CN215502836U - Mop bucket with cleaning function - Google Patents

Abstract

The utility model relates to a mop bucket with a cleaning function, which is used for cleaning a flat mop. The mop bucket include the ladle body and can dismantle the assembly in the subassembly that cleans of ladle body, clean the subassembly and include brush spare and have the collection frame of accomodating the chamber, brush spare demountable installation in collect the frame. Collect the frame demountable assembly in the ladle body and with the peripheral surface parallel and level of ladle body, the brush spare is used for with the rubbish that dull and stereotyped mop gathered cleans to collect the frame. The cleaning assembly is detachably connected to the bucket body, and garbage can be cleaned after the flat mop is used for mopping the floor, so that the operation is convenient. Clean the subassembly and set up in the ladle body to remove along with the mop bucket jointly, the user need not additionally to go to look for and clean the instrument, convenient to use, user experience is good. The cleaning component is arranged on the bucket body to form a part of the bucket body, so that the appearance attractiveness of the mop bucket is improved.

Description

Mop bucket with cleaning function

Technical Field

The utility model relates to the technical field of mop buckets, in particular to a mop bucket with a cleaning function.

Background

The flat mop is cleaned in the mop bucket and then mopped. After the flat mop is used for mopping the floor, part of solid garbage is gathered together. The user needs to look for tools additionally to clean the drawknot, or the tools are thrown away after being wrapped by accessories such as paper towels, so that the operation is inconvenient, the number of the required tools is increased, and the user experience is poor, so that the improvement is needed.

Disclosure of Invention

The utility model aims to provide a mop bucket with a cleaning function.

In order to achieve the purpose, the utility model adopts the following technical scheme: the utility model provides a mop bucket from area clearance for wash dull and stereotyped mop, a serial communication port, the mop bucket include the ladle body and can dismantle the assembly in the subassembly that cleans of ladle body, clean the subassembly including brush spare and have the collection frame of accomodating the chamber, brush spare demountable installation in collect the frame, collect the frame demountable assembly in the ladle body and with the peripheral surface parallel and level of ladle body, brush spare be used for with the rubbish that dull and stereotyped mop assembles cleans to collect the frame.

In one embodiment, the collecting frame is connected to the barrel body in an inserting mode, and the brush piece is located in the containing cavity.

In one embodiment, the collecting rack comprises a base, and a first side wall, a second side wall and a third side wall which intersect with the base, the first side wall and the third side wall are arranged oppositely, the second side wall connects the first side wall and the third side wall, the base, the first side wall, the second side wall and the third side wall form the accommodating cavity around an area, an inclined surface is arranged at one end of the base, and the first side wall and the second side wall are connected to the barrel body; alternatively, the base is connected to the bowl.

In one embodiment, the collecting frame includes a fixing portion protruding from the base, and the brush member is engaged with the fixing portion.

In an embodiment, the collecting rack further includes a guiding portion disposed on the first side wall and the third side wall, and the guiding portion is slidably connected to the tub body.

In one embodiment, the brush member includes a handle frame and a bristle body attached to the handle frame, the bristle body including a filamentary strand; alternatively, the bristle body comprises a cleaning strip of flexible material.

In one embodiment, the bristle body is slidably snap-fit connected to the handle frame.

In one embodiment, the bowl includes a mounting cavity recessed from a peripheral wall, at least a portion of the collection shelf being located within the mounting cavity.

In one embodiment, the barrel body comprises a clean water area, a sewage dewatering area and a sewage area which are independent, and the installation cavity is positioned below the clean water area and part of the sewage dewatering area; the mop bucket further comprises a bucket cover, a water stroking device and a switch assembly, wherein the bucket cover is arranged on the bucket body, the water stroking device is connected with the bucket cover, the switch assembly is connected with the bucket body, the switch assembly is arranged on the bucket body and/or the bucket cover and controls the on-off of the clean water area and the sewage-cleaning dewatering area, and the water stroking device is correspondingly communicated with the sewage-cleaning dewatering area.

In one embodiment, the water stroking device comprises a water stroking frame connected with the barrel cover, a water stroking plate fixedly connected with the water stroking frame, and a guide wheel assembly slidably connected with the water stroking frame and arranged opposite to the water stroking plate, the water stroking frame is provided with a guide port communicated with the corresponding sewage removal and dehydration area, and the water stroking plate extends to the sewage removal and dehydration area and one end of the water stroking plate extends towards the inside of the guide port.

In one embodiment, the water stroking plate comprises a water stroking edge, a flow guiding surface and a plurality of comb teeth which are locally protruded from the surface of the flow guiding surface and distributed at intervals, a stroking opening is formed between the water stroking edge and the side wall opposite to the guiding opening, and the flow guiding surface extends from the water stroking edge to the direction deviating from the stroking opening in an inclined mode.

In one embodiment, the switch assembly is configured as an electrically driven water pumping assembly for electrically pumping the liquid in the clean water zone to the sewage dewatering zone.

In an embodiment, the water pumping assembly includes a pump body, a circuit board electrically connected to the pump body, a control element and an energy storage element electrically connected to the circuit board, and a water inlet pipe and a water outlet pipe connected to the pump body, the pump body is mounted on the barrel cover or the barrel body, the water inlet pipe is connected to the clean water area, the water outlet pipe is connected to the cleaning and dehydrating area, and the control element is used for controlling the operation of the pump body.

In one embodiment, the barrel body comprises a water through hole for communicating the clean water area and the sewage and dehydration area, wherein the switch assembly rotates relative to the barrel body to open and close the water through hole; or,

the switch assembly slides relative to the barrel body to open and close the limber hole.

The utility model has the beneficial effects that: the cleaning assembly is detachably connected to the bucket body, and garbage can be cleaned after the flat mop is used for mopping the floor, so that the operation is convenient. Clean the subassembly and set up in the ladle body to remove along with the mop bucket jointly, the user need not additionally to go to look for and clean the instrument, convenient to use, user experience is good. The cleaning component is arranged on the bucket body to form a part of the bucket body, so that the appearance attractiveness of the mop bucket is improved.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings required to be used in the embodiments of the present invention will be briefly described below. It is obvious that the drawings described below are only some embodiments of the utility model, and that for a person skilled in the art, other drawings can be derived from them without inventive effort.

FIG. 1 is a schematic cross-sectional view of a flat mop of the present invention inserted into a mop bucket.

Fig. 2 is a schematic perspective view of a mop bucket of the present invention.

