CN215534018U

CN215534018U - Cleaning equipment system, cleaning equipment and base station

Info

Publication number: CN215534018U
Application number: CN202120561045.1U
Authority: CN
Inventors: 范融
Original assignee: Tineco Intelligent Technology Co Ltd
Current assignee: Tineco Intelligent Technology Co Ltd
Priority date: 2021-03-18
Filing date: 2021-03-18
Publication date: 2022-01-18
Anticipated expiration: 2031-03-18

Abstract

The embodiment of the utility model provides a cleaning equipment system, cleaning equipment and a base station, wherein the cleaning equipment system comprises the cleaning equipment and the base station, when the cleaning equipment is placed on an upper cover, a water supply connector is communicated with a nozzle, a water supply device supplies water to the nozzle through the water supply connector, and the nozzle sprays water in different directions through a plurality of water spray nozzle groups. According to the technical scheme provided by the embodiment of the utility model, the cleaning equipment can be matched with a base station to be used, and water spraying on different parts in the floor brush assembly is realized, so that the different parts in the floor brush assembly are automatically cleaned without manual cleaning of a user, and the use comfort level is increased.

Description

Cleaning equipment system, cleaning equipment and base station

Technical Field

The utility model relates to the technical field of machinery, in particular to a cleaning equipment system, cleaning equipment and a base station.

Background

With the development of technology, in order to facilitate people's lives, various movable cleaning devices are brought into people's lives, for example, a washing machine is one of the movable cleaning devices. Taking the cleaning machine as an example, most cleaning machines are provided with a solution barrel and a recovery barrel, when cleaning operation is carried out, the solution barrel sprays solution to the ground so as to clean the ground, and sewage generated in the cleaning process can be collected into the recovery barrel.

However, when the existing cleaning machine is used, when the amount of sewage in the recycling bin is large, the recycling bin needs to be detached manually, and then the sewage in the recycling bin is discharged to prevent the recycling bin from smelling. Meanwhile, when the rolling brush finishes cleaning operation, the rolling brush also needs to be taken down and cleaned by a user, so that the user experience is poor.

SUMMERY OF THE UTILITY MODEL

In view of the above problems, embodiments of the present invention are proposed in order to provide a cleaning apparatus system, a cleaning apparatus, and a base station that solve the above problems.

In one embodiment of the present invention, there is provided a cleaning device system including:

the cleaning device comprises a ground brush assembly, wherein the ground brush assembly comprises a shell and a nozzle arranged in the shell; the nozzle is provided with a plurality of water spraying nozzle groups for spraying water to different directions;

a base station, the base station comprising: the bottom box is provided with a clear water area, and a water supply device is arranged in the clear water area; the upper cover is connected with the bottom box and at least covers the clean water area, and a water supply joint communicated with the water supply device is arranged on the upper cover;

when the cleaning equipment is placed on the upper cover, the water supply connector is communicated with the nozzle, and the water supply device supplies water to the nozzle through the water supply connector.

Optionally, the set of water jets comprises a plurality of water jets;

the direction of the water spraying nozzles in the same group of water spraying nozzle groups is the same, and the direction of the water spraying nozzles in different water spraying nozzle groups is different;

the calibers of the plurality of water jet nozzles in the same group of water jet nozzle groups are the same or different, and the calibers of the water jet nozzles in different water jet nozzle groups are the same or different.

Optionally, the nozzle comprises a nozzle body, the nozzle body is provided with a water inlet connecting pipe, and the water inlet connecting pipe is provided with a water inlet;

the sprayer body is provided with a plurality of water spraying opening groups, and the plurality of water spraying openings in each water spraying opening group are arranged at intervals along the length direction of the sprayer body.

Optionally, a rolling brush and a dust box are arranged in the shell;

in the plurality of water spray nozzle groups, at least one part of the water spray nozzle groups face the rolling brush, and at least one part of the water spray nozzle groups face the dust box.

Optionally, the bottom of the dust box is provided with a sewage outlet; a cleaning opening is formed in the bottom of the shell in the area corresponding to the rolling brush, a dirty outlet is formed in the area corresponding to the sewage outlet, and a dirty cover for covering the dirty outlet is arranged at the dirty outlet;

the bottom box also has a recovery zone; the upper cover covers the recovery area, a first sewage inlet is formed in the area, corresponding to the cleaning port, of the upper cover, a second sewage inlet is formed in the area, corresponding to the dirty outlet area, of the upper cover, and the first sewage inlet and the second sewage inlet correspond to the recovery area; an uncovering structure is arranged in the area, corresponding to the dirty cover, of the upper cover;

when the cleaning equipment is placed on the upper cover, dirt on the roller brush can flow into the recovery area through the cleaning port and the first dirt inlet, the cover opening structure opens the dirt cover, and dirt in the dust box can flow into the recovery area through the drain port, the dirt outlet and the second dirt inlet.

Optionally, the lid opening structure is the water supply joint; or the cover opening structure is a convex structure which is positioned on the upper cover and extends towards the direction of the floor brush assembly.

Optionally, a guide wall is provided on a circumferential outer periphery of the first dirty inlet, and the guide wall extends in the direction of the recovery area.

Optionally, a guide inclined plate is arranged at the second sewage inlet, one end of the guide inclined plate is connected with the upper cover, and the other end of the guide inclined plate extends obliquely towards the recovery area.

Optionally, a filtering structure is arranged in the recovery area and at least positioned on the effluent path of the second sewage inlet.

Correspondingly, an embodiment of the present invention further provides a cleaning apparatus, including:

the floor brush assembly comprises a shell and a nozzle arranged in the shell; the nozzle has a plurality of water jet groups for jetting water in different directions.

Optionally, the set of water jets comprises a plurality of water jets;

the calibers of the plurality of water jet nozzles in the same group of water jet nozzle groups are the same or different, and the calibers of the water jet nozzles in different water jet nozzle groups are the same or different. Optionally, a rolling brush and a dust box are arranged in the shell;

the bottom of the dust box is provided with a sewage outlet; the bottom of casing corresponds the region of round brush is equipped with clean mouthful, corresponds the region of drain is equipped with dirty export, dirty exit is equipped with to cover closes the dirty lid of dirty export.

Correspondingly, an embodiment of the present invention further provides a base station of a cleaning device, including:

the bottom box is provided with a clear water area, and a water supply device is arranged in the clear water area;

the upper cover is connected with the bottom box and at least covers the clean water area, and a water supply connector communicated with the water supply device is arranged on the upper cover.

Optionally, the back box further has a recovery zone; the upper cover covers the recovery area, a first sewage inlet and a second sewage inlet are formed in the upper cover, and the first sewage inlet and the second sewage inlet correspond to the recovery area;

the upper cover is also provided with a cover opening structure.

Optionally, the bottom box further comprises a clear water bucket and a recovery bucket;

the clear water barrel is detachably arranged in the bottom box and is used as the clear water area;

the recycling bin is detachably arranged in the bottom box and serves as the recycling area.

In addition, optionally, still be equipped with the moisturizing structure in the clear water district, cover on have with the moisturizing of moisturizing structure intercommunication connects.

According to the technical scheme provided by the embodiment of the utility model, the cleaning equipment can be matched with the base station for use, when the cleaning equipment is placed on the base station, the base station bears the cleaning equipment through the upper cover, the water supply connector is communicated with the nozzle to supply water to the nozzle, and the nozzle sprays water in different directions through the plurality of water spray nozzle groups respectively to realize water spraying on different parts in the floor brush assembly, so that the automatic cleaning of the different parts in the floor brush assembly is realized, manual cleaning of a user is not required, and the use comfort level is increased.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly introduced below, and it is obvious that the drawings in the following description are some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

FIG. 1 is an exploded view of a cleaning device system according to an embodiment of the present invention;

FIG. 2 is an exploded view of a floor brush assembly according to an embodiment of the present disclosure;

FIG. 3 is a schematic cross-sectional view of a cleaning device system according to an embodiment of the present invention;

FIG. 4 is an enlarged schematic view of the structure at A in FIG. 3;

fig. 5 is an exploded schematic view of a base station according to an embodiment of the present invention.

Detailed Description

In order to make the technical solutions of the present invention better understood, the technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention.

The inventor finds that manual operation is needed when cleaning a recycling bin and a rolling brush of a cleaning machine in the process of practicing the embodiment of the utility model, so that the workload of cleaning operation of a user is increased, and the user experience is poor.

In view of the above problems, embodiments of the present invention provide a cleaning device system, a cleaning device, and a base station that solve the above problems.

The technical solution in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention. It is to be understood that the described embodiments are merely exemplary of the utility model, and not restrictive of the full scope of the utility model. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Fig. 1 is an exploded schematic view of a cleaning device system according to an embodiment of the present invention, as shown in fig. 1.

In one embodiment of the present invention, there is provided a cleaning device 100 system comprising: a cleaning device 100 and a base station 200.

Wherein the cleaning device 100 comprises a floor brush assembly 10, see fig. 2, the floor brush assembly 10 comprises a housing 20 and a nozzle 50 arranged within the housing 20. Referring to fig. 4 in conjunction with fig. 3, the nozzle 50 has a plurality of water jet groups 51 for jetting water in different directions, wherein the dotted arrows in fig. 4 are respectively the directional directions of the water jetting directions of the different water jet groups 51.

Referring to fig. 5 in conjunction with fig. 4, the base station 200 includes: a bottom box 60 and an upper cover 70, wherein the bottom box 60 is provided with a clean water area 61, and a water supply device 64 is arranged in the clean water area 61. The upper cover 70 is connected with the bottom box 60 and at least covers the clean water area 61, and the upper cover 70 is provided with a water supply joint 71 communicated with the water supply device 64.

With continued reference to fig. 3, when the cleaning device 100 is placed on the upper cover 70, the water supply connector 71 is communicated with the nozzle 50, for example, the water supply connector 71 is communicated with the nozzle 50 through the water inlet channel 11, and the water supply device 64 supplies water to the nozzle through the water supply connector 71, so that the nozzle 50 sprays water in different directions through the plurality of water spray nozzle sets 51 with different directions.

In the embodiment of the present invention, the cleaning device 100 includes, but is not limited to, a sweeper, a washer, etc. Taking the cleaning device 100 as the cleaning machine shown in fig. 1 as an example, the cleaning machine includes a machine body 90 and a floor brush assembly 10 disposed on the machine body 90, the floor brush assembly 10 further includes a rolling brush 30 and a dust box 40 disposed in the housing 20, the machine body 90 is further provided with functional units such as a suction system, a control system, etc., and the cleaning operation is completed by matching with the floor brush assembly 10. For example, when the washing machine performs a washing operation, the rolling of the rolling brush 30 in the floor brush assembly 10 performs a function of cleaning the floor. The suction system works to generate negative pressure, the functions of dust collection and sewage collection are realized through the floor brush assembly 10, and the sewage generated by cleaning is collected in the dust box 40. The cleaning device 100 may be a self-moving washing machine in addition to a hand-held washing machine as in fig. 1.

After the user finishes the cleaning operation by using the cleaning device 100, the cleaning device 100 can be placed on the base station 200, the base station 200 bears the cleaning device 100 through the upper cover 70, the water supply connector 71 is communicated with the nozzle 50, the water supply device 64 can convey water in the clean water area 61 to the nozzle 50 through the water supply connector 71 to supply water for the nozzle 50, the nozzle 50 sprays water in different directions through the plurality of water spray nozzle groups 51 respectively, for example, the water can be sprayed into the rolling brush 30 and the dust box 40 respectively, so that the automatic cleaning of the rolling brush 30 and the dust box 40 is realized, the manual cleaning of the user is not needed, and the use comfort is increased.

In the embodiment of the present invention, the water jet nozzle set 51 includes a plurality of water jet nozzles for improving the cleaning efficiency. The orientation of a plurality of water jet nozzles in the same group of water jet nozzle group 51 is the same, so that the plurality of water jet nozzles spray water to different areas of the same component at the same time, different areas of the component are cleaned at the same time, and the cleaning efficiency of the component is improved. The direction of the water jet nozzles in the different water jet nozzle groups 51 is different, so that water is sprayed to different parts through different water jet nozzles at the same time, namely, the parts can be cleaned at the same time, and the cleaning efficiency of the parts is improved.

Further, the diameters of the plurality of water jet ports in the same water jet port group 51 may be the same or different. According to different cleaning requirements of different areas, the diameters of the water spraying ports can be adjusted accordingly, for example, the water spraying port group 51 facing the roller brush 30 has the same diameter of the plurality of water spraying ports on the water spraying port group 51, so that the water yield and the water discharging speed of the water spraying to each area of the roller brush 30 are the same, and the cleaning effect on each area is the same. When the diameters of the plurality of water discharge ports in the water discharge port group 51 are different, one is a mode in which the diameters of the plurality of water discharge ports are different, and the other is a mode in which the diameters of some of the water discharge ports are the same and the diameters of some of the water discharge ports are different. For example, the middle area of the rolling brush 30 is in contact with more dirt and has a larger dirt degree than the two end areas, and the caliber of the water spraying opening facing the middle area of the rolling brush 30 among the water spraying openings is smaller, so that the water outlet speed is faster and the impact force is larger under the condition that the water outlet amount is the same, and the dirt in the middle area of the rolling brush 30 can be cleaned more easily. The water spray nozzles facing the areas at both ends of the rolling brush 30 have a large diameter, and dirt in the areas at both ends of the rolling brush 30 can be washed away by a small impact force.

Further, the diameters of the water jet nozzles in different water jet nozzle groups are the same or different. According to different cleaning requirements of different parts, the diameters of the water spraying ports in different water spraying port groups can be adjusted correspondingly, for example, when two water spraying port groups 51 facing the roller brush 30 and the dust box 40 are taken as examples, the diameters of a plurality of water spraying ports on the two water spraying port groups 51 are the same, so that the water yield and the water discharging speed of water spraying to each area on the roller brush 30 and the dust box 40 are the same, and the cleaning effect on each area is the same.

When the apertures of the plurality of water outlets in the different water outlet sets 51 are different, for example, the apertures of the plurality of water outlets facing the rolling brush 30 are smaller, so that the water outlet speed is faster and the impact force is larger under the condition that the water outlet amount is the same, thereby cleaning the dirt on the rolling brush 30 more easily. The aperture of the water jet opening facing the dust box 40 is large, and dirt in the dust box 40 can be cleaned by small impact force.

It should be noted that, the setting manner of the aperture of the water spraying opening is only an example, in the embodiment of the present invention, the aperture of the water spraying opening may be correspondingly set according to different cleaning requirements, and is not limited to the setting manner in the example, and the specific setting manner, and the embodiment of the present invention is not particularly limited, as long as the cleaning requirement is met.

In an embodiment of the present invention, referring to fig. 2 and 4, the nozzle 50 includes a nozzle body 52, the nozzle body 52 has a water inlet connection pipe 53, and the water inlet connection pipe 53 has a water inlet. The head main body 52 has a plurality of water jet groups 51, and the plurality of water jets in each water jet group 51 are arranged at intervals along the longitudinal direction of the head main body 52. The nozzle body 52 has a communication passage therein for communicating the water inlet with the plurality of water discharge ports, and liquid substances such as water can enter the communication passage through the water inlet and be discharged from the water discharge ports.

For example, the nozzle body 52 has a plurality of water nozzles in the water nozzle group 51 facing one surface of the roll brush 30, and a plurality of water nozzles in the water nozzle group 51 facing one surface of the dust box 40, and the length direction of the nozzle body 52 matches both the length direction of the roll brush 30 and the length direction of the dust box 40, and the length of the nozzle body 52 matches both the length of the roll brush 30 and the length of the dust box 40, so that the water supply connection pipe 53 can simultaneously supply water to the plurality of water nozzle groups 51. The plurality of water spray nozzles facing the drum brush 30 are provided at intervals along the longitudinal direction of the drum brush 30 so that water can be simultaneously sprayed to a plurality of positions of the drum brush 30 and the dust box 40, thereby cleaning the entire drum brush 30 and the dust box 40. During cleaning, the water jet set 51 can uniformly spray water flow into the roller brush 30 and the dust box 40, and the water flow has a certain impact force, so as to achieve more effective cleaning of the roller brush 30 and the dust box 40. Meanwhile, the nozzle 50 may also cooperate with the rolling of the roll brush 30, thereby improving the cleaning efficiency of the roll brush 30.

In the embodiment of the present invention, the orientation of the water jet groups 51 of the nozzle 50 is not specifically limited, and the orientation of the water jet groups 51 may be limited according to the position of the member to be cleaned, for example, the orientation of the water jet groups 51 corresponding to the positions of the roll brush 30 and the dust box 40 may be set according to the positions of at least a part of the water jet groups 51 facing the roll brush 30 and at least a part of the water jet groups 51 facing the dust box 40. As shown in fig. 4, in one arrangement, the roller brush 30 is disposed on the left side, the dust box 40 is disposed on the right side, the nozzle 50 is disposed above the space between the roller brush 30 and the dust box 40, and the nozzle 50 is provided with two water jet nozzle sets 51 having different angles, so that water can be simultaneously jetted into the roller brush 30 and the dust box 40, thereby simultaneously cleaning the roller brush 30 and the dust box 40.

With continued reference to fig. 2, in the embodiment of the present invention, in order to facilitate the assembly and disassembly of the roller brush 30, the nozzle 50 and the dust box 40, the housing 20 can be realized in a manner that the housing 20 comprises an upper housing 21 and a lower housing 22, and the upper housing 21 can be detachably connected to the lower housing 22. The roll brush 30 and the nozzle 50 are respectively provided on the upper case 21. The dust box 40 is provided on the lower case 22. The upper shell 21 and the lower shell 22 are enclosed to form an accommodating cavity, the rolling brush 30, the nozzle 50 and the dust box 40 are located in the accommodating cavity, when the upper shell 21 is opened relative to the lower shell 22, the accommodating cavity is opened, and a user can disassemble and assemble the rolling brush 30, the nozzle 50 and the dust box 40. Further, according to different setting requirements, the roller brush 30, the nozzle 50 and the dust box 40 may be disposed on the lower case 22, and the upper case 21 is connected with the lower case 22 only for covering.

In the embodiment of the present invention, in order to prevent the user from manually disposing of the sewage for cleaning the drum brush 30 and the dust box 40, it is achievable that the bottom of the dust box 40 has a drain outlet 41, see fig. 2. The bottom of the shell 20 is provided with a cleaning opening 23 corresponding to the area of the rolling brush 30, a dirty outlet corresponding to the area of the sewage discharge opening 41, and a dirty cover 24 for covering the dirty outlet is arranged at the dirty outlet.

In the embodiment of the present invention, when the floor brush assembly 10 discharges sewage, the sewage treatment method includes a method in which the base station 200 is installed in accordance with the position of the sewage, and when the cleaning apparatus 100 is placed on the base station 200, the cleaning opening 23 and the dirty outlet correspond to the sewage, and sewage for cleaning the drum brush 30 can be discharged out of the housing 20 through the cleaning opening 23 and discharged into the sewage. The area corresponding to the dirty cover 24 on the base station 200 is provided with a cover opening structure, when the cleaning device 100 is placed on the base station 200, the dirty cover 24 is opened, the dirty water of the dust box 40 is cleaned, and the dirty water can be discharged out of the shell 20 through the sewage outlet 41 and the dirty outlet and can be discharged into a sewer side by side, so that the sewage treatment is completed. In the cleaning operation, the roller brush 30 can perform the cleaning operation on the cleaning surface through the cleaning opening.

Another way to achieve treatment of the waste water is that the bottom box 60 also has a recovery area 62, see fig. 4 and 5. The upper cover 70 covers the recovery area 62, a first sewage inlet 72 is arranged in the area, corresponding to the cleaning opening 23, of the upper cover 70, a second sewage inlet 73 is arranged in the area, corresponding to the dirty outlet, of the upper cover 70, and the first sewage inlet 72 and the second sewage inlet 73 both correspond to the recovery area 62. The upper cover 70 is provided with a cover opening structure at a region corresponding to the contamination cover 24. When the cleaning device 100 is placed on the upper cover 70, the dirt on the roller brush 30 can flow into the recovery area 62 through the cleaning opening 23 and the first dirt inlet 72, the cover opening structure opens the dirt cover 24, and the dirt in the dust box 40 can flow into the recovery area 62 through the dirt outlet 41, the dirt outlet and the second dirt inlet 73. Can realize collecting the sewage after wasing round brush 30 and dirt box 40 through the recovery area 62 on the end box 60, under this kind of mode, can need not to consider the position of setting up of basic station 200 (need not to set up basic station 200 cooperation sewer promptly), when the sewage in the recovery area 62 was too much, can with recovery area 62 evacuation.

In the embodiment of the present invention, the cover opening structure may be implemented in various ways, and one way to implement the cover opening structure is the water supply connector 71. When the cleaning device 100 is placed on the upper cover 70, the water supply connector 71 can open the dirt cover 24 and communicate with the nozzle 50, so that the dirt in the dirt box 40 can flow into the recovery area 62 through the dirt discharge opening 41, the dirt outlet and the second dirt inlet 73. Another way to achieve the cover opening structure is that the cover opening structure is a protrusion structure 711 located on the upper cover 70 and extending toward the floor brush assembly 10. When the cleaning device 100 is placed on the upper cover 70, the protrusion 711 can push the dirt cover 24 open, so that the dirt in the dirt box 40 can flow into the recycling area 62 through the dirt discharge opening 41, the dirt outlet and the second dirt inlet 73. The number of the protrusion structures 711 may be set according to different requirements, for example, the protrusion structures 711 may be two and are respectively disposed at both sides of the water supply joint 71.

In order to make the sewage after washing the roll brush 30 flow into the recovery area 62 more smoothly, referring to fig. 4 and 5, it is possible to realize that a guide wall 74 is provided on the circumferential outer periphery of the first sewage inlet 72, and the guide wall 74 extends in the direction of the recovery area 62. A part of the contaminated water flowing down from the roll brush 30 directly flows into the recovery area 62 from the first contaminated water inlet 72, and a part of the contaminated water may drip on the guide wall 74 to flow into the recovery area 62 along the guide wall 74. The waste water is directed by guide wall 74 to a position within recovery area 62 for better collection.

