CN115581414A - Novel floor scrubber water conveying circulation system and control method thereof - Google Patents

Abstract

The invention discloses a novel floor scrubber water conveying circulation system and a control method thereof, wherein the system comprises: a base station and a floor scrubber; the base station comprises a first clean water tank and a first sewage tank; the scrubber machine includes: the first control valve can be connected with the first clean water tank; the second control valve is connected with the first control valve; the second sewage tank is connected with the second control valve; the garbage can is connected with the second sewage tank; wherein the first control valve is connected with the dustbin, and the dustbin can be connected with the first sewage tank. According to the invention, through the arrangement mode that the first control valve, the second sewage tank and the garbage tank are sequentially connected, the first control valve is connected with the first clean water tank, and the garbage tank is connected with the first sewage tank, the purposes of automatic water adding, automatic sewage pouring and automatic cleaning of the base station to the floor washing machine are realized, and the working efficiency is further improved.

Description

Novel floor scrubber water conveying circulation system and control method thereof

Technical Field

The invention relates to the related field of floor cleaning machines, in particular to a novel floor cleaning machine water conveying circulation system and a control method thereof.

Background

In the current ground washing scheme, the current water conveying operation mode of the ground washing machine is that after the ground washing machine is used up each time, water needs to be added to the machine body manually, the machine body is poured, and a sewage tank needs to be cleaned, so that the ground washing efficiency is affected due to complex operation and inconvenient operation.

Accordingly, the prior art is yet to be improved and developed.

Disclosure of Invention

The invention aims to solve the technical problem that the efficiency is low due to the fact that a floor washing machine needs manual operation in the prior art.

The technical scheme adopted by the invention for solving the technical problem is as follows:

a novel floor scrubber fortune water circulating system, wherein, includes: a base station and a floor washing machine; the base station comprises a first clean water tank and a first sewage tank; the scrubber machine includes:

the first control valve can be connected with the first clean water tank;

the second control valve is connected with the first control valve;

the second sewage tank is connected with the second control valve;

the garbage can is connected with the second sewage tank;

wherein the first control valve is connected with the dustbin, which can be connected with the first waste tank.

In some implementations, the second control valve is a three-way valve that can be in communication with the ambient.

In some implementations, the second waste bin is located above the trash bin.

In some implementations, the scrubber further includes:

the first pump body is respectively connected with the first control valve and the second control valve;

the first pump body is connected with the dustbin.

In some implementations, the scrubber further includes:

and the two-way valve is connected with the garbage can and the second sewage tank.

In some implementations, the first control valve is a three-way valve; the floor scrubber further comprises:

the second clean water tank is connected with the first control valve;

the rolling brush is connected with the second clear water tank;

wherein, the round brush is connected with the dustbin.

In some implementations, the scrubber further includes:

and the second pump body is connected with the second clean water tank and the rolling brush.

The base station further comprises:

the third pump body is connected with the first clean water tank and the first control valve;

in some implementations, the scrubber includes:

a body shell;

the brushing shell is connected with the machine body shell;

the second sewage tank and the second clean water tank are positioned in the machine body shell, and the garbage can is positioned in the brushing shell.

In a second aspect, the invention provides a control method of the novel motor washing machine transport water circulation system according to any one of the above solutions, wherein the method comprises the following steps:

receiving a storage signal of liquid to be cleaned in the dustbin;

controlling a second control valve to extract the liquid to be cleaned from the garbage bin according to the storage signal of the liquid to be cleaned so as to enable the liquid to be cleaned to be extracted to a second sewage tank, and finishing the storage of the liquid to be cleaned;

connecting the base station with a ground washing machine, and receiving a discharge signal of liquid to be cleaned in the second sewage tank;

and controlling a second control valve to discharge the liquid to be cleaned in the second sewage tank into the garbage tank according to the discharge signal of the liquid to be cleaned, and controlling the garbage tank to discharge the discharged liquid to be cleaned to the first sewage tank of the base station to finish the discharge of the liquid to be cleaned.

