cross-sectional area of the air inlet end of the first air delivery passage 2631, because the air outlet 2611 is disposed obliquely relative to the air inlet end surface of the heater 262, the air blowing over the heater 262 is directed toward the first air delivery passage 2631, and the blown air is directed toward the first air delivery passage 2631, the above structure can relatively equalize the air volume entering the first air delivery passage 2631 and the air volume entering the second air delivery passage 2632, ensure uniform air flow at each position of the mopping device 12, improve the drying effect, and reduce the possibility of wind noise caused by turbulent air flow when the air flows

Referring to fig. 3 to 5, further, taking a mop 12 as an example, when the cleaning robot is docked with the base station, the first air supply outlet 27 and the second air supply outlet 28 are respectively located at two sides of the rotation shaft (geometric center) of the mop 12, so that the first air supply outlet 27 and the second air supply outlet 28 respectively air-dry the left and right parts of the mop 12.

As can be understood by those skilled in the art, by providing the first air supply outlet 27 and the second air supply outlet 28 and positioning the first air supply outlet 282 and the second air supply outlet 28 at two sides of the rotation shaft of the mop 12, the uniformity of the air blowing to the mop 12 can be improved, so that the overall drying degree of the mop 12 is more uniform, and when the cleaning robot performs the cleaning work again, the cleaning effect of the mop 12 on the surface to be cleaned is better.

It should be noted that one first air supply outlet 27 and one second air supply outlet 28 for each mop 12 is only one of the embodiments of the present embodiment, and one mop may correspond to a plurality of first air supply outlets or a plurality of second air supply outlets, depending on the sizes of the first air supply outlet and the second air supply outlet and the size of the cleaning tank.

Referring to fig. 1, 3 to 5, the width b of the mop 12 is preferably greater than the maximum distance s between the first and second supply air vents 27, 28, i.e. the distance between the edges of the first and second supply air vents 27, 28 which are furthest apart. Through the structure, when the mopping piece 12 is dried, the blown air can be guaranteed to be blown onto the mopping piece 12 to the maximum extent, and the utilization rate of the air is improved. In addition, the first air supply outlet 27 and the second air supply outlet 28 are preferably symmetrical about the rotation axis of the mop 12, which can further improve the uniformity of the air supply to the mop 12, so that the overall drying degree of the mop 12 is more uniform.

When a plurality of first air blowing ports or a plurality of second air blowing ports are provided, the maximum distance s between the first air blowing ports and the second air blowing ports is the maximum distance between the two first air blowing ports and the second air blowing ports which are farthest from each other.

As shown in fig. 1 to 7, in the present embodiment:

when the cleaning robot performs cleaning work, the driving wheel 13 rolls on the surface to be cleaned to drive the cleaning robot to move, in the self-moving process, the roller brush 15 sweeps the garbage on the surface to be cleaned into the sewage suction port 14, then the sewage suction component communicated with the sewage suction port 14 sucks the garbage away, and the rotating mopping piece 12 is in contact with the surface to be cleaned to wipe the surface to be cleaned.

When the mop 12 of the cleaning robot needs to be cleaned, the cleaning robot moves to the base station, and then the cleaning robot climbs along the guide bottom plate 231 to be docked with the base station, and after the docking is in place, the mop 12 of the cleaning robot is located in the cleaning tank 232 and contacts with the cleaning convex rib 233 under the pressure of the machine body 11. Then, the mop 12 rotates to rub the cleaning ribs 233, so as to scrape off the dirt on the mop 12, and during the period, the transfer pump is started to transfer the cleaning liquid in the clean water tank 24 to the mop 12, thereby realizing the cleaning of the mop 12. In the cleaning process, the generated sewage is collected to the water collecting groove 235 along the bottom wall of the cleaning tank 232, and the sewage is pumped into the sewage tank 25 by the sewage pumping pump which is turned on through the sewage pumping portion 234 and the sewage pumping pipe.

It should be noted that, according to different needs, a person skilled in the art may start the sewage pump all the time in the whole cleaning process, or start the sewage pump after the cleaning tank accumulates a certain amount of sewage.

After the cleaning is finished, the fan 261 of the blowing unit 26 is operated, and the generated air is heated by the heater 262, enters the air delivery passage 263, then flows along the air delivery passage 263, and is finally blown to the mop 12 from the first and second blowing ports 27 and 28 to dry the mop 12.

It can be understood by those skilled in the art that the first air supply outlet 27 and the second air supply outlet 28 which are located at two sides of the rotation axis of the mop 12 can improve the uniformity of the air blowing to the mop 12, so that the overall drying degree of the mop 12 is more uniform, and when the cleaning robot performs the cleaning work again, the cleaning effect of the mop 12 on the surface to be cleaned is better.

Further, by making the width b of the mop 12 larger than the maximum distance s between the first air blowing port 27 and the second air blowing port 28, the blown air can be ensured to be blown onto the mop 12 to the maximum extent, and the utilization rate of the air can be improved. By making the first and second supply air outlets 27, 28 symmetrical about the axis of rotation of the mop 12, the uniformity of the air flow to the mop 12 can be further improved, resulting in a more uniform drying of the entire mop 12.

In addition, through setting up detachable washing dish 23, can dismantle washing dish 23 and wash, it is very convenient.

Second embodiment of the present application:

although not shown in the drawings, the wiping member of the cleaning robot of the present embodiment is a rotating cleaning roller, unlike the first embodiment.

Third embodiment of the present application:

although not shown in the drawings, unlike the first embodiment, the cleaning robot of the present embodiment has the mop immovably fixed to the bottom of the body, and the cleaning tank has a rotatable cleaning member provided therein, and the rotatable cleaning member is in contact with the fixed mop to clean the mop.

It should be noted that, for the first, second and third embodiments, the number of the wiping members is not necessarily two, and may be one, three or the like. And for a scrub roller and a stationary scrubbing member, the first supply air opening and the second supply air opening are located on either side of the geometric center thereof. In addition, in the case that only one mopping piece is provided, the first air delivery channel and the second air delivery channel of the blowing assembly can correspond to the first air supply outlet and the second air supply outlet respectively.

Fourth embodiment of the present application:

as shown in fig. 8, different from the first embodiment, the side wall of the cleaning tank 232 of the present embodiment is further provided with a third air supply outlet 29, and the third air supply outlet 29 corresponds to a position between the two mopping pieces. Because when two cleaning rotating disc type mopping pieces are arranged, the two mopping pieces 12 are partially overlapped in order to avoid the cleaning dead angle between the two mopping pieces, the overlapped part of the two mopping pieces can be air-dried by arranging the third air supply opening 29 corresponding to the position between the two mopping pieces, the moisture accumulation of the overlapped part is avoided, and the air drying effect of the mopping pieces is improved.

Fifth embodiment of the present application:

although not shown in the drawings, the cleaning disc of the present embodiment is integrally formed with the base station main body, unlike the previous embodiments.

So far, the technical solutions of the present application have been described in connection with the foregoing embodiments, but it is easily understood by those skilled in the art that the scope of protection of the present application is not limited to these specific embodiments. The technical solutions in the above embodiments can be split and combined, and equivalent changes or substitutions can be made on related technical features by those skilled in the art without departing from the technical principles of the present application, and any changes, equivalents, improvements, and the like made within the technical concept and/or technical principles of the present application will fall within the protection scope of the present application.

Claims (10)

1. The utility model provides a be used for air-dried basic station of cleaning machines people, cleaning machines people includes the fuselage, sets up the piece of wiping of dragging of fuselage bottom, the basic station is equipped with and is used for wasing drag the washing tank of wiping the piece and be used for right drag wipe the piece and carry out air-dried subassembly of blowing, blow the subassembly include the fan and with the defeated wind passageway of fan intercommunication, its characterized in that, the lateral wall of washing tank be equipped with defeated wind passageway intercommunication first supply-air outlet and second supply-air outlet, first supply-air outlet with the second supply-air outlet is located respectively drag the both sides of wiping a geometric center.

2. A base station for a cleaning robot air dryer as claimed in claim 1, characterized in that the width of the mop is not less than the maximum distance between the first and second blow opening.

3. A base station for clean robot air drying according to claim 1, characterized in that the first and second air supply vents are symmetrical with respect to the geometrical centre of the mop.

4. A base station for air drying of a cleaning robot as claimed in claim 1, characterized in that said mopping member is a carousel type mopping member, said cleaning robot being provided with two of said carousel type mopping members, two of said carousel type mopping members corresponding to two sets of said first and second supply air ports, respectively.

5. A base station for air drying of a cleaning robot as claimed in claim 4, characterised in that the base station is provided with a third supply air outlet corresponding to a position between two of said carousel-type mopping members.

6. The base station for air drying of the cleaning robot as claimed in claim 1, wherein the blowing assembly includes a heater, the blower and the air delivery passage are communicated through the heater, and a central axis of an air outlet of the blower is disposed obliquely with respect to an air inlet end surface of the heater.

7. The base station for air drying of a cleaning robot as claimed in claim 6, wherein the air delivery channel includes a first air delivery channel and a second air delivery channel distributed left and right, the air outlet is disposed toward an air inlet end of the first air delivery channel, and a cross-sectional area of the air inlet end of the first air delivery channel is smaller than a cross-sectional area of the air inlet end of the second air delivery channel.

8. A base station for air drying of a cleaning robot as set forth in claim 1, wherein said base station includes a support base plate and a base station main body at a lower portion, and a connection wall provided between said support base plate and said base station main body, said cleaning tank being detachably fixed to said support base plate and/or said connection wall so that said cleaning tank is supported on said support base plate.

9. The base station for air drying of a cleaning robot as claimed in claim 8, further comprising a guide bottom plate provided at a front end of the base station main body, the guide bottom plate being integrally formed with the washing tub.

10. The base station for air drying of the cleaning robot as claimed in claim 1, wherein a plurality of cleaning ribs are provided in the cleaning tank, and a drainage groove is provided between adjacent cleaning ribs.

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