One way of achieving guide wall 74 is that guide wall 74 includes an arcuate section 741 and a straight section 742. The curved section 741 has one end connected to the upper cover 70 and the other end extending toward the recovery section 62 and gradually toward the middle of the first soil inlet 72. One end of the straight section 742 is connected to one end of the arc section 741 away from the upper cover 70, and the other end extends away from the upper cover 70. The arc-shaped section 741 and the straight section 742 form a structure similar to a funnel, the large mouth of the funnel is buckled at the first sewage inlet 72, a part of the arc-shaped section 741 is located below the first sewage inlet 72 so as to collect the sewage dropping from the rolling brush 30, and the small mouth of the funnel is located in the recycling area 62 so as to gather the sewage to a preset position.

Further, in order to make the sewage after washing the roll brush 30 flow into the recovery area 62 more smoothly, a guide inclined plate 75 is provided at the second sewage inlet 73, one end of the guide inclined plate 75 is connected to the upper cover 70, and the other end thereof extends obliquely toward the recovery area 62. The guide sloping plate 75 is positioned below the second soil inlet 73 so that the soil flowing out of the second soil inlet 73 is dropped on the guide sloping plate 75 to flow along the wall surface of the guide sloping plate 75 toward the recovery area 62.

Further, a filter structure 63 is provided in the recovery area 62 at least in the discharge path of the second soil inlet 73. Can strain the large granule solid refuse that contains in the sewage that gets into recovery area 62 through filtration 63 to carry out solid-liquid to sewage, carry out the processing of different modes to different rubbish, avoid the secondary pollution to the environment. In the embodiment of the present invention, the filtering structure 63 can be realized in a manner that the filtering structure 63 includes a supporting frame 631 and a filtering box 632, the supporting frame 631 is disposed in the recycling area 62, the filtering box 632 is disposed on the supporting frame 631, and at least the dirt discharged from the second dirt inlet 73 is filtered by the filtering box 632. The support frame 631 is used for supporting the filter box 632, so that the filter box 632 is kept at the installation position, the sewage flowing out from the second sewage inlet 73 enters the filter box 632, after filtration, the liquid flows into the recovery area 62 through the filter box 632, and the solid garbage is left in the filter box 632, so that solid-liquid separation is realized, and different types of garbage can be treated in different manners.

In the embodiment of the present invention, the sewage in the recycling area 62 may be treated in the following manner, and one way to achieve the treatment is that in order to facilitate the sewage discharge in the recycling area 62, the recycling area 62 may be provided with a water outlet having a sewage discharge pipe, and a filter screen is disposed in the water outlet. The sewage accessible delivery port in the recovery district 62 to along blow off pipe discharge recovery district 62, if can discharge to the sewer, filter out large granule solid waste through the filter screen simultaneously, in order to avoid solid waste to block up the sewer. To avoid the fixed waste blocking the water outlet, the waste in the recovery area 62 is periodically cleaned. Furthermore, in order to facilitate the periodic drainage, an on-off valve can be arranged at the water outlet or the sewage discharge pipe, and the on-off valve is used for controlling the on-off of the sewage discharge pipe, so that the periodic drainage is realized.

In another way of treating the sewage, referring to fig. 5, the bottom case 60 further includes a recycling bin 81, and the recycling bin 81 is detachably disposed in the bottom case 60 as the recycling area 62. The recycling bin 81 is independent of the bottom box 60, the filtering structure 63 is arranged in the sewage bucket, and when the sewage in the sewage bucket is more, the sewage bucket can be only drawn out from the bottom box 60, so that the sewage in the sewage bucket is poured, the whole bottom box 60 does not need to be taken to treat the sewage, and the sewage treatment is convenient for users.

Accordingly, in order to facilitate the user to add clean water to the clean water area 61, the bottom case 60 further includes a clean water barrel 80, and the clean water barrel 80 is detachably disposed in the bottom case 60 as the clean water area 61. The clear water barrel 80 is independent of the bottom box 60, when the clear water in the clear water barrel 80 is less, the clear water barrel 80 can be only drawn out from the bottom box 60, so that the clear water is taken to a faucet to be supplemented, and a user can conveniently supplement the clear water. Of course, the manner of supplying clean water into the clean water tank 80 may also include other manners, such as supplying water into the clean water tank 80 through a clean water pipe.

Further, in the embodiment of the present invention, the clean water zone 61 may provide clean water to the cleaning device 100 in addition to the clean water provided to the nozzle 50. Referring to fig. 1, the cleaning apparatus 100 further includes a body 90, and the body 90 is provided with a solution tank 91 and a water replenishing channel. Referring to fig. 5, a water replenishing structure 65 is further disposed in the clean water area 61, and the upper cover 70 is provided with a water replenishing joint 76 communicated with the water replenishing structure 65. When the cleaning device 100 is placed on the upper cover 70, the water replenishing joint 76 is communicated with the water replenishing channel, and the water replenishing structure 65 supplies water to the solution bucket 91 through the water replenishing joint 76. The solution tank 91 is filled with a solution for cleaning the floor, and when the cleaning device 100 performs a cleaning operation, the solution tank 91 and a water spray head communicated with the solution tank are used for spraying the solution to the floor, so that the floor is cleaned by matching with the rolling brush 30, and the solution in the solution tank 91 is reduced after the cleaning operation is completed. When the cleaning device 100 is placed on the base station 200, the water replenishing connector 76 is communicated with the water replenishing channel, the water replenishing structure 65 supplies water to the solution barrel 91 through the water replenishing connector 76, the step of adding water into the solution barrel 91 for many times by a user is omitted, the base station 200 can complete the cleaning of the rolling brush 30 and the dust box 40 and the step of replenishing water into the solution barrel 91 at the same time, the work of manually adding solution by the user is avoided, the workload of the user is reduced, and the time is saved.

Of course, the cleaning operation of the roller brush 30 and the dust box 40 and the water replenishing operation of the solution tank 91 may be performed simultaneously, or may be performed before or after the steps, for example, the base station 200 may perform the cleaning operation of the roller brush 30 and the dust box 40 first and then automatically replenish water to the solution tank 91, or the base station 200 may perform the water replenishing operation of the solution tank 91 first and then perform the cleaning operation of the roller brush 30 and the dust box 40. After the base has been cleaned and replenished one or more times, the user may open the cover 70, dispose of the waste water in the recovery area 62, and replenish the fresh water in the fresh water area 61.

In the embodiment of the present invention, according to different setting requirements, the water supplementing structure 65 may be implemented in various manners, and one manner is that the water supplementing structure 65 is a first water supplementing pipe, the body 90 is provided with a first water supply pump, and the first water supply pump is connected to the first water supplementing pipe through the water supplementing joint 76 and pumps water into the solution barrel 91 through the first water supplementing pipe. The water replenishing structure 65 is a water pipe, which is connected to the water replenishing joint 76, and is matched with a first water supply pump arranged in the machine body 90, so that the clean water in the clean water area 61 can be pumped into the solution barrel 91 on the machine body 90. When the first water supply pump is operated, the first water supply pump pumps out the water in the clean water area 61 through the first water replenishing pipe, and replenishes water into the solution bucket 91 through the water replenishing joint 76 and the water replenishing channel.

The clean water area 61 is pre-stored with cleaning water or solution with cleaning agent, the cleaning water can be injected into the clean water area 61 by manual adding or automatically added, one way of automatically adding the cleaning water into the clean water area 61 is that the clean water area 61 is connected with an external water source through a water inlet pipe, and a water supply valve is arranged on the water inlet pipe. The water supply valve is opened to communicate with the water supply passage between the external water source and the clean water area 61, and the water from the external water source can enter the clean water area 61. The operation mode of the water supply valve is divided into a plurality of modes, and one of the operation modes is that the water supply valve is opened when the first water supply pump is started so as to maintain the water amount in the clean water zone 61 sufficient in real time. Another mode of operation of the water supply valve is that the water supply valve is not opened in real time, but only when the amount of water in fresh water zone 61 is less than the wash water threshold, thereby ensuring that the amount of water in fresh water zone 61 is sufficient. The threshold of the amount of the washing water may be set according to different requirements, and is not particularly limited herein.

Another way of realizing the water supplementing structure 65 is that the water supplementing structure 65 includes a second water supplementing pipe and a second water supply pump, and the second water supply pump is connected to the water supplementing joint 76 through the second water supplementing pipe and pumps water into the solution barrel 91 through the second water supplementing pipe. When the second water supply pump is operated, the second water supply pump pumps out the water in the clean water area 61 through the second water replenishing pipe and replenishes water into the solution bucket 91 through the water replenishing joint 76 and the water replenishing passage.

Further, in order to avoid the solution of the solution barrel 91 from overflowing, a water level sensor is arranged in the solution barrel 91 and is connected with the first water supply pump or the second water supply pump to control the start and stop of the water level sensor. When the water level sensor detects that the water level in the solution barrel 91 rises to a certain height, a control signal can be sent to the first water supply pump or the second water supply pump, so that the stop of the water supply pump is controlled, and the situation that the water level of the solution barrel 91 is too high and overflows into the machine body 90 to cause the damage of components in the machine body 90 is avoided.

In the embodiment of the present invention, on one hand, after the user finishes the cleaning operation using the cleaning apparatus 100, the cleaning apparatus 100 can be placed on the base station 200, the base station 200 carries the cleaning apparatus 100 through the upper cover 70, the water supply connector 71 is communicated with the nozzle 50, the water supply device 64 can deliver the water in the clean water region 61 to the nozzle 50 through the water supply connector 71 to supply water to the nozzle 50, and the nozzle 50 sprays water in different directions through the plurality of water spray nozzle groups 51, so as to clean different components, for example, the different water spray nozzle groups 51 spray water into the rolling brush 30 and the dust box 40, so as to automatically clean the rolling brush 30 and the dust box 40, without manual cleaning by the user, and increase the use comfort. Meanwhile, the dust box 40 is arranged in the floor brush assembly 10, so that the structure of the body 90 of the cleaning device 100 is partially simplified, the lightness degree of the body 90 is increased, and the use comfort is improved.

On the other hand, the sewage for cleaning the rolling brush 30 and the dust box 40 can be collected through the recovery area 62 of the base station 200, and the user can clean the recovery area 62 of the base station 200 after cleaning for a plurality of times, so that the number of times of dumping the sewage is greatly reduced.

On the other hand, the base station 200 can automatically replenish the solution in the solution tank 91 of the cleaning apparatus 100 through the water replenishing structure 65, thereby saving the user's multiple water adding steps and saving the cleaning time.

In another embodiment of the present invention, after the user finishes the cleaning operation with the cleaning device 100, the user places the cleaning device 100 on the base station 200, the base station 200 carries the cleaning device 100 through the upper cover 70, the upper cover 70 is provided with the nozzle 50, the water supply connector 71 in the upper cover 70 is communicated with the nozzle 50, the water supply device 64 can deliver the water in the clean water area 61 to the nozzle 50 through the water supply connector 71 to supply water to the nozzle 50, the nozzle 50 sprays water in different directions through the plurality of water spray nozzle groups 51, so as to clean the cleaning device 100, for example, the different water spray nozzle groups 51 spray water into the rolling brush 30 and/or the dust box 40, so as to automatically clean the rolling brush 30 and the dust box 40 without manual cleaning by the user, thereby increasing the use comfort. Meanwhile, the water sprayed from the nozzle 50 cleans the roller brush 30 and/or the dust box 40 to form sewage, and the sewage is guided through the upper cover 70 and enters the recovery area 62 in the base station 200. Such a base station 200 enables self-cleaning of the cleaning device 100, improving the user experience.

In another embodiment of the present invention, after the cleaning device 100 completes the cleaning operation, the cleaning device 100 moves to the base station 200, the base station 200 contacts the cleaning device 100 through the housing, the housing of the base station 200 is provided with the nozzle 50, the water supply connector 71 in the housing is communicated with the nozzle 50, the water supply device 64 can deliver the water in the clean water region 61 to the nozzle 50 through the water supply connector 71 to supply water to the nozzle 50, the nozzle 50 sprays water in different directions through the plurality of water spray nozzle groups 51, respectively, so as to clean the cleaning device 100, for example, the different water spray nozzle groups 51 spray water into the rolling brush 30 and/or the dust box 40, respectively, so as to automatically clean the rolling brush 30 and the dust box 40, without manually cleaning the cleaning device by a user, and increase the use comfort. Meanwhile, the water sprayed from the nozzle 50 cleans the roller brush 30 and/or the dust box 40 to form sewage, and the sewage is guided by the housing and enters the recovery area 62 in the base station 200. Such a base station 200 enables self-cleaning of the cleaning device 100, improving the cleaning efficiency of the cleaning device 100.

Accordingly, referring to fig. 1 to 4, an embodiment of the present invention further provides a cleaning apparatus 100, and the cleaning apparatus 100 is configured to be used with the base station 200 described above. The technical features of the cleaning device 100 can be referred to the contents described in the above embodiments, and in the case of no conflict in structure, they can be referred to each other.

Specifically, the cleaning apparatus 100 includes: a floor brush assembly 10. The floor brush assembly 10 comprises a housing 20 and a nozzle 50 disposed in the housing 20; the nozzle 50 has a plurality of water jet groups 51 for jetting water in different directions.

The cleaning device 100 provided by the embodiment of the utility model can be used with the base station 200, and further, the housing 20 is also provided with the rolling brush 30 and the dust box 40, so that when a user finishes cleaning operation by using the cleaning device 100, the floor can be cleaned by the rolling brush 30, and sewage generated by cleaning is collected in the dust box 40. The cleaning device 100 may be a self-moving washing machine in addition to a hand-held washing machine as in fig. 1. After the user uses cleaning device 100 to accomplish the cleaning operation, can place cleaning device 100 on base station 200, base station 200 bears cleaning device 100 through upper cover 70, water supply joint 71 and nozzle 50 communicate, water supply installation 64 can carry the water in clear water district 61 to nozzle 50 through water supply joint 71, for nozzle 50 supplies water, nozzle 50 sprays water respectively to in round brush 30 and the dirt box 40 through a plurality of water jet groups 51, realize the self-cleaning to round brush 30 and dirt box 40, need not user's manual cleanness, use comfort has been increased. Meanwhile, the dust box 40 is arranged in the floor brush assembly 10, so that the structure of the body 90 of the cleaning device 100 is partially simplified, the lightness degree of the body 90 is increased, and the use comfort is improved.

Further, in order to facilitate cleaning of the sewage discharge housing 20 of the drum brush 30 and the dust box 40, a drain outlet 41 is provided at the bottom of the dust box 40. The bottom of the shell 20 is provided with a cleaning opening 23 corresponding to the area of the rolling brush 30, a dirty outlet corresponding to the area of the sewage discharge opening 41, and a dirty cover 24 for covering the dirty outlet is arranged at the dirty outlet. When the cleaning device 100 is placed on the base station 200, the cleaning opening 23 corresponds to the first dirt inlet 72, the dirt outlet corresponds to the second dirt inlet 73, the dirt on the roller brush 30 can flow into the recovery area 62 of the base station 200 through the cleaning opening 23 and the first dirt inlet 72, the water supply connector 71 opens the dirt cover 24, and the dirt in the dust box 40 can flow into the recovery area 62 through the dirt outlet 41, the dirt outlet and the second dirt inlet 73. When the cleaning device 100 is not placed on the base station 200, the dirt cover 24 covers the dirt outlet, so that the dirt in the dirt box 40 is prevented from flowing out.

Further, the cleaning apparatus 100 further includes a body 90, and the body 90 is provided with a solution tank 91 and a water supply channel through which water can be supplied to the solution tank 91. Referring to fig. 5, a water replenishing structure 65 is further disposed in the clean water area 61, and the upper cover 70 is provided with a water replenishing joint 76 communicated with the water replenishing structure 65. When the cleaning device 100 is placed on the upper cover 70, the water replenishing joint 76 is communicated with the water replenishing channel, and the water replenishing structure 65 supplies water to the solution bucket 91 through the water replenishing joint 76. The solution tank 91 is filled with a solution for cleaning the floor, and when the cleaning device 100 performs a cleaning operation, the solution tank 91 and a water spray head communicated with the solution tank are used for spraying the solution to the floor, so that the floor is cleaned by matching with the rolling brush 30, and the solution in the solution tank 91 is reduced after the cleaning operation is completed. When the cleaning device 100 is placed on the base station 200, the water replenishing connector 76 is communicated with the water replenishing channel, the water replenishing structure 65 supplies water to the solution barrel 91 through the water replenishing connector 76, the step of adding water into the solution barrel 91 for many times by a user is omitted, the base station 200 can complete the cleaning of the rolling brush 30 and the dust box 40 and the step of replenishing water into the solution barrel 91 at the same time, the work of manually adding solution by the user is avoided, the workload of the user is reduced, and the time is saved.

Correspondingly, the embodiment of the utility model also provides a base station 200 of the cleaning device 100, and the base station 200 is configured to be used with the cleaning device 100. The technical features of the base station 200 can be referred to the contents described in the above embodiments, and in the case of no conflict in structure, they can be referred to each other.

Specifically, referring to fig. 5, the base station 200 includes: a bottom case 60 and an upper cover 70. Wherein, the bottom box 60 is provided with a clear water area 61, and a water supply device 64 is arranged in the clear water area 61. The upper cover 70 is connected with the bottom box 60 and at least covers the clean water area 61, and the upper cover 70 is provided with a water supply joint 71 communicated with the water supply device 64. After the user uses cleaning device 100 to accomplish the cleaning operation, can place cleaning device 100 on base station 200, base station 200 bears cleaning device 100 through upper cover 70, water supply joint 71 and nozzle 50 intercommunication, water supply installation 64 can pass through water supply joint 71 with the water in clear water district 61 and carry to nozzle 50, for nozzle 50 supplies water, nozzle 50 sprays water to different directions respectively through a plurality of water jet groups 51, realize the self-cleaning to different parts, need not user's manual cleanness, use comfort has been increased.

In the above embodiments of the present invention, the cleaning device 100 may be any one of the following products, which are not limited herein: cleaning machines, dust collectors, self-moving robots, window cleaning robots, glass cleaning robots, solar panel cleaning robots, and the like.

The technical solution adopted in the embodiments of the present invention is described below with reference to specific application scenarios to help understanding. The following application scenario takes the cleaning device as a washing machine as an example.

Application scenario one

The user is cleaning ground with the cleaning machine, and the clean back that finishes, the user can place the cleaning machine on the basic station, and the scrubbing brush subassembly that is about to the cleaning machine is placed on the upper cover of basic station, and at this moment, clean mouthful corresponds with first dirty mouthful of advancing, and dirty export corresponds with the dirty mouth of second advance, and the nozzle passes through inhalant canal and water supply connector intercommunication.

The water supply device supplies water to the nozzles, the cleaning joint sprays water to the rolling brush and the dust box through the water spraying port groups in different directions, so that the rolling brush and the dust box are cleaned, and the rolling brush can roll correspondingly during cleaning.

Dirty accessible clean mouthful on the round brush and first dirty mouthful inflow recovery district of basic station, supply water and connect and open dirty lid, dirty accessible drain, dirty export and the second of dirty in the dirt box advance dirty mouthful inflow recovery district.

The rolling brush and the dust box do not need to be cleaned in a manual mode, and the workload of a user is reduced. When the sewage in the recovery area of the base station is more, the sewage in the recovery area can be treated independently.

Application scenario two

On the basis of the first application scene, the water replenishing connector on the base station is communicated with the water replenishing channel of the cleaning equipment, and the water replenishing structure supplies water to the solution barrel of the cleaning equipment through the water replenishing connector. The operation step that a user adds water into the solution barrel for multiple times is omitted, the base station can finish the steps of cleaning the rolling brush and the dust box and supplementing water into the solution barrel, the work that the user adds the solution manually is avoided, the workload of the user is reduced, and the time is saved.

Finally, it should be noted that: the above examples are only intended to illustrate the technical solution of the present invention, but not to limit it; although the present invention has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some technical features may be equivalently replaced; and such modifications or substitutions do not depart from the spirit and scope of the corresponding technical solutions of the embodiments of the present invention.

Claims

1. A cleaning device system, comprising:

2. The cleaning apparatus system of claim 1, wherein the water jet set comprises a plurality of water jets;

3. The cleaning apparatus system of claim 2, wherein the nozzle comprises a nozzle body having a water inlet connection pipe thereon, the water inlet connection pipe having a water inlet;

4. The cleaning apparatus system of any of claims 1-3, wherein a roller brush and a dust box are disposed within the housing;

5. The cleaning apparatus system of claim 4, wherein the bottom of the dirt box has a drain outlet; a cleaning opening is formed in the bottom of the shell in the area corresponding to the rolling brush, a dirty outlet is formed in the area corresponding to the sewage outlet, and a dirty cover for covering the dirty outlet is arranged at the dirty outlet;

6. The cleaning apparatus system of claim 5, wherein the cap release structure is the water supply connection; or the cover opening structure is a convex structure which is positioned on the upper cover and extends towards the direction of the floor brush assembly.

7. The cleaning apparatus system according to claim 5, wherein a circumferential outer periphery of the first soil inlet is provided with a guide wall extending in a direction of the recovery zone.

8. The cleaning apparatus system of claim 5, wherein a guide inclined plate is disposed at the second dirt inlet, one end of the guide inclined plate is connected to the upper cover, and the other end of the guide inclined plate extends obliquely toward the recovery area.

9. The cleaning apparatus system defined in claim 5, wherein a filter structure is provided in the recovery zone at least in the path of the effluent from the second effluent inlet.

10. A cleaning apparatus, comprising:

11. The cleaning apparatus defined in claim 10, wherein the group of water jets comprises a plurality of water jets;

12. The cleaning apparatus as claimed in claim 10, wherein a roller brush and a dust box are provided in the housing;

13. A base station for a cleaning apparatus, comprising:

14. The base station of a cleaning appliance according to claim 13, wherein the back box further has a recovery area; the upper cover covers the recovery area, a first sewage inlet and a second sewage inlet are formed in the upper cover, and the first sewage inlet and the second sewage inlet correspond to the recovery area;

the upper cover is also provided with a cover opening structure.

15. The base station of the cleaning apparatus of claim 13, wherein the bottom box further comprises a clean water tank and a recovery tank;

16. The base station of any one of claims 13 to 15, wherein a water replenishing structure is further arranged in the clean water area, and the upper cover is provided with a water replenishing joint communicated with the water replenishing structure.