CN212591933U - Integrated station of intelligent cleaning robot - Google Patents

Abstract

An integration station of an intelligent cleaning robot is independently arranged relative to the intelligent cleaning robot and is at least used for butting and collecting dust on the intelligent cleaning robot and cleaning a cleaning piece used for mopping the floor on the intelligent cleaning robot; the garbage collection in the garbage cavity and the sewage and garbage in the cleaning tank are completed by arranging the garbage collection box, so that the problem of dust emission is avoided; the butt joint collection dirt will come the rubbish multiple butt joint in the rubbish cavity to take the dirty incasement of collection to collect, accomplish the clearance to the filter simultaneously in the butt joint collection dirt, isolate the particulate matter on the filter, and realize self-cleaning to intelligent cleaning robot's cleaning member, self-cleaning's in-process is accomplished the clear water tank and is supplied water to the cleaning member automatically, accomplish dirty case automatic collection of collection and wash sewage and rubbish behind the cleaning member, do not need more participation of user can realize that intelligent cleaning robot accomplishes automatically and carries out dust absorption cleanness and mopping the ground cleanness to ground, and it is better to drag the clean effect of ground.

Description

Integrated station of intelligent cleaning robot

Technical Field

The utility model relates to intelligent cleaning machines people's clean field, concretely relates to intelligent cleaning machines people's integrated station.

Background

The existing intelligent cleaning robot is mainly used for dust collection and cleaning of indoor ground and mopping of the floor, generally a dust box is arranged in the intelligent cleaning robot and used for collecting garbage sucked in dust collection and cleaning, a water tank and a mop cloth are arranged, and the water tank supplies water to the mop cloth to realize mopping and cleaning; although the intelligent cleaning robot can automatically walk indoors to realize dust collection and floor mopping, a plurality of problems still exist, and the problems are as follows:

1. due to the limitation of the whole structure of the intelligent cleaning robot, the capacity of a dust box of the intelligent cleaning robot is limited, a user needs to manually take out the dust box to dump garbage, the frequency of dumping the garbage is high, the dust box is dirty and the dust is raised seriously in the garbage dumping process, and the experience effect of the user is poor;

2. the existing intelligent cleaning robot is provided with a filter in a dust box, the filter mainly filters garbage in airflow to realize separation of the airflow and the garbage, more particulate garbage adheres to the filter after the intelligent cleaning robot works for a period of time, and if the intelligent cleaning robot is not cleaned in time, the particulate garbage can be gathered on the filter to block the filter, so that the dust collection effect of the intelligent cleaning robot is seriously reduced or even fails;

3. the mop on the existing intelligent cleaning robot is easy to stain in the floor mopping cleaning process, the mop cannot be cleaned in time after being stained, the floor mopping effect is poor, the serious problem of secondary pollution exists, the mop needs to be manually disassembled by a user for manual cleaning, the mop is difficult to accept by the user due to the dirty mop, the experience effect is extremely poor, and the acceptance of the user is low;

4. the existing intelligent cleaning robot is limited by the whole structure, so that the capacity of the water tank is limited, the water tank cannot be mopped cleanly without water after being mopped for a period of time, the water tank is required to be manually disassembled by a user to be added with water, the use is extremely inconvenient, the problem that the user cannot add water in time exists, the intelligent cleaning robot continues to mopping under the condition that the water tank is not water, the ground is dragged more and more dirty, and the experience effect is extremely poor.

To sum up, the whole existing intelligent cleaning robot is not intelligent enough, and the user is required to manually participate in the work of processing dust box garbage, cleaning a filter, cleaning a mop, adding water into a water tank and the like, so that the user is inconvenient to use and has poor experience effect.

SUMMERY OF THE UTILITY MODEL

The present invention is directed to solving, at least to some extent, one of the technical problems in the related art.

Therefore, an object of the utility model is to provide an intelligent cleaning robot's integrated station, it is poor mainly to solve current intelligent cleaning robot's the effect of mopping to and solve needs rubbish in the manual processing dirt box of user, clearance filter, wash the mop scheduling problem, and the serious problem of raise dust when heavily putting down rubbish is solved to the weight point.

The embodiment of the utility model provides an integration station of an intelligent cleaning robot, which is arranged independently relative to the intelligent cleaning robot and at least used for butting and collecting dust for the intelligent cleaning robot and cleaning pieces used for mopping the floor on the intelligent cleaning robot; a garbage cavity is formed in the intelligent cleaning robot and used for collecting garbage sucked by the intelligent cleaning robot; the integration station is provided with a cleaning tank, and the cleaning tank is used for containing water and placing the cleaning piece so that the cleaning piece is positioned in the cleaning tank for cleaning; the integration station comprises a sewage collection box, wherein the sewage collection box is used for butt-joint collection of the garbage in the garbage cavity and collection of the sewage and the garbage after the cleaning piece is cleaned in the cleaning tank; said station further comprising a clean water tank for supplying water at least to said cleaning members to wash said cleaning members; an airflow generator is arranged in the integration station and connected with the dirt collection box, so that the airflow generator is at least used for generating airflow with suction force to the dirt collection box; when the airflow generator works, the dirt collecting box is communicated with the garbage cavity so that garbage in the garbage cavity enters the dirt collecting box to be collected, and/or the dirt collecting box is communicated with the cleaning tank so that sewage and garbage in the cleaning tank enter the dirt collecting box to be collected.

The integration station of the intelligent cleaning robot further comprises a filtering basket, wherein the filtering basket is arranged to be communicated with the dirt collection box and the garbage cavity, so that the filtering basket is at least used for filtering garbage in the garbage cavity.

In the integration station of the intelligent cleaning robot, a filter part is arranged on the filter basket, and the filter part is used for filtering the garbage in the garbage cavity, so that part of the garbage enters the sewage collection tank through the filter part to be collected, and so that part of the garbage does not enter the filter basket through the filter part to be collected.

The utility model provides an intelligent cleaning machines people's collection station, the filtration basket is located the dirty incasement of collection, the dirty case of collection is provided with sewage mouth and rubbish mouth, the rubbish chamber passes through the rubbish mouth with dirty case intercommunication of collection, the washing tank passes through the sewage mouth with dirty case intercommunication of collection.

According to the intelligent cleaning robot integration station, the sewage port is located on one side of the garbage port or located at the same position, sewage in the cleaning tank enters the sewage collection tank through the filtering basket and sprays garbage in the filtering basket.

In the integration station of the intelligent cleaning robot, the filter basket is arranged in a concave structure, and the filter part is located on the side wall and/or the bottom wall of the filter basket; or the filtering basket further comprises a basket cover, and the filtering part is positioned on the side wall, the bottom wall or the basket cover of the filtering basket.

In the integration station of the intelligent cleaning robot, the filtering basket is located at the outer side of the dirt collecting box, and the dirt collecting box is communicated with the garbage cavity through the filtering basket.

In the integration station of the intelligent cleaning robot, a filter element is arranged in the filter basket, and the filter element is located on the filter element.

The cleaning piece is positioned at the bottom of the intelligent cleaning robot and is arranged into a structure capable of moving to mop the floor; the cleaning piece is arranged in a structure capable of rotating and rolling relative to the ground, and the cleaning piece is in contact with the ground; or the cleaning piece is arranged to be a structure which can be horizontally rotated along with the ground; or the cleaning member is provided in a structure that can horizontally reciprocate relative to the floor.

In the integration station of the intelligent cleaning robot, a cleaning part is arranged in the cleaning tank, and the cleaning part contacts the cleaning piece, so that when the cleaning piece moves, dirt and garbage on the cleaning piece can be separated into water; the cleaning part is arranged to be an independent and detachable structure or a part of the cleaning tank; the cleaning part is provided with a convex strip or a convex point or a rolling brush structure; or the upper part of the cleaning tank is provided with a cleaning part facing the cleaning piece and forming a closing-in structure, and the cleaning part contacts the cleaning piece so that the cleaning part scrapes dirt and garbage on the cleaning piece and separates the dirt and the garbage into water; or a groove is arranged in the cleaning groove, and the position where the groove intersects with the inner surface of the cleaning groove is formed into the cleaning part, so that the cleaning part is contacted with the cleaning piece to form a scraping structure for the cleaning piece.

According to the integration station of the intelligent cleaning robot, a water blocking part is arranged between the intelligent cleaning robot and the cleaning tank, and the water blocking part enables the bottom of the intelligent cleaning robot and the upper part of the cleaning tank to form a relatively closed structure and wraps the cleaning piece in the water blocking part.

Aforementioned intelligent cleaning machines people's integration station, the washing tank is provided with the washing district and collects dirty district, the washing district is placed the cleaning member, collect dirty district collection sewage and/or rubbish, and set up the washing district with the dirty district intercommunication of collection, the dirty district of collection with intercommunication makes between the dirty case of collection sewage and/or rubbish in the dirty district of collection can by the air current that airflow generator provided is inhaled and is got the dirty incasement of collection is collected.

According to the integration station of the intelligent cleaning robot, the cleaning tank is communicated with the dirt collection box through the first power mechanism, and the first power mechanism is used for transferring sewage and/or garbage in the cleaning tank into the dirt collection box.

In the integration station of the intelligent cleaning robot, the clean water tank is communicated with the cleaning tank through the second power mechanism, so that the clean water tank supplies water to the cleaning tank and/or the cleaning part.

In the integration station of the intelligent cleaning robot, a dust collecting air duct is arranged on one side of the dirt collecting box, and the dust collecting air duct and a dust discharging port on the intelligent cleaning robot are in butt joint communication with each other, so that the garbage in the garbage cavity enters the dirt collecting box to be collected; be provided with the filter in the intelligent cleaning robot, the filter passes through the dust exhaust mouth with collection dirt wind channel intercommunication works as the intelligent cleaning robot is located on the integrated station just airflow generator during operation, airflow generator produces the air current of suction and passes through at least the filter makes rubbish on the filter separates and enters into by being collected in the dirty case of collection.

In the integration station of the intelligent cleaning robot, the dust exhaust port is arranged to be an openable and closable structure, and the dust exhaust port is located at the bottom, the side or the top of the intelligent cleaning robot; the garbage chamber with the dust exhaust mouth sets up to communicating structure, the one end in collection dirt wind channel is provided with the collection dirt mouth, the collection dirt mouth with the butt joint of dust exhaust mouth is used for making rubbish in the garbage chamber passes through the dust exhaust mouth with the collection dirt mouth enters into in the collection dirt case.

The integration station of the intelligent cleaning robot further comprises an airflow switching module, wherein the airflow switching module enables the dirt collecting box to be communicated with the cleaning tank and the garbage cavity in a switchable manner.

The aforementioned integration station of intelligent cleaning robot, the airflow switching module includes a first valve and a second valve, the first valve is located on the dust collection air duct and can open and close the dust collection air duct so that when the first valve is opened, the airflow generated by the airflow generator generates suction force to butt and collect the garbage in the garbage cavity into the sewage collection box, and the second valve is connected with the sewage collection box and can open and close so that when the second valve is opened, the airflow generated by the airflow generator generates suction force to suck the sewage and garbage in the cleaning tank into the sewage collection box.

The integration station of the intelligent cleaning robot is characterized in that a dirt collecting channel is arranged on one side of the cleaning tank, the dirt collecting channel is connected with the dust collecting air channel and is installed at a connecting position, the air flow switching module comprises a first motor and a first valve core, a valve gear is arranged on the first motor and is meshed with the first valve core, and the first motor rotates to drive the first valve core to move so that the dirt collecting box is communicated with the cleaning tank and the garbage cavity in a switchable mode.

