CN214595776U - Cleaning tool - Google Patents

Abstract

The utility model discloses a cleaning tool, which comprises a mop barrel and a mop, wherein the mop comprises a mop head with wiping materials and a mop rod which is movably connected with the upper end of the mop head and can drive the mop head to rotate; a supporting component which can be detachably connected with the mop head is arranged in the mop bucket, and a water spray nozzle and a water pump component which are used for spraying water to the wiping objects are arranged in the mop bucket; the water pump assembly comprises a piston cylinder and a piston part connected with the piston cylinder in a sliding manner; the supporting component is movably arranged in the mop bucket along the vertical direction; when the mop head pushes the supporting part to move downwards, the piston part can be driven to move forwards; the mop bucket is also internally provided with a resetting piece which can drive the piston part and/or the supporting part to move reversely to reset; when the mop rod drives the mop head to rotate, the reset piece enables the piston part to be positioned at the initial position or close to the initial position. The utility model discloses the structure is retrencied, and the part is few, and the reliability is high, and the assembly is simple and convenient, uses convenient operation.

Description

Cleaning tool

Technical Field

The utility model belongs to the field of cleaning products, concretely relates to supporting mop bucket and mop structure of using.

Background

Chinese patent No. CN211534290U discloses a mop cleaning tool, which comprises a mop and a mop barrel, wherein the mop comprises a mop rod capable of being elongated and shortened and a mop head with a wiping material, the mop head comprises a connecting seat and a mop disc, the mop disc is fixedly arranged on the connecting seat, the connecting seat is rotatably connected to the mop rod, and in the process of shortening the mop rod, the outer rod can drive the inner rod to rotate; the utility model provides a mop cleaning tool, including the mop bucket, the bottom of mop bucket is provided with washs strutting arrangement, and interior bucket middle part is provided with wears the mouth, and the strutting arrangement upper end is passed wear the mouth and expose outside, the mop head can support and lean on strutting arrangement and prevent the mop head to compress tightly the wiper, is provided with drawing liquid mechanism and elevating system in the strutting arrangement, the utility model provides a simple structure and stable, the sanitization.

The scheme of the document is respectively used for cleaning and drying the mop head by arranging the lifting mechanism, but has the problems that the lifting mechanism is controlled by the mop rod which is simultaneously used for driving the mop head to rotate, so that the pulling-up amplitude of the mop rod needs to be kept track of when the mop rod is pulled up after being pressed down in the process of cleaning or drying the mop head, and the lifting mechanism is easy to act when the pulling-up amplitude is too large, so that the state of the lifting mechanism is accidentally switched, and the using effect is not ideal.

The chinese patent CN211299837U, which is to replace the lifting mechanism in the above mentioned document with a mop head, has not only the drawbacks of the above mentioned document, but also the problem that the lifting seat protrudes below the mop head to affect the normal mopping of the mop head.

Chinese patent No. CN207785091U discloses a mop bucket suitable for cleaning and drying a flat mop, which comprises a bucket body; the transmission shaft is buckled with the mop head, is arranged in the barrel body and can rotate around the axis of the transmission shaft, and the transmission shaft is driven to rotate by the rotation of the mop head; the method is characterized in that: the cleaning component is arranged in the barrel body and used for scraping and washing the wiping materials at the bottom of the mop head placed on the transmission shaft; the water pump is arranged in the barrel, the water outlet end of the water pump is connected with a water spray pipe, and a water spray hole of the water spray pipe is aligned with a wiping object placed at the bottom of the mop head on the transmission shaft; and the driving structure is used for driving the water pump to work or not. The mop bucket is a brand-new cleaning mode and is suitable for cleaning and drying a flat mop, the mop bucket can efficiently clean a mop head and save water, and meanwhile, the size of the mop bucket is miniaturized.

The scheme of the document mainly achieves the effect of saving water, and has the defects that the rotating position of the mop head is fixed, the water spraying time and the water spraying amount of the water pump are determined by the capacity of the water storage chamber, the user cannot determine the time for single water spraying cleaning of the mop head, when the mop is dirty and needs to spray water for cleaning twice or even for multiple times, the mop head and the barrel body need to be separated, and the next cleaning is carried out after the water storage chamber is filled with water, so that the using effect is not ideal.

SUMMERY OF THE UTILITY MODEL

The utility model discloses the technical problem that will solve is: aiming at the defects in the prior art, the cleaning tool is simple in structure, high in reliability and simple and convenient to use and operate.

In order to realize the purpose of the utility model, the following technical scheme is adopted to realize: a cleaning tool comprises a mop bucket and a mop, wherein the mop comprises a mop head with wiping materials and a mop rod which is movably connected to the upper end of the mop head and can drive the mop head to rotate;

a supporting part is arranged in the mop bucket and can be detachably connected with the mop head;

a water spray opening for spraying water to the wiping object and a water pump assembly for pumping the water in the mop bucket to the water spray opening are arranged in the mop bucket;

the water pump assembly comprises a piston cylinder and a piston part connected with the piston cylinder in a sliding manner; the supporting component is movably arranged in the mop bucket along the vertical direction;

the mop head pushes the supporting component to move downwards, so that the piston part can be driven to move forwards; a reset piece is further arranged in the mop bucket and can drive the piston part and/or the supporting part to move reversely to reset;

when the mop rod drives the mop head to rotate, the reset piece enables the piston part to be positioned at or near the initial position.

Preferably, the method comprises the following steps: the water pump assembly is provided with a water inlet and a water outlet, the water inlet is communicated with the mop bucket, and the water outlet is communicated with the water spray opening.

Preferably, the method comprises the following steps: the piston cylinder is vertically arranged, the water inlet is formed in the side wall of the piston cylinder, and when the piston portion is located at the initial position, the water inlet is close to the lower end of the piston portion.

The water inlet is arranged at the lower end of the initial position of the piston part, so that a one-way valve structure is not required to be arranged on the water inlet, when the initial position of the piston part is reached, water in the mop bucket can automatically flow into the piston barrel under the action of gravity, when the piston part moves downwards, the piston part firstly crosses the range of the water inlet, and only a small amount of water overflows from the water inlet in the process; after the piston part passes over the water inlet, the water in the piston cylinder mainly flows out of the water outlet.

It should be noted that, the piston portion and the piston cylinder may be in a sealing sliding connection, or may not be sealed, and only the water output of the water outlet is required to meet the requirement. In other words, the water outlet amount of the water outlet can be increased under the condition of the same moving stroke of the piston part only by properly increasing the radial sectional area of the piston part, and the water outlet amount can be enough even if a gap exists between the piston part and the piston cylinder.

Preferably, the method comprises the following steps: the water outlet is arranged on the piston part, the upper end of the piston part is connected with a water delivery pipe communicated with the water outlet, the water spray nozzle is arranged at the upper end or the side wall of the upper part of the water delivery pipe, and the supporting part is arranged at the upper end of the water delivery pipe.

The water conveying pipe is used for conveying water and connecting the supporting component, and the water conveying pipe and the piston part or/and the supporting component can be designed into an integral piece, so that the water conveying pipe is convenient to manufacture.

Preferably, the method comprises the following steps: the piece that resets is elastic component, or sets up in pairs and the magnetic field sets up the permanent magnet in opposite directions.

The reset piece is used for keeping the piston part at the initial position, and when the mop rod drives the mop head to rotate, the reset piece enables the piston part not to move or not to obviously move, namely, the water spraying opening does not spray water or only a small amount of water overflows from the water spraying opening.

Preferably, the method comprises the following steps: the bottom in the mop bucket is provided with a lower concave part, the lower part of the piston cylinder is positioned in the range of the lower concave part, and the water inlet is positioned at the bottom in the mop bucket.

The concave part enables water in the mop bucket to flow into the piston cylinder when the water is nearly used up, so that the water in the mop bucket is ensured to be used up, and the water is saved.

Preferably, the method comprises the following steps: a clear water area and a sewage area are arranged in the mop bucket;

a partition board is arranged in the mop bucket, and the clean water area and the sewage area are formed in the mop bucket and positioned on two sides of the partition board;

or the mop bucket comprises an outer bucket and an inner bucket which is detachably arranged at the upper part in the outer bucket, wherein one of the outer bucket and the inner bucket is a clean water area, and the other one is a sewage area.

The water pump assembly pumps water from the clean water area to clean the wiper, and sewage flowing out of the wiper flows into the sewage area, so that the wiper is cleaned by clean water, and the wiper can be cleaned completely.

Preferably, the method comprises the following steps: the mop bucket is characterized in that the partition plates are in a closed shape connected end to end, the inner peripheries of the partition plates are provided with clean water areas, the outer peripheries of the partition plates in the mop bucket are provided with sewage areas, a cover plate is arranged above the clean water areas, and brushes are arranged on the cover plate.

The partition plate can be designed into a structure which is integrally formed with the mop bucket, and parts are reduced.

Preferably, the method comprises the following steps: the outer barrel is a clear water area, the inner barrel is a sewage area, and a brush is arranged in the inner barrel; the middle of the inner barrel is provided with a through hole which is communicated up and down, and the supporting component can penetrate through the through hole from bottom to top.

The sewage area is positioned in the inner barrel at the upper part, so that only the inner barrel needs to be taken out to pour the sewage after the mopping is finished, and the clean water in the outer barrel can be reserved for the next use.

Preferably, the method comprises the following steps: the outer barrel is a sewage area, the inner barrel is a clear water area, a water falling port is reserved between the inner barrel and the outer barrel, a cover plate is arranged above the clear water area, and a brush is arranged on the cover plate.

Compared with the prior art, the beneficial effects of the utility model are that: when the mop of the utility model is cleaned, the mop head is driven by the mop rod to move downwards to drive the piston part to move positively, so that the water in the piston cylinder can be extruded out, and the water is sprayed on the wiping material through the water spray opening; the mop head can be cleaned and dried only by driving the mop head to rotate through the mop rod, and the mop head is simple in structure, few in parts, high in reliability, simple and convenient to assemble and convenient to use and operate.

Drawings

FIG. 1 is a schematic structural view of example 1.

FIG. 2 is a schematic sectional view showing the structure of embodiment 1.

Fig. 3 is an enlarged view of the structure of part a of fig. 2.

Fig. 4 is an enlarged view of the structure of the portion B of fig. 2.

Fig. 5 is a schematic view of the mop head of example 1 moving downward to drive the water pump assembly.

Fig. 6 is a schematic view of the structure of the portion C of fig. 5.

Fig. 7 is an exploded view schematically showing embodiment 1.

FIG. 8 is a schematic view showing the structure of a mop bucket part according to example 2.

FIG. 9 is a schematic cross-sectional view of a mop bucket portion of example 2.

Fig. 10 is an exploded view of the mop bucket of example 2.

FIG. 11 is a schematic cross-sectional view of a mop bucket portion of example 3.

FIG. 12 is an exploded view of the mop bucket of example 3.

FIG. 13 is a schematic cross-sectional view of a mop bucket portion of example 4.

FIG. 14 is an exploded view of the mop bucket of example 4.

1. A mop bucket; 1a, a clear water area; 1b, a sewage area; 11. a lower recess; 12. a partition plate; 13. positioning a rod; 15. an annular cover body; 16. a handle; 1p, an outer barrel; 1q, an inner barrel; 1q0 and a water falling port; 2. a support member; 21. a water-through driving member; 22. a water connection joint; 3. a cover plate; 31. a cover plate supporting seat; 4. a brush; 5. a mop head; 50. a wipe; 6. a mop rod; 7. a water pump assembly; 71. a piston cylinder; 711. a water inlet; 72. a piston portion; 721. a piston ring; 73. a water delivery pipe; 74. a water jet; 74a, a spray pipe; 74b, a connecting sleeve; 75. a limiting ring; 70. a spring.

Detailed Description

Example 1

Referring to fig. 1 to 7, the present embodiment is a cleaning tool, which comprises a mop bucket 1 and a mop, wherein the mop comprises a mop head 5 with a lower end detachably connected with a wiping material 50, and a mop rod 6 movably connected with the upper end of the mop head and capable of driving the mop head to rotate.

The lower end of the mop rod is rotatably connected with the mop head, or the lower end of the mop rod is connected with the mop head through a universal joint.

The mop rod is a hand-press type rotary mop rod in the prior art, and the mop head can be driven to rotate when the upper part of the hand-press type rotary mop rod is pushed downwards. Or a motor is arranged in the mop rod, and the mop head is directly or indirectly connected with an output shaft of the motor so as to drive the mop head to rotate.

A supporting part 2 is arranged in the mop bucket and can be detachably connected with the mop head. Specifically, the middle position of the mop head can be provided with an elastic buckle to realize detachable temporary fixed connection with the supporting component. In other embodiments, the mop head and the support member may be provided with two magnets, or a magnet and a magnet guide block, respectively, which are capable of being attracted and fixed by magnetic force.

A water spray opening 74 for spraying water to the wiping objects and a water pump assembly 7 for pumping the water in the mop bucket to the water spray opening are arranged in the mop bucket; the water pump assembly comprises a piston cylinder 71 arranged in the middle of the mop bucket and a piston part 72 connected with the piston cylinder in a sliding way.

The water pump assembly is provided with a water inlet 711 and a water outlet, the water inlet is communicated with the mop bucket, and the water outlet is communicated with the water spray opening. In this embodiment, the water outlet is disposed on the piston portion, the upper end of the piston portion is connected to a water pipe 73 communicated with the water outlet, the water spray nozzle is disposed at the upper end or the upper side wall of the water pipe, and the support member is fixedly connected to the upper end of the water pipe. The supporting component, the water delivery pipe and the piston part are movably arranged in the mop bucket along the vertical direction.

The water conveying pipe is used for conveying water and connecting the supporting component, and the water conveying pipe and the piston part or/and the supporting component can be designed into an integral piece, so that the water conveying pipe is convenient to manufacture. Specifically, the water pipe may be integrally formed with the piston portion or the supporting member, so that the water pipe may be regarded as a part of the piston portion or the supporting member, and when the water pipe is integrally formed with the supporting member or the piston portion, or the water pipe is integrally formed with the supporting member and the piston portion, the water pipe may be directly connected to the piston portion, and when the water pipe is indirectly connected to the supporting member and the piston portion after being respectively formed, the water pipe may be indirectly connected to the piston portion.

Furthermore, the bottom in the mop bucket is connected with a vertically arranged positioning rod, and the supporting component or/and the water delivery pipe are sleeved on the positioning rod and can slide up and down along the positioning rod.

The mop head pushes the supporting component to move downwards, so that the piston part can be driven to move downwards; still be equipped with the piece that resets in the mop bucket, the piece that resets in this embodiment is the spring, the spring can drive piston portion and supporting component upwards remove and reset.

In other embodiments, the reset element may also be a gas spring, or a pair of permanent magnets with opposite magnetic fields.

The reset piece is used for keeping the piston part at the initial position, and when the mop rod drives the mop head to rotate, the reset piece enables the piston part not to move or not to obviously move, namely, the water spraying opening does not spray water or only a small amount of water overflows from the water spraying opening.

As shown in fig. 2, when the mop rod drives the mop head to rotate, the reset piece enables the piston part to be positioned at or near the initial position. Specifically, the elastic force of the spring needs to be large enough to ensure that the deformation of the spring is not too large when the mop rod drives the mop head to rotate, so as to ensure that the piston part does not obviously move downwards. When the hand-press type rotary mop rod is used, the hand-press type rotary mop rod can generate downward thrust to the mop head, so that a spring with a larger wire diameter is selected, according to actual measurement, the spring can be a stainless steel spring with the wire diameter of 1.5-2.5mm, and when the mop rod is provided with a motor to drive the mop head to rotate, the motor does not generate downward thrust to the mop head, and according to actual measurement, the spring can be a stainless steel spring with the wire diameter of 1.0-1.5 mm.

When the mop of the utility model is cleaned, the mop head is driven by the mop rod to move downwards to drive the piston part to move positively, so that the water in the piston cylinder can be extruded out, and the water is sprayed on the wiping material through the water spray opening; the mop head can be cleaned and dried only by driving the mop head to rotate through the mop rod, and the mop head is simple in structure, few in parts, high in reliability, simple and convenient to assemble and convenient to use and operate.

Further, as shown in fig. 3, the piston cylinder is vertically disposed, the water inlet 711 is disposed on a side wall of the piston cylinder, and when the piston portion is located at the initial position, the water inlet is adjacent to a lower end of the piston portion. The water inlet is arranged at the lower end of the initial position of the piston part, so that a one-way valve structure is not required to be arranged on the water inlet, when the initial position of the piston part is reached, water in the mop bucket can automatically flow into the piston barrel under the action of gravity, when the piston part moves downwards, the piston part firstly crosses the range of the water inlet, and only a small amount of water overflows from the water inlet in the process; after the piston part passes over the water inlet, the water in the piston cylinder mainly flows out of the water outlet.

It should be noted that, the piston portion and the piston cylinder may be in a sealing sliding connection, or may not be sealed, and only the water output of the water outlet is required to meet the requirement. In other words, the water outlet amount of the water outlet can be increased under the condition of the same moving stroke of the piston part only by properly increasing the radial sectional area of the piston part, and the water outlet amount can be enough even if a gap exists between the piston part and the piston cylinder.

Furthermore, a lower concave part 11 is arranged at the bottom in the mop bucket, the lower part of the piston cylinder is positioned in the range of the lower concave part, and the water inlet is positioned at the bottom in the mop bucket. The concave part enables water in the mop bucket to flow into the piston cylinder when the water is nearly used up, so that the water in the mop bucket is ensured to be used up, and the water is saved.

A clear water area 1a and a sewage area 1b are arranged in the mop bucket; as shown in fig. 7, a partition plate 12 is arranged in the mop bucket of the embodiment, and the clean water area and the sewage area are formed in the mop bucket and positioned on two sides of the partition plate.

Furthermore, the partition board is in a closed shape connected end to end, generally in a circular shape, a square shape or a polygonal shape, the inner periphery of the partition board is a clean water area, the outer periphery of the partition board in the mop bucket is a sewage area, a cover plate 3 is arranged above the clean water area, and a brush 4 is arranged on the cover plate. The partition plate can be designed into a structure which is integrally formed with the mop bucket, and parts are reduced.

The lower recess 11 is located in the clean water zone. The water pump assembly pumps water from the clean water area to clean the wiper, and sewage flowing out of the wiper flows into the sewage area, so that the wiper is cleaned by clean water, and the wiper can be cleaned completely.

When the mop is cleaned, the mop head is connected to the supporting part, the mop rod pushes the mop head to enable the mop head to move downwards to drive the piston part to move downwards, and water below the piston part in the piston cylinder flows upwards to the water spray nozzle along the water conveying pipe through the water outlet and is sprayed out from the water spray nozzle to be sprayed on the wiping materials and/or the cover plate. Then the mop rod is pushed downwards by loosening, the piston part is reset upwards to the initial position under the action of the elastic force of the spring, and water in the clear water area flows into the piston cylinder from the water inlet. The mop rod drives the mop head to rotate, the wiping matter is contacted with the brush and generates relative movement when the mop head rotates, the brush simultaneously brushes the dirt on the wiping matter and the water adsorbed by the wiping matter out and throws the dirt and the water out to the periphery of the mop head under the action of centrifugal force, and after the water on the wiping matter is dried, the cleaning and drying process of the mop is completed, and the mop can be used for mopping.

Example 2

This example differs from example 1 in that: as shown in fig. 8, 9 and 10, the support member and the piston portion are indirectly connected to each other. Specifically, the water pump assembly staggers with the supporting component and sets up, and the water pump assembly can set up one or more, the supporting component is connected with the water driving piece 21 that leads to of quantity such as water pump assembly, leads to being equipped with on the water driving piece to lead to the water and connects 22 and the raceway of piston portion upper end and link to each other, be equipped with the water jet on the apron, the apron links to each other with the water driving piece back with leading to the water, and the water jet communicates with water driving piece, the water joint in proper order with leading to the water, and the water of water pump assembly pump sending is by locating the water jet blowout on the apron promptly.

In this embodiment, compared with embodiment 1, only the positions of the water pump module and the water discharge port, and the water passage between the water pump module and the water discharge port are adjusted, and the use method is the same as that of embodiment 1.

Through radially setting up a plurality of water jets on the apron, compare in embodiment 1 can be more evenly to the water spray on the wiper, do benefit to the even moist of wiper, be convenient for the brush to brush the filth on the wiper down.

Example 3

The present embodiment differs from the previous embodiments in that: referring to fig. 11 and 12, the mop bucket includes an outer bucket 1p and an inner bucket 1q detachably mounted on the upper part of the outer bucket, the outer bucket is a clean water area, the inner bucket is a sewage area, and a brush 4 is mounted in the inner bucket; the middle of the inner barrel is provided with a through hole which is communicated up and down, and the supporting component can penetrate through the through hole from bottom to top. The sewage area is positioned in the inner barrel at the upper part, so that only the inner barrel needs to be taken out to pour the sewage after the mopping is finished, and the clean water in the outer barrel can be reserved for the next use.

Specifically, because interior bucket is the sewage district, during the mop washs the sewage that produces directly flows into interior bucket, so need not set up the apron and be used for sheltering from clear water district, in essence, interior bucket plays the function of apron promptly.

The water pipe or the supporting component is connected with a connecting sleeve 74b, the outer side of the connecting sleeve is connected with a water spraying pipe 74a, and the water spraying opening is formed in the water spraying pipe. The brush is connected to the side surface of the connecting sleeve. