CN219353813U - Portable multipurpose clean basic station - Google Patents

Abstract

The utility model discloses a movable multipurpose cleaning base station which comprises a travelling mechanism, a base station main body and a cleaning disc, wherein the base station main body and the cleaning disc are arranged on the travelling mechanism, the base station main body is provided with a water supply assembly for supplying water to the cleaning disc and a sewage pumping assembly for pumping sewage in the cleaning disc, the movable multipurpose cleaning base station comprises a cleaning assembly, and the cleaning assembly is connected with the water supply assembly and/or the sewage pumping assembly so as to supply water to an external object to be cleaned and/or pump sewage on the external object to be cleaned. The functional purpose of the cleaning base station is reasonably expanded through the improvement of the structure, so that the cleaning base station can be used for realizing other purposes besides serving the cleaning robot, the living requirements of users are better met, and the use experience of the users is improved.

Description

Portable multipurpose clean basic station

Technical Field

The utility model relates to the technical field of cleaning equipment, in particular to a movable multipurpose cleaning base station.

Background

In recent years, cleaning robots are becoming popular with people due to high intelligent degree, and the cleaning robots bring great convenience to the life of people and improve living experience of people. The cleaning robot is provided with the base station, and the cleaning robot can realize the functions of self-cleaning of a mop, battery charging, dust collection and the like when being stopped at the base station, so that the manual operation of a user can be further reduced. In order to realize the mop self-cleaning function of the cleaning robot, the base station is provided with a water supply assembly for supplying water during cleaning and a sewage pumping assembly for collecting sewage after cleaning is finished, and the existing base station generally cannot move, so that the water supply assembly and the sewage pumping assembly can only serve the cleaning robot, the function of the base station is single for a user, and when the user needs to clean the inconvenient moving objects, other using equipment needs to be purchased separately, so that the use experience of the user is not facilitated to be improved.

Disclosure of Invention

In order to solve the defects and shortcomings in the prior art, the utility model provides the movable multipurpose cleaning base station, which can be used for cleaning other inconvenient articles through structural improvement, so that the functional purpose of the cleaning base station is reasonably expanded, and the use experience of a user is improved.

In order to achieve the technical purpose, the mobile multipurpose cleaning base station comprises a travelling mechanism, a base station main body and a cleaning disc, wherein the base station main body and the cleaning disc are arranged on the travelling mechanism, the base station main body is provided with a water supply assembly for supplying water to the cleaning disc and a sewage pumping assembly for pumping sewage in the cleaning disc, the mobile multipurpose cleaning base station comprises a cleaning assembly, and the cleaning assembly is connected with the water supply assembly and/or the sewage pumping assembly so as to supply water to an external object to be cleaned and/or pump sewage on the external object to be cleaned.

Preferably, the water supply assembly is provided with a water outlet, the sewage pumping assembly is provided with a sewage inlet, and the cleaning assembly is detachably connected with the water outlet of the water supply assembly and/or the sewage inlet of the sewage pumping assembly.

Preferably, the cleaning assembly is connected with a water supply pipeline of the water supply assembly through a waterway switching module, the waterway switching module is provided with two switching positions, and the waterway switching module moves between the two switching positions so as to enable a clean water tank of the water supply assembly to be communicated with the cleaning assembly or the cleaning disc; and/or the cleaning assembly is connected with the sewage pumping pipeline of the sewage pumping assembly through the waterway switching module, the waterway switching module is provided with two switching positions, and the waterway switching module moves between the two switching positions so as to enable the sewage tank of the sewage pumping assembly to be communicated with the cleaning assembly or the cleaning disc.

Preferably, the cleaning assembly is detachably spliced and matched with the waterway switching module.

Preferably, the base station main body is provided with an installation groove for the cleaning assembly to be inserted, and a fastening structure is arranged between the cleaning assembly and the installation groove.

Preferably, the mobile multipurpose cleaning base station comprises a dust collection assembly for sucking external dirt, the base station body is provided with a dust collection assembly, the dust collection assembly is provided with a dust collection port, and the dust collection assembly is detachably connected with the dust collection port.

Preferably, the mobile multipurpose cleaning base station comprises a dust collection assembly for sucking external dirt, the base station body is provided with a dust collection assembly, the dust collection assembly is provided with a dust collection channel, the dust collection assembly is connected with the dust collection channel through an air channel switching module, the air channel switching module is provided with two switching positions, and the air channel switching module moves between different switching positions so that the dust collection assembly is communicated with or disconnected from the dust collection channel.

Preferably, the dust collection assembly is detachably connected with the air duct switching module.

Preferably, the portable multipurpose cleaning base station includes a steam generation module connected with the clean water tank of the water supply assembly to supply steam to the outside.

Preferably, the steam generation module is detachably in butt joint with the clean water tank.

After the technical scheme is adopted, the utility model has the following advantages:

1. according to the movable multipurpose cleaning base station provided by the utility model, the cleaning base station can move through the travelling mechanism, when a user needs to clean an inconvenient article, the cleaning base station can be moved to a proper position, the water supply assembly can supply water outwards through the cleaning assembly, and the sewage pumping assembly can pump external sewage through the cleaning assembly. The functional purpose of the cleaning base station is reasonably expanded through the improvement of the structure, so that the cleaning base station can be used for realizing other purposes besides serving the cleaning robot, the living requirements of users are better met, and the use experience of the users is improved.

2. The cleaning assembly can be detachably connected to the water supply assembly through the water outlet, and when the cleaning assembly is not connected to the water outlet, the water supply assembly supplies water to the cleaning disc through the water outlet. When the cleaning component is connected with the water outlet, the water supply component can supply water outwards through the water outlet and the cleaning component. The cleaning component can be detachably connected to the sewage pumping component through the sewage inlet, and when the cleaning component is not connected to the sewage inlet, the sewage pumping component can pump sewage in the cleaning disc through the sewage inlet. When the cleaning component is connected to the sewage inlet, the pumping component can pump external sewage through the cleaning component and the sewage inlet. The cleaning assembly is reasonably arranged to be respectively matched with the water supply assembly and the sewage pumping assembly, so that the structural requirements of the water supply assembly for outward water supply and the sewage pumping assembly for pumping external sewage are met.

3. The cleaning assembly can also be connected to the water supply pipeline of the water supply assembly through the waterway switching module, and when the cleaning assembly is not connected to the water supply pipeline, the water supply assembly supplies water to the cleaning disc through the water supply pipeline and the waterway switching module. When the cleaning component is connected with the water supply component through the waterway switching module, the water supply component supplies water outwards through the water supply pipeline, the waterway switching module and the cleaning component. The cleaning component can also be connected to the sewage pumping pipeline of the sewage pumping component through the waterway switching module, and when the cleaning component is not connected to the sewage pumping pipeline, the sewage pumping component pumps sewage in the cleaning disc through the sewage pumping pipeline and the waterway switching module. When the cleaning assembly is connected to the sewage pumping assembly through the waterway switching module, the sewage pumping assembly pumps external sewage through the cleaning assembly, the waterway switching module and the sewage pumping pipeline. The cleaning assembly is reasonably arranged to be respectively matched with the water supply assembly and the sewage pumping assembly, so that the structural requirements of the water supply assembly for outward water supply and the sewage pumping assembly for pumping external sewage are met.

4. The cleaning component and the waterway switching module are detachably spliced and matched, so that a user can conveniently connect the cleaning component to the water supply pipeline or detach the cleaning component from the water supply pipeline according to use requirements, and the cleaning component is also conveniently connected to the sewage pumping pipeline or detached from the sewage pumping pipeline, thereby being beneficial to improving use experience of the user.

5. Be equipped with buckle structure between cleaning component and the mounting groove, external cleaning component in water route switching module can be through buckle stable in structure insert locate the mounting groove in, avoid cleaning component break away from water route switching module under rivers impact, guarantee the cooperation stability between cleaning component and the water route switching module.

6. When the dust collection assembly is connected to the dust collection port, the dust collection assembly can suck external dirt through the dust collection assembly. When the dust collection assembly is separated from the dust collection port, the dust collection assembly can conduct normal dust collection on the cleaning robot. The functional purpose of the cleaning base station is reasonably expanded through the improvement of the structure, so that the cleaning base station can be used for external dust collection, and a user can conveniently disconnect the dust collection assembly to the dust collection assembly according to the use requirement.

7. When the dust collection assembly is connected with the dust collection channel through the air channel switching module, the dust collection assembly is communicated with the dust collection channel, and the dust collection assembly can suck external dust, hair and other dirt through the dust collection channel, the air channel switching module and the dust collection assembly. When the dust collection assembly is separated from the air duct switching module, the dust collection assembly is disconnected with the dust collection channel, and the dust collection assembly can conduct normal dust collection on the cleaning robot. Through the functional use of clean basic station of improvement reasonable extension of structure, make clean basic station can be used for outside dust absorption, better satisfy user's living demand, be favorable to improving user's use experience.

8. The dust collection assembly is detachably connected with the air duct switching module, so that a user can conveniently connect or disconnect the dust collection assembly with or from the dust collection assembly through the air duct switching module according to use requirements, and the use experience of the user is improved.

9. The steam generating module can be connected with a clean water tank, the clean water tank supplies water to the steam generating module, the steam generating module heats the water to generate high-temperature steam, and the steam can be used for ironing clothes or softening stubborn stains and the like. The functional purpose of the clean base station is reasonably expanded, and the living requirements of users can be better met.

10. The steam generation module can be detachably in butt joint with the clean water tank, so that a user can conveniently connect or disconnect the steam generation module with or from the clean water tank according to use requirements, and the use experience of the user can be improved.

Drawings

Fig. 1 is a diagram of a whole cleaning base station in a first embodiment;

FIG. 2 is a schematic view of a water supply assembly and a dirt extraction assembly in accordance with a first embodiment;

FIG. 3 is a diagram showing a structure of the cleaning assembly according to the first embodiment when the cleaning assembly is separated from the waterway switching module;

FIG. 4 is a diagram illustrating a configuration of the first embodiment when the cleaning assembly is externally connected to the waterway switching module;

FIG. 5 is a diagram showing another construction of the first embodiment when the cleaning assembly is separated from the waterway switching module;

FIG. 6 is a diagram illustrating a water circuit switching module according to a first embodiment when a water circuit switching member is at a first switching position;

FIG. 7 is a diagram illustrating a water circuit switching module according to a first embodiment when the water circuit switching member is at a second switching position;

FIG. 8 is a schematic diagram of a cleaning base station according to a first embodiment;

FIG. 9 is an exploded view of a part of the components of a cleaning base station in the first embodiment;

fig. 10 is an exploded view of the dust box in the first embodiment;

FIG. 11 is a diagram illustrating a configuration of an air duct switch module according to a second embodiment when an air duct switch is at a first switch position;

FIG. 12 is a block diagram of the duct switch module in the second embodiment when the duct switch is in the second switch position;

fig. 13 is a structural view of a steam generating module in the third embodiment;

FIG. 14 is a construction view showing a construction of a steam generating module and a fresh water tank, a foul water tank when the steam generating module is inserted into a mounting chamber according to the third embodiment;

fig. 15 is a schematic structural diagram of the cleaning assembly in the fourth embodiment when the cleaning assembly is connected to the water outlet or the sewage inlet.

In the figure, 100-a base station main body, 110-a hollow pipe column, 110 a-a first hollow pipe column, 110 b-a second hollow pipe column, 120-a mounting groove, 130-a clamping groove, 140-an inner shell, 141-a mounting cavity, 150-a bottom shell, 160-a socket, 170-a convex edge,

200-a cleaning tray, 210-a cleaning tank,

300 parts of water supply assembly, 310 parts of clean water tank, 320 parts of water supply pipeline, 321 parts of water outlet, 330 parts of water supply pump,

400-sewage pumping assembly, 410-sewage tank, 420-sewage pumping pipeline, 421-sewage inlet, 430-sewage pumping pump,

500-waterway switching module, 510-cartridge, 511-first interface, 512-second interface, 513-third interface, 514-first cylinder, 515-second cylinder, 516-third cylinder, 520-waterway switching element, 521-baffle, 522-rod, 530-nipple, 530 a-first nipple, 530 b-second nipple, 540-waterway spring, 550-plug,

600-cleaning assembly, 610-water flow channel, 611-water purification flow channel, 612-sewage flow channel, 620-elastic sleeve, 630-buckle,

710-dust collecting channel, 711-dust collecting port, 720-dust collecting box, 721-dust inlet, 722-air outlet, 723-box, 724-first side plate, 725-second side plate, 726-filter element, 727-bracket, 728-plate, 730-dust collecting fan, 740-dust collecting tube, 741-first tube segment, 742-second tube segment,

800-an air duct switching module, 810-a supporting sleeve, 811-a first ventilation opening, 812-a second ventilation opening, 813-a first convex ring, 814-a second convex ring, 820-an air duct switching piece, 821-a first air duct opening, 822-a second air duct opening, 823-a step surface, 830-an air duct spring,

910-dust suction pipe, 920-steam generating module, 921-steam outlet, 922-water injection joint, 923-electric coupling joint, 924-steam joint.

Detailed Description

The utility model will be further described with reference to the drawings and the specific examples. It is to be understood that the terms "upper," "lower," "left," "right," "longitudinal," "transverse," "inner," "outer," "vertical," "horizontal," "top," "bottom," and the like, as used herein, are merely based on the orientation or positional relationship shown in the drawings and are merely for convenience in describing the present utility model and to simplify the description, and do not indicate or imply that the devices/elements referred to must have or be configured and operated in a particular orientation and therefore should not be construed as limiting the utility model.

Example 1

Referring to fig. 1 to 10, a portable multipurpose cleaning base station according to an embodiment of the present utility model includes a traveling mechanism, a base station main body 100 and a cleaning tray 200 disposed on the traveling mechanism, wherein the base station main body 100 is provided with a water supply assembly 300 for supplying water to the cleaning tray 200 and a sewage pumping assembly 400 for pumping sewage in the cleaning tray 200. The portable multipurpose cleaning base station further includes a cleaning assembly 600, and the cleaning assembly 600 is connected with the water supply assembly 300 and the soil pumping assembly 400 to supply water to the external cleaning objects and pump sewage on the external cleaning objects.

The functional purpose of the cleaning base station is reasonably expanded through the improvement of the structure, so that the cleaning base station can be used for realizing other purposes besides serving the cleaning robot, the living requirements of users are better met, and the use experience of the users is improved.

Referring to fig. 1 and 2, in the present embodiment, a cleaning tray 200 is detachably mounted on the bottom side of a base station main body 100, and a cleaning tank 210 is provided on the rear side of the cleaning tray 200. The water supply assembly 300 includes a clean water tank 310, a water supply line 320 connected to the clean water tank 310, and a water supply pump 330 provided on the water supply line 320, and a water outlet 321 provided at an end of the water supply line 320 above the cleaning tank 210. The sewage pumping assembly 400 comprises a sewage tank 410, a sewage pumping pipeline 420 connected with the sewage tank 410 and a sewage pumping pump 430 arranged on the sewage pumping pipeline 420, wherein a sewage inlet 421 which can be communicated with the cleaning tank 210 is arranged at the tail end of the sewage pumping pipeline 420, and water in the clean water tank 310 can flow to the cleaning tank 210 through the water supply pipeline 320 and the water outlet 321 under the pumping action of the water supply pump 330 for cleaning the mop of the cleaning robot. After the mop cleaning is finished, the sewage in the cleaning tank 210 can flow to the sewage tank 410 through the sewage inlet 421 and the sewage pumping pipeline 420 under the pumping action of the sewage pumping pump 430, so as to realize the sewage pumping purpose. It can be understood that the running mechanism in this embodiment may use a roller disposed at the bottom of the base station main body 100, where the roller rolls when the user pushes and pulls the cleaning base station, and of course, the running mechanism may also use a self-driving mode, where the motor drives the running wheel to roll so as to move the cleaning base station, and this embodiment does not limit the running mechanism too much.

Referring to fig. 2, the cleaning assembly 600 is connected to the water supply line 320 and the soil pumping line 420 through the waterway switching module 500. The waterway switching module 500 on the water supply line 320 has two switching positions, and the waterway switching module 500 is moved between the two switching positions so that the fresh water tank 310 of the water supply assembly 300 communicates with the washing assembly 600 or the washing tray 200. The waterway switching module 500 on the sewage pumping line 420 also has two switching positions, and the waterway switching module 500 is moved between the two switching positions so that the sewage tank 410 of the sewage pumping assembly 400 communicates with the washing assembly 600 or the washing tray 200.

Referring to fig. 3, 4, 6 and 7, in this embodiment, the waterway switching module 500 includes a tube shell 510, a waterway switching member 520 for switching a flow channel in the tube shell 510, and a docking tube 530 matched with the cleaning assembly 600, where the tube shell 510 is provided with a first interface 511, a second interface 512 and a third interface 513, the first interface 511 is communicated with the second interface 512 to realize conduction of the water supply pipeline 320 or the sewage pumping pipeline 420, and the first interface 511 is communicated with the third interface 513 to realize conduction of the docking tube 530 and the water supply pipeline 320 or the docking tube 530 and the sewage pumping pipeline 420. The cleaning assembly 600 is provided with a water flow channel 610 that can be communicated with the docking pipe 530, and the cleaning assembly 600 externally connected to the waterway switching module 500 enables the waterway switching piece 520 to be switched from the communication between the first interface 511 and the second interface 512 to the communication between the first interface 511 and the third interface 513, and enables the water flow channel 610 to be communicated with the docking pipe 530. In this embodiment, the pipe shell 510 is provided with a first column 514, a second column 515 and a third column 516 protruding outwards around three connectors, the waterway switching module 500 arranged on the water supply pipeline 320 is connected to the water supply pipeline 320 through the first column 514 and the second column 515, and the waterway switching module 500 arranged on the sewage pumping pipeline 420 is connected to the sewage pumping pipeline 420 through the first column 514 and the second column 515. Referring to fig. 5, two hollow columns 110 corresponding to the docking pipes 530 of the two waterway switching modules 500 are provided on the housing of the base station main body 100, and the two hollow columns are a first hollow column 110a and a second hollow column 110b. The butt joint pipe 530 comprises a first butt joint pipe 530a for connecting the third column 516 of the waterway switching module 500 and the first hollow column 110a on the water supply pipeline 320, and a second butt joint pipe 530b for connecting the third column 516 of the waterway switching module 500 and the second hollow column 110b on the sewage pumping pipeline 420, wherein the butt joint pipe 530 can be a hose, and two ends of the hose are respectively sleeved on the corresponding third column 516 and hollow column 110. It is understood that the waterway switching module 500 provided on the water supply line 320 and the waterway switching module 500 provided on the sewage pumping line 420 may be assembled into one module or may be divided into two modules.

Referring to fig. 5, in the present embodiment, the water flow channel 610 of the cleaning assembly 600 includes a purified water flow channel 611 corresponding to the first hollow column 110a and a sewage flow channel 612 corresponding to the second hollow column 110b. In order to achieve a sealing fit between the hollow string 110 and the water flow channel 610, the clean water flow channel 611 and the sewage flow channel 612 are preferably formed of a hollow elastic sleeve 620, the clean water flow channel 611 is interference fit with the first hollow string 110a, and the sewage flow channel 612 is interference fit with the second hollow string 110b. When the cleaning assembly 600 is externally connected to the waterway switching module 500, the first hollow pipe column 110a is inserted into the purified water channel 611, and the second hollow pipe column 110b is inserted into the sewage channel 612.

In order to keep the cleaning assembly 600 stable when being externally connected to the waterway switching module 500, the casing of the base station main body 100 is formed with a mounting groove 120 matched with the cleaning assembly 600, a fastening structure is arranged between the cleaning assembly 600 and the mounting groove 120, and two hollow pipe columns 110 extend into the mounting groove 120. When the cleaning assembly 600 is inserted into the installation groove 120 through the snap structure, the hollow pipe string 110 is inserted into the corresponding water flow channel 610. The cleaning assembly 600 can be stably inserted into the mounting groove 120 through the fastening structure, so that the cleaning assembly 600 is prevented from being separated from the waterway switching module 500 under the impact of water flow, and the cooperation stability between the cleaning assembly 600 and the waterway switching module 500 is ensured. In this embodiment, the outer wall of the cleaning assembly 600 is provided with a buckle 630, the groove wall of the mounting groove 120 is provided with a clamping groove 130 matched with the buckle 630, and when the cleaning assembly 600 is inserted into the mounting groove 120, the buckle 630 is clamped into the clamping groove 130, so that the cleaning assembly 600 is limited. It is to be understood that the limiting structure between the cleaning assembly 600 and the mounting groove 120 is not limited to the structure of the engaging buckle 630 and the clamping groove 130, and other reasonable structures can be adopted.

Referring to fig. 6 and 7, in the present embodiment, the waterway switching member 520 includes a baffle 521 disposed in the tube housing 510 and a rod 522 extending out of the tube housing 510, one end of the rod 522 is inserted into the tube housing 510, the other end extends out of the tube housing 510, and the baffle 521 is provided with two baffles along the axial direction of the rod 522 at intervals. Referring to fig. 6, when the waterway switching member 520 is at the first switching position, the second interface 512 is located between the two baffles 521, the first interface 511 is communicated with the second interface 512, the water supply pipeline 320 is conducted through the waterway switching module 500 disposed thereon, and the sewage pumping pipeline 420 is conducted through the waterway switching module 500 disposed thereon. Referring to fig. 7, when the waterway switching member 520 is at the second switching position, the third interface 513 is located between the two baffles 521, the first interface 511 is communicated with the third interface 513, the clean water channel 611 is communicated with the water supply pipeline 320, the sewage channel 612 is communicated with the sewage pumping pipeline 420, the clean water in the clean water tank 310 can flow out through the water supply pipeline 320, the waterway switching module 500 arranged on the water supply pipeline 320, the first butt joint pipe 530a, the first hollow pipe column 110a and the clean water channel 611 under the pumping action of the water pump 330, and external sewage can flow into the sewage tank 410 through the sewage channel 612, the second hollow pipe column 110b, the second butt joint pipe 530b, the waterway switching module 500 arranged on the sewage pumping pipeline 420 and the sewage pumping pipeline 420 under the action of the sewage pumping pump 430, so as to achieve the purpose of pumping external sewage.

In order to avoid leakage, the outer periphery of the baffle 521 is sleeved with a sealing ring, and circumferential sealing fit between the baffle 521 and the pipe shell 510 is realized through the sealing ring. In order to enable the waterway switching member 520 to move from the first switching position to the second switching position when the cleaning assembly 600 is externally connected to the waterway switching module 500, the other end of the rod 522 extends into the mounting groove 120, and the cleaning assembly 600 inserted into the mounting groove 120 abuts against the rod 522, so that the waterway switching member 520 can be forced to move.

In order to enable the waterway switching piece 520 to automatically return from the second switching position to the first switching position, the waterway switching module 500 further includes a waterway elastic piece acting on the waterway switching piece 520. The cleaning assembly 600 is externally connected to the waterway switching module 500, so that the waterway elastic member is forced to deform when the waterway switching member 520 moves from the first switching position to the second switching position. When the cleaning assembly 600 is separated from the waterway switching module 500, the waterway elastic member that restores the deformation drives the waterway switching member 520 to reset from the second switching position to the first switching position. In this embodiment, the waterway elastic member preferably adopts a waterway spring 540, one end of the tube shell 510 is closed, the other end is open, the waterway spring 540 is disposed in the tube shell 510, one end of the waterway spring abuts against the closed end of the tube shell 510, the other end abuts against the baffle 521 of the waterway switching member 520, the open end of the tube shell 510 is provided with a plug 550, and the rod 522 of the waterway switching member 520 extends out of the tube shell 510 from the plug 550. When the waterway switching member 520 is moved from the first switching position to the second switching position, the waterway spring 540 is forced to compress. When the cleaning assembly 600 is separated from the waterway switching module 500, the waterway spring 540, which is deformed, drives the waterway switching member 520 to reset from the second switching position to the first switching position. It should be understood that the waterway elastic member may be other reasonable elastic members, and the specific structure of the tube shell 510 is not limited to the above description and the drawings, but may be other reasonable structures, such as two ends of the tube shell 510 are open, and one end of the waterway spring 540 abuts against a rib structure in the base station main body 100 to achieve positioning.

When the cleaning robot stops at the cleaning base station and needs to clean the mop, the waterway switching member 520 of the waterway switching module 500 is at the first switching position, the water supply assembly 300 can supply water to the cleaning tank 210 for cleaning the mop, and after the cleaning is finished, the sewage pumping assembly 400 pumps sewage in the cleaning tank 210 into the sewage tank 410.

When the user needs to clean the inconvenient articles, the cleaning base station can be moved to a proper position, then the cleaning assembly 600 is inserted into the installation groove 120 to be matched with the waterway switching module 500, the waterway switching piece 520 of the waterway switching module 500 is moved from the first switching position to the second switching position, the cleaning assembly 600 is additionally connected with a water outlet pipe and a water return pipe, and the water supply assembly 300 can supply water to the outside through the waterway switching module 500, the water purifying runner 611 and the water outlet pipe which are arranged on the water supply pipeline 320 for infiltration and cleaning of other articles. When the sewage is required to be pumped, the sewage pumping assembly 400 may pump the sewage into the sewage tank 410 through the water return pipe, the sewage flow passage 612, the waterway switching module 500 provided on the sewage pumping pipeline 420, and the sewage pumping pipeline 420. After the use is finished, the cleaning assembly 600 is pulled out, and the waterway spring 540 drives the waterway switching piece 520 to automatically reset to the first switching position.

It is understood that the waterway switching module 500 may be provided only on the water supply line 320, and the cleaning assembly 600 may be provided only with the purified water channel 611, and the water supply assembly 300 may be supplied with water through the cleaning assembly 600. Alternatively, the waterway switching module 500 may be provided only on the sewage suction pipe 420, and the cleaning module 600 may be provided only with the sewage flow passage 612, and the sewage suction module 400 may suck external sewage through the cleaning module 600.

Referring to fig. 8, 9 and 10, the cleaning base station of the present embodiment further has a dust collecting function, a dust collecting assembly including a dust collecting channel 710, a dust collecting box 720 and a dust collecting fan 730 is disposed in the base station main body 100, the dust collecting box 720 is provided with a dust inlet 721 corresponding to the dust collecting channel 710 and an air outlet 722 corresponding to the dust collecting fan 730, and the dust collecting assembly can suck dirt in the dust collecting box 720 in the cleaning robot so as to reduce the cleaning frequency of a user.

Referring to fig. 10, the dust collecting box 720 includes a box body 723, a first side plate 724, a second side plate 725, a filter 726 and a bracket 727, the dust inlet 721 is disposed on the first side plate 724, the air outlet 722 is disposed on the second side plate 725, the first side plate 724 and the second side plate 725 are detachably fixed on two opposite sides of the dust collecting box 720 through fastening structures, a plate 728 for opening and closing the dust inlet 721 is hinged to an inner side of the first side plate 724, and the filter 726 is detachably disposed on an inner side of the second side plate 725 through the bracket 727.

Referring to fig. 9, the base station body 100 includes an inner case 140 and a bottom case 150 fixed together and distributed up and down, the inner case 140 is formed with an installation cavity 141 into which a dust box 720 is inserted, the dust box 720 is detachably installed in the base station body 100 through cooperation with the installation cavity 141, and opposite sides of the inner case 140 are provided with openings for avoiding dust inlet 721 and air outlet 722. The bottom chassis 150 is formed with a cavity into which the cleaning tray 200 is inserted, and when the cleaning tray 200 is mounted to the base station main body 100, the rear side of the cleaning tray 200 is inserted into the cavity of the bottom chassis 150, and the cleaning tray 200 and the bottom chassis 150 cooperate to form a docking cavity into which the rear of the cleaning robot enters. The dust collection channel 710 is formed of a dust collection tube 740, a lower end of the dust collection tube 740 is extended into the docking chamber and forms a dust collection port 711 for docking engagement with the cleaning robot, and an upper end of the dust collection tube 740 is connected with the inner case 140.

When collecting dust, the dust collecting box 720 is inserted into the mounting cavity 141, the dust collecting fan 730 works to provide suction force to form dust collecting air flow, the dust collecting air flow flows through the dust box in the cleaning robot and flows into the dust collecting box 720 through the dust collecting channel 710 and the dust inlet 721, dirt in the dust box flows into the dust collecting box 720 along with the dust collecting air flow and is accumulated in the dust collecting box 720, and the dust collecting air flow flowing through the dust collecting box 720 flows out from the air outlet 722 after being filtered by the filter 726 and is discharged through the dust collecting fan 730.

Example two

Referring to fig. 11 and 12, in the present embodiment, the portable multipurpose cleaning base station includes a dust collection assembly for sucking external dirt, the dust collection assembly is connected to the dust collection channel 710 through an air duct switching module 800, the air duct switching module 800 has two switching positions, and the air duct switching module 800 moves between the different switching positions so as to connect or disconnect the dust collection assembly to or from the dust collection channel 710.

In this embodiment, the air duct switching module 800 includes a supporting sleeve 810 disposed on the dust collecting channel 710, an air duct switching member 820 disposed in the supporting sleeve 810, and an air duct elastic member acting on the air duct switching member 820, where the air duct switching member 820 is provided with a first air duct opening 821 for conducting the dust collecting port and the dust inlet, and a second air duct opening 822 for conducting the dust collecting pipe 910 and the dust inlet. The dust collection pipe 910 is externally connected to the air channel switching module 800, so that when the air channel switching member 820 moves to the state that the dust collection pipe 910 is communicated with the dust inlet through the second air channel opening 822, the air channel elastic member is stressed to deform. When the dust collection pipe 910 is separated from the air duct switching module 800, the air duct elastic member which is restored to be deformed drives the air duct switching member 820 to move and reset to the position where the dust collection port and the dust inlet port are communicated through the first air duct port 821.

The dust collecting pipe forming the dust collecting channel 710 adopts a combined structure and comprises a first pipe section 741 and a second pipe section 742, the air duct switching module 800 is arranged between the first pipe section 741 and the second pipe section 742, the tail end of the first pipe section 741, which is far away from the air duct switching module 800, stretches into the parking cavity, the dust collecting port is arranged at the tail end of the first pipe section 741, and the tail end of the second pipe section 742, which is far away from the air duct switching module 800, is connected with the inner shell. The support sleeve 810 is provided with a first ventilation opening 811 corresponding to the first pipe section 741, a second ventilation opening 812 corresponding to the second pipe section 742, a first convex ring 813 protruding outwards around the first ventilation opening 811, and a second convex ring 814 protruding outwards around the second ventilation opening 812, wherein one end of the first pipe section 741 is positioned and inserted in the first convex ring 813 and is in sealing fit with the support sleeve 810, and one end of the second pipe section 742 is positioned and inserted in the second convex ring 814 and is in sealing fit with the support sleeve 810. It should be understood that the specific mating structure between the first tube segment 741 and the support sleeve 810 and the second tube segment 742 and the support sleeve 810 is not limited to the above description and the drawings, and other reasonable structures may be adopted, such as the tube segment is fixedly sleeved outside the corresponding convex ring, etc.

The dust collection assembly is detachably connected with the air duct switching module 800, the dust collection assembly comprises a dust collection pipe 910, a positioning part matched with the dust collection pipe 910 is arranged on the inner wall of the second air duct opening 822, when the dust collection pipe 910 is externally connected with the air duct switching module 800, the dust collection pipe 910 is inserted into the second air duct opening 822 to be in contact with the positioning part and force the air duct switching piece 820, so that the air duct switching piece 820 can be stressed to move, meanwhile, the insertion depth of the dust collection pipe 910 can be limited through the positioning part, and the situation that the dust collection pipe 910 is excessively deep in insertion and inconvenient to pull out is avoided. In this embodiment, the positioning portion is a step surface 823 provided on the inner wall of the second air duct port 822. It is understood that the positioning portion on the inner wall of the second air duct opening 822 may also adopt other reasonable structures such as positioning protrusions, annular positioning ribs, etc.

In this embodiment, the air duct elastic member preferably adopts an air duct spring 830, and the air duct spring 830 is disposed in the support sleeve 810 and abuts against the air duct switching member 820. Specifically, one end of the supporting sleeve 810 is closed, the other end is open, the air duct spring 830 is disposed in the supporting sleeve 810 in a compressed state, one end of the air duct spring abuts against the closed end of the supporting sleeve 810, and the other end of the air duct spring abuts against the air duct switching member 820. It will be appreciated that other reasonable elastic members may be adopted for the air duct elastic member, and in addition, the specific structure of the supporting sleeve 810 is not limited to the foregoing description and the accompanying drawings, and other reasonable structures may be also adopted, for example, two ends of the supporting sleeve 810 are open, and one end of the air duct spring 830 abuts against a rib structure in the base station main body to realize positioning.

Normally, the air duct spring 830 applies a force to the air duct switching member 820 to make the air duct switching member 820 at the first switching position shown in fig. 11, at this time, the first air duct opening 821 corresponds to the first air vent 811 and the second air vent 812, the dust collecting channel 710 is conducted through the first air duct opening 821, and the dust collecting assembly can be used to implement a conventional dust collecting function.

When the dust collection pipe 910 is externally connected to the air duct switching module 800, the air duct switching member 820 is forced to move to a second switching position shown in fig. 12, and the air duct spring 830 is forced to compress, at this time, the first air duct opening 821 and the first air vent 811 and the second air vent 812 are staggered, the second air duct opening 822 and the second air vent 812 are correspondingly communicated, the dust collection pipe 910 is communicated with the dust inlet through the second air duct opening 822, the second air vent 812 and part of the dust collection channel 710, and when the dust collection fan 730 works, suction force is provided to flow from the dust collection pipe 910 and then flow into the dust collection box through the second air duct opening 822, the second air vent 812, the dust collection channel 710 and the dust inlet 721, and external dirt is sucked into the dust collection box under the action of the dust collection air flow, so as to achieve the dust collection purpose.

When the dust suction pipe 910 is separated from the air duct switching module 800, the acting force of the dust suction pipe 910 on the air duct switching member 820 is eliminated, and the deformed air duct spring 830 drives the air duct switching member 820 to return from the second switching position to the first switching position.

In this embodiment, the casing of the base station main body is provided with a socket 160 into which the dust suction pipe 910 is inserted and a protruding edge 170 protruding inwards around the socket 160, the inner diameter of the protruding edge 170 is larger than the caliber of the socket 160, so that a rectangular limit step is formed between the protruding edge 170 and the casing, the open end of the supporting sleeve 810 is inserted into the protruding edge 170 and is in interference with the limit step, the outer diameter of the air duct switching member 820 is larger than the caliber of the socket 160 and smaller than the inner diameter of the supporting sleeve 810, and the air duct switching member 820 is in interference with the limit step when in the first switching position, so that the air duct switching member 820 is axially limited, and the air duct switching member 820 is prevented from being separated from the supporting sleeve 810 under the elastic force of the air duct spring 830.

In order to facilitate the user to identify whether the air duct switch 820 is inserted in place when being docked with the dust suction pipe 910, a limiting protrusion may be disposed on the inner wall of the support sleeve 810, and the air duct switch 820 is at the second switch position when it is moved to abut against the limiting protrusion and cannot move continuously. It can be appreciated that, in order to improve the stability of the fit between the dust suction pipe 910 and the air duct switching module 800, a fastening structure that is mutually matched may be disposed between the dust suction pipe 910 and the housing of the base station main body, and the dust suction pipe 910 that is externally connected to the air duct switching module 800 is limited by the fastening structure.

In order to avoid air leakage, a circumferential sealing structure is provided between the duct switcher 820 and the support sleeve 810. In this embodiment, the circumferential seal matching structure includes a seal ring that is positioned around the air duct switching member 820, and the seal ring is provided with a plurality of seal rings along the axial direction of the air duct switching member 820 at intervals. When the air duct switching member 820 is at the first switching position, the dust collection channel 710 is sealed and communicated through the first air duct opening 821 by the circumferential sealing structure. When the air duct switching member 820 is at the second switching position, the dust collection pipe 910 and the dust collection channel 710 are in sealing communication through the second air duct opening 822 by the circumferential sealing structure.

Other structures of the second embodiment are the same as those of the first embodiment, and will not be described in detail here.

Example III

In combination with fig. 13 and 14, in this embodiment, the portable multipurpose cleaning base station further includes a steam generating module 920 that can be in butt joint with the clean water tank 310, a heating element for heating water into high-temperature steam is provided inside the steam generating module 920, the clean water tank 310 can supply water to the steam generating module 920, the steam generating module 920 can be used for ironing clothes, softening stubborn stains, etc. by discharging the high-temperature steam generated by heating water outwards, the functional use of the cleaning base station can be reasonably expanded, and the living demands of users can be better met.

To facilitate the user's disassembly and assembly of the steam generating module 920 according to the use requirement, the steam generating module 920 is detachably coupled to the fresh water tank 310 in a butt-joint manner. In this embodiment, the front side of the steam generating module 920 is provided with a steam outlet 921, and the top side of the steam generating module 920 is provided with a water injection joint 922 for butt-fitting with the fresh water tank 310 and an electric coupling joint 923 for realizing power connection. It will be appreciated that, for convenience of use, a steam connector 924 may be provided on the steam generating module 920 for externally connecting the nozzle, and a steam outlet 921 is provided on the steam connector 924, so that the user may connect the nozzle to the steam connector 924 through a hose when using the device.

In order to reduce the structural difficulty of the base station main body and reasonably control the appearance size of the cleaning base station, the appearance of the steam generation module 920 is consistent with that of the dust box, and the base station main body can simultaneously meet the installation requirements of the steam generation module 920 and the dust box only by arranging one installation cavity. When the cleaning robot needs to collect dust, the dust box is inserted into the installation cavity. When it is desired to iron laundry or soften stubborn stains, the steam generation module 920 is inserted into the mounting cavity.

Other structures of the third embodiment are the same as those of the first embodiment, and will not be described in detail here.

It will be appreciated that the third embodiment may be combined with the second embodiment.

Example IV

Referring to fig. 15, in this embodiment, the cleaning assembly 600 is detachably connected to the water outlet 321 of the water supply assembly and the sewage inlet 421 of the sewage pumping assembly, specifically, the cleaning assembly 600 may be sleeved at the end of the water outlet pipe 320 to enable the water flow channel 610 to communicate with the water outlet 321, and the cleaning assembly 600 may also be sleeved at the end of the sewage pumping pipe 420 to enable the water flow channel 610 to communicate with the sewage inlet 421.

It will be appreciated that when the water outlet 321 and the dirt inlet 421 are spaced relatively far apart, the cleaning assembly 600 may be provided with two and detachably connected to the water outlet 321 and the dirt inlet 421, respectively.

It is understood that the cleaning assembly 600 may be inserted into the water outlet 321 to communicate the water flow channel 610 with the water supply line 420, and of course, the cleaning assembly 600 may be inserted into the sewage inlet 421 to communicate the water flow channel 610 with the sewage pumping line 420.

Other structures of the fourth embodiment are the same as those of the first embodiment, and will not be described in detail here.

It will be appreciated that the fourth embodiment may be combined with the second embodiment.

It will be appreciated that the fourth embodiment may be combined with the third embodiment.

Example five

In this embodiment, the dust collection assembly is directly engaged with the dust collection port of the dust collection assembly. When external dust collection is needed, the dust collection component is inserted into the dust collection port, or the dust collection component is sleeved outside the tail end of the dust collection pipe.

Other structures of the fifth embodiment are the same as those of the first embodiment, and will not be described in detail here.

It will be appreciated that embodiment five may be combined with embodiment three.

It will be appreciated that embodiment four may be combined with embodiment four.

In addition to the above preferred embodiments, the present utility model has other embodiments, and various changes and modifications may be made by those skilled in the art without departing from the spirit of the utility model, which shall fall within the scope of the utility model as defined in the appended claims.

Claims (10)

1. The utility model provides a clean basic station of portable multipurpose, includes running gear and locates the basic station main part and the washing dish on the running gear, and the basic station main part is equipped with the water supply subassembly that is used for supplying water to the washing dish and is used for drawing the dirt subassembly of taking out of the interior sewage of washing dish, its characterized in that, the clean basic station of portable multipurpose includes the washing subassembly, and the washing subassembly is connected with water supply subassembly and/or dirt subassembly to supply water and/or take out the sewage on the clean thing of outside to the clean thing of outside waiting.

2. A mobile multipurpose cleaning base station according to claim 1, wherein the water supply assembly is provided with a water outlet, the dirt extraction assembly is provided with a dirt inlet, and the cleaning assembly is detachably connected to the water outlet of the water supply assembly and/or the dirt inlet of the dirt extraction assembly.

3. The portable multipurpose cleaning base station of claim 1, wherein the cleaning assembly is connected to the water supply line of the water supply assembly by a waterway switching module having two switching positions, the waterway switching module being movable between the two switching positions to communicate the clean water tank of the water supply assembly with the cleaning assembly or the cleaning tray; and/or the cleaning assembly is connected with the sewage pumping pipeline of the sewage pumping assembly through the waterway switching module, the waterway switching module is provided with two switching positions, and the waterway switching module moves between the two switching positions so as to enable the sewage tank of the sewage pumping assembly to be communicated with the cleaning assembly or the cleaning disc.

4. A mobile utility cleaning base station according to claim 3, wherein the cleaning assembly is removably insertable into engagement with the waterway switching module.

5. The portable multipurpose cleaning base station of claim 4, wherein the base station body has a mounting slot into which the cleaning assembly is inserted, and a snap-fit structure is provided between the cleaning assembly and the mounting slot.

6. The portable multipurpose cleaning base station of claim 1, wherein the portable multipurpose cleaning base station includes a dust collection assembly for sucking external dirt, the base station body is provided with a dust collection assembly, the dust collection assembly is provided with a dust collection port, and the dust collection assembly is detachably connected to the dust collection port.

7. The portable multipurpose cleaning base station of claim 1, wherein the portable multipurpose cleaning base station includes a dust collection assembly for sucking external dirt, the base station body is provided with a dust collection assembly, the dust collection assembly is provided with a dust collection channel, the dust collection assembly is connected with the dust collection channel through an air duct switching module, the air duct switching module has two switching positions, and the air duct switching module moves between different switching positions to connect or disconnect the dust collection assembly with the dust collection channel.

8. The portable multipurpose cleaning base station of claim 7, wherein the dust collection assembly is removably connected to the air duct switching module.

9. The portable multipurpose cleaning base station of claim 1, including a steam generation module connected to the clean water tank of the water supply assembly to provide steam to the outside.

10. The mobile utility cleaning base station of claim 9, wherein the steam generation module is removably mated with the clean water tank.