The integration station of the intelligent cleaning robot is provided with a dust suction port at the bottom, the dust suction port is at least used for sucking garbage on the ground, and a shielding part is arranged on the integration station, the shielding part at least shields a part of the dust suction port and forms a relatively closed structure with the dust suction port, so that the air flow of the air flow generator generating suction when working is larger than the air flow of the air flow passing through the dust suction port; or the airflow generating the suction force when the airflow generator works passes through the filter and does not pass through the dust suction port.

The intelligent cleaning robot integration station comprises an air flow outlet, wherein the air flow outlet is communicated with the garbage cavity, and the air flow generator is at least used for blowing air flow into the garbage cavity through the air flow outlet.

The aforesaid is an integrated station of intelligent cleaning robot, be provided with the blow vent on the rubbish chamber, the blow vent is located one side of filter makes the airflow generator blows at least to when the air current is blown in the rubbish chamber to the filter makes rubbish on the filter separates out, the air current discharge port passes through the blow vent with the rubbish chamber communicates with each other, the blow vent sets up to open and close structure, the blow vent is located on the bottom, the lateral part or the top in rubbish chamber.

According to the integration station of the intelligent cleaning robot, a first electrode plate is arranged on the intelligent cleaning robot, a second electrode plate is arranged on the integration station, and the first electrode plate and the second electrode plate are butted and attached to charge the intelligent cleaning robot; or a sterilization module for sterilization is arranged in the garbage cavity and/or the sewage collection box.

Compared with the prior art, the utility model discloses following beneficial effect has:

the integration station of this scheme sets up dirty case of collection and is used for collecting the rubbish of rubbish intracavity, and airflow generator realizes absorbing the dirty incasement of collection with the rubbish of rubbish intracavity, and the user need not frequently clear up, and does not need manual dismantlement current intelligent cleaning machines people's dirt box to clear up, only need regularly or periodic clearance dirty incasement of collection rubbish can, convenient to use and very big promotion user experience effect.

The dirty case of collection of this scheme can also be used for collecting sewage and rubbish in the washing tank, and the dirty incasement of collection is absorb to the sewage and the rubbish of washing tank in the airflow generator realization, and the user does not need to clear up the washing tank alone, only need regularly or periodic clearance dirty incasement sewage and rubbish can, convenient to use and very big promotion user experience effect.

This scheme sets up a dirty case of collection and has realized simultaneously the collection to the rubbish in the rubbish intracavity and the sewage in the washing tank, rubbish, the user only need regularly clear up dirty case of collection can, and the rubbish of less granule rubbish or the easy raise dust of rubbish intracavity finally is inhaled by airflow generator and is got the dirty incasement of collection and the washing tank in enter into the dirty incasement of collection sewage and mix, the problem of raise dust can not appear when realizing the user when empting the sewage and the rubbish in the dirty case of collection, and experience effect is better.

This scheme realizes that dirty case plays certain filtering separation effect when collecting the rubbish of rubbish intracavity through setting up the filter basket, and the rubbish of less particulate matter rubbish and easy raise dust enters into dirty incasement of collection and sewage and mixes, the problem of raise dust no longer appears, and great rubbish is stayed also because of not having less particulate matter rubbish, dust convenience of customers and emptys in the filter basket, and rubbish can not bond on the filter basket, and the user very easily emptys totally, easy processing.

This scheme is at the in-process of getting dirty case of collection with the rubbish of rubbish intracavity, can also realize the clearance to the filter, mainly utilize airflow generator to clear up the particulate matter on the filter, simultaneously in order to gain the better clearance effect to the filter, this scheme shelters from partly or whole of dust absorption mouth through setting up the shielding part, make the air current can be more pass through the filter, it is big to the air current suction of filter to realize airflow generator, the clearance effect is better, the problem that current user need frequently clear up the filter has been solved, the experience effect has been promoted.

The cleaning piece of this scheme sets up to movable structure, the cleaning piece motion has realized better ground of dragging when intelligent cleaning machines people drags ground cleanness, the cleaning piece is big with the frictional force on ground, the area is big, it is effectual to realize dragging the ground, utilize the motion structure of cleaning piece simultaneously, can realize the self-cleaning to the cleaning piece when intelligent cleaning machines people is located the integration station, need not to set up on the integration station and carry out abluent power structure to the cleaning piece, overall structure is simple, the cost is lower, and experience effectually.

This scheme sets up the clear water tank, and the clear water tank provides the water that washs the cleaning member, and water in the clear water tank gets into the washing tank, and the cleaning member self-motion realizes the washing of cleaning member in the washing tank, and the cleaning member can wash many times, and the cleaning performance is good, need not the manual cleaning member of dismantling of user and wash.

This scheme realizes making collection dirty case communicate with rubbish chamber and washing tank respectively through setting up the air current switching module and changing over ground, makes airflow generator both can be used for the butt joint to absorb rubbish in rubbish chamber to the collection dirty incasement, also can be used for absorbing the sewage or rubbish that wash behind the cleaning member in the washing tank to the collection dirty case, has realized two kinds of result of use of airflow generator, simple structure and with low costs.

This scheme sets up and adopts airflow generator to absorb washing tank sewage or rubbish, be favorable to absorbing the processing to sewage or rubbish in the washing tank, be stained with dirty and rubbish because of the cleaning member after dragging ground, there is the mixture of sewage and rubbish in the washing tank after the cleaning member this moment, general drain pump can't suction rubbish and block up easily, and the drain pump is because of the air current suction and then appear just having sucked sewage and the less particulate matter of part, great rubbish is all left over and can't be cleared up in the washing tank, this scheme adopts airflow generator can realize the concentrated absorption of sewage and rubbish and handle, it is effectual to clear up.

This scheme still utilizes airflow generator during operation exhaust stream, introduce the rubbish intracavity with its exhaust stream, not only can realize blowing away the particulate matter on the filter and realize better clearance filter, still realize that the airflow blows the rubbish in the rubbish intracavity, make the air current of the suction that airflow generator produced more easily with the rubbish of rubbish intracavity inhale get the dirty incasement that collects, be favorable to promoting the efficiency of absorbing rubbish, can reduce airflow generator's power and noise simultaneously, the cost is lower, experience effect is better.

This scheme is through setting up sterilizing equipment for dirty case of collection can not appear smelly problem under the condition that the longer time was not handled, even the user also can not cause the influence to indoor environment under the condition of the dirty case of collection of clean for the longer time, experience effect is better.

Drawings

FIG. 1 is a schematic view of a waste collection box for collecting garbage and sewage according to the present embodiment;

FIG. 2 is a schematic view of the waste collection box of the present embodiment collecting waste and sewage and spraying the waste with the sewage;

FIG. 3 is a schematic view of the present invention showing an air flow switching module installed at a position where a dust collecting air duct is connected to a dirt collecting channel;

FIG. 4 is a schematic view of the filtering basket arranged outside the dirt collecting box according to the scheme;

FIG. 5 is a schematic view of the connection between the dirt collection box and the cleaning tank and the garbage chamber;

FIG. 6 is a schematic view of the cleaning tank of the present embodiment with a dirt collecting area and a cleaning area;

FIG. 7 is a schematic view of the present embodiment of a water retaining portion;

FIG. 8 is a schematic view of the clean water tank of the present solution adding water to the cleaning tank;

FIG. 9 is a schematic view of a cleaning section in the cleaning tank of the present embodiment configured as a necking structure;

FIG. 10 is a schematic view of a cleaning member being cleaned by a groove structure provided in the cleaning tank according to the present embodiment;

FIG. 11 is a schematic view of a cleaning part provided with bumps according to the present embodiment;

FIG. 12 is a schematic view of the cleaning part of the present embodiment configured as a raised line;

FIG. 13 is a schematic view showing the opening of the dust exhaust port when the bottom of the intelligent cleaning robot is butted for collecting dust according to the scheme;

FIG. 14 is a schematic view of the present solution showing the closing of the dust exhaust port when the intelligent cleaning robot is docked for collecting dust via the bottom;

FIG. 15 is a schematic view of the present solution for collecting dust by docking at the side of the intelligent cleaning robot and providing a docking portion;

FIG. 16 is a schematic view of the present solution for collecting dust by docking the side part of the intelligent cleaning robot and deforming the docking part;

FIG. 17 is a schematic view of the present invention showing the filter being cleaned by abutting the dust collector and blocking the dust collection port;

figure 18 is a schematic view of the airflow outlet of the airflow generator of the present solution blowing airflow against the filter and the debris chamber;

FIG. 19 is an enlarged partial schematic view taken at A in FIG. 17;

FIG. 20 is a schematic view of the airflow switching module switching the airflow on one side;

FIG. 21 is a schematic view of the airflow switching module switching the airflow on the other side;

reference numerals: 1-integration station, 101-airflow generator, 1011-airflow outlet, 102-dirt collecting tank, 1021-dirt outlet, 1022-garbage outlet, 1023-dust collecting air duct, 1024-dust collecting outlet, 103-clean water tank, 1031-second power mechanism, 104-filter basket, 1041-basket cover, 1042-filter part, 1043-filter part, 105-cleaning tank, 1051-cleaning part, 1052-cleaning zone, 1053-dirt collecting zone, 106-first power mechanism, 107-dirt collecting channel, 108-shielding part, 109-workbench, 2-intelligent cleaning robot, 201-cleaning part, 202-dust outlet, 203-filter, 204-garbage chamber, 205-water retaining part, 206-dust suction port, 207-air vent, 208-limit part, 2081-butt joint part, 3-switching module, 301-first motor, 302-first valve core, 303-valve gear, 304-first valve, 305-second valve.

Detailed Description

In order to make the technical means, creation features, achievement purposes and functions of the present invention easy to understand, the present invention will be further described with reference to the following embodiments.

Example (b): the utility model relates to an integration station 1 of intelligent cleaning robot 2, as shown in fig. 1-21, the integration station 1 of the scheme can realize automatic recharging and charging of the intelligent cleaning robot 2, butt joint dust collection is used for sucking the garbage in the garbage chamber 204 into the dirt collecting tank 102 for multiple butt joints and collecting, meanwhile, the cleaning of the filter 203 is completed in the butt joint dust collection, the particulate matter on the filter 203 is separated out, and the cleaning piece 201 of the intelligent cleaning robot 2 is cleaned automatically, the clean water tank 103 supplies water to the cleaning piece 201 automatically in the automatic cleaning process, the dirt collecting tank 102 automatically collects and cleans the sewage and the garbage after the cleaning piece 201, the whole process realizes that a user only needs to clean the dirt collecting tank 102 periodically or periodically, and water is added to the clean water tank 103 periodically or periodically, the intelligent cleaning robot 2 can automatically complete dust collection and floor cleaning without the participation of the user, and the mopping and cleaning effect is better.

According to the scheme, the sewage collection tank 102 and the clean water tank 103 are arranged, so that the integration station 1 can automatically collect dust, automatically clean the cleaning piece 201 and automatically collect and clean sewage and garbage after the cleaning piece 201 is cleaned on the intelligent cleaning robot 2, the integration station 1 is provided with the cleaning tank 105, the cleaning tank 105 is used for cleaning the cleaning piece 201, and the cleaning tank 105 is respectively connected with the clean water tank 103 and the sewage collection tank 102 so as to supply clean water and convey sewage; wherein, mainly through the changeable scheme that sets up airflow generator 101, airflow generator 101 not only can dock the rubbish that absorbs rubbish chamber 204 and arrive in album dirty case 102, can also be used for absorbing the interior sewage of washing tank 105 and rubbish and arrive in album dirty case 102, and simple structure and cost are lower.

The intelligent cleaning robot 2 can automatically return to the integration station 1, the integration station 1 is provided with a guide infrared signal, the intelligent cleaning robot 2 is provided with a receiving infrared signal corresponding to the guide infrared signal, and the intelligent cleaning robot 2 can return to the integration station 1 through the butt joint of the infrared signals; the guiding infrared signal on the integration station 1 covers a certain indoor area, a control part in the intelligent cleaning robot 2 is firstly butted with the integration station 1 and records the position of the integration station 1 in the room when the intelligent cleaning robot 2 is started, and then the intelligent cleaning robot 2 walks indoors to perform dust collection cleaning or floor mopping cleaning; when the electric quantity of the intelligent cleaning robot 2 is lower than the preset electric quantity, or the intelligent cleaning robot 2 needs to be butted for collecting dust, or the cleaning piece 201 needs to be cleaned, at the moment, the intelligent cleaning robot 2 walks back to the vicinity of the integration station 1 and completes accurate alignment by guiding an infrared signal, so that the intelligent cleaning robot 2 stops at a fixed position on the integration station 1; meanwhile, a vision module or a laser module can be arranged on the intelligent cleaning robot 2, and the planning capacity of the intelligent cleaning robot 2 on the walking route of the intelligent cleaning robot is further improved through the vision module and the laser module, so that the intelligent cleaning robot belongs to the prior art and is not described in detail.

The intelligent cleaning robot 2 has the functions of dust collection, cleaning and mopping, and the structure of the dust collection and cleaning function is mainly that a garbage cavity 204 is arranged in the intelligent cleaning robot 2, and the garbage cavity 204 is used for collecting garbage sucked by the intelligent cleaning robot 2; the bottom of intelligent cleaning robot 2 sets up dust absorption mouth 206, and dust absorption mouth 206 communicates with each other with the rubbish chamber 204 in the intelligent cleaning robot 2, and one side in rubbish chamber 204 sets up the fan, and the fan produces suction and realizes the absorption of the rubbish on intelligent cleaning robot 2 to ground, and then realizes the clean function of dust absorption.

The specific structure of the mopping and cleaning function of the scheme is that the cleaning piece 201 is mainly arranged to mop and clean the ground; the cleaning piece 201 is positioned at the bottom of the intelligent cleaning robot 2, and the cleaning piece 201 is arranged into a structure which can move to mop the ground; the cleaning piece 201 is arranged to be of a structure capable of moving, so that the cleaning piece 201 and the ground have high friction force to mop the ground, and a better mopping cleaning effect is achieved.

Specifically, the cleaning member 201 can move in three ways, one is that the cleaning member 201 rolls on the ground to clean the mopped ground, mainly the cleaning member 201 is arranged in a structure capable of rotating and rolling relative to the ground, and when the cleaning member 201 and the ground contact each other, the contact part forms a plane structure, and the contact and the pressure joint of the cleaning member 201 and the ground form a plane structure in the process of rolling ensures a single cleaning area and enough friction force between the cleaning member 201 and the ground, so that a better mopped ground cleaning effect can be realized; the other mode is that the cleaning piece 201 is arranged to be a structure capable of horizontally rotating in a manner of being attached to the ground, and mainly the cleaning piece 201 is attached to the ground and attached to the ground in parallel to the ground to horizontally rotate so as to clean the mopping ground, so that the contact area between the cleaning piece 201 and the ground can be increased, and the mopping cleaning effect can be improved; in another mode, the cleaning member 201 is configured to reciprocate horizontally relative to the ground, and mainly the cleaning member 201 is configured to reciprocate on the ground to achieve the mopping cleaning effect of repeatedly covering, rubbing and cleaning; the three motion modes are the structures that cleaning piece 201 is set to move, the motion effect is not realized by walking on the ground based on intelligent cleaning robot 2, the motion of cleaning piece 201 is set to be independent motion of the cleaning piece 201, the cleaning piece 201 is driven by a motor installed inside mainly to realize the motion of the cleaning piece, and when intelligent cleaning robot 2 is located on the integration station 1, the self-motion of the cleaning piece 201 can be utilized to realize automatic cleaning of the cleaning piece 201.

Optionally, when the cleaning member 201 is configured to rotate and roll relative to the ground, the cleaning member 201 is configured to be a cylindrical structure, and the cleaning member 201 is configured to at least include a soft deformable structure; the cleaning piece 201 at least comprises a first rotary dragging piece and/or a second rotary dragging piece, the first rotary dragging piece and the second rotary dragging piece are distributed in parallel, the first rotary dragging piece and the second rotary dragging piece are both contacted with the ground and form a plane structure, and meanwhile, the first rotary dragging piece and the second rotary dragging piece are at least arranged into a mutual interference structure, so that particulate garbage on the first rotary dragging piece and the second rotary dragging piece are scraped and separated from the ground by mutual interference, the capability of adsorbing dirt and garbage is improved, the cleaning time of mopping the ground is prolonged, and a better mopping effect is achieved; when the intelligent cleaning robot 2 walks on the ground to clean the ground, the rotating and rolling directions of the first rotary dragging piece and the second rotary dragging piece are set to be the same or opposite, so that a better cleaning effect is achieved; meanwhile, when the first rotary pulling piece and the second rotary pulling piece are positioned in the cleaning tank 105 for cleaning, when a part of the first rotary pulling piece or the second rotary pulling piece is submerged by water, the rotating direction of the first rotary pulling piece or the second rotary pulling piece is at least opposite to the rotating direction of the first rotary pulling piece or the second rotary pulling piece when the first rotary pulling piece or the second rotary pulling piece is separated from the water; the realization is more favorable to first soon dragging piece or second to revolve to drag the piece and get rid of the effect of water stain better after the completion of washing at abluent in-process, can ensure that first soon dragging piece or second revolve to drag the piece and keep the little wet effect after the completion of washing, the problem that the in-process that leaves integrated station 1 drips can not appear.

In the scheme, the movement direction of the cleaning piece 201 when the cleaning piece is positioned on the ground for mopping and cleaning is at least opposite to the movement direction of the cleaning piece 201 when the cleaning piece is positioned in the cleaning groove 105 for cleaning; the cleaning piece 201 moves in contact with the ground along the same direction in the process of mopping the ground to clean, the surface of the cleaning piece 201 is pressed and connected with the ground to form a pressed film, the mopping cleaning effect is poor under the condition that the pressed film is formed, the cleaning piece 201 needs to be cleaned, the pressed film disappears in the process that the cleaning piece 201 is cleaned in the cleaning groove 105 by setting the moving direction of the cleaning piece 201 in the cleaning groove 105 to be opposite to the moving direction of the cleaning piece 201 in the cleaning groove 105 in the process that the cleaning piece 201 is mopping the ground, the automatic cleaning of the cleaning piece 201 is completed, the cleaning effect is good, the cleaning piece 201 can be cleaned deeply, and dirt and garbage in the cleaning piece 201 can be better cleaned out.

Specifically, the cleaning element 201 is provided with a bristle-implanted layer on the outside, and the bristle-implanted layer is provided with a soft structure.

This scheme sets up dirty case 102 and can realize the collection to rubbish in the rubbish chamber 204 and the sewage in the washing tank 105, rubbish, the user only need regularly clear up dirty case 102 can, and the rubbish of less granule rubbish or the easy raise dust in the rubbish chamber 204 is finally sucked in dirty case 102 and the sewage that the washing tank 105 entered into dirty case 102 mixes by airflow generator 101, the problem of raise dust can not appear when realizing the user when empting the sewage and the rubbish in dirty case 102, and experience effect is better.

The integrated station 1 of this scheme sets up independently for intelligent cleaning machines people 2, and intelligent cleaning machines people 2 is as independent part, and integrated station 1 also is as independent part, and two parts are relatively independent, but intelligent cleaning machines people 2 can walk to integrated station 1 go to wash cleaning member 201, butt joint collection dirt, absorb the sewage in the washing tank 105, integrated station 1 is used for at least right intelligent cleaning machines people 2 dock collection dirt and right the cleaning member 201 that is used for mopping the ground on the intelligent cleaning machines people 2 washs.

The integration station 1 of the scheme is provided with a cleaning tank 105, wherein the cleaning tank 105 is used for containing water and placing the cleaning piece 201 so that the cleaning piece 201 is positioned in the cleaning tank 105 for cleaning; the integration station 1 comprises a sewage collection tank 102, wherein the sewage collection tank 102 is used for butt-joint collection of the garbage in the garbage cavity 204 and collection of the sewage and the garbage after the cleaning pieces 201 are cleaned in the cleaning tank 105; the integration station 1 further comprises a clean water tank 103, the clean water tank 103 being at least used for supplying water to the cleaning members 201 to wash the cleaning members 201; an air flow generator 101 is arranged in the integration station 1, and the air flow generator 101 is connected with the dirt collection tank 102 so that the air flow generator 101 is at least used for generating air flow with suction force to the dirt collection tank 102; when the airflow generator 101 works, the dirt collection box 102 is communicated with the dirt collection chamber 204 so that the dirt in the dirt collection chamber 204 enters the dirt collection box 102 to be collected, and/or the dirt collection box 102 is communicated with the cleaning tank 105 so that the dirt and the sewage in the cleaning tank 105 enter the dirt collection box 102 to be collected, so that the dirt collection box 102 can butt and collect the dirt in the dirt collection chamber 204 and the dirt in the cleaning tank 105, and meanwhile, the dirt in the dirt collection chamber 204 is butt-jointed with the dirt collection box 102 and then mixed with the dirt and the sewage in the cleaning tank 105 after entering the dirt collection box 102 to form wet dirt, so that only the wet dirt in the dirt collection box 102 needs to be dumped, the problem of dirt flying can be solved completely, and if the dirt in the dirt collection chamber 204 is dumped alone or dumped into the dirt collection box 102 alone, the raised dust can occur, the user experience effect is extremely poor, and the raise dust problem that the user emptys rubbish in-process appearance can effectively be solved to this scheme.

The air flow generator 101 is at least connected with the dirt collection box 102, and a filter HEPA is arranged between the air flow generator 101 and the dirt collection box 102, and the filter HEPA has a filtering effect, so that garbage and dust in the dirt collection box 102 are prevented from entering the air flow generator 101 in the butt joint and dust collection process, and the garbage is collected in the dirt collection box 102; the air current of the suction that airflow generator 101 produced is used for in the dirty case 102 of collection dirt is drawn to the rubbish butt joint collection dirt in the intelligent cleaning robot 2, realizes that the user need not frequently clear up rubbish chamber 204, and does not need the manual dirt box of dismantling current intelligent cleaning robot 2 to clear up, only need regularly or periodic clearance dirty case 102 in rubbish can, convenient to use and very big promotion user experience effect.

Specifically, if the garbage in the garbage chamber 204 is completely mixed with the sewage and the garbage in the cleaning tank 105 collected in the sewage collection tank 102, it is easy to happen that the user needs to dispose the larger garbage in the sewage collection tank 102 and pour the larger garbage into the garbage can when dumping the sewage collection tank 102, but cannot pour the larger garbage into the sewer directly, so that it is necessary to filter the sewage collection tank 102, and the sewage, the small garbage and the particulate matter are mixed into the sewage, and the larger garbage is separated out, so that the user can pour the sewage collection tank 102 more conveniently.

Specifically, according to the scheme, the filter basket 104 is arranged to separate sewage, smaller garbage, particulate matters and larger garbage in the sewage collection tank 102, the integrated station 1 further comprises the filter basket 104, and the filter basket 104 is arranged to be communicated with the sewage collection tank 102 and communicated with the garbage chamber 204, so that the filter basket 104 is used for filtering the garbage in the garbage chamber 204; in the process of butting and dust collection of the integration station 1 and the intelligent cleaning robot 2, garbage in the garbage chamber 204 firstly enters the filtering basket 104, the filtering basket 104 filters the garbage entering from the garbage chamber 204, larger garbage is left in the filtering basket 104, smaller garbage or particulate matters enter the dirt collection box 102 through the filtering basket 104 to be mixed with sewage, so that the problem of dust raising is solved, the larger garbage in the filtering basket 104 is filtered under the action of the airflow of the suction force of the airflow generator 101, so that the problem of dust raising is avoided, the smaller garbage or particulate matters easy to raise dust enter the dirt collection box 102 to be mixed with the sewage, so that the problem of dust raising is avoided, meanwhile, a user can directly take out the filtering basket 104 to pour the garbage in the filtering basket into a garbage bin, the sewage and the garbage in the dirt collection box 102 are directly poured into a sewer, and the sewer is not blocked, the user is facilitated to handle the waste bin 102.

The filter basket 104 plays a certain role in filtering, and a filter portion 1042 is mainly disposed on the filter basket 104, and the filter portion 1042 is used for filtering the garbage in the garbage chamber 204 so that a part of the garbage enters the garbage collection box 102 through the filter portion 1042 to be collected and so that a part of the garbage does not enter the filter basket 104 through the filter portion 1042 to be collected; the filtering portion 1042 is provided with a porous structure, so that small garbage or particles and large garbage are mainly filtered and separated, the large garbage is left in the filtering basket 104, the small garbage or particles enter the sewage collecting tank 102 under the action of air flow of suction force to be mixed with sewage, and the garbage is filtered and separated.

The installation structure of the filter basket 104 is that the filter basket 104 can be located in the dirt collection tank 102, the dirt collection tank 102 is provided with a sewage port 1021 and a garbage port 1022, the garbage chamber 204 is communicated with the dirt collection tank 102 through the garbage port 1022, the cleaning tank 105 is communicated with the dirt collection tank 102 through the sewage port 1021, the filter basket 104 is communicated with the garbage chamber 204 and communicated with the dirt collection tank 102, so that the garbage in the garbage chamber 204 is filtered and separated in advance through filtering and then enters the dirt collection tank 102, and the cleaning tank 105 is directly communicated with the dirt collection tank 102 so that the sewage and the garbage in the cleaning tank 105 can directly enter the dirt collection tank 102 under the action of air flow of suction force; the sewage port 1021 is positioned at one side of the garbage port 1022, the sewage port 1021 and the garbage port 1022 are separately arranged, the garbage port 1022 and the sewage port 1021 are separated, the garbage in the garbage cavity 204 enters the sewage collection tank 102 through the garbage port 1022, the sewage and the garbage in the cleaning tank 105 enter the sewage collection tank 102 through the sewage port 1021, and finally the mixture of the garbage and the sewage is directly formed in the sewage collection tank 102, so that a user can directly dump and treat the sewage collection tank 102.

The position structures of the sewage port 1021 and the garbage port 1022 can be set such that the sewage port 1021 can be positioned at the left side, the right side, the opposite side or the lower side of the garbage port 1022, or positioned at the same position, sewage and garbage in the cleaning tank 105 enter the sewage collection tank 102 through the filter basket 104 and form spraying on the garbage in the filter basket 104; the sewage port 1021 enters the sewage collection box 102 and firstly passes through the filtering basket 104 to flush the garbage in the filtering basket 104, the larger garbage in the filtering basket 104 is flushed, the smaller garbage or particles which are easy to raise dust are completely flushed and enter the sewage collection box 102 to be mixed with the sewage, and the problem of dust raising is thoroughly solved; and when sewage and rubbish in the washing tank 105 entered into the filtering basket 104, the bigger rubbish that exists in the washing tank 105 can be filtered, the bigger rubbish is prevented from entering the dirt collecting box 102 and mixing with the sewage, and certain cleaning effect can be played to the filtering basket 104 due to the showering effect, so that the smaller rubbish and particles are all entered into the dirt collecting box 102, and the rubbish adhesion is prevented from being difficult to clean on the filtering basket 104.

Specifically, the structure of the filter basket 104 may be a concave structure, and the filter portions 1042 are located on the side wall and/or the bottom wall of the filter basket 104; only the filtering portions 1042 on the filtering basket 104 need to be ensured to play a role in filtering the garbage, and in order to obtain a better filtering effect, the filtering portions 1042 can be arranged on the outer surfaces of the filtering basket 104, so that a better filtering effect is achieved.

To better facilitate the user pouring the disposal basket 104, the basket 104 may be configured to further include a basket lid 1041, and the filter portions 1042 are located on the side wall, bottom wall, or lid 1041 of the basket 104; the setting can rotate the basket lid 1041 on switching filtration basket 104 upper portion, the user can not empty the rubbish of filtration basket 104 earlier when empting processing dirt collection box 102, can empty the sewage in the dirt collection box 102 earlier, then carry out the clear water to dirt collection box 102 and wash simultaneously because of filter basket 104 installs in dirt collection box 102 and realize clear water in the lump and wash, can wash dirt collection box 102 and filtration basket 104 clean this moment, then empty the rubbish of processing in the filtration basket 104 again, realize the rubbish in the filtration basket 104 and pour out very easily because of the clear water washes the back this moment, convenience of customers handles, very big promotion user experience effect.

The filter basket 104 can also be arranged at the outer side of the dirt collection box 102, and only the garbage chamber 204 needs to be communicated with the dirt collection box 102 through the filter basket 104, so that the garbage in the garbage chamber 204 is pre-filtered by the filter basket 104 and then enters the dirt collection box 102 for collection, the filter basket 104 is positioned at the outer side of the dirt collection box 102, and the dirt collection box 102 is communicated with the garbage chamber 204 through the filter basket 104; a filter element 1043 may be provided in the filter basket 104, and the filter unit 1042 is located on the filter element 1043; the filtering element 1043 may be disposed inside the filtering basket 104, or the filtering element 1043 may be disposed at a position where the filtering basket 104 is communicated with the dirt collecting box 102, so that the filtering and separating of the garbage by the filtering element 1043 are only required; because of filtering basket 104 sets up the outside at dirty case 102 of collection, filtering basket 104 can be dismantled alone at this moment and get the processing of putting, great rubbish is stayed in filtering basket 104, the user can be regularly or periodic empty handle filtering basket 104 can, less rubbish or particulate matter enter into dirty case 102 of collection through filtering piece 1043 and mix with sewage, can solve the problem of raise dust, because of dirty case 102 of collection needs the user in time to clear up smelly problem otherwise appears easily, can further promote user experience with filtering basket 104 setting in dirty case 102 of collection outside, the user need not handle filtering basket 104 simultaneously when empting handle dirty case 102 of collection, only need regularly or periodic handle filtering basket 104 can.

The intelligent cleaning robot 2 mainly performs dust collection and cleaning on indoor ground to suck the garbage on the ground into the garbage chamber 204, the main garbage is dust, particles and the like, and only a small part of large garbage exists, so the filtering basket 104 is arranged, so that most of the garbage in the garbage chamber 204 can enter the sewage collection tank 102 through the filtering basket 104 to be mixed with sewage, and the problem of dust raising does not occur; as long as a very small portion of the larger waste remains in the filter basket 104 for collection, this allows the filter basket 104 to be disposed of without being oversized for periodic or periodic disposal without requiring the user to frequently dispose of the waste in the filter basket 104 when the filter basket 104 is outside the dirt collection bin 102.

Aiming at the situation that the intelligent cleaning robot 2 absorbs the garbage on the ground, a fan is mainly arranged in the intelligent cleaning robot 2 and connected with a garbage cavity 204, a filter 203 is arranged between the fan and the garbage cavity 204, an air inlet of the fan is positioned at one side of the garbage cavity 204 and at one side of the filter 203, and an air outlet of the fan is connected to the bottom or the side of the intelligent cleaning robot 2 through a pipeline to realize outward air exhaust, so that the garbage on the ground can be absorbed into the garbage cavity 204 through a dust absorption port 206 by the fan; the filter 203 realizes the separation between the airflow generated by the fan and the garbage; a filter 203 is arranged in the intelligent cleaning robot 2, the filter 203 is communicated with the dust collection air duct 1023 through the dust exhaust port 202, when the intelligent cleaning robot 2 is positioned on the integration station 1 and the air flow generator 101 is operated, the air flow generated by the air flow generator 101 through the filter 203 at least enables the garbage on the filter 203 to be separated out to enter a garbage cavity 204 and finally enter the dust collection box 102 to be collected; the sucked air flow enters the garbage chamber 204 through the filter 203 and enters the dust collection air duct 1023 through the dust discharge port 202, and finally enters the dirt collection box 102 to realize the butt joint dust collection suction effect on the garbage.

Optionally, the filter 203 is arranged as a HEPA, which has a separating effect on the air flow and the waste.

According to the scheme, the dust collection butt joint mode can be set to three positions to realize butt joint between the dirt collection box 102 and the dust discharge port 202 of the intelligent cleaning robot 2; can dock the collection dirt through bottom, lateral part or the top at intelligent cleaning machines people 2, realize with the rubbish suction in intelligent cleaning machines people 2 garbage cavity 204 to get in the dirty case 102 collected, the user only need regularly or periodically empty the dirty case 102 in rubbish and sewage can, convenience of customers uses, experience effect is better.

Specifically, a garbage chamber 204 is arranged in the intelligent cleaning robot 2, the garbage chamber 204 is arranged in a detachable structure which can be taken out from the intelligent cleaning robot 2, or is arranged in a structure which is not detachable for a part of the intelligent cleaning robot 2, a dust collection air duct 1023 is arranged on one side of the dirt collection box 102, and the dust collection air duct 1023 and the dust discharge port 202 on the intelligent cleaning robot 2 are in butt joint communication with each other so that the garbage in the garbage chamber 204 enters the dirt collection box 102 to be collected; the dust chamber 204 and the dust outlet 202 are configured to be communicated, one end of the dust collection duct 1023 is provided with a dust collection port 1024, and the dust collection port 1024 is abutted with the dust outlet 202 for enabling the garbage in the dust chamber 204 to enter the dirt collection box 102 through the dust outlet 202 and the dust collection port 1024; the garbage cavity 204 is used for the intelligent cleaning robot 2 to walk on the ground to suck garbage, when certain garbage is stored in the garbage cavity 204, the intelligent cleaning robot 2 returns to the integration station 1, and the dust discharge port 202 is in butt joint with the dust collection port 1024; the dust exhaust port 202 is arranged to be an openable and closable structure, the dust exhaust port 202 is structured to be provided with a soft silica gel piece, the silica gel piece deforms and opens the dust exhaust port 202 under the action of the air flow of the suction force, and when the air flow of the suction force stops, the silica gel piece closes the dust exhaust port 202 under the action of the elasticity of the silica gel piece; or a motor is arranged at the position of the dust exhaust port 202, and the motor drives the silica gel part to realize the opening and closing effect on the dust exhaust port 202, so that the dust exhaust port 202 is only required to be opened to carry out butt joint dust collection when the airflow generator 101 works.

Optionally, the dust exhaust port 202 is disposed at a position, and the dust exhaust port 202 is located at the bottom, the side or the top of the intelligent cleaning robot 2, and at this time, the position of the dust collection port 1024 and the position of the dust exhaust port 202 are correspondingly disposed to realize the butt joint and communication therebetween, so that the effect of butt joint and dust collection can be realized.

Optionally, the dust exhaust port 202 is located at the bottom, the side or the top of the dust cavity 204, in order to implement a simpler abutting dust collection structure, the dust exhaust port 202 may be disposed on the dust cavity 204, and the position where the dust collection port 1024 is correspondingly disposed corresponds to the position of the dust exhaust port 202, so that the dust collection port 1024 and the dust exhaust port 202 are in abutting communication.

In this scheme, integrated station 1 includes workstation 109, collection dirt mouth 1024 is located on the workstation 109, workstation 109 is used for supporting at least 2 of intelligent cleaning robot's part, dust exhaust mouth 202 is located 2 of intelligent cleaning robot's bottom or the bottom in rubbish chamber 204 this moment, and intelligent cleaning robot 2 stops to be located and realizes communicating with each other to the butt joint of collection dirt mouth 1024 and dust exhaust mouth 202 simultaneously to intelligent cleaning robot's 2 support on workstation 109.

In one form of dust collection docking, the work table 109 comprises at least one platform, and the dust collection port 1024 is located on the platform; the platform is a plane structure, which is more beneficial to the butt-joint communication between the dust collecting opening 1024 and the dust discharging opening 202.

Or workstation 109 includes an inclined platform at least, dust collection mouth 1024 is located on the inclined platform, the one end of inclined platform sets up to the structure that extends to ground downwards slant, for guide intelligent cleaning machines people 2 enter into workstation 109 on the integrated station 1, sets up the inclined platform and be the inclined plane structure, is favorable to intelligent cleaning machines people 2 to enter into on the workstation 109 and realize the butt joint between dust collection mouth 1024 and the dust exhaust mouth 202.

Be provided with guide structure on workstation 109, guide structure is at least partly of the drive wheel of spacing intelligent cleaning machines people 2 bottoms, and the drive wheel is used for intelligent cleaning machines people 2's walking drive, and when intelligent cleaning machines people 2 was located workstation 109, the spacing drive wheel of guide structure prevented intelligent cleaning machines people 2 slip or skew.

Another collection dirt mode of butt joint, one side of workstation 109 is provided with spacing portion 208, spacing portion 208 sets up to the contact the structure of the lateral part of intelligent cleaning robot 2, dust collection mouth 1024 is located on spacing portion 208, when entering into workstation 109 on the integrated station 1 through intelligent cleaning robot 2, the lateral part of intelligent cleaning robot 2 contacts spacing portion 208 and forms the butt joint of dust collection mouth 1024 and dust exhaust mouth 202 and gathers dirt.

In order to realize the sealed butt joint effect between the dust collection port 1024 and the dust exhaust port 202, a butt joint part 2081 with a soft structure is arranged on the limiting part 208, the dust collection port 1024 is positioned on the butt joint part 2081, and the butt joint part 2081 at least covers a part of the side part of the intelligent cleaning robot 2 and enables the dust collection port 1024 and the dust exhaust port 202 to be in butt joint to form a relatively sealed structure; when the intelligent cleaning robot 2 enters the workbench 109, the side part of the intelligent cleaning robot 2 contacts the butt joint part 2081 on the limiting part 208, so that the butt joint part 2081 slightly deforms to cover the side part of the intelligent cleaning robot 2, the butt joint effect is formed by the butt joint of the butt joint part 2081, and the butt joint effect of the dust collection port 1024 and the dust discharge port 202 is better.

Optionally, the docking portion 2081 is configured to be a plane structure, an arc structure, or a concave structure, and on the premise that the docking portion 2081 is a soft structure, a docking dust collection sealing effect between the dust collection port 1024 and the dust discharge port 202 formed by the docking portion 2081 covering the side portion of the intelligent cleaning robot 2 can be better achieved.

Still another collection dirt mode of butt joint mainly the upside of workstation 109 is provided with the collection dirt post, collection dirt mouth 1024 is located on the collection dirt post, collection dirt mouth 1024 with arrange the butt joint of dirt mouth 202 and form relative inclosed structure, arrange the dirt mouth 202 and be located intelligent cleaning machines people 2's top or the top in rubbish chamber 204 this moment, realize through the mode of butt joint collection dirt from top to bottom that the butt joint between collection dirt mouth 1024 and the row dirt mouth 202 communicates with each other and realizes that the rubbish in the rubbish chamber 204 is inhaled and is got in the collection dirt case 102.

Optionally, the dust collecting column is configured to be a telescopic structure, a spring or a motor may be disposed on the upper side of the dust collecting column to implement the telescopic structure of the dust collecting column, when the dust collecting column extends downward, the dust collecting opening 1024 is in butt-joint communication with the dust discharging opening 202, and when the dust collecting column retracts upward, the dust discharging opening 202 is closed.

It is thus clear that above-mentioned three kinds of modes all can realize carrying out the butt joint collection dirt effect between dust collecting opening 1024 and the dust exhaust mouth 202, and the structure is reliable, facilitates the use, experiences effectually.

In order to make the cleaning effect of the airflow generator 101 on the filter 203 better, the airflow quantity of the airflow which can increase the suction force and passes through the filter 203 can be set through the structure, so that the cleaning effect on the filter 203 is better; specifically, the bottom of the intelligent cleaning robot 2 is provided with a dust suction port 206, the dust suction port 206 is communicated with the garbage chamber 204, the dust suction port 206 is used for sucking garbage on the ground into the garbage chamber 204, a shielding part 108 is mainly arranged on the integration station 1, the shielding part 108 at least shields a part of the dust suction port 206 and forms a relatively closed structure with the dust suction port 206, so that the shielding part 108 shields a part or all of the dust suction port 206, most or all of the air flow of the suction force can enter the garbage chamber 204 through the filter 203, a good cleaning effect is achieved on the filter 203, and the particulate garbage on the filter 203 is separated into the garbage chamber 204 under the action of the air flow of the suction force and finally enters the dirt collection box 102 through the dust discharge port 202 to be collected.

Optionally, the shielding portion 108 shields a portion of the dust suction opening 206, and the air flow mainly achieves that the air flow generating the suction force when the air flow generator 101 works has a larger air flow rate through the filter 203 than the air flow rate through the dust suction opening 206; a part of relatively closed structure can be formed between the shielding part 108 and the dust suction port 206, and a small part of the air flow enters the garbage chamber 204 through the dust suction port 206 on the premise that most of the air flow passes through the filter 203, so that the garbage in the garbage chamber 204 can enter the dirt collection box 102 through the dust discharge port 202; or when the airflow generator 101 works, the airflow generating the suction force passes through the filter 203 and does not pass through the dust suction port 206, the shielding part 108 completely shields the dust suction port 206, and a completely closed structure is formed between the dust suction port 206 and the shielding part 108, so that the airflow generating the suction force can only enter the garbage chamber 204 through the filter 203, the cleaning effect on the filter 203 is better, and the particulate garbage can be separated from the filter 203.

Optionally, the shielding portion 108 is disposed on the workbench 109, and may be configured to be a structure protruding upward relative to the workbench 109, or may be configured to be a structure forming a concave downward relative to the workbench 109, only a part of the dust suction port 206 needs to be shielded by the shielding portion 108, when the intelligent cleaning robot 2 is located on the workbench 109, the shielding portion 108 shields the dust suction port 206, and the cleaning effect on the filter 203 is improved.

In order to better clean the filter 203 by the airflow generator 101, the integrated station 1 is provided with a shielding part 108, and the shielding part 108 at least shields a part of the dust suction port 206 and forms a relatively closed structure with the dust suction port 206; specifically, the shielding part 108 is located on the workbench 109, and may be configured as a part of structure protruding on the workbench 109, and when the intelligent cleaning robot 2 is located on the integration station 1, the shielding part 108 shields the dust suction port 206 and forms a relatively closed structure with the dust suction port 206; the structure of the shielding portion 108 may also be a groove-shaped structure, and the dust collection port 206 is covered in the groove-shaped structure, so as to realize a relatively closed structure between the dust collection port 206 and the groove-shaped structure.

Because the shielding part 108 shields a part of the dust suction opening 206, the air flow of the air flow which can generate the suction force when the air flow generator 101 works is larger than the air flow of the air flow passing through the dust suction opening 206 through the filter 203; ensuring that the majority of the suction achieved is directed through the filter 203 into the waste chamber 204 and hence a better cleaning of the filter 203.

Or, when the airflow generator 101 works, the airflow generating the suction force passes through the filter 203 and does not pass through the dust suction port 206, that is, the blocking portion 108 completely blocks the dust suction port 206, and a closed structure is formed between the airflow and the dust suction port 206, and the airflow cannot enter the garbage chamber 204 through the dust suction port 206, so that the airflow generating the suction force by the airflow generator 101 can only enter the garbage chamber 204 through the filter 203, and thus, a better cleaning effect on the filter 203 is achieved by passing more airflow generating the suction force through the filter 203, and more particles on the filter 203 can be driven by the airflow generating the suction force to be sucked into the garbage chamber 204 and finally enter the dirt collection box 102 to be collected.

Aiming at the air flow generator 101 in the scheme, the air flow generator 101 is connected and installed with the dirt collecting box 102, the air flow generator 101 can simultaneously butt-joint the garbage in the garbage cavity 204 and suck the sewage and the garbage in the cleaning groove 105, namely the air flow generator 101 is simultaneously communicated with the cleaning groove 105 and the garbage cavity 204, and the air flow of suction force synchronously passes through the cleaning groove 105 and the garbage cavity 204; this, however, increases the operating power and noise of the airflow generator 101, since the airflow, which disperses the suction of the airflow generator 101, is divided into two parts for docking the waste chamber 204 and the sink 105, respectively; to effectively reduce the power and noise problems of the airflow generator 101; the scheme is provided with an airflow switching module 3; mainly, the integration station 1 further comprises an airflow switching module 3, wherein the airflow switching module 3 switchably enables the dirt collection box 102 to be respectively communicated with the cleaning tank 105 and the garbage chamber 204; the airflow switching module 3 can realize that when the airflow with the suction force between the dirt collection box 102 and the cleaning tank 105 can pass through, the garbage cavity 204 and the dirt collection box 102 are in an open circuit, and at the moment, the airflow with the suction force cannot pass through, so that the airflow generator 101 can independently suck the sewage and the garbage in the cleaning tank 105; when the air flow with the suction force between the dirt collection box 102 and the garbage cavity 204 can pass through, the cleaning tank 105 and the dirt collection box 102 are in an open circuit, and the air flow with the suction force cannot pass through at the moment, so that the air flow generator 101 can be independently butted, collect dust and suck garbage in the garbage cavity 204; can realize that an airflow generator 101 both can be used for carrying out the collection dirt butt joint and absorb rubbish and get into collection dirt case 102, also can be used for absorbing sewage and rubbish and get into collection dirt case 102, and an airflow generator 101 can realize two kinds of absorption effects, and the cost is lower.

The specific structure of the air flow switching module 3 may be that the air flow switching module 3 includes a first valve 304 and a second valve 305, the first valve 304 is located on the dust collection air duct 1023 and can open and close the dust collection air duct 1023, so that the air flow generated by the air flow generator 101 when the first valve 304 is opened can butt and collect the garbage in the garbage chamber 204 into the garbage collection box 102, and the second valve 305 is connected with the garbage collection box 102 and can be opened and closed, so that the air flow generated by the air flow generator 101 when the second valve 305 is opened can suck the sewage and garbage in the cleaning tank 105 into the garbage collection box 102; the first valve 304 controls the open-close communication between the garbage chamber 204 and the dirt collecting box 102, the second valve 305 controls the open-close communication between the cleaning tank 105 and the dirt collecting box 102, and it is ensured that the airflow generator 101 can be used for independently abutting and collecting garbage in the garbage chamber 204 or independently sucking sewage and garbage in the cleaning tank 105, the first valve 304 and the second valve 305 can be set as electromagnetic valves or air valves, the first valve 304 and the second valve 305 can respectively and independently control the open-close effect thereof, for example, when the first valve 304 is opened, the second valve 305 is closed, or when the first valve 304 is closed, the second valve 305 is opened, the switching effect of the airflow of the suction force is realized, and then two sucking effects of one airflow generator 101 are realized.

