CN217938131U - Mop assembly and floor washing machine - Google Patents

Abstract

The utility model provides a mop subassembly and floor cleaning machine belongs to the clean technical field in ground. The mop assembly comprises a rolling brush assembly and a clean water flow divider, wherein the clean water flow divider is arranged above the rolling brush assembly, a flow divider flow passage is arranged in the clean water flow divider, the flow divider flow passage extends along the axial direction of the rolling brush assembly, a plurality of water drainage ports are arranged at the bottom of the clean water flow divider along the axial direction of the rolling brush assembly, and the water drainage ports are communicated with the flow divider flow passage so that clean water in the flow divider flow passage is sprayed onto the rolling brush assembly through the water drainage ports; the clear water pipeline is connected to the clear water flow divider and used for feeding clear water into the flow passage of the flow divider; and the heating component is arranged on the clean water pipeline or the clean water splitter and is used for heating the clean water before entering the clean water splitter or the clean water entering the clean water splitter. This mop subassembly can heat the water that sprays on the round brush subassembly, and hot water can dissolve oily ground spot fast to improve the cleaning performance of mop subassembly.

Description

Mop assembly and floor washing machine

Technical Field

The utility model belongs to the technical field of the ground is clean, especially, relate to a mop subassembly and floor cleaning machine.

Background

Most of water sprayed by a mop component of the existing floor washing machine is normal-temperature water. For example, chinese patent application publication No. CN113143130A discloses a self-cleaning system, method and apparatus for a household floor washing machine, which includes a clean water tank and a rolling brush, wherein when cleaning the ground, clean water in the clean water tank is led out to a nozzle and sprayed from the nozzle to the rolling brush, and the rolling brush is driven by a rolling brush motor to rotate to clean the ground. However, when the floor washing machine has stubborn stains on the ground, the stains are difficult to dissolve and remove by the normal-temperature water.

Or, some floor washers pump out the water tank after the hot water is heated by the ac power supply of the base station. For example, chinese patent with publication No. CN214017402U discloses a charging seat and sweeper system, the charging seat is used for charging the sweeper, the charging seat is provided with a water tank and an instant heating device arranged on the water tank, the instant heating device can heat water in the water tank, when the sweeper needs hot water to clean the ground, hot water needs to be supplemented to the charging seat, and the device can clean the ground by using the hot water, but the sweeper system is complex in structure and high in cost.

SUMMERY OF THE UTILITY MODEL

In view of the above-mentioned problems existing in the prior art, an object of the embodiments of the present invention is to provide a mop assembly and a floor cleaning machine.

The embodiment of the utility model provides a technical scheme who adopts is:

a mop assembly comprising a brush roll assembly, the mop assembly further comprising:

the clear water flow divider is arranged above the rolling brush assembly, a flow divider flow channel is arranged in the clear water flow divider, the flow divider flow channel extends along the axial direction of the rolling brush assembly, a plurality of water discharging ports are arranged at the bottom of the clear water flow divider along the axial direction of the rolling brush assembly, and the water discharging ports are communicated with the flow divider flow channel so that clear water in the flow divider flow channel is sprayed onto the rolling brush assembly through the water discharging ports;

the clear water pipeline is connected to the clear water flow divider and is used for feeding clear water into the flow channel of the flow divider;

the heating part is arranged on the clean water pipeline or the clean water diverter and used for heating the clean water before entering the clean water diverter or the clean water entering the clean water diverter.

The mop assembly of this embodiment can realize hot-water washing ground, simple structure, and the round brush subassembly can dissolve oily spot fast after spraying hot water, and dirt-removing power is strong, and does not hinder the floor again.

Further, the fresh water splitter comprises:

the shunt bottom shell is arranged above the rolling brush assembly, and a plurality of first slotted holes are formed in the shunt bottom shell along the axial direction of the rolling brush assembly;

the flow divider main body is arranged on the flow divider bottom shell, the flow divider flow channel is arranged on the flow divider main body, a plurality of protruding parts are arranged at the bottom of the flow divider main body along the axial direction of the rolling brush assembly, the water outlet is arranged corresponding to the protruding parts and penetrates through the protruding parts, and the protruding parts and the first slotted holes are arranged in a one-to-one correspondence mode and penetrate through the first slotted holes;

the heating component is arranged at the bottom of the flow divider main body. In this way, on the one hand, the fixation of the shunt body is achieved by means of a plurality of projections; on the other hand, the heating component is arranged at the bottom of the flow divider main body, so that the clean water in the flow passage of the flow divider can be heated immediately.

Furthermore, the flow divider flow channel comprises a plurality of branch flow channels parallel to the axis of the rolling brush assembly, the branch flow channels are arranged at intervals and are communicated with each other, a main body water inlet is formed in one of the branch flow channels, and the plurality of protruding parts are arranged at the bottoms of the rest branch flow channels. The arrangement of the branch flow passages can enable clear water to dispersedly flow in the flow divider main body, so that the heating part can uniformly heat.

Further, the clear water diverter also includes: the bottom shell of the flow divider is provided with a shell water inlet communicated with the main body water inlet, the water inlet is inserted into the shell water inlet, the water inlet of the water inlet is connected with a clear water pipeline, the water outlet of the water inlet is connected with the main body water inlet, and clear water can be introduced into the flow channel of the phase flow divider through the water inlet;

the bottom shell of the shunt is provided with a second slotted hole, the conductive contact piece is inserted in the second slotted hole and connected with the heating component to electrify the heating component, and the heating component can be electrified and heated through the conductive contact piece;

the heat insulation piece is arranged on the diverter bottom shell, is positioned between the diverter main body and the diverter bottom shell and avoids the first slotted hole, and the heat can be guaranteed to be heated for clear water in the diverter main body as far as possible through the heat insulation piece.

Further, the mop assembly further comprises:

the rolling brush assembly is arranged on the floor mop bottom shell assembly;

the rolling brush cover plate assembly covers the rolling brush assembly and is connected with the mop bottom shell assembly, the rolling brush cover plate assembly comprises a rolling brush upper cover plate and a rolling brush lower cover plate which are connected with each other, the clear water flow divider is fixed between the rolling brush upper cover plate and the rolling brush lower cover plate, and a sewage and water tank is arranged on the rolling brush lower cover plate; the sewage scraping strip is arranged on the bottom shell of the flow divider and contacted with the outer peripheral surface of the rolling brush assembly, so that the sewage scraping strip can be used for extruding the sewage adsorbed by the sewage scraping strip into the sewage underwater water tank along with the rotation of the rolling brush assembly, and the sewage is prevented from scattering on the ground again.

Furthermore, the rolling brush assembly comprises two rolling brushes which are arranged at intervals and parallel to the axis, a garbage box is arranged between the two rolling brushes, and mop scraping strips are respectively arranged between the garbage box and the two rolling brushes; the bottom of apron under the round brush moves towards one side of rubbish box is equipped with rubbish and scrapes the strip, and the cooperation of accessible mop scraping strip and rubbish scraping strip like this will the round brush with rubbish between the mop scraping strip is scraped in the rubbish box.

Furthermore, two still be equipped with sewage between the round brush and collect box and sewage pump subassembly, sewage collect the box with the export intercommunication of basin under the sewage for collect sewage, sewage pump subassembly with sewage is collected the box and is connected and be used for with the sewage in the sewage collection box outwards transmits.

Furthermore, the mop assembly further comprises a mop bottom shell upper cover which is arranged on the mop bottom shell assembly and used for fixing the rolling brush assembly, a flow dividing pipe is arranged on the mop bottom shell upper cover, and an outlet of the flow dividing pipe is connected with the clean water pipeline.

Further, the round brush apron subassembly is in the perpendicular to the both ends of mop drain pan subassembly moving direction are equipped with respectively and dial the piece, dial the piece with round brush apron subassembly rotates to be connected, the relative both sides of mop drain pan subassembly are equipped with the draw-in groove respectively, dial the piece and can rotate with the card income or roll out the draw-in groove, can make things convenient for the dismouting to round brush apron subassembly like this.

The utility model provides a floor cleaning machine, includes the fuselage subassembly, the top of fuselage subassembly is connected handle components, be equipped with clean water tank and power supply module in the fuselage subassembly, floor cleaning machine still includes above-mentioned arbitrary embodiment the mop subassembly, the mop subassembly is connected the bottom of fuselage subassembly, the clean water pipeline of mop subassembly with the clean water tank is connected, the heater block of mop subassembly with the power supply module electricity is connected. The power supply module that scrubber accessible self carried carries out instant heating to the water that sprays on the round brush subassembly, has improved scrubber's clean ability, has certain pasteurization effect simultaneously.

Compared with the prior art, the utility model discloses beneficial effect lies in:

the mop subassembly that this embodiment provided heats through the water to spraying on the round brush subassembly to evenly spray on the round brush subassembly through the lower mouth of a river on the clear water shunt, the molecule motion can be accelerated to the hot water, dissolves the spot fast, thereby improves the cleaning performance of mop subassembly. Compare in present normal atmospheric temperature water wash or at the hot water of basic station alternating current power supply heating after pour into again the machine of sweeping the floor, the mop subassembly simple structure of this embodiment can spray the water on the round brush through the instant heating of the heater block of inside, and efficiency is fast.

Drawings

FIG. 1 is an exploded view of a mop assembly according to an embodiment of the present invention;

FIG. 2 is an exploded view of the clean water diverter according to an embodiment of the present invention;

FIG. 3 is an overall structure diagram of the clear water diverter according to the embodiment of the present invention;

FIG. 4 is a cross-sectional view of a fresh water diverter according to an embodiment of the present invention;

FIG. 5 is a schematic diagram of the operation of the mop assembly according to the embodiment of the present invention;

fig. 6 is a structural diagram of a floor washing machine according to an embodiment of the present invention;

fig. 7 is another structural diagram of a floor washing machine according to an embodiment of the present invention.

Reference numerals are as follows:

1-a body assembly, 2-a floor mop assembly, 21-a floor mop base assembly, 211-a floor mop strip, 212-a rotary connector, 213-a rotary connector base, 22-a roller brush assembly, 221-a roller brush, 222-a roller brush holder, 23-a clear water diverter, 231-a diverter base, 2311-a first slot, 2312-a second slot, 2313-a housing water inlet, 232-a diverter body, 2321-a diverter flow channel, 2322-a sewer inlet, 2323-a body water inlet, 2324-a protrusion, 233-a heating member, 234-a body upper cover, 235-a thermal insulator, 236-a water inlet, 237-a conductive contact piece, 238-a sewage wiper strip, 24-a roller brush cover plate assembly, 241-a roller brush upper cover plate, 242-a roller brush lower cover plate, 2421-a sewage tank, 2422-a garbage wiper strip, 243-a wiper strip, 25-a garbage box, 26-a sewage collection box, 27-sewage, 28-a floor mop upper shell assembly, 281-a 2421-a power supply assembly, 282-a movable clear water tank assembly, a clear water tank assembly, and a clear water tank assembly.

Detailed Description

As shown in FIG. 1, the embodiment of the present invention provides a mop assembly, wherein a rolling brush assembly 22 is arranged in the mop assembly 2, and the rotation of the rolling brush assembly 22 can clean and collect the garbage and the sewage on the ground. The mop assembly 2 further comprises a clean water diverter 23, a clean water conduit 29 and a heating member 233.

As shown in fig. 2, the clean water diverter 23 is disposed above the rolling brush assembly 22, a diverter flow channel 2321 for clean water to circulate is disposed in the clean water diverter 23, the diverter flow channel 2321 extends in an axial direction of the rolling brush assembly 22, a plurality of drain ports 2322 are disposed at the bottom of the clean water diverter 23 in the axial direction of the rolling brush assembly 22, and each drain port 2322 is respectively communicated with the diverter flow channel 2321, so that the clean water in the diverter flow channel 2321 can be sprayed onto the rolling brush assembly 22 through the drain ports 2322.

The clean water pipeline 29 (see fig. 7) has the interior flowing with clean water for cleaning the ground, one end of which can be connected with a water supply element, and the other end of which is connected to the clean water flow divider 23, so as to supply clean water into the flow divider flow channel 2321.

The heating element 233 is disposed on the clean water line 29 or on the clean water diverter 23 for heating the clean water before entering the clean water diverter 23 or the clean water entering the clean water diverter 23.

The mop subassembly 2 that this embodiment provided heats the water that sprays on round brush subassembly 22 to evenly spray on round brush subassembly 22 through lower mouth of a river 2322 on the clear water shunt 23, hot water can dissolve oily ground spot fast, thereby improves the cleaning performance of mop subassembly 2. Compare in present normal atmospheric temperature water washing or inject again after basic station alternating current power supply heating hot water and sweep the floor built-in, the mop subassembly simple structure of this embodiment can spray at the round brush sail through the instant heating of the heater block of inside, and efficiency is fast.

As shown in fig. 2-4, in some embodiments, the clean water diverter 23 mainly includes two parts, a diverter bottom 231 and a diverter main body 232, the diverter flow channel 2321 is disposed on the diverter main body 232, the diverter main body 232 is fixed on the diverter bottom 231, and the diverter bottom 231 is located above the roller brush assembly 22.

The diverter bottom case 231 is provided with a plurality of first notches 2311 along the axial direction of the roll brush assembly 22, the bottom of the diverter main body 232 is provided with a plurality of protrusions 2324 along the axial direction of the roll brush assembly 22, each protrusion 2324 is provided with a plurality of water drainage ports 2322, each water drainage port 2322 penetrates through the protrusion 2324, the plurality of protrusions 2324 on the diverter main body 232 are respectively arranged in one-to-one correspondence with the plurality of first notches 2311 on the diverter bottom case 231, and each protrusion 2324 penetrates through the corresponding first notch 2311, so that the diverter main body 232 is conveniently positioned on the diverter bottom case 231, and the outflow of clean water is not hindered.

As shown in fig. 2, in some embodiments, the heating component 233 is disposed at the bottom of the diverter main body 232 and is abutted against the bottom of the diverter main body 232, the heating component 233 is connected to a power supply, and the clean water flowing into the diverter flow channel 2321 can be directly heated by heating the heating component 233 by electrifying, and sprayed on the roller brush assembly 22, so as to achieve uniform heating of the water flow. The heating member 233 in this embodiment may be an instant heating type heating element, and the shape of the heating member may be a sheet-like body so as to be attached to the bottom of the shunt main body 232, thereby achieving rapid heating. The heating member 233 may be a graphene heating film (with temperature control) for heating, and is convenient to operate.

Further, the flow divider 2321 in this embodiment is divided into a plurality of branch flow passages parallel to the axis of the roller brush assembly 22, and the plurality of branch flow passages are arranged at intervals and are communicated with each other. One end of one of the branch flow passages is provided with a main body water inlet 2323, and the plurality of protrusions 2324 are disposed at the bottom of the other branch flow passages, so that water entering the flow divider flow passage 2321 can be distributed and circulated and flow out through the main body water inlet 2323, and the heating component 233 can uniformly heat the water entering the flow divider flow passage 2321, thereby improving heating efficiency.

As shown in FIG. 2, the fresh water diverter 23 of this embodiment further includes a thermal insulation 235 disposed between the heating member 233 and the diverter bottom 231, so as to prevent heat from being transferred from the heating member 233 to the roller brush assembly 22 through the diverter bottom 231 during operation, and ensure that most of the heat is used for heating the fresh water in the diverter flow channel 2321.

As shown in fig. 2, in some embodiments, the bottom case 231 of the flow divider is provided with a case water inlet 2313 which is coaxial with the case water inlet 2323, the case water inlet 2323 and the case water inlet 2313 are provided with the water inlet nozzle 236, the water inlet nozzle 236 is fixed on the flow divider body 232, the water inlet of the water inlet nozzle 236 is connected to the clean water pipeline 29, and the water outlet of the water inlet nozzle 236 is connected to the case water inlet 2323, so that the clean water in the clean water pipeline 29 can be introduced into the flow divider body 232.

Further, the end of the shunt base 231 in this embodiment is provided with a second slot 2312, and a conductive contact piece 237 is inserted into the second slot 2312, and the conductive contact piece 237 is respectively connected with the heating member 233 and the power supply member, so as to heat the heating member 233 by energization.

As shown in fig. 2, in some embodiments, the diverter body 232 further includes a body cover 234 that is fastened to the diverter body 232, such that a plurality of diverter flow passages 2321 can be milled inwardly into the top of the diverter body 232 before the body cover 234 is applied to perform the sealing function.

As shown in FIGS. 1 and 5, in some embodiments, the floor mop assembly 2 further comprises a floor mop base shell assembly 21 and a roll brush cover assembly 24, the roll brush assembly 22 being secured to the floor mop base shell assembly 21, the roll brush cover assembly 24 being disposed on the floor mop base shell assembly 21 and covering the roll brush assembly 22.

The rolling brush cover plate assembly 24 mainly includes a rolling brush upper cover plate 241 and a rolling brush lower cover plate 242 connected to each other, and the clean water diverter 23 is disposed between the rolling brush upper cover plate 241 and the rolling brush lower cover plate 242. The lower cover plate 242 of the rolling brush is provided with a sewage water drainage groove 2421, the bottom of the bottom shell 231 of the flow divider is provided with a sewage scraping strip 238 which is contacted with the outer peripheral surface of the rolling brush assembly 22, as shown in fig. 2, the length direction of the sewage scraping strip 238 is consistent with the axial direction of the rolling brush assembly 22, when the rolling brush assembly 22 works, sewage adsorbed by rotation can be scraped into the sewage water drainage groove 2421 through the sewage scraping strip 238, and therefore the sewage adsorbed on the rolling brush assembly 22 is extruded.

Further, as shown in fig. 1 and 5, the rolling brush assembly 22 in this embodiment includes two rolling brushes 222 spaced apart from each other and disposed on the bottom shell assembly 21 of the floor mop, the axes of the two rolling brushes 222 are parallel, and one ends of the two rolling brushes 222 located on the same side are fixed on a rolling brush holder 221, and the rolling brush holder 221 is fixed on the bottom shell assembly 21 of the floor mop. A garbage box 25 with an open top is arranged between the two rolling brushes 221, and the garbage box 25 is located in the middle of the mop bottom shell assembly 21. The mop scraping strips 211 are respectively arranged between the garbage box 25 and the rolling brushes at the two ends, the garbage scraping strips 2422 are arranged on one side, facing the garbage box 25, of the bottom of the rolling brush lower cover plate 242, and the length direction of the garbage scraping strips 2422 is consistent with the axial direction of the rolling brush assembly 22, so that garbage rolled by the rolling brushes 221 and the mop scraping strips 211 can be scraped into the garbage box 25 through the garbage scraping strips 2422 for collection.

As shown in fig. 1, a roller cover plate assembly 24 is disposed above each roller 221. Thus, each of the roll brushes 221 corresponds to one of the fresh water diverters 23, so that each of the roll brushes 222 can spray hot water.

Every round brush apron subassembly 24 is equipped with respectively at the both ends along the axis direction of round brush 221 and dials the piece 243, dials the piece 243 and is connected with round brush apron subassembly 24 rotation, and the relative both sides of mop bottom shell subassembly 21 are equipped with the draw-in groove respectively, dials the piece 243 and can rotate in order to block into or roll out the draw-in groove, can make things convenient for the dismouting to round brush apron subassembly 24 like this.

As shown in fig. 1 and 5, the mop assembly 2 of this embodiment further includes a sewage collecting box 26 and a sewage pump assembly 27 disposed between the two roll brushes 221, and the sewage pump assembly 27 is connected to the sewage collecting box 26. The sewage collecting box 26 and the sewage pump assembly 27 are located at the middle position of the floor mop shell assembly 21, and the water inlet of the sewage collecting box 26 is communicated with the water outlet of the sewage disposal groove 2421, so as to store the sewage collected by the sewage disposal groove 2421 in the rolling brush lower cover plates 242 at the two ends and transmit the sewage out through the sewage pump assembly 27.

As shown in FIG. 1, the mop assembly 2 of this embodiment further comprises a mop top housing assembly 28, and the mop top housing assembly 28 is fixed to the mop bottom housing assembly 21 for holding the roller brush assembly 22. The mop upper shell assembly 28 is provided with a dividing pipe 281, the dividing pipe 281 comprises a water inlet and two water outlets, the water inlet is connected with a component for providing clean water, and the two water outlets are respectively communicated with the two clean water diverters 23 through the clean water pipeline 29, so that the water can be supplied simultaneously.

The mop upper shell assembly 28 is further provided with a conductive movable pin 282, the conductive movable pin 282 is used for connecting a main power supply, and the conductive contact piece 237 in each clean water shunt 23 is respectively connected to the conductive movable pin 282 through a lead wire, so that the heating parts 233 in the two shunt main bodies 232 can be simultaneously powered.

In some embodiments, as shown in fig. 7, a heating member 233 may be further provided on the clean water line 29, and the clean water in the clean water line 29 is heated while passing through the heating member 233 and then flows into the diverter body 232, and finally sprays the heated hot water onto the roll brush assembly 22. In this embodiment, the heating unit 233 may be a quartz tube heating device (with temperature control) or the like to directly heat the clean water.

As shown in fig. 6, other embodiments of the present invention further provide a floor washing machine, which comprises a machine body assembly 1, wherein a handle assembly 7 is connected to the top of the machine body assembly 1. The floor washing machine further comprises a floor mop assembly 2 as described in any of the above embodiments, and the floor mop assembly 2 is connected to the bottom of the machine body assembly 1.

The machine body component 1 in the embodiment is also internally provided with a clean water tank 3, a power supply component 5 and a clean water pump component 6. The clean water tank 3 is communicated with the clean water diverter 23 in the mop assembly 2 through a clean water pipeline 29, and the clean water pump assembly 6 is arranged on the clean water pipeline 29 and is used for introducing the clean water in the clean water tank 3 into the clean water diverter 23. As shown in fig. 1, the bottom of the body assembly 1 is connected to the mop assembly 2 through the rotary connector 212 and the rotary connector 213, and the clean water pipeline 29 is connected to the clean water diverter 23 through the rotary connector 212 and the rotary connector 213.

The power supply 5 is connected to the heating element 233 of the mop assembly 2, so as to supply power to the heating element 233, and the flow of water into the clean water diverter 23 is usually small, and the flow rate is usually only tens of milliliters per minute, and the power supply 5 of the floor washing machine can be fully utilized through heat calculation.

The body assembly 1 in this embodiment is further provided with a sewage tank 4, and sewage in the sewage collecting box 26 is pumped into the sewage tank 4 by the sewage pump assembly 27.

The floor washing machine in this embodiment can be set to various working modes, for example, when a kitchen with oil stains is washed, a hot water mode can be set, and the heating member 233 is electrically heated by the power supply module 5 in this mode; when cleaning a scene such as a living room without oil stains, a normal mode may be set in which the heating member 233 is not required to be electrically heated. Therefore, the corresponding mode can be selected according to different scenes, so that the electric quantity is saved, and the cruising time of the scrubber is prolonged. Mode switch can be set up on handle component 7 in this embodiment, and mode switch and power supply module 5 are connected, and mode switch can realize that the scrubber switches at hot water mode and normal mode to look over through the display screen of fuselage subassembly 1, thereby the person of facilitating the use selects.

The above description is intended to be illustrative, and not restrictive, and variations, modifications, substitutions, and alterations may be made to the above-described embodiments by those of ordinary skill in the art within the scope of the present disclosure. Also, the above-described examples (or one or more versions thereof) may be used in combination with each other, and it is contemplated that the embodiments may be combined with each other in various combinations or permutations.

Claims (10)

1. A mop assembly comprising a brush roll assembly (22), characterized in that the mop assembly further comprises:

the clean water flow divider (23) is arranged above the rolling brush assembly (22), a flow divider flow passage (2321) is arranged in the clean water flow divider (23), the flow divider flow passage (2321) extends along the axial direction of the rolling brush assembly (22), a plurality of lower water openings (2322) are arranged at the bottom of the clean water flow divider (23) along the axial direction of the rolling brush assembly (22), and the lower water openings (2322) are communicated with the flow divider flow passage (2321), so that the clean water in the flow divider flow passage (2321) is sprayed onto the rolling brush assembly (22) through the lower water openings (2322);

a clean water pipeline (29) connected to the clean water flow divider (23) and used for feeding clean water into the flow divider flow passage (2321);

a heating component (233) which is arranged on the clean water pipeline (29) or on the clean water diverter (23) and is used for heating the clean water before entering the clean water diverter (23) or the clean water entering the clean water diverter (23).

2. A mop assembly as claimed in claim 1, characterised in that said clear water diverter (23) comprises:

a diverter bottom shell (231) arranged above the rolling brush assembly (22), wherein a plurality of first notches (2311) are formed in the diverter bottom shell (231) along the axial direction of the rolling brush assembly (22);

the flow divider comprises a flow divider main body (232) arranged on the flow divider bottom shell (231), the flow divider flow channel (2321) is arranged on the flow divider main body (232), the bottom of the flow divider main body (232) is provided with a plurality of protrusions (2324) along the axial direction of the rolling brush assembly (22), the water outlet (2322) is arranged corresponding to the protrusions (2324) and penetrates through the protrusions (2324), and the protrusions (2324) and the first notches (2311) are arranged in a one-to-one correspondence manner and penetrate through the first notches (2311);

the heating component (233) is arranged at the bottom of the flow divider main body (232).

3. A floor mop assembly according to claim 2, characterized in that the flow divider (2321) comprises a plurality of branch flow passages parallel to the axial direction of the roller brush assembly, the branch flow passages are arranged at intervals and are communicated with each other, one of the branch flow passages is provided with a main body water inlet (2323), and a plurality of protrusions (2324) are arranged at the bottoms of the rest branch flow passages.

4. A mop assembly as claimed in claim 3, characterised in that said clear water diverter (23) further comprises:

the water inlet nozzle (236), a shell body water inlet (2313) communicated with the main body water inlet (2323) is arranged on the diverter bottom shell (231), the water inlet nozzle (236) is inserted into the shell body water inlet (2313), the water inlet of the water inlet nozzle (236) is connected with a clean water pipeline (29), and the water outlet of the water inlet nozzle (236) is connected with the main body water inlet (2323);

the conductive contact piece (237), the shunt bottom shell (231) is provided with a second notch (2312), the conductive contact piece (237) is inserted in the second notch (2312) and is connected with the heating component (233) to electrify the heating component;

a thermal shield (235) disposed on the diverter bottom shell (231) between the diverter body (232) and the diverter bottom shell (231) and avoiding the first slot (2311).

5. The mop assembly of claim 2, further comprising:

a floor mop bottom shell assembly (21), the rolling brush assembly (22) is arranged on the floor mop bottom shell assembly (21);

the rolling brush cover plate assembly (24) covers the rolling brush assembly (22) and is connected with the mop bottom shell assembly (21), the rolling brush cover plate assembly (24) comprises a rolling brush upper cover plate (241) and a rolling brush lower cover plate (242) which are connected with each other, the clean water flow divider (23) is fixed between the rolling brush upper cover plate (241) and the rolling brush lower cover plate (242), and a sewage and water tank (2421) is arranged on the rolling brush lower cover plate (242); and a sewage scraping strip (238) which is in contact with the outer peripheral surface of the rolling brush assembly (22) is arranged on the bottom shell (231) of the flow divider and is used for scraping the sewage adsorbed by the rolling brush assembly (22) into the sewage underwater water tank (2421).

6. A mop assembly as claimed in claim 5, characterized in that said brush assembly (22) comprises two spaced-apart, parallel-axis brushes (221), a waste bin (25) being provided between said two brushes (221), and mop strips (211) being provided between said waste bin (25) and said two brushes (221); a garbage scraping strip (2422) is arranged on one side, facing the garbage box (25), of the bottom of the rolling brush lower cover plate (242) and used for scraping garbage between the rolling brush (221) and the floor mopping scraping strip (211) into the garbage box (25).

7. A mop assembly as claimed in claim 6, characterised in that a sewage collecting box (26) and a sewage pump assembly (27) are further arranged between the two rolling brushes (221), the sewage collecting box (26) is communicated with the outlet of the sewage water tank (2421) for collecting sewage, and the sewage pump assembly (27) is connected with the sewage collecting box (26) for conveying the sewage in the sewage collecting box (26) outwards.

8. A mop assembly as claimed in claim 5, characterised in that the mop assembly (2) further comprises a mop top casing assembly (28) arranged on the mop bottom casing assembly (21) for holding the roller brush assembly (22), the mop top casing assembly (28) being provided with a flow dividing tube (281), the outlet of the flow dividing tube (281) being connected to the clean water conduit (29).

9. A mop assembly as claimed in claim 5, characterised in that the roller brush cover assembly (24) is provided with a dial (243) at each end perpendicular to the direction of movement of the mop base assembly (21), the dial (243) being rotatably connected to the roller brush cover assembly (24), and the mop base assembly (21) being provided with a catch on each of opposite sides thereof, the dial (243) being rotatable to be engaged in or disengaged from the catch.

10. A floor washing machine, comprising a machine body assembly (1), wherein a handle assembly (7) is connected to the top of the machine body assembly (1), and a clean water tank (3) and a power supply assembly (5) are arranged in the machine body assembly (1), the floor washing machine further comprises the mop assembly (2) of any one of claims 1-9, the mop assembly (2) is connected to the bottom of the machine body assembly (1), a clean water pipeline (29) of the mop assembly (2) is connected to the clean water tank (3), and a heating member (233) of the mop assembly (2) is electrically connected to the power supply assembly (5).

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