In some implementations, the controlling a second control valve to extract the liquid to be cleaned from the garbage bin according to the storage signal of the liquid to be cleaned, so that the liquid to be cleaned is extracted to a second sewage tank, and the storing of the liquid to be cleaned is completed, includes:

the garbage can is communicated with the second sewage tank;

controlling a first pump body to perform vacuum pumping on liquid to be cleaned in the garbage bin so that the liquid to be cleaned in the garbage bin is sucked into a second sewage tank;

according to treat the discharge signal of cleaning fluid, control second control valve and discharge into the dustbin with the liquid of treating in the second sewage case to control the first sewage case of base station is arranged to the liquid of treating that the dustbin will discharge into, the completion is treated the discharge of cleaning fluid, include:

the first sewage tank, the garbage tank and the second sewage tank are communicated, and the second sewage tank is communicated with the outside;

and liquid to be cleaned in the second sewage tank is output to the garbage tank, and the liquid to be cleaned in the garbage tank is discharged to the first sewage tank.

Has the beneficial effects that: the invention provides a novel floor washing machine water conveying circulation system and a control method thereof, wherein the system comprises: a base station and a floor washing machine; the base station comprises a first clean water tank and a first sewage tank; the scrubber machine includes: the first control valve can be connected with the first clean water tank; the second control valve is connected with the first control valve; the second sewage tank is connected with the second control valve; the garbage can is connected with the second sewage tank; wherein the first control valve is connected with the dustbin, which can be connected with the first waste tank. According to the invention, through the arrangement mode that the first control valve, the second sewage tank and the garbage tank are sequentially connected, the first control valve is connected with the first clean water tank, and the garbage tank is connected with the first sewage tank, the purposes of automatic water adding, automatic sewage pouring and automatic cleaning of the base station to the floor washing machine are realized, and the working efficiency is further improved.

Drawings

Fig. 1 is a schematic structural view of the novel floor scrubber transport water circulation system of the present invention.

Fig. 2 is a cross-sectional view of the fuselage shell of the present invention.

FIG. 3 is a cross-sectional view of a brush housing of the present invention.

Fig. 4 is a perspective view of the floor washing machine of the present invention.

Fig. 5 is a perspective view of the brush shell of the present invention.

Fig. 6 is a flow chart of the control method of the novel floor washing machine water circulation system.

Description of the reference numerals:

100. a base station; 101. a first clear water tank; 102. a first sewage tank; 103. a third pump body; 200. a floor washing machine; 201. a first control valve; 202. a second control valve; 203. a second sewage tank; 204. a two-way valve; 205. a dustbin; 206. a first pump body; 207. a second clear water tank; 208. a second pump body; 209. rolling and brushing; 210. a body shell; 211. spraying; 212. a water inlet and outlet nozzle; 220. brushing the shell; 221. and (4) a nozzle.

Detailed Description

The invention provides a novel floor washing machine water-conveying circulation system and a control method thereof, and the invention is further described in detail below in order to make the purpose, technical scheme and effect of the invention clearer and clearer. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

It will be understood that when an element is referred to as being "secured to" or "disposed on" another element, it can be directly on the other element or be indirectly on the other element. When an element is referred to as being "connected to" another element, it can be directly connected to the other element or be indirectly connected to the other element.

It should be further noted that the same or similar reference numerals in the drawings of the embodiments of the present invention correspond to the same or similar components; in the description of the present invention, it should be understood that if there is an orientation or positional relationship indicated by the terms "upper", "lower", "left", "right", etc. based on the orientation or positional relationship shown in the drawings, it is only for convenience of describing the present invention and simplifying the description, but it is not intended to indicate or imply that the referred device or element must have a specific orientation, be constructed in a specific orientation, and be operated, and therefore, the terms describing the positional relationship in the drawings are only used for illustrative purposes and are not to be construed as limiting the present patent, and the specific meaning of the terms may be understood by those skilled in the art according to specific circumstances.

Present floor cleaning machine fortune water operation mode generally is after floor cleaning machine uses up at every turn, needs manual for the fuselage add water, the fuselage pours water, clears up the sewage case, complex operation and operation inconvenience, and then influences the efficiency of washing the ground, and then extravagant user's time.

In order to solve the problems, the invention provides a novel floor washing machine water conveying circulation system which can automatically add water, pour sewage and clean the floor washing machine through a base station, thereby improving the floor washing efficiency and saving the time of operators; as shown in fig. 1, it includes: a base station 100 and a scrubber 200; the base station 100 comprises a first clean water tank 101 and a first sewage tank 102; the scrubber 200 includes:

a first control valve 201 connectable to said first clean water tank 101;

a second control valve 202 connected to the first control valve 201;

a second waste tank 203 connected to the second control valve 202;

a dustbin 205 connected to the second wastewater tank 203;

wherein the first control valve 201 is connected to the waste bin 205, and the waste bin 205 is connectable to the first waste bin 102.

It should be noted that the base station 100 is detachably connected to the scrubber 200, and after the base station 100 is installed at a certain position, the scrubber 200 is first connected to the base station 100 to automatically add water, and then the scrubber 200 is separated from the base station 100, so that the floor is cleaned by the scrubber 200. According to the invention, through the arrangement mode that the first control valve 201, the second control valve 202, the second sewage tank 203 and the garbage tank 205 are sequentially connected, the first control valve 201 is connected with the first clean water tank 101, and the garbage tank 205 is connected with the first sewage tank 102, the purposes of automatically adding water to the floor washing machine 200, automatically pouring sewage and automatically cleaning are realized by the base station 100, so that the working efficiency is improved, the labor force of workers is reduced, and the time is saved.

Specifically, the water inlet end of the first control valve 201 is communicated with the first clean water tank 101 of the base station 100, and in this embodiment, the first clean water tank 101 contains clean water, but not limited thereto, the first clean water tank 101 may contain cleaning solution, in addition, the clean water content in the first clean water tank 101 is sufficient, and a communication pipeline between the first control valve 201 and the first clean water tank 101 may include a water tap, so that the first clean water tank 101 is a reservoir communicated with the water tap at this time; clear water in the first clear water tank 101 is through to the water injection of scrubber 200, scrubber 200 has water storage capacity, also include second clear water tank 207, thereby scrubber 200 is after the water injection of second clear water tank 207 through first clear water tank 101 when wasing ground, basic station 100 breaks away from with scrubber 200, thereby second clear water tank 207 self through scrubber 200 sprays water to round brush 209, and round brush 209 clears up ground, in order to realize the clean purpose to ground, improve cleaning efficiency.

In the present embodiment, as shown in fig. 1 or fig. 2, the second control valve 202 is a three-way valve, and the second control valve 202 can be communicated with the outside.

Specifically, the second control valve 201 has two inlet ends and one outlet end, one inlet end (i.e., the water inlet end, which is in a normally open state) of the second control valve 202 is communicated with one outlet end of the first control valve 201, the other inlet end of the second control valve 202 is communicated with the outside atmosphere, and the inlet end of the second control valve 202 communicated with the atmosphere is in a normally closed state, so that when the inlet end is in the normally closed state, the first pump 206 is started to pump air, so that the second wastewater tank 203 is in a negative pressure state, so that the wastewater in the wastewater tank 205 is discharged upwards to the second wastewater tank 203 and temporarily stored therein, and therefore the wastewater in the second wastewater tank 203 cannot flow downwards to the wastewater tank 205 when the scrubber is in operation, and after the normally closed end of the second control valve 202 is converted into atmospheric pressure, the wastewater in the second wastewater tank 203 can flow downwards to the wastewater tank 205.

In this embodiment, as shown in fig. 3 to 5, the second foul water tank 203 is located above the dustbin 205.

Specifically, when the normally closed end of the second control valve 202 is changed to be normally open, atmospheric pressure enters the second waste water tank 203, so that the waste water temporarily stored in the waste water tank 203 flows down to the trash tank 205.

In this embodiment, the floor washing machine 200 further includes:

a first pump body 206 connected to the first control valve 201 and the second control valve 202, respectively;

the first pump body 206 is connected to the waste bin 205.

Specifically, the first pump body 206 is an air pump, and the first pump body 206 is communicated with a normally open water inlet end of the second control valve 202, so that when the first pump body 206 is started, a normally closed water outlet end of the second control valve 202 is closed to form a sealed state, so that negative pressure is generated inside the second sewage tank 203, and sewage in the garbage tank 205 communicated with the second sewage tank 203 can be pumped into the second sewage tank 203 located above; and the first pump body 206 is still communicated with the normally open water outlet end of the first control valve 201, that is, the pipeline of the normally open water outlet end of the first control valve 201 is divided into two parts, and is communicated with the first control valve 201 through the first pump body 206, so that water in the first clean water tank 101 of the base station 100 can be directly conveyed into the dustbin 205 through the first pump body 206, thereby cleaning the inside of the dustbin 205 is realized, the working efficiency is improved, and the dustbin 205 does not need to be cleaned manually by an operator.

In this embodiment, the scrubber 200 further comprises:

and a two-way valve 204 connecting the waste tank 205 and the second foul water tank 203.

Specifically, the two-way valve 204 is used to communicate the trash tank 205 with the second foul water tank 203, so as to draw the foul water in the trash tank 205 to the second foul water tank 203, or to allow the foul water in the second foul water tank 203 to flow downward to the trash tank 205, and after the two-way valve 204 is closed, the trash tank 205 is isolated from the second foul water tank 203, so that the second foul water tank 203 in a clean state is prevented from being secondarily contaminated by the trash tank 205 being cleaned.

In this embodiment, the first control valve 201 is a three-way valve; the floor washing machine 200 further includes:

a second clean water tank 207 connected to the first control valve 201;

a rolling brush 209 connected with the second clean water tank 207;

wherein the rolling brush 209 is connected with the dustbin 205.

Specifically, as shown in fig. 1, the first control valve 201 has an inlet end and two outlet ends, one of the outlet ends is normally open and is connected to the normally open inlet end of the second control valve 202 and the first pump body 206, the other outlet end is normally closed and is connected to the second clean water tank 207, the second clean water tank 207 can store a certain amount of clean water required for cleaning the ground, the water inlet end of the first control valve 201 is connected to the first clean water tank 101, and when the normally closed water outlet end is changed to be in a normally open state, water is filled into the second clean water tank 207 through the base station 100, so that an automatic water filling operation is realized; and the water in the second clean water tank 207 can be directly inputted into the drum brush 209 so that when the floor washing machine 200 washes the floor, the clean water in the second clean water tank 207 is sprayed onto the drum brush 209 and the drum brush 209 rotates to clean the floor, so that the sewage on the drum brush 209 flows back into the dustbin 205.

In this embodiment, the scrubber 200 further comprises:

and a second pump body 208 connecting the second clean water tank 207 and the roll brush 209.

Specifically, when the washing machine 200 washes the floor, the clean water in the second clean water tank 207 is pumped to the roller brush by the second pump body 208 (i.e., the water pump), so as to clean the floor.

In this embodiment, the base station 100 further includes:

a third pump body 103 connecting said first clean water tank 207 and said first control valve 201.

Specifically, the first clean water tank 101 is connected to the first control valve 201 through the third pump body 103 (i.e., a water pump), and the connection between the trash tank 205 and the first dirty water tank 102 is matched, so as to realize the connection between the base station 100 and the floor washing machine 200, and clean water in the first clean water tank 101 is directly conveyed to the trash tank 205 through the third pump body 103 for cleaning, or is sequentially conveyed to the second dirty water tank 203 and the trash tank 205 for cleaning, or is conveyed to the second clean water tank 207 for filling water into the floor washing machine.

In this embodiment, as shown in fig. 1, 2 or 4, the scrubber 200 includes:

a body housing 210;

a brush casing 220 connected to the body casing 210;

wherein the second dirty water tank 203 and the second clean water tank 207 are located in the handle case 210, and the trash tank 205 is located in the brush case 220.

Specifically, a nozzle 221 is provided above the drum brush 209, so that the clean water is sprayed to the drum brush 209 through the nozzle 221 by the second water pump 208; the second waste tank 203 is provided with a water inlet and outlet 212 communicating with the second control valve 202, and a spray 211 communicating with the water inlet and outlet 212 is provided in the second waste tank 203, so that the clean water is transferred into the second waste tank 203 through the third pump body 103 to be cleaned.

In this embodiment, the first pump body 206 is an air pump, and the second pump body 208 and the third pump body 103 are water pumps.

In this embodiment, the first clean water tank 101 of the base station 100 is connected to a faucet to automatically add water, and the first sewage tank 102 of the base station 100 is assembled with a sewage pipe at one end to automatically discharge sewage.

The working principle is as follows: when the second clean water tank 207 is empty or the second foul water tank 205 is full of foul water after the scrubber 200 is completely towed, the scrubber 200 is placed on the base station 100.

Automatic sewage pouring principle: when the second waste water tank 205 is full of waste water, the two-way valve 204 is opened, and meanwhile, the normally closed end of the second control valve 202 (three-way valve) is changed to be normally open to enter atmospheric pressure, so that waste water in the second waste water tank 203 automatically flows into the waste water tank 205 and flows into the first waste water tank 102 of the base station 100 through the valve of the waste water tank 205, and at this time, the second waste water tank 205 of the machine body automatically pours waste water;

the automatic cleaning principle is as follows: the third pump 103 (water pump) of the base station 100 starts to work, clean water in the first clean water tank 101 enters the second wastewater tank 205 of the body through the normally open end of the first control valve 201 (three-way valve) and the normally open end of the second control valve 202 (three-way valve) to be cleaned, so that the second wastewater tank 205 is cleaned, after the cleaning is finished, the water pump of the base station 100 stops working, the normally closed end of the second control valve 202 is changed into normally open, meanwhile, the two-way valve 204 is opened to enter atmospheric pressure, water in the second wastewater tank 203 of the body enters the garbage tank 205 and flows into the first wastewater tank 102 of the base station, and at the moment, the automatic cleaning of the second wastewater tank 203 of the body is finished; after the second sewage tank 203 of the body is automatically cleaned, the base station 100 water pump works again, the first control valve 201 is normally opened, meanwhile, the normally opened end of the second control valve 201 is closed, the first pump body 206 (air pump) is started, water automatically cleans the garbage tank 205 through the air pump, sewage flows into the first sewage tank 102 of the base station from the garbage tank 205, and then the automatic cleaning of the garbage tank is completed;

the principle of automatic water addition: the water pump of the base station 100 works, at the moment, the normally closed first control valve 201 is changed into normally open, clear water is injected into the second clear water tank 207 of the machine body, after the sensing water is full, the water pump stops working, and the second clear water tank 207 automatically adds water to finish.

The working principle of the floor washing machine is as follows: when the floor washing machine 200 is used for mopping the floor after automatic sewage pouring, automatic cleaning and water adding, the second pump body 208 (water pump) of the floor washing machine 200 sprays clean water in the second clean water tank 207 of the machine body onto the rolling brush 209, the rolling brush 209 rotates to clean the bottom surface, sewage on the rolling brush 209 flows back to the garbage can 205, and meanwhile, the first pump body 206 (air pump) and the two-way valve 204 are started to pump the sewage in the garbage can 205 to the second sewage tank 203 in a negative pressure pumping mode.

Based on the above embodiment, the present invention further provides a control method for a novel floor scrubber water circulation system, which is applied to any one of the above novel floor scrubber water circulation systems, wherein the method includes:

and S100, receiving a storage signal of the liquid to be cleaned in the dustbin. In this embodiment, the liquid to be cleaned is sewage, but is not limited thereto.

And S200, controlling a second control valve to extract the liquid to be cleaned from the garbage bin according to the storage signal of the liquid to be cleaned so as to extract the liquid to be cleaned to a second sewage tank, and completing storage of the liquid to be cleaned.

In some implementations, the step S200 specifically includes the following steps:

step S210, the garbage can is communicated with the second sewage tank;

s220, controlling a first pump body to perform vacuum extraction on liquid to be cleaned in the garbage bin so that the liquid to be cleaned in the garbage bin is sucked into a second sewage tank;

specifically, the two-way valve 204 is opened to communicate the second wastewater tank 203 with the wastewater tank 205, and the inlet end of the second control valve 202 communicating with the outside is in a closed state to seal the wastewater tank 205 and the second wastewater tank 203; the air pump 206 is started to vacuumize, so that the second sewage tank 203 is in a negative pressure state, sewage in the garbage tank 205 is pumped into the second sewage tank 203, and the two-way valve 204 is closed after the sewage is pumped into the second sewage tank 203, so that the storage of the sewage is completed (namely, the sewage is temporarily stored into the floor washing machine).

And step S300, connecting the base station with a floor washing machine, and receiving a discharge signal of the liquid to be cleaned in the second sewage tank.

And S400, controlling a second control valve to discharge the liquid to be cleaned in the second sewage tank into the garbage tank according to the discharge signal of the liquid to be cleaned, and controlling the garbage tank to discharge the discharged liquid to be cleaned to the first sewage tank of the base station to finish the discharge of the liquid to be cleaned.

The step S400 specifically includes the following steps:

step S410, the first sewage tank, the garbage tank and the second sewage tank are communicated, and the second sewage tank is communicated with the outside;

and S420, outputting the liquid to be cleaned in the second sewage tank to the garbage tank, and discharging the liquid to be cleaned in the garbage tank to the first sewage tank.

Specifically, the two-way valve 204 and the inlet end of the second control valve 202 communicating with the outside are opened, so that the second wastewater tank 203 enters the atmospheric pressure, and wastewater in the second wastewater tank 203 automatically flows into the wastewater tank 205 through the two-way valve 204 and then flows into the first wastewater tank 102 of the base station 100 through the valve of the wastewater tank 205, and wastewater discharge from the second wastewater tank 205 of the body is completed.

In some implementations, the method further includes:

and step S510, receiving a cleaning signal of the second sewage tank and/or the dustbin.

And S520, controlling a third pump body to carry out sealed spray washing on the second sewage tank and/or the garbage can according to the washing signal of the second sewage tank and/or the garbage can.

Specifically, the two-way valve is closed, the inlet end of the second control valve communicated with the outside is closed, and the cleaning liquid (i.e. clean water) in the first clean water tank 101 is sprayed out from the second sewage tank 203 for cleaning through the first control valve 201 and the second control valve 202 in sequence by starting the water pump of the base station; the two-way valve 204 is closed, and the water inlet end of the second control valve 202 is closed at the same time, so that the water pump of the base station and the air pump 206 of the floor washing machine are started, and the clean water in the first clean water tank 101 passes through the first control valve 201 and the air pump 206 in sequence and is sprayed out of the garbage can 205 for cleaning.

And S530, discharging the spray washing liquid in the second sewage tank and/or the garbage tank to a first sewage tank to finish the cleaning of the second sewage tank and/or the garbage tank.

According to the invention, through the arrangement mode that the second sewage tank 203, the two-way valve 204 and the garbage can 205 are communicated, the purposes of sewage storage (temporary storage) and sewage discharge are achieved by controlling one pipeline through the air pump, and the working efficiency of the base station and the floor washing machine is improved.

The control method of the novel floor cleaning machine water circulation system provided by the invention is applied to the novel floor cleaning machine water circulation system, so that the control method has all the beneficial effects of the novel floor cleaning machine water circulation system, and the description is omitted.

In summary, the present invention provides a novel floor washing machine transport water circulation system and a control method thereof, wherein the system comprises: a base station and a floor scrubber; the base station comprises a first clean water tank and a first sewage tank; the floor scrubber includes: the first control valve can be connected with the first clean water tank; the second control valve is connected with the first control valve; the second sewage tank is connected with the second control valve; the garbage can is connected with the second sewage tank; wherein the first control valve is connected with the dustbin, which can be connected with the first waste tank. According to the invention, through the arrangement mode that the first control valve, the second sewage tank and the garbage tank are sequentially connected, the first control valve is connected with the first clean water tank, and the garbage tank is connected with the first sewage tank, the purposes of automatic water adding, automatic sewage pouring and automatic cleaning of the base station to the floor washing machine are realized, and the working efficiency is further improved.

It is to be understood that the invention is not limited to the examples described above, but that modifications and variations may be effected thereto by those of ordinary skill in the art in light of the foregoing description, and that all such modifications and variations are intended to be within the scope of the invention as defined by the appended claims.

Claims (10)

1. The utility model provides a novel floor cleaning machine fortune water circulating system which characterized in that, it includes: a base station and a floor scrubber; the base station comprises a first clean water tank and a first sewage tank; the scrubber machine includes:

the first control valve can be connected with the first clean water tank;

the second control valve is connected with the first control valve;

the second sewage tank is connected with the second control valve;

the garbage can is connected with the second sewage tank;

wherein the first control valve is connected with the dustbin, and the dustbin can be connected with the first sewage tank.

2. The novel scrubber transport water circulation system as set forth in claim 1, wherein the second control valve is a three-way valve, the second control valve being communicable with the outside.

3. The novel scrubber motor water circulation system of claim 2, wherein the second sump tank is located above the waste tank.

4. The novel scrubber machine transport water circulation system of claim 2, further comprising:

the first pump body is respectively connected with the first control valve and the second control valve;

the first pump body is connected with the dustbin.

5. The novel scrubber run water circulation system of claim 4, further comprising:

and the two-way valve is connected with the garbage can and the second sewage tank.

6. The novel scrubber transport water circulation system of claim 4, wherein the first control valve is a three-way valve; the floor scrubber further comprises:

the second clean water tank is connected with the first control valve;

the rolling brush is connected with the second clear water tank;

wherein, the round brush with the dustbin is connected.

7. The novel scrubber run water circulation system of claim 6, further comprising:

and the second pump body is connected with the second clean water tank and the rolling brush.

The base station further comprises:

and the third pump body is connected with the first clean water tank and the first control valve.

8. The novel scrubber run water circulation system of claim 6, wherein the scrubber comprises:

a body shell;

a brushing shell connected with the machine body shell;

the second sewage tank and the second clean water tank are located in the machine body shell, and the garbage can is located in the brushing shell.

9. A method for controlling a novel scrubber transport water circulation system according to any of claims 1-8, characterized in that the method comprises:

receiving a storage signal of liquid to be cleaned in the dustbin;

controlling a second control valve to extract the liquid to be cleaned from the garbage bin according to the storage signal of the liquid to be cleaned so as to enable the liquid to be cleaned to be extracted to a second sewage tank, and finishing the storage of the liquid to be cleaned;

connecting the base station with a ground washing machine, and receiving a discharge signal of liquid to be cleaned in the second sewage tank;

and controlling a second control valve to discharge the liquid to be cleaned in the second sewage tank into the garbage tank according to the discharge signal of the liquid to be cleaned, and controlling the garbage tank to discharge the discharged liquid to be cleaned to the first sewage tank of the base station to finish the discharge of the liquid to be cleaned.

10. The control method of the novel motor-scrubber transport water circulation system as claimed in claim, wherein the step of controlling a second control valve to extract the liquid to be cleaned from the garbage bin according to the storage signal of the liquid to be cleaned so that the liquid to be cleaned is extracted to a second sewage tank to complete storage of the liquid to be cleaned comprises the following steps:

the garbage can is communicated with the second sewage tank;

controlling a first pump body to perform vacuum pumping on liquid to be cleaned in the garbage bin so that the liquid to be cleaned in the garbage bin is sucked into a second sewage tank;

according to treat the discharge signal of cleaning fluid, control second control valve and discharge into the dustbin with the liquid of treating in the second sewage case to control the first sewage case of base station is arranged to the liquid of treating that the dustbin will discharge into, the completion is treated the discharge of cleaning fluid, include:

the first sewage tank, the garbage tank and the second sewage tank are communicated, and the second sewage tank is communicated with the outside;

and liquid to be cleaned in the second sewage tank is output to the garbage tank, and the liquid to be cleaned in the garbage tank is discharged to the first sewage tank.

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