The specific structure of the air flow switching module 3 may also be that a dirt collecting channel 107 is disposed on one side of the cleaning tank 105, the dirt collecting channel 107 is connected with the dust collecting air duct 1023, and the air flow switching module 3 is mounted at a position where the dirt collecting channel 107 is connected with the dust collecting air duct 1023, the air flow switching module 3 realizes communication between the dirt collecting tank 102 and the garbage chamber 204 and between the dirt collecting tank 102 and the cleaning tank 105, mainly, the air flow switching module 3 includes a first motor 301 and a first valve core 302, a valve gear 303 is disposed on the first motor 301, the valve gear 303 is engaged with the first valve core 302, and the first motor 301 rotates to drive the first valve core 302 to move so as to switchably communicate the dirt collecting tank 102 with the cleaning tank 105 and the garbage chamber 204, respectively; when the first motor 301 drives the valve gear 303 to rotate towards one side direction, the first valve core 302 can be driven to move towards one side at the moment to realize that the sewage collection box 102 is communicated with the garbage cavity 204, and the sewage collection box 102 is disconnected from the cleaning groove 105; when the first motor 301 drives the valve gear 303 to rotate towards the other side, the first valve core 302 can move towards the other side at the moment to realize that the sewage collection box 102 is communicated with the cleaning groove 105, and the sewage collection box 102 is disconnected from the garbage cavity 204; the entire process achieves a switching effect on the air flow of the suction force generated by the air flow generator 101.

In the scheme, the air flow generator 101 is arranged between the cleaning tank 105 and the dirt collection tank 102 to suck the sewage and the garbage in the cleaning tank 105 into the dirt collection tank 102 for collection, and the cleaning tank 105 and the dirt collection tank 102 can be communicated through the arrangement of the first power mechanism 106, wherein the first power mechanism 106 is used for transferring the sewage and/or the garbage in the cleaning tank 105 into the dirt collection tank 102; the first power mechanism 106 is respectively connected with the sewage collection tank 102 and the cleaning tank 105 through pipelines, so that sewage and garbage in the cleaning tank 105 are pumped into the sewage collection tank 102 to be collected; the position where the first power mechanism 106 is communicated with the dirt collection box 102 through a pipeline is located on one side of the garbage opening 1022, which may be an upper side or a left-right side, or may be the same position as the garbage opening 1022, so that the sewage sucked by the first power mechanism 106 sprays the garbage in the filter basket 104; the first power mechanism 106 may be disposed at a position where the first power mechanism 106 is communicated with the dirt collection tank 102 through a pipeline, and the position is located at one side of the trash opening 1022 and is separately disposed, so that the sewage pumped by the first power mechanism 106 does not spray the garbage in the filter basket 104 but respectively enters the dirt collection tank 102 to be collected, and the setting may be specifically performed as required.

The structure is that the cleaning tank 105 is communicated with the dirt collecting box 102, the air flow generator 101 is connected with the dirt collecting box 102, and under the condition that the air flow generator 101 works, sewage and/or garbage in the cleaning tank 105 can be sucked into the dirt collecting box 102 by the air flow provided by the air flow generator 101 to be collected; the sewage collection tank 102 is connected with the cleaning tank 105 through a pipeline, and sewage and garbage in the cleaning tank 105 enter the pipeline under the action of air flow of suction force and finally enter the sewage collection tank 102; the cleaning tank 105 and the dirt collection tank 102 may be further communicated through a first power mechanism 106, and the first power mechanism 106 is configured to transfer the sewage and/or the garbage in the cleaning tank 105 into the dirt collection tank 102; the first power mechanism 106 is connected with the sewage collection tank 102 through a pipeline, so that sewage and garbage in the cleaning tank 105 enter the pipeline under the action of the first power mechanism 106 and finally enter the sewage collection tank 102 to be collected; the sewage and garbage in the cleaning tank 105 can be recovered by the sewage collection tank 102 in the whole process, so that the automatic recovery function is realized; the user only needs to pour the dirt collection box 102 periodically or periodically, and can clean the cleaning member 201 for multiple times or periodically and then recycle the cleaned sewage and garbage into the dirt collection box 102.

The clean water tank 103 of the scheme supplies water to the cleaning tank 105 to clean the cleaning piece 201 in the cleaning tank 105, and the clean water tank 103 is communicated with the cleaning tank 105 through the second power mechanism 1031, so that the clean water tank 103 supplies water to the cleaning tank 105 and/or the cleaning piece 201; when the cleaning member 201 is located in the cleaning tank 105, the second power mechanism 1031 pumps the water in the clean water tank 103 into the cleaning tank 105, and the cleaning member 201 moves to clean the cleaning tank 105; at this time, the second power mechanism 1031 can pump the water in the clean water tank 103 into the cleaning tank 105 so that a certain amount of water is contained in the cleaning tank 105, and the cleaning member 201 is located in the cleaning tank 105 for cleaning; or pumping and spraying water to the cleaning piece 201, and not directly adding water to the cleaning groove 105, but spraying water to the cleaning piece 201 to enable sewage and garbage formed by cleaning to enter the cleaning groove 105, so that the spraying cleaning effect on the cleaning piece 201 can be realized.

The first power mechanism 106 and the second power mechanism 1031 may be configured as a water pump or an electromagnetic pump, etc. to achieve the effect of pumping water, the first power mechanism 106 and the second power mechanism 1031 are electrically connected to a control unit in the integration station 1, and the control unit controls the start and the stop of the water pump or the electromagnetic pump and controls the working time of the water pump or the electromagnetic pump; can complete the functions of water supply, sewage pumping and the like.

The integrated station 1 of this scheme washing tank 105 is used for flourishing water and placing cleaning piece 201, when intelligent cleaning robot 2 was located integrated station 1, cleaning piece 201 was located washing tank 105, added clear water this moment to washing tank 105 through clear water tank 103 and can wash cleaning piece 201, and the back is accomplished in the washing, sewage and rubbish in the washing tank 105 were transferred to album dirty case 102 and are collected, be provided with washing portion 1051 in the washing tank 105, washing portion 1051 contact cleaning piece 201, work as can make during the movement of cleaning piece 201 dirty and rubbish on the cleaning piece 201 separate to the aquatic. The cleaning piece 201 and the cleaning part 1051 scrape to realize that the cleaning part 1051 separates dirt and garbage on the cleaning piece 201 into water to form sewage and garbage, and the cleaning piece 201 is cleaned.

Specifically, the structure of washing portion 1051 does, washing portion 1051 sets up to sand grip or bump or round brush structure, and washing portion 1051 can set up to bellied strip structure, also can set up to the bump structure, can also set up to the structure of round brush, is provided with brush strip and brush hair on the round brush, and the round brush is installed in washing tank 105 and is set up to rotatable structure, and cleaning member 201 can drive the round brush rotation and realize the scraping cleaning effect to cleaning member 201 at rotatory in-process, all can realize the contact scraping cleaning effect of washing portion 1051 to cleaning member 201.

Alternatively, the cleaning section 1051 is provided as an independently detachable structure or as a part of the cleaning tank 105; the cleaning part 1051 may be provided as an independent structure with respect to the cleaning tank 105, provided to be detachably installed in the cleaning tank 105; the cleaning portion 1051 can also be a part of the cleaning tank 105, such as the cleaning portion 1051 with a protrusion on the inner surface of the cleaning tank 105, so long as the cleaning element 201 can contact with the cleaning portion 1051 to achieve the scraping effect.

Optionally, when the cleaning piece 201 is configured to be a cylindrical structure, the cleaning piece 201 can roll on the ground to realize mopping cleaning, in order to clean the cleaning piece 201, the cleaning tank 105 is configured to be a corresponding cylindrical structure or a square structure to accommodate the cleaning piece 201, a plurality of cleaning portions 1051 distributed in a staggered manner are arranged in the cleaning tank 105, the cleaning portions 1051 are configured to be salient points, so that an all-dimensional scraping cleaning effect on the cleaning piece 201 can be realized, which is beneficial to improving the efficiency of cleaning the cleaning piece 201, and the cleaning effect is better.

Optionally, the structure of the washing part 1051 may also be that the upper part of the washing tank 105 is provided with the washing part 1051 facing the cleaning member 201 and forming a closing structure, and the washing part 1051 contacts the cleaning member 201 so that the washing part 1051 scrapes dirt and garbage on the cleaning member 201 and separates out into water; the washing portion 1051 of binding off structure can not only play the effect that the cleaning piece 201 was washd in the scraping, simultaneously can also and cleaning piece 201 between form certain airtight structure and play the effect of manger plate, when cleaning piece 201 produced at the in-process of motion and got rid of water, the water of getting rid of this moment is blocked and falls back to in the washing tank 105 by the washing portion 1051 of binding off structure, prevent that sewage from outwards getting rid of and splashing outside washing tank 105, better cleaning performance and prevent getting rid of water effect have been played.

Optionally, a groove is formed in the cleaning tank 105, and a position where the groove intersects with the inner surface of the cleaning tank 105 is formed to form the cleaning part 1051, so that the cleaning part 1051 contacts with the cleaning piece 201 to form a scraping structure for the cleaning piece 201; the groove structure can realize that a part of the cleaning piece 201 is positioned in the groove, and meanwhile, the cleaning piece 201 scrapes with the cleaning part 1051 in the moving process to enable garbage to enter the groove downwards, so that garbage can be gathered, and meanwhile, the garbage can be conveniently and intensively transferred into the garbage collection box 102.

In order to facilitate the transfer of the waste water and garbage in the cleaning tank 105 to the garbage collection box 102 and achieve a better cleaning effect on the cleaning members 201, the present solution is provided with a cleaning area 1052 and a garbage collection area 1053 in the cleaning tank 105, the cleaning area 1052 is used for placing the cleaning members 201, the cleaning members 201 are located in the cleaning area 1052 for cleaning, the garbage collection area 1053 is used for collecting the waste water and/or garbage, the garbage collection area 1053 is arranged in a box structure and is communicated with the cleaning area 1052 and the garbage collection area 1053, and the communication between the garbage collection area 1053 and the garbage collection box 102 is used for sucking the waste water and/or garbage in the garbage collection area 1053 into the garbage collection box 102 for collection by the air flow provided by the air flow generator 101; mainly, the clear water tank 103 is communicated with the cleaning area 1052, clear water in the clear water tank 103 enters the cleaning area 1052, and a flushing effect on the cleaning area 1052 is formed in the process of adding water; the sewage collecting box 102 is communicated with the sewage collecting area 1053, sewage in the sewage collecting area 1053 is transferred into the sewage collecting box 102, in the process of transferring sewage, garbage in the cleaning area 1052 enters the sewage collecting area 1053 along with the flow of sewage, and finally, the garbage completely enters the sewage collecting area 1053, the sewage and the garbage in the cleaning area 1052 are completely flushed into the sewage collecting area 1053 in the process of adding water to the cleaning tank 105 by the clean water tank 103, and the sewage and the garbage in the sewage collecting area 1053 are sucked by the airflow of the suction through the airflow generator 101, so that the box body structure of the sewage collecting area 1053 is favorable for the concentration of the airflow of the suction, and the suction force of the airflow of the suction to the sewage and the garbage in the sewage collecting area 1053 is large, and the sewage and the garbage are easily sucked into the sewage collecting box 102.

Optionally, the dirt collecting area 1053 is configured as a box structure, which forms a relatively closed structure on the cleaning tank 105, and a sewage hole is provided between the cleaning area 1052 and the dirt collecting area 1053, so that sewage and garbage in the cleaning area 1052 can completely enter the dirt collecting area 1053 through the sewage hole, thereby facilitating the transportation and treatment of the sewage and garbage by the airflow generator 101 or the first power mechanism 106.

When adopting airflow generator 101 to absorb sewage and rubbish in washing tank 105, especially when absorbing rubbish, if washing tank 105 can not form the relatively inclosed structure then can lead to the air current of the suction that airflow generator 101 produced comparatively disperse, can't absorb sewage or rubbish thoroughly to the collection dirty case 102 in, set up dirty district 1053 that gathers the thing into the box body structure this moment, can ensure that airflow generator 101 produced suction concentrates on forming the effect of absorbing, can not disperse the air current, has obtained better absorption effect.

Optionally, the communication position of the air flow generator 101 on the dirt collection box 102 is located above the communication position of the cleaning tank 105 on the dirt collection box 102, so that part of sewage and garbage in the process of sucking the sewage and garbage in the cleaning tank 105 by the air flow generator 101 is prevented from entering the air flow generator 101, and the sewage and garbage directly fall into the dirt collection box 102 to be collected; meanwhile, a blocking and guiding part is arranged on one side of the position, communicated with the dirt collecting box 102, of the cleaning tank 105, and plays a role in blocking and guiding, when sewage and garbage in the cleaning tank 105 enter the dirt collecting box 102, the sewage and the garbage are sprayed to the blocking and guiding part, the sewage and the garbage fall downwards under the action of the blocking and guiding part and enter the lower part of the dirt collecting box 102, the sewage and the garbage are not directly sprayed to the airflow generator 101, and the sewage and the garbage are prevented from entering the airflow generator 101 to damage the airflow generator 101; play the protective action, be favorable to the guide to collect sewage and rubbish simultaneously.

Preferably, the first power mechanism 106 is used to pump the sewage and smaller garbage in the sewage collecting area 1053 into the sewage collecting box 102, and the airflow generator 101 is used to suck larger garbage or thicker sewage in the sewage collecting area 1053 into the sewage collecting box 102, so as to ensure that all the sewage in the sewage collecting area 1053 can be transferred into the sewage collecting box 102.

In order to prevent the cleaning piece 201 from being thrown out of the cleaning tank 105 when moving in the cleaning tank 105 for cleaning and to enable the air flow generator 101 to suck the sewage and garbage in the cleaning tank 105 into the sewage collecting tank 102, a water blocking part 205 is arranged between the intelligent cleaning robot 2 and the cleaning tank 105, and the water blocking part 205 enables the bottom of the intelligent cleaning robot 2 and the upper part of the cleaning tank 105 to form a relatively sealed structure and wraps the cleaning piece 201 in the water blocking part 205; the cleaning piece 201 is covered by the water retaining part 205, and water splashing can occur when the cleaning piece 201 moves, and the water thrown out is blocked by the water retaining part 205 and falls back into the cleaning tank 105, so that the water in the cleaning process is prevented from splashing out of the cleaning tank 105; meanwhile, after the sewage in the cleaning tank 105 is transferred into the sewage collection tank 102, a part of large garbage remains in the cleaning tank 105, and the cleaning tank 105 is required to form a relatively closed structure when the air flow generator 101 sucks the part of large garbage into the sewage collection tank 102, so that the air flow generator 101 can suck the large garbage into the sewage collection tank 102 through suction; if the cleaning tank 105 cannot form a relatively closed structure, the air flow generator 101 cannot suck large garbage into the garbage collection tank 102; meanwhile, the cleaning tank 105 is only formed into a relatively closed structure, but not completely closed, and a through hole can be formed in the water blocking part 205, so that air flow between the cleaning tank 105 and the outside can pass through the through hole; the water guard 205 forms a four-sided wrap-around structure that can encase the cleaning elements 201 therein.

Optionally, the water blocking part 205 is located at the bottom of the intelligent cleaning robot 2, the water blocking part 205 contacts the upper part of the cleaning tank 105 to form a relatively closed structure therebetween, or the water blocking part 205 may be configured to extend downward and extend into the cleaning tank 105 and form a relatively closed structure with the side part of the cleaning tank 105; the water blocking part 205 can also be arranged to extend downwards and cover a part of the side part of the cleaning tank 105 to form a relatively sealed structure; the problem that the contaminated water is thrown out of the cleaning tank 105 in the process of cleaning the cleaning member 201 can be solved.

According to the scheme, the airflow generator 101 is adopted to suck the sewage and the garbage in the cleaning tank 105, so that larger garbage in the cleaning tank 105 can be sucked into the sewage collection tank 102; meanwhile, when the air flow generator 101 sucks sewage and garbage in the cleaning tank 105, water on the cleaning piece 201 is sucked, the cleaning piece 201 can be kept in a certain wet state without dripping, part of water on the cleaning piece 201 is sucked and separated by the air flow generator 101 after cleaning is completed, so that the cleaning piece 201 is kept in a slightly wet state, the intelligent cleaning robot 2 cannot pollute the workbench 109 in the process of leaving the integration station 1, and the problem that water drops on the cleaning piece 201 fall on the workbench 109 cannot occur.

Airflow blades are arranged in the airflow generator 101 and connected with a motor, the motor rotates to drive the airflow blades to rotate to generate airflow with suction force, and meanwhile airflow is discharged from the rear side of the airflow generator 101 to form blown airflow; the specific structure is that the airflow generator 101 comprises an airflow discharge port 1011, the airflow discharge port 1011 is mainly used for discharging airflow during the process of generating suction airflow by the airflow generator 101 and mainly formed by the rotation of airflow blades, the airflow discharge port 1011 is communicated with the garbage cavity 204, and the airflow generator 101 is at least used for blowing airflow into the garbage cavity 204 through the airflow discharge port 1011; the air flow discharged by the airflow generator 101 enters the garbage cavity 204 to blow the garbage in the garbage cavity 204, so that the garbage can more easily enter the dirt collection box 102 through the dust discharge port 202; the air current of exhaust gas and suction acts on the rubbish in the rubbish chamber 204 jointly, produces one side and blows rubbish and get into dust exhaust port 202, and one side absorbs rubbish and passes through dust exhaust port 202, is favorable to promoting airflow generator 101's work efficiency, can suitably reduce airflow generator 101's power simultaneously, has realized lower cost, because of airflow generator 101's power obtains reducing, the noise that corresponding airflow generator 101 produced also can obtain reducing.

The specific structure that the airflow generator 101 blows the garbage in the garbage chamber 204 with the airflow is that the garbage chamber 204 is provided with an air vent 207, the air vent 1011 is communicated with the garbage chamber 204 through the air vent 207, mainly the air vent 1011 is connected through a pipeline and forms an airflow blowing opening on the integration station 1, when the intelligent cleaning robot 2 is located on the integration station 1, the airflow blowing opening is in butt joint with the air vent 207 on the intelligent cleaning robot 2, and then blows the airflow into the garbage chamber 204, wherein the air vent 207 is configured to be an openable and closable structure, a soft-structure silicone member is mainly arranged on the air vent 207, the silicone member closes the air vent 207 under normal conditions, when the air vent 1011 blows the airflow into the air vent 207, the silicone member is forcibly deformed under the action of the blown airflow and opens the air vent 207, at this time, the blown airflow enters the garbage chamber 204 to blow the garbage, make rubbish can enter into collection dirt wind channel 1023 through dust exhaust port 202, the blow vent 207 is located on the bottom, the lateral part or the top of rubbish chamber 204, only need realize that blow vent 207 docks with the air current mouthpiece can, the air current mouthpiece corresponds the setting with the position of blow vent 207 and makes it can form the route with the butt joint of blow vent 207.

Alternatively, the filter 203 can be blown by the blown air flow, so that the particles on the filter 203 can be separated out and enter the dust collection air duct 1023 through the dust exhaust port 202; particulate matter adsorbs on filter 203 under normal conditions, mainly sets up the fan in intelligent cleaning robot 2 because of the fan is located the outside of filter 203 and produces suction and realize that intelligent cleaning robot 2 can absorb the rubbish on ground and enter into rubbish chamber 204 and realize the separation of rubbish and air current through filter 203, consequently on the in-process particulate matter adsorption filter 203 of absorbing ground rubbish, this scheme will vent 207 is located one side of filter 203 makes airflow generator 101 to blow at least to filter 203 and make when blowing the air current in rubbish chamber 204 the rubbish on the filter 203 is isolated.

Optionally, an airflow blowing channel is provided at one side of the air vent 207 to guide the airflow towards the filter 203, and the airflow discharged from the airflow blowing channel covers at least a part of the filter 203 and is arranged towards the waste chamber 204, so that the airflow can better blow and separate the particles on the filter 203 out into the waste chamber 204.

The vent 207 of the present disclosure is communicated with the dust exhaust port 202 through the dust chamber 204, so that when the airflow generator 101 blows airflow into the dust chamber 204, the airflow drives the garbage in the dust chamber 204 to enter the dust collection box 102 through the dust exhaust port 202 for collection; the air vent 207 and the dust exhaust port 202 can be arranged on the garbage chamber 204 and form a communicating structure, when the air flow generator 101 works, the dust exhaust port 202 is connected with the dust collection air duct 1023 through the dust collection port 1024 and finally connected with the dirt collection box 102, the air vent 207 is connected with the air flow discharge port 1011 through the air flow blowing port and through a pipeline, meanwhile, the air flow of the suction force generated by the air flow generator 101 enters the garbage chamber 204 through the filter 203 to drive the garbage in the garbage chamber 204 to enter the dirt collection box 102 through the dust exhaust port 202, the exhaust air flow generated by the air flow generator 101 is blown into the garbage chamber 204 through the air vent 207 and enables the garbage in the garbage chamber 204 to enter the dust exhaust port 202 and enter the dirt collection box 102, the dust collection effect of the integration station 1 on the garbage in the garbage chamber 204 is completed under the combined action of the air flow of the suction force and the blown air flow, which is beneficial to improve the working efficiency of the air lift of the air flow generator 101 and further improve the efficiency of, meanwhile, the filter 203 can be cleaned better, and the working noise of the airflow generator 101 can be reduced; and a better effect is obtained.

In order to obtain better mopping effect and be more beneficial to the intelligent cleaning robot 2 to enter the integration station 1, the cleaning piece 201 is arranged at the bottom of the intelligent cleaning robot 2 and is arranged into a structure capable of moving up and down in the vertical direction; cleaning member 201 is installed on the clamp plate, the clamp plate and intelligent cleaning robot 2's main part swing joint, set up on the clamp plate and drive cleaning member 201 self motion and drag the connecting axle of ground simultaneously, the connecting axle also with intelligent cleaning robot 2's main part swing joint, mainly with the actuating mechanism swing joint in intelligent cleaning robot 2, realize that the clamp plate drives and still can realize cleaning member 201 self motion under the prerequisite that cleaning member 201 can reciprocate and drag the ground, better ground effect of dragging has been gained, when intelligent cleaning robot 2 enters into on the integrated station 1 simultaneously, be favorable to intelligent cleaning robot 2 to cross the step and enter into on workstation 109, cleaning member 201 that is favorable to intelligent cleaning robot 2 simultaneously enters into washing tank 105 and washs, prevent that the problem that intelligent cleaning robot 2 walked in-process was blocked from taking place.

The dirt collection box 102 that this scheme set up, only need the user regularly or periodic processing can, the rubbish in the dirt collection box 102 collection rubbish chamber 204 many times, still can collect sewage or rubbish after wasing cleaning member 201 many times, in order to prevent that dirt collection box 102 from smelling under the condition of longer time untreated, the polluted environment even, this scheme is in dirt collection box 102 and/or be provided with the module of disinfecting that is used for disinfecting in the rubbish chamber 204, the module of disinfecting plays the effect of disinfecting at least, can also play certain stoving effect, also can one side of dust exhaust port 202 is provided with the module of disinfecting, mainly sets up the module of disinfecting in rubbish chamber 204, carries out germicidal treatment to the rubbish in the rubbish chamber 204 of intelligent cleaning robot 2.

Alternatively, the sterilization module may be one of a UV lamp or a UV lamp tube or an infrared lamp or an ultraviolet lamp.

Alternatively, the sterilization module may be an ozone generator, and the sterilization treatment is performed by using ozone.

The integration station 1 can realize automatic recharging and charging of the intelligent cleaning robot 2, and the specific butt-joint charging structure is that a first electrode plate is arranged on the intelligent cleaning robot 2, two first electrode plates are arranged, the first electrode plate is positioned at the bottom or the side of the intelligent cleaning robot 2, a second electrode plate is correspondingly arranged on the integration station 1, two second electrode plates are also arranged, the positions of the two second electrode plates are correspondingly arranged with the first electrode plates, and the first electrode plates and the second electrode plates are butted and attached to charge the intelligent cleaning robot 2; when the intelligent cleaning robot 2 returns to the integration station 1, the first electrode plate and the second electrode plate are in contact to realize butt joint, and the control unit in the integration station 1 controls the integration station 1 to charge the intelligent cleaning robot 2.

The working principle is as follows: according to the scheme, the air flow generator 101 is connected with the dirt collection tank 102, the air flow generator 101 generates air flow of suction force to the dirt collection tank 102, and meanwhile the dirt collection tank 102 is also communicated with the garbage cavity 204 and the cleaning tank 105, so that garbage in the garbage cavity 204 is collected in a butt joint manner, and meanwhile, sewage and garbage in the cleaning tank 105 are collected; this scheme only needs to set up a collection dirt case 102 and can realize the collection to sewage and rubbish, for better promotion user experience, still set up filter basket 104, realize with less rubbish through setting up of filter basket 104, the particulate matter filters the separation processing with great rubbish, less rubbish, the particulate matter enters into in collection dirt case 102 through filter basket 104 and the problem of raise dust is realized solving with sewage mixture, and collection dirt case 102 can directly be poured into the sewer and can not block up, big rubbish in the filter basket 104 is more poured into the garbage bin easily, the problem of bonding can not appear.

It will be understood by those skilled in the art that the foregoing embodiments are specific examples of the invention, and that various changes in form and details may be made therein without departing from the spirit and scope of the invention in practice.

Claims (23)

1. An intelligent cleaning robot's collection station which characterized in that: the intelligent cleaning robot system comprises an integration station, a cleaning piece cleaning device and a control device, wherein the integration station is arranged independently relative to the intelligent cleaning robot and at least used for carrying out butt joint dust collection on the intelligent cleaning robot and cleaning the cleaning piece used for mopping the floor on the intelligent cleaning robot;

a garbage cavity is formed in the intelligent cleaning robot and used for collecting garbage sucked by the intelligent cleaning robot;

the integration station is provided with a cleaning tank, and the cleaning tank is used for containing water and placing the cleaning piece so that the cleaning piece is positioned in the cleaning tank for cleaning;

the integration station comprises a sewage collection box, wherein the sewage collection box is used for butt-joint collection of the garbage in the garbage cavity and collection of the sewage and the garbage after the cleaning piece is cleaned in the cleaning tank;

said station further comprising a clean water tank for supplying water at least to said cleaning members to wash said cleaning members;

an airflow generator is arranged in the integration station and connected with the dirt collection box, so that the airflow generator is at least used for generating airflow with suction force to the dirt collection box;

when the airflow generator works, the dirt collecting box is communicated with the garbage cavity so that garbage in the garbage cavity enters the dirt collecting box to be collected, and/or the dirt collecting box is communicated with the cleaning tank so that sewage and garbage in the cleaning tank enter the dirt collecting box to be collected.

2. The intelligent cleaning robot integration station of claim 1, wherein: the station further comprises a filter basket, the filter basket is arranged to communicate with the dirt collection tank and communicate with the waste chamber such that the filter basket is at least used for filtering the waste in the waste chamber.

3. The intelligent cleaning robot integration station of claim 2, wherein: the filtering basket is provided with a filtering part, and the filtering part is used for filtering the garbage in the garbage cavity, so that part of the garbage enters the sewage collection box through the filtering part to be collected, and part of the garbage does not enter the filtering basket through the filtering part to be collected.

4. The integration station of an intelligent cleaning robot of claim 3, wherein: the filtering basket is positioned in the sewage collection box, the sewage collection box is provided with a sewage port and a garbage port, the garbage cavity is communicated with the sewage collection box through the garbage port, and the cleaning tank is communicated with the sewage collection box through the sewage port.

5. The integration station of an intelligent cleaning robot of claim 4, wherein: the sewage port is positioned on one side of the garbage port or on the same position, and sewage in the cleaning tank enters the sewage collection tank through the filtering basket and is sprayed to garbage in the filtering basket.

6. The integration station of an intelligent cleaning robot of claim 5, wherein: the filtering basket is arranged into a concave structure, and the filtering part is positioned on the side wall and/or the bottom wall of the filtering basket;

or the filtering basket further comprises a basket cover, and the filtering part is positioned on the side wall, the bottom wall or the basket cover of the filtering basket.

7. The integration station of an intelligent cleaning robot of claim 3, wherein: the filtering basket is positioned at the outer side of the dirt collecting box, and the dirt collecting box is communicated with the garbage cavity through the filtering basket.

8. The integration station of an intelligent cleaning robot of claim 7, wherein: a filtering piece is arranged in the filtering basket, and the filtering part is positioned on the filtering piece.

9. The intelligent cleaning robot integration station of claim 1, wherein: the cleaning piece is positioned at the bottom of the intelligent cleaning robot, and the cleaning piece is arranged into a structure which can move to mop the ground;

the cleaning piece is arranged in a structure capable of rotating and rolling relative to the ground, and the cleaning piece is in contact with the ground;

or the cleaning piece is arranged to be a structure which can be horizontally rotated along with the ground;

or the cleaning member is provided in a structure that can horizontally reciprocate relative to the floor.

10. The intelligent cleaning robot integration station of claim 1, wherein: a cleaning part is arranged in the cleaning tank, contacts the cleaning piece, and can separate dirt and garbage on the cleaning piece into water when the cleaning piece moves; the cleaning part is arranged to be an independent and detachable structure or a part of the cleaning tank;

the cleaning part is provided with a convex strip or a convex point or a rolling brush structure;

or the upper part of the cleaning tank is provided with a cleaning part facing the cleaning piece and forming a closing-in structure, and the cleaning part contacts the cleaning piece so that the cleaning part scrapes dirt and garbage on the cleaning piece and separates the dirt and the garbage into water;

or a groove is arranged in the cleaning groove, and the position where the groove intersects with the inner surface of the cleaning groove is formed into the cleaning part, so that the cleaning part is contacted with the cleaning piece to form a scraping structure for the cleaning piece.

11. The intelligent cleaning robot integration station of claim 1, wherein: a water blocking part is arranged between the intelligent cleaning robot and the cleaning tank, and the water blocking part enables the bottom of the intelligent cleaning robot and the upper part of the cleaning tank to form a relatively closed structure and wraps the cleaning piece in the water blocking part.

12. The intelligent cleaning robot integration station of claim 1, wherein: the washing tank is provided with the washing district and collects dirty district, the washing district is placed the cleaning member, dirty district collection sewage and/or rubbish of collection, and set up the washing district with dirty district's intercommunication of collection, dirty district of collection with intercommunication makes between the dirty case of collection sewage and/or rubbish in the dirty district of collection can by the air current that airflow generator provided is inhaled and is got the dirty incasement of collection is collected.

13. The intelligent cleaning robot integration station of claim 1, wherein: the cleaning tank is communicated with the sewage collection box through a first power mechanism, and the first power mechanism is used for transferring sewage and/or garbage in the cleaning tank into the sewage collection box.

14. The intelligent cleaning robot integration station of claim 1, wherein: the clean water tank is communicated with the cleaning tank through a second power mechanism, so that the clean water tank supplies water to the cleaning tank and/or the cleaning piece.

15. The intelligent cleaning robot integration station of claim 1, wherein: a dust collecting air channel is arranged on one side of the dirt collecting box, and the dust collecting air channel and a dust discharging port on the intelligent cleaning robot are in butt joint communication with each other, so that the garbage in the garbage cavity enters the dirt collecting box to be collected;

be provided with the filter in the intelligent cleaning robot, the filter passes through the dust exhaust mouth with collection dirt wind channel intercommunication works as the intelligent cleaning robot is located on the integrated station just airflow generator during operation, airflow generator produces the air current of suction and passes through at least the filter makes rubbish on the filter separates and enters into by being collected in the dirty case of collection.

16. The intelligent cleaning robot integration station of claim 15, wherein: the dust exhaust port is of an openable and closable structure and is positioned at the bottom, the side or the top of the intelligent cleaning robot; the garbage chamber with the dust exhaust mouth sets up to communicating structure, the one end in collection dirt wind channel is provided with the collection dirt mouth, the collection dirt mouth with the butt joint of dust exhaust mouth is used for making rubbish in the garbage chamber passes through the dust exhaust mouth with the collection dirt mouth enters into in the collection dirt case.

17. The intelligent cleaning robot integration station of claim 15, wherein: the integration station further comprises an airflow switching module, and the airflow switching module can switchably enable the dirt collection box to be communicated with the cleaning tank and the garbage cavity respectively.

18. The intelligent cleaning robot integration station of claim 17, wherein; the airflow switching module comprises a first valve and a second valve, the first valve is positioned on the dust collection air channel and can be opened and closed, so that when the first valve is opened, the airflow generated by the airflow generator to generate suction force can butt and collect the garbage in the garbage cavity into the garbage collection box, and the second valve is connected with the garbage collection box and can be opened and closed, so that when the second valve is opened, the airflow generated by the airflow generator to generate suction force can suck the sewage and the garbage in the cleaning tank into the garbage collection box.

19. The intelligent cleaning robot integration station of claim 17, wherein: the device comprises a cleaning tank, a dust collecting air channel, an air flow switching module, a valve gear, a first motor and a garbage chamber, wherein the dust collecting air channel is arranged on one side of the cleaning tank, the air flow switching module is arranged at a position where the dust collecting air channel is connected with the air flow switching channel and the air flow switching channel is connected with the dust collecting air channel, the air flow switching module comprises the first motor and the first valve core, the first motor is provided with the valve gear, the valve gear is meshed with the first valve core, and the first motor rotates to drive the first valve core to move to make the dust collecting.

20. The intelligent cleaning robot integration station of claim 15, wherein: the intelligent cleaning robot comprises an integration station and an airflow generator, wherein the integration station is provided with a filter, the bottom of the integration station is provided with a dust suction port at least used for sucking garbage on the ground, and a shielding part is arranged on the integration station and at least shields one part of the dust suction port and forms a relatively closed structure with the dust suction port so that the airflow of the airflow generator generating suction when working can pass through the filter is larger than the airflow passing through the dust suction port;

or the airflow generating the suction force when the airflow generator works passes through the filter and does not pass through the dust suction port.

21. The intelligent cleaning robot integration station of claim 15, wherein: the airflow generator comprises an airflow outlet, the airflow outlet is communicated with the garbage cavity, and the airflow generator is at least used for blowing airflow into the garbage cavity through the airflow outlet.

22. The integration station of an intelligent cleaning robot of claim 21, wherein: the garbage chamber is provided with a vent hole, the vent hole is positioned on one side of the filter, so that the airflow generator blows airflow into the garbage chamber at least to the filter and makes garbage on the filter is separated out, the airflow outlet passes through the vent hole and the garbage chamber is communicated, the vent hole is arranged into a structure capable of being opened and closed, and the vent hole is positioned on the bottom, the side or the top of the garbage chamber.

23. The intelligent cleaning robot integration station of claim 1, wherein: a first electrode plate is arranged on the intelligent cleaning robot, a second electrode plate is arranged on the integration station, and the first electrode plate and the second electrode plate are butted and attached to charge the intelligent cleaning robot;

or a sterilization module for sterilization is arranged in the garbage cavity and/or the sewage collection box.

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