Fig. 3 is a schematic sectional view showing the assembly of the lid to the body in the present invention.

Fig. 4 is a schematic view showing an assembled structure of the sweeping assembly of the present invention.

Fig. 5 is a schematic view of an assembly structure of the tub cover to the tub body according to the present invention.

Fig. 6 is a schematic structural diagram of the position of the water pumping assembly and the water stroking device relative to the barrel body after the barrel cover is removed.

FIG. 7 is a schematic structural view of the water-stroking plate connected to the water-stroking rack in the utility model.

FIG. 8 is a schematic cross-sectional view of the switch assembly of the manually operated mop bucket of the present invention.

FIG. 9 is an enlarged view of the push switch assembly of the present invention.

Fig. 10 is an enlarged schematic view of the rotary switch assembly of the present invention.

In the figure: a tub 10; a decontamination and dehydration zone 11; a sewage zone 12; a clear water zone 13; a first separator 14; a second separator 15; a water through hole 16; a mounting cavity 17; a water stroking device 20; a water stroking rack 21; a water stroking plate 22; a water edge 221; a drainage surface 222; comb teeth 223; a guide wheel assembly 23; a guide port 24; a guide groove 26; a tub cover 30; a mop mouth 31; a water outlet 32; a water injection port 33; a switch assembly 40; a pump body 41; a water outlet pipe 42; a water inlet pipe 43; a control member 44; an elastic return member 45; a slide bar 46; a flow guide part 461; a sweeping assembly 50; a collection rack 51; a first sidewall 511; a second sidewall 512; a third sidewall 513; a base 514; a fixed portion 515; a guide portion 516; a brush member 52; a handle frame 521; an operation hole 5211; a fitting groove 5212; a bristle body 522; a wire harness 5221; a mop bucket 100; a flat mop 200; the cleaning members 201.

Detailed Description

The technical scheme of the utility model is further explained by the specific implementation mode in combination with the attached drawings.

Wherein the showings are for the purpose of illustration only and are shown by way of illustration only and not in actual form, and are not to be construed as limiting the present patent; to better illustrate the embodiments of the present invention, some parts of the drawings may be omitted, enlarged or reduced, and do not represent the size of an actual product; it will be understood by those skilled in the art that certain well-known structures in the drawings and descriptions thereof may be omitted.

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 the terms "upper", "lower", "left", "right", "inner", "outer", etc. are used for indicating the orientation or positional relationship based on the orientation or positional relationship shown in the drawings, it is only for convenience of description and simplification of description, but it is not indicated or implied 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 limitations of the present patent, and the specific meanings of the terms may be understood by those skilled in the art according to specific situations.

In the description of the present invention, unless otherwise explicitly specified or limited, the term "connected" or the like, if appearing to indicate a connection relationship between the components, is to be understood broadly, for example, as being fixed or detachable or integral; can be mechanically or electrically connected; they may be directly connected or indirectly connected through intervening media, or may be connected through one or more other components or may be in an interactive relationship with one another. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

As shown in fig. 1 to 4, the present invention discloses a mop bucket 100 for cleaning a flat mop 200. The mop bucket 100 comprises a bucket body 10 and a cleaning assembly 50 detachably assembled on the bucket body 10, wherein the cleaning assembly 50 comprises a brush piece 52 and a collection frame 51 with a containing cavity, and the brush piece 52 is used for cleaning garbage collected by the flat mop 200 to the collection frame 51.

The tub 10 is used to store cleaning liquid such as clean water to clean the flat mop 200. The sweeping assembly 50 is mounted on the tub 10, and can be taken out of the tub 10 for independent use when in use, and is convenient and fast to operate. The collecting frame 51 is provided with a receiving chamber for receiving and dumping the garbage into a garbage can or the like, and the brush member 52 is used for sweeping the garbage into the collecting frame 51, thereby keeping the ground area clean. The cleaning assembly 50 is detachably connected to the tub 10, and cleans the garbage after the flat mop 200 finishes mopping, which is convenient to operate. Cleaning assembly 50 sets up in ladle body 10 to along with mop bucket 100 moves jointly, the user need not additionally to go to look for and clean the instrument, convenient to use, user experience is good. The cleaning assembly 50 is disposed at the tub 10 to constitute a part of the tub 10, improving the aesthetic appearance of the mop tub 100.

The brush member 52 and the collection frame 51 constitute a sweeping assembly 50, and the sweeping assembly 50 is commonly assembled to the tub 10. In an alternative embodiment, the brush member 52 is detachably mounted to the collection frame 51, and the collection frame 51 is detachably mounted to the tub 10. In this embodiment, the collecting frame 51 is provided with a fixing structure for mounting the brush member 52, so that the brush member 52 is assembled with the collecting frame 51 as one body and then integrally assembled to the tub 10 with good assembling efficiency. Or, the brush 52 is directly placed in the receiving cavity of the collecting rack 51, so that after the collecting rack 51 is assembled to the tub 10, the brush 52 is located in the tub 10 to avoid being lost. In another alternative embodiment, the brush member 52 and the collection frame 51 are independently detachably mounted to the tub 10, and accordingly, fixing structures are respectively provided on the tub 10 to fix the brush member 52 and the collection frame 51, respectively. For example, a hook is provided on the tub 10 to hook the brush 52 and the collecting frame 51. The tub 10 is provided with a groove-like structure to receive the brush 52, the collection frame 51, and the like.

The brush member 52 is exemplified as being assembled with the collecting frame 51 and then integrally assembled to the tub 10.

In one embodiment, the tub 10 includes a mounting cavity 17 recessed from the peripheral wall, and at least a portion of the collection shelf 51 is located within the mounting cavity 17. The mounting cavity 17 is a groove structure, and an opening thereof is located on the outer peripheral wall of the tub 10. The collecting rack 51 is inserted into the tub 10 from the opening of the installation cavity 17, and the brush 52 is located in the receiving cavity. Optionally, the surface of the collecting frame 51 closed at the opening position of the mounting cavity 17 is flush with the surface of the tub 10 to form a smooth surface, and the overall aesthetic degree is high. Optionally, a handle or a handle groove structure is arranged on the surface of the collecting rack 51 at the opening position of the mounting cavity 17 to facilitate the insertion and removal of the collecting rack 51.

The collecting rack 51 comprises a base 514, and a first sidewall 511, a second sidewall 512 and a third sidewall 513 intersecting with the base 514, wherein the first sidewall 511 and the third sidewall 513 are oppositely arranged, the second sidewall 512 connects the first sidewall 511 and the third sidewall 513, and a receiving cavity is formed around the base 514, the first sidewall 511, the second sidewall 512 and the third sidewall 513. The collecting frame 51 is formed by a thin-wall structure, the first side wall 511, the second side wall 512 and the third side wall 513 surround the base 514 to form a three-side surrounding structure, and the edge of the base 514 opposite to the second side wall 512 forms a material inlet for the garbage to enter and exit, so that the brush piece 52 can clean the garbage to enter the containing cavity conveniently.

Optionally, the collecting rack 51 is connected to the tub 10 through the first and second sidewalls 511 and 512, that is, the first and second sidewalls 511 and 512 are suspended from the tub 10. Specifically, the collecting frame 51 further includes a guide portion 516 provided to the first and third sidewalls 511 and 513, and the guide portion 516 is slidably coupled to the tub 10. The guiding part 516 is a rib or a guide rail structure protruding out of the surface of the first side wall 511 and the third side wall 513, and the side wall of the installation cavity 17 provided in the tub 10 is provided with a groove or a rib structure to connect the guiding part 516 by a suspension, so that the collecting frame 51 is connected with the tub 10 in a sliding and inserting manner, and the assembly is convenient and has good guiding performance. Alternatively, in the present embodiment, the mounting cavity 17 may be configured as a notch structure or a counter-sunk groove structure to facilitate the assembly of the collecting frame 51.

In another embodiment, the mounting chamber 17 is provided as a counter-sunk groove configuration to receive the collection shelf 51. Accordingly, the base 514 is connected to the tub 10, so that the collecting rack 51 is erected at the bottom of the mounting chamber 17, thereby improving the bearing effect of the collecting rack 51.

In one embodiment, the brush member 52 includes a handle frame 521 and a bristle body 522 coupled to the handle frame 521, the handle frame 521 being adapted to facilitate a user's hand-held manipulation to clean debris, thereby enabling the bristle body 522 to clean debris. In addition, the handle frame 521 is configured as a rigid structure for connecting the brush member 52 with the collection frame 51 to facilitate the fixation of the two. For example, the handle frame 521 is provided with a through hole-shaped operation hole 5211, and the operation hole 5211 is provided as a long hole. The user's hand passes through the operation hole 5211 to hold the brush 52 for easy operation. In addition, the operation hole 5211 is used to snap-couple to the collection holder 51 so as to facilitate the integration of the brush member 52 with the collection holder 51. Optionally, the collecting frame 51 includes a fixing portion 515 protruding from the base 514, and the brush 52 is clamped to the fixing portion 515. The fixing portion 515 is a boss, a column or a rib to form a protrusion connection structure. The brush 52 is engaged and fixed to the outer peripheral wall of the fixing portion 515 via the wall of the operation hole 5211 to connect the two integrally. Optionally, the fixing portion 515 includes a positioning rib protruding at intervals and having a column shape or a plate shape, and the positioning rib is elastically abutted against the hole wall of the operation hole 5211, so as to facilitate the rotation, the distribution and the taking of the brush 52.

The brush member 52 cleans waste through the bristle body 522. Optionally, the bristle body 522 includes filamentary strands 5221, and the strands 5221 are radial, and can be bent to sweep debris for easy cleaning. Optionally, the bristle body 522 includes a cleaning strip of flexible material. The bristle body 522 is configured as a strip or block-shaped cleaning strip for scraping or pushing the garbage to move, thereby sweeping the garbage to the collection frame 51. The bristle body 522 may be configured as a sponge, a rubber strip, a cloth strip roll, or other strip-shaped structure to facilitate cleaning of garbage.

Optionally, the bristle body 522 is fixedly connected to the handle frame 521, and the two are combined into a whole. For example, the bristle body 522 is molded to the handle frame 521; the bristle body 522 is attached to the handle frame 521, etc. by an adhesive. Optionally, the bristle body 522 and the handle frame 521 are removably attached to improve interchangeability. For example, the bristle body 522 is slidably snap-fit connected to the handle frame 521. The end of the handle frame 521 is provided with a mounting groove 5212 having a long groove shape, and the mounting groove 5212 is configured as a groove structure having a stopper function, such as a dovetail groove or a T-shaped groove. The bristle body 522 is provided with a link bar and a harness 5221 or a cleaning bar fixed to the link bar, the link bar being inserted into the fitting groove 5212 such that the harness 5221 and the cleaning bar protrude from the handle frame 521.

In one embodiment, the barrel 10 comprises a clean water area 13, a sewage dewatering area 11 and a sewage area 12, and the installation cavity 17 is located below the clean water area 13 and a part of the sewage dewatering area 11, so as to raise the heights of the clean water area 13 and the sewage dewatering area 11, thereby facilitating clean water circulation and space utilization. The mop bucket 100 further comprises a bucket cover 30 covered on the bucket body 10, a water stroking device 20 connected to the bucket cover 30 and a switch assembly 40 connected to the bucket body 10, wherein the switch assembly 40 is installed on the bucket body 10 and/or the bucket cover 30 and controls the on-off of the clean water area 13 and the sewage-removing dehydration area 11, and the water stroking device 20 is correspondingly communicated with the sewage-removing dehydration area 11. The flat mop 200 is inserted into the mop barrel 100 along the water smoothing device 20 and is mutually extruded with the water smoothing device 20, the water smoothing device 20 scrapes a cleaning piece 201 such as a cleaning piece 201 positioned on the flat mop 200, so as to remove dirt on the cleaning piece 201 and control the water content of the cleaning piece 201, and the cleaning piece 201 can be set to be a cloth structure such as a rag.

The water stroking device 20 includes: the water smoothing device comprises a water smoothing frame 21, a water smoothing plate 22 fixedly connected to the water smoothing frame 21, and a guide wheel assembly 23 which is connected to the water smoothing frame 21 in a sliding mode and is opposite to the water smoothing plate 22. The water smoothing frame 21 is provided with a guide port 24, and the guide port 24 penetrates through the water smoothing frame 21 to form an inlet and outlet passage for the flat mop 200 to penetrate and move. The guide wheel assembly 23 and the water smoothing plate 22 are arranged oppositely and are respectively positioned on two opposite wall surfaces of the guide opening 24. One end of the water smoothing plate 22 exceeds the wall surface of the guide opening 24 and forms a structure similar to a cantilever, so that the water smoothing plate 22 can scrape the cleaning piece 201.

In an alternative embodiment, the water smoothing plate 22 comprises a water smoothing edge 221, a drainage surface 222 and a plurality of comb teeth 223 which are partially protruded from the surface of the drainage surface 222 and distributed at intervals, a smoothing opening is formed between the water smoothing edge 221 and the side wall opposite to the guide opening 24, and the drainage surface 222 extends from the water smoothing edge 221 in a direction inclined away from the smoothing opening. When the mop bucket 100 is in use, the water smoothing edge 221 is higher than the other end of the drainage surface 222, and the height can be determined based on the gravity direction. When the flat mop 200 is in a cleaning state, the cleaning piece 201 is in pressing contact with the edge of the water smoothing plate 22 at one end of the water smoothing opening, and dirty water on the cleaning piece 201 flows out of the guide opening 24 along the drainage surface 222 so as to enable clean water and dirty water to be separated.

In the mutual stroking process of the flat mop 200 and the water stroking plate 22, the water stroking plate 22 guides the flowing direction of sewage through the flow guide surface 222, and the comb teeth 223 are arranged on the flow guide surface 222 and can comb and remove dirt such as hair and solid particles carried on the surface of the cleaning piece 201. The dirt falls into the drainage surface 222 after being combed by the comb teeth 223 and is output along the flow guide surface after being washed by the sewage, so that the dirt is prevented from being adhered to the surface of the water smoothing device 20 and the surface of the mop bucket 100 provided with the water smoothing device 20, and the cleaning effect is good.

At least a part of the guide wheel assembly 23 protrudes from the surface of the guide opening 24 to form a similar telescopic movable guide structure to improve the smoothness of movement of the flat mop 200. The guide wheel assembly 23 protrudes toward the center of the guide opening 24, and adjusts the width of the opening during the sliding of the flat mop 200.

The flat mop 200 is inserted into the opening along the guide opening 24, one side of the flat mop 200 with the cleaning piece 201 and the water smoothing plate 22 are pressed against each other, and one side of the flat mop 200 opposite to the cleaning piece 201 is pressed against the guide wheel assembly 23. The guide wheel assembly 23 is slidably connected to the water smoothing frame 21, and the guide wheel assembly 23 can slide back and forth along the water smoothing frame 21 and keep fit with the flat mop 200 in the process that the flat mop 200 moves back and forth along the guide opening 24 in a straight line, so as to adjust the friction force and the scraping force between the flat mop 200 and the water smoothing plate 22. The size of the wall surface of the guide wheel assembly 23 protruding out of the guide opening 24 in the process that the flat mop 200 is inserted into the guide opening 24 is larger than the size of the wall surface of the guide wheel assembly 23 protruding out of the guide opening 24 in the process that the flat mop 200 is pulled out of the guide opening 24, so that the flat mop 200 and the water smoothing plate 22 are squeezed to smooth water in the process of inserting into the water smoothing opening, resistance is reduced in the process of pulling out the flat mop 200, the flat mop 200 is pulled out smoothly, and the water smoothing effect is good.

As shown in fig. 5 to 7, the teeth 223 are distributed on the flow surface 222 to comb the cleaning elements 201 against the water-engaging plate 22. Wherein, the comb teeth 223 comprise one row or more, and the connecting line of each row of comb teeth 223 is parallel to the water smoothing edge 221. That is, the plurality of comb teeth 223 are arranged at intervals along the longitudinal direction of the water stroking plate 22 and are aligned on the same line, so that a continuous linear combing structure is formed, and the combing effect on the planar cleaning material 201 is good. Alternatively, when the comb teeth 223 are arranged in two rows and more, the comb teeth 223 of adjacent two rows are distributed with a shift to constitute a complementary structure. Moreover, the distances from the comb teeth 223 to the water smoothing edge 221 are different, so that front and back staggered combing parts are formed, linear silk thread structures on the surface of the cleaning piece 201 with different lengths can be combed, and the completeness of combing layers is improved. Two adjacent rows of comb teeth 223 are distributed in a staggered mode, the cleaning piece 201 can be combed comprehensively, the combing area is large, a linear combing structure cannot be formed, and the flowing smoothness of dirt is improved. Alternatively, the number of each row of comb teeth 223 may be set to 10 to 50. Specifically, the number of the comb teeth 223 of each row is set to 10, 20, 25, 30, 35, 40, 50.

Each comb tooth 223 is formed by locally protruding from the drainage surface 222, wherein a first distance D is arranged between the edge of each comb tooth 223 and the water smoothing edge 221, and D is larger than or equal to 0mm and smaller than or equal to 10 mm. The first distance is the minimum distance between the comb teeth 223 and the water smoothing edge 221, and the edge of the comb teeth 223 is the intersecting contour line of the comb teeth 223 and the drainage surface 222. Wherein, the first distance D may be set to 0mm, 1mm, 2mm, 3mm, 5mm, 6mm, 8mm, 10mm, etc. When the first distance D is set to 0mm, the edge of the comb teeth 223 intersects with the water smoothing edge 221, and the comb teeth 223 are located at the edge of the water smoothing plate 22.

Each comb tooth 223 is partially formed to protrude from the flow guide surface 222, and further, the protruding direction of the comb tooth 223 is parallel to the center line of the guide port 24. The flat mop 200 is inserted in a direction parallel to the center line of the guide opening 24 and stroked against the water paddle 22. Accordingly, the wire structure on the cleaning member 201 intersects with the comb teeth 223, so that the combing direction is opposite to the stroking movement direction of the flat mop 200, and the dirt separation effect is improved. Alternatively, the projecting direction of the comb teeth 223 is inclined with respect to the center line of the guide opening 24 such that the free ends of the comb teeth 223 extend obliquely toward the insertion direction of the flat mop 200 to increase the depth of insertion of the comb teeth 223 into the cleaning member 201, improving the combing effect. The comb teeth 223 are vertically or obliquely projected with respect to the drainage surface 222, and can facilitate the inclination and drainage of the filth.

Further, the sectional dimension of the comb teeth 223 gradually decreases from the drainage surface 222 to the free end direction to form a tooth-shaped combing structure, so that the combing and dirt removing effect of the comb teeth 223 on the cleaning piece 201 is improved. Alternatively, the lateral cross-sectional shape of the comb teeth 223 may be configured as a circle, a rectangle, a triangle, an ellipse, a structure having curved surfaces intersecting to be closed, a shuttle structure, or the like.

In an alternative embodiment, the water smoothing plate 22 is integrally formed with the water smoothing frame 21, wherein the water smoothing plate 22 is a part of the water smoothing frame 21 and is provided as an opening of the guide port 24, or a plate-shaped convex rib formed by partially protruding the water smoothing plate 22 from a hole wall of the guide port 24 is used for guiding water flow to flow out. The water smoothing plate 22 and the water smoothing frame 21 are integrally formed, so that the overall structural strength is high, and the production cost is low.

In another alternative embodiment, the water stroking plate 22 is detachably connected to the water stroking rack 21. In the present embodiment, the water stroking plate 22 is a separate member, and is machined and assembled to the water stroking frame 21 so as to be detachably connected thereto. For example, the water stroking plate 22 is fixedly attached to the water stroking frame 21 by a fastener such as a bolt. Alternatively, the water smoothing plate 22 is fixed to the water smoothing frame 21 by inserting a non-circular shaft so as to prevent the water smoothing plate 22 from rotating relative to the water smoothing frame 21. Or, the water smoothing plate 22 is fixed on the water smoothing frame 21 through a fixing frame, and the fixing frame is a connector connecting the water smoothing plate 22 and the water smoothing frame 21, and can be a pressing plate, an adapter plate, a transition connector and the like.

The guide wheel assembly 23 is arranged opposite to the water smoothing frame 21, and the width size of the smoothing opening is adjusted in the sliding process of the guide wheel assembly 23. Wherein, water frame 21 includes relative guiding groove 26 that sets up, and guiding groove 26 is long flute shape and extends towards keeping away from the direction of stroking out with fingers, and guide wheel subassembly 23's both ends sliding connection is in guiding groove 26.

The guide wheel assembly 23 slides along the guide groove 26 to adjust the size of the wall surface of the guide opening 24, from which the guide wheel assembly 23 protrudes. The extending direction of the guide groove 26 is inclined with respect to the center line direction of the guide port 24 to adjust the range of the adjustment of the stroke size by the guide wheel assembly 23. The guide groove 26 may be a long straight groove to allow the guide wheel assembly 23 to linearly move along the guide groove 26. Alternatively, the guide groove 26 may be a curved groove formed by a plurality of continuously intersecting straight grooves having different slopes, so that the guide wheel assembly 23 can move along the guide groove 26 in a plurality of stages with different rake size adjustment efficiencies. For example, the guide groove 26 includes a first straight groove and a second straight groove inclined with respect to the first straight groove, the first straight groove extending in the stroking direction. When the guide wheel assembly 23 slides from the first straight groove to the second straight groove, the speed of retracting the guide wheel assembly 23 to the water stroking rack 21 is reduced. Alternatively, the guide groove 26 may be provided as an arc-shaped curved groove to allow the guide wheel assembly 23 to continuously move along the guide groove 26 and to reduce the speed at which the guide wheel assembly 23 retracts into the water rake 21.

When the guide groove 26 extends obliquely away from the direction of gravity, the guide wheel assembly 23 slides along the guide groove 26 under the action of gravity to be at the position of minimum stroking width. When the flat mop 200 is pulled out of the guide port 24, the guide wheel assembly 23 slides along the guide groove 26 under the friction and thrust of the flat mop 200 and partially retracts into the water stroking frame 21 to be at the position of maximum stroking width. The guide wheel assembly 23 realizes resetting and moving by adopting dead weight, and has a simple structure.

Further, the water stroking device 20 further comprises an elastic resetting component mounted on the water stroking frame 21, the elastic resetting component is elastically abutted against the guide wheel component 23, and the guide wheel component 23 protrudes towards the stroking direction under the action of elastic pre-tightening force of the elastic resetting component. The guide wheel assembly 23 automatically resets under the elastic force action of the elastic resetting assembly so as to keep the trend of moving towards the position with the minimum stroking width, and the resetting effect is good and stable. Different from the above-mentioned guide groove 26 structure using self-weight reset, elasticity is provided

In the water straightening device 20 of the resetting component, the set direction of the inclination angle and the shape of the guide groove 26 are less limited, and the use is more flexible.

The elastic reset component is connected with the guide wheel component 23 and the water smoothing frame 21, so that elastic pretightening force is formed between the guide wheel component 23 and the water smoothing frame 21. Optionally, the elastic restoring assembly comprises an elastic member, and the elastic member is connected with the guide wheel assembly 23 and the water stroking frame 21 so as to enable the guide wheel assembly and the water stroking frame to have elastic pretightening force. For example, the elastic member is a spring, a rubber member having elastic and elastic properties, or the like. Optionally, the elastic reset assembly further comprises a guide piece rotatably connected to the guide wheel assembly 23, the guide piece is connected to the water stroking frame 21 in an inserting mode, and the elastic piece is sleeved on the guide piece and abuts against the water stroking frame 21, so that the moving stability and the guiding stability of the guide wheel assembly 23 are improved. Wherein the guide member is a guide rod.

The guide wheel assembly 23 is mounted on the water stroking frame 21, wherein the guide wheel assembly 23 comprises a wheel axle and a roller mounted on the wheel axle, and the roller is of a circular rolling structure. Alternatively, the axle is slidably connected to the water-stroking frame 21 and the rollers are rotatably connected to the axle. The roller rolls with respect to the wheel shaft so that the flat mop 200 is in rolling contact with the roller with a small resistance to relative movement. The axle and the guiding groove 26 may be provided with a rolling connection or a sliding connection to adapt to different application scenarios. For example, the axle is a square shaft, and the axle and the opposite side walls of the guide groove 26 are mutually limited, so that the axle is slidably connected to the guide groove 26. Alternatively, the wheel shaft is a cylindrical shaft, and the wheel shaft is connected with the guide groove 26 in a rolling manner, so that the moving effect is improved.

In another embodiment, the rollers are fixed to a wheel shaft that is rotatably connected to the water stroking frame 21. The roller and the wheel shaft are fixed into a whole, two ends of the wheel shaft are erected in two opposite guide grooves 26 on the water stroking frame 21 and move along the guide grooves 26, and the water stroking frame is good in structural stability and low in processing cost. The water smoothing frame 21 supports and is provided with a guide wheel assembly 23, wherein the water smoothing frame 21 comprises two opposite support walls, and each support wall is provided with a guide groove 26. The two ends of the axle are erected on the supporting wall and limited in the guiding groove 26, so that the assembling effect and the structural stability of the axle are improved.

As shown in fig. 1 to 7, the water smoothing device 20 disclosed in the above embodiment is applied to the mop bucket 100 to improve the cleaning efficiency of the mop bucket 100 for cleaning the flat mop 200. The mop bucket 100 comprises a bucket body 10, a switch assembly 40 connected to the bucket body 10, a bucket cover 30 covering the bucket body 10, and the water smoothing device 20 disclosed in the above embodiment, wherein the water smoothing frame 21 is connected to the bucket cover 30. The tub 10 includes a clean water area 13, a sewage-removing and dewatering area 11, and a sewage area 12, and the switch assembly 40 is installed on the tub 10 and/or the tub cover 30 and controls the on/off of the clean water area 13 and the sewage-removing and dewatering area 11. The water stroking device 20 is far away from the bottom of the sewage-cleaning dewatering area 11, the stroking opening is correspondingly communicated with the sewage-cleaning dewatering area 11, and the stroking plate 22 extends from the sewage-cleaning dewatering area 11 to the sewage area 12.

The water smoothing frame 21 is connected to the position of the barrel cover 30 to form a part of the barrel cover 30 or be detachably mounted on the barrel cover 30, and then is mounted on the barrel body 10 through the barrel cover 30. The opening part of bung 30 closing cap in the accommodation space to make the accommodation space relatively sealed, avoid liquid outflow or expose in the air, improve the clean and tidy nature. The barrel cover 30 comprises a mop inlet and a mop outlet which are opposite to the cleaning and dehydrating area 11, and the mop inlet and the mop outlet are correspondingly extended and communicated with the guide port 24 of the water stroking device 20 or form a part of the guide port 24 so that the flat mop 200 can be inserted into the cleaning and dehydrating area 11. Optionally, the water stroking device 20 is detachably mounted on the second partition plate or the barrel cover 30 and is located at one open end of the dirt-removing and dewatering area 11. The water stroking plate 22 inclines from the sewage cleaning and dewatering area 11 to the sewage area 12, so that the water outlet direction faces the sewage area 12. Optionally, the barrel cover 30 is further provided with a water filling port 33 in direct communication with the clean water area 13, so that clean water can be filled into the clean water area 13.

The dirt-removing and dewatering area 11 is used for storing a certain amount of clear water, and a user inserts the mop into the dirt-removing and dewatering area 11 through the water stroking device 20 and repeatedly inserts the mop. The mop is washed by clean water in the dirt-removing and dewatering area 11, and dirt and sewage on the mop are scraped into the sewage area 12 by the water stroking device 20. After the sewage is repeatedly pumped and inserted for many times, the sewage in the sewage-removing dewatering area 11 continuously enters the sewage area 12 through the water stroking device 20, so that the water level in the sewage-removing dewatering area 11 is lowered, and the sewage in the sewage-removing dewatering area 11 cannot flow back to the inside of the clean water area 13. When the water level in the filth removing and dewatering space 11 is lowered to the bottom or less than a predetermined amount, the cleaning of the flat mop 200 is completed. The flat mop 200 entering the dirt removing and dewatering area 11 does not carry a large amount of sewage and foreign matters, so that the flat mop 200 can be cleaned by clean water at each time, and the cleaning efficiency and the cleanliness of the flat mop 200 are improved.

Optionally, the dirt removing and dewatering zone 11 comprises a dirt removing and dewatering zone 11 and a recessed zone formed recessed from the dirt removing and dewatering zone 11, wherein the bottom of the clean water zone 13 is higher than the height of the recessed zone in the gravity direction. Optionally, the highest of the depressed zones is lower or flush with the lowest of the clean water zone 13 so that clean water in the clean water zone 13 can pass along the dirt and water removing zone 11 into the depressed zones. The water stroking device 20 is positioned above the dirt removing and dewatering area 11, the flat mop 200 enters along the dirt removing and dewatering area 11 and at least partially immerses into the concave area, so that clear water can soak the flat mop 200, water adsorbed by the flat mop 200 is scraped to the sewage area 12 through the water stroking device 20 in the repeated pumping and inserting process, and the operation is convenient.

The switch assembly 40 is connected to the tub 10 to control connection or disconnection of the soil and water removing and dehydrating section 11 and the clean water section 13. The modes of the switch assembly 40 controlling the communication of the water through hole 16 include two modes of automatic pumping and manual operation opening. Wherein, the barrel body 10 forms a container structure, and different container spaces are formed by dividing the container structure through a partition plate; or a large container is used to accommodate a small container to form different container space forms. In one embodiment, the tub 10 includes a bottom wall and a peripheral wall surrounding the bottom wall, the bottom wall and the peripheral wall enclosing a container space, and the tub 10 further includes a first partition 14 and a second partition 15, the first partition 14 and the second partition 15 dividing the container space into a sewage zone 12, a sewage dewatering zone 11 and a clean water zone 13 which are independent.

The first partition plate and the second partition plate extend from the bottom of the barrel body 10 to the opening direction to form a partition plate structure, so that a clean water area 13, a sewage cleaning and dewatering area 11 and a sewage area 12 which are independent of each other are arranged inside the barrel body 10, and the clean water area 13, the sewage cleaning and dewatering area 11 and the sewage area 12 are adjacently arranged in the horizontal direction, for example, the clean water area 13, the sewage cleaning and dewatering area 11 and the sewage area 12 are distributed approximately in a shape like a Chinese character 'mu' or 'pin', or the sewage cleaning and dewatering area 11 is positioned in the clean water area 13 or the sewage area 12. The clean water zone 13 and the cleaning and dehydrating zone 11 are communicated through a water through hole 16, wherein the water through hole 16 is close to the bottom of the accommodating space, so that the clean water in the clean water zone 13 enters the cleaning and dehydrating zone 11.

In the first embodiment, as shown in fig. 8 to 10, the switch unit 40 manually controls the opening and closing of the water passage hole 16.

The opening and closing member 40 is mounted to the tub 10 and moves to open or close the water passage hole 16, and optionally, the opening and closing member 40 is press-slid with respect to the tub 10 to change the position of the opening and closing member 40 with respect to the tub 10. Alternatively, the switch assembly 40 is rotated with respect to the tub 10 to change the position of the switch assembly 40 with respect to the tub 10. The clear water area 13 is used for storing clear water, and the clear water can enter the decontamination dewatering area 11 by opening the water through hole 16 through the switch assembly 40. Taking the example that the switch assembly 40 is pressed and slid relative to the barrel 10 to open the water through hole 16 as an example, when the groove or hole closed by the switch assembly 40 is communicated with the water through hole 16, the clean water in the clean water zone 13 enters the sewage and dehydration zone 11 along the water through hole 16. When the switch assembly 40 is slid away, the water through holes 16 are closed by the side wall of the switch assembly 40 or the spindle driven by the switch assembly 40 to block the passage between the clean water zone 13 and the sewage dewatering zone 11.

The switch component 40 controls the on-off of the limber hole 16 in a sliding way to realize the flow of the clear water. In one embodiment, the switch assembly 40 includes a sliding rod 46 and an elastic restoring member 45 connected to the sliding rod 46, and the sliding rod 46 is provided with a flow guide 461. The tub 10 includes a guide hole to which the water passage hole 16 is intersected, and the elastic restoring member 45 is coupled to the tub 10 or the tub cover 30. When the sliding rod 46 overcomes the elastic force of the elastic restoring member 45, it slides along the guiding hole until the flow guiding part 461 communicates with the water through hole 16, so that the clean water area 13 communicates with the sewage dewatering area 11.

The water passage hole 16 penetrates the hole wall of the guide hole, and the slide rod 46 is slidably connected to the guide hole. Wherein, the peripheral wall of the sliding rod 46 is matched with the hole wall of the guide hole to realize the sealing and blocking of the water through hole 16. Optionally, the sliding rod 46 is sleeved with a sealing ring, and the sealing ring is used for sealing the peripheral wall of the sliding rod 46 and the hole wall of the guide hole, so that the assembling convenience is improved, and the processing requirement is reduced.

The elastic reset piece 45 is an elastic structural member such as a compression spring, a tension spring, a torsion spring, etc., the elastic reset piece 45 is connected to the barrel body 10 or the barrel cover 30, so that the sliding rod 46 can be automatically reset to keep the posture of closing the limber hole 16, and a user drives the sliding rod 46 to overcome the elastic force of the elastic reset piece 45 by pressing or lifting, so as to open the limber hole 16, which is convenient to operate.

In the second embodiment, as shown in fig. 3 to 6, the switch assembly 40 automatically pumps water.

The switch assembly 40 is provided as an electrically driven pumping assembly for electrically pumping the liquid in the clean water zone 13 to the sewage dewatering zone 11. The water pumping assembly is arranged on the barrel body 10 and/or the barrel cover 30 and communicated with the clean water area 13 and the sewage-removing and dewatering area 11, and is used for electrically pumping the liquid in the clean water area 13 to the sewage-removing and dewatering area 11.

The water pumping assembly can automatically and quantitatively pump clear water in the clear water area 13 into the sewage removal and dehydration area 11, and the water quantity control effect in the sewage removal and dehydration area 11 is good. In one embodiment, the water pumping assembly includes a pump body 41, a circuit board electrically connected to the pump body 41, a control member 44 and an energy storage element electrically connected to the circuit board, a water inlet pipe 43 and a water outlet pipe 42 connected to the pump body 41, wherein the water inlet pipe 43 is connected to the clean water zone 13, the water outlet pipe 42 is connected to the clean water zone 11, and the control member 44 is used for controlling the operation of the pump body 41. The pump body 41 is used for driving the clean water to flow into the decontamination dehydrating region 11 from the clean water region 13, so that the clean water capacity in the decontamination dehydrating region 11 can be quantitatively controlled, and the output quantity is accurate. Optionally, the pump body 41 is mounted to the tub 10 such that the pump body 41 moves with the pump body 41. The tub 10 is provided with a space for mounting the pump body 41, thereby improving the mounting stability of the pump body 41. Optionally, the pump body 41 is mounted to the tub cover 30, so that the pump body 41 is detachably mounted to the tub 10 along with the tub cover 30. The pump body 41 can be firstly installed on the barrel cover 30 and then installed on the barrel body 10 along with the barrel cover 30, and the installation effect is good.

The pump body 41 may be installed at a position far from the bottom of the tub 10 or close to the bottom of the tub 10, so that the water inlet and outlet ranges of the pump body 41 are adjusted through the water inlet pipe 43 and the water outlet pipe 42. Wherein the water inlet pipe 43 is connected to the water inlet of the pump body 41, and the free end of the water inlet pipe 43 extends to the bottom of the clean water area 13 or a position close to the bottom so as to fully absorb the clean water in the clean water area 13. The outlet pipe 42 is connected to the outlet 32 of the pump body 41 to guide the clean water to flow into the dirt-removing and dewatering space 11.

The energy storage element is provided as a battery for providing electrical energy for the operation of the control member 44 and the pump body 41. The control member 44 controls the operation of the pump body 41 according to the operation instruction of the user, so that the pump body 41 can automatically pump the clean water in the clean water area 13 to the dirt-removing and dewatering area 11, the operation is convenient, and the user experience is good.

Optionally, the control member 44 includes a control panel and a touch button disposed on the control panel, the control panel is mounted on the barrel body 10 or the barrel cover 30, and the circuit board is integrated on the control panel and electrically connected to the pump body 41. The control panel is provided with a touch button, and a user touches the touch button to trigger the pump body 41 to operate, so that the operation is convenient and fast. Optionally, the control panel is provided with a display screen for outputting parameter information of the cleaning mop bucket 100, for example, the display screen can output information including but not limited to: battery power, water consumption, cleaning times, etc. The circuit board is integrated on the control panel to improve the space utilization rate and the installation convenience. Optionally, a control panel is installed at a sidewall of the tub 10 for convenient installation and manipulation. For example, the control member 44 and the pump body 41 are mounted to the tub 10. Optionally, a control panel is mounted to the tub cover 30 to facilitate visual observation by a user. For example, the control member 44 and the pump body 41 are mounted to the tub cover 30.

Optionally, the control member 44 includes a key switch electrically connected to the circuit board, and the key switch is mounted to the tub 10 or the tub cover 30. The key switch outputs an electric signal according to the operation of an operator, so that the circuit board controls the pump body 41 to operate according to the control signal, and the control is convenient.

It is worth mentioning that the clean water between the clean water zone 13 and the dirt removing and dewatering zone 11 flows through the water pumping assembly for electric pumping, so that the bottom of the clean water zone 13 is flush with the bottom of the dirt removing and dewatering zone 11. Alternatively, the height of the bottom of the sewage-removing and dewatering area 11 is greater than the height of the bottom of the clean water area 13 in the vertical direction, which can also be understood by referring to the above embodiments and can be adapted to different space design requirements, and will not be described herein again.

In one embodiment, the tub 10 further includes a shock absorbing assembly mounted at the bottom of the soil cleaning and dewatering zone 11. The damping member is configured as a rubber member, a sponge, or an elastic deformation member having a compression spring installed in the dirt removing and dewatering zone 11 to reduce and cushion the impact of the flat mop 200, and the silencing effect is good.

The working principle of the utility model is as follows: a user injects a certain amount of clean water into the clean water area 13 through the water injection port 33, and then the clean water in the clean water area 13 is pumped into the sewage-removing and dewatering area 11 by controlling the operation of the water pumping assembly; after the dirt removing and dewatering area 11 stores a certain amount of clear water, a user inserts a mop into the dirt removing and dewatering area 11 through the water stroking device 20 and repeatedly pumps and inserts the mop, the mop is washed by the clear water in the dirt removing and dewatering area 11, and dirt and sewage on the mop are scraped by the water stroking device 20 and enter the sewage area 12; the user can also rotate the mop head to clean the two ends of the mop head evenly; after repeated pumping and inserting for many times, the sewage in the cleaning and dehydrating area 11 continuously enters the sewage area 12 through the water stroking device 20, so that the water level in the cleaning and dehydrating area 11 is lowered to the position below the top end of the bed-up area; at the moment, the water level at the lowest position of the clean water area 13 is higher than the water level of the sewage disposal and dewatering area 11, and then the user operates through the water pumping assembly to pump clean water in the clean water area 13 into the sewage disposal and dewatering area 11, so that the sewage disposal and dewatering area 11 is separated from the clean water area 13, and sewage in the sewage disposal and dewatering area 11 cannot flow back into the clean water area 13; when sufficient clear water is injected into the dirt removing and dewatering area 11, the mop is cleaned again; after cleaning, the handle is lifted to rotate the barrel body 10, so that sewage can be poured out through the water outlet 32 and the overflow groove, then the water outlet 32 is arranged below the faucet, and the residual dirt in the sewage area 12 can be cleaned through flowing water after the plug is pulled out.

It should be understood that the above-described embodiments are merely preferred embodiments of the utility model and the technical principles applied thereto. It will be understood by those skilled in the art that various modifications, equivalents, changes, and the like can be made to the present invention. However, such variations are within the scope of the utility model as long as they do not depart from the spirit of the utility model. In addition, certain terms used in the specification and claims of the present application are not limiting, but are used merely for convenience of description.

Claims (14)

1. The utility model provides a mop bucket from area clearance for wash dull and stereotyped mop, a serial communication port, the mop bucket include the ladle body and can dismantle the assembly in the subassembly that cleans of ladle body, clean the subassembly including brush spare and have the collection frame of accomodating the chamber, brush spare demountable installation in collect the frame, collect the frame demountable assembly in the ladle body and with the peripheral surface parallel and level of ladle body, brush spare be used for with the rubbish that dull and stereotyped mop assembles cleans to collect the frame.

2. The mop bucket of claim 1, wherein the collection frame is connected to the bucket body by a plug connection, and the brush member is located in the receiving cavity.

3. The mop bucket of claim 1, wherein the collection frame includes a base, a first sidewall, a second sidewall, and a third sidewall intersecting the base, the first sidewall and the third sidewall being disposed opposite one another, the second sidewall connecting the first sidewall and the third sidewall, the base, the first sidewall, the second sidewall, and the third sidewall surrounding an area forming the receiving cavity, the base having a bevel disposed at one end, the first sidewall and the second sidewall being connected to the bucket body; alternatively, the base is connected to the bowl.

4. The mop bucket of claim 3, wherein the collection frame includes a securing portion projecting from the base, the brush element being snap-fit to the securing portion.

5. The mop bucket of claim 3, wherein the collection frame further comprises guides disposed on the first and third sidewalls, the guides being slidably coupled to the bucket body.

6. The mop bucket of claim 1, wherein the brush member includes a handle frame and a bristle body connected to the handle frame, the bristle body including a filamentary strand; alternatively, the bristle body comprises a cleaning strip of flexible material.

7. The mop bucket of claim 6, wherein the bristle body is slidably snap-fit to the handle frame.

8. The mop bucket of claim 1, wherein the bucket body includes a mounting cavity recessed from the peripheral wall, at least a portion of the collection shelf being located within the mounting cavity.

9. The mop bucket of claim 8, wherein the bucket body includes separate clear water, clear water and dirty water sections, the mounting cavity being located below the clear water section and a portion of the clear water section; the mop bucket further comprises a bucket cover, a water stroking device and a switch assembly, wherein the bucket cover is arranged on the bucket body, the water stroking device is connected with the bucket cover, the switch assembly is connected with the bucket body, the switch assembly is arranged on the bucket body and/or the bucket cover and controls the on-off of the clean water area and the sewage-cleaning dewatering area, and the water stroking device is correspondingly communicated with the sewage-cleaning dewatering area.

10. The mop bucket according to claim 9, wherein the water stroking device comprises a stroking frame connected to the bucket cover, a stroking plate fixedly connected to the stroking frame, and a guide wheel assembly slidably connected to the stroking frame and arranged opposite to the stroking plate, the stroking frame is provided with a guide port correspondingly communicated with the dirt removing and dewatering area, the stroking plate extends from the dirt removing and dewatering area to the sewage area, and one end of the stroking plate extends towards the guide port.

11. The mop bucket according to claim 10, wherein the water smoothing plate comprises a water smoothing edge, a flow guide surface and a plurality of comb teeth which are locally protruded from the surface of the flow guide surface and distributed at intervals, a smoothing opening is formed between the water smoothing edge and the side wall opposite to the guide opening, and the flow guide surface extends from the water smoothing edge to the direction deviating from the smoothing opening in an inclined manner.

12. The mop bucket of claim 9, wherein the switch assembly is configured as an electrically driven water pumping assembly for electrically pumping liquid within the clean water zone to the mop and dewater zone.

13. The mop bucket of claim 12, wherein the water pumping assembly comprises a pump body, a circuit board electrically connected to the pump body, a control element and an energy storage element electrically connected to the circuit board, and a water inlet pipe and a water outlet pipe connected to the pump body, the pump body is mounted on the bucket lid or the bucket body, the water inlet pipe is connected to the clean water area, the water outlet pipe is connected to the cleaning and dewatering area, and the control element is used for controlling the operation of the pump body.

14. The mop bucket of claim 9, wherein the bucket body includes a water passage hole communicating the clean water zone and the dirt and water removing zone, wherein the switch assembly rotates relative to the bucket body to open and close the water passage hole; or,

the switch assembly slides relative to the barrel body to open and close the limber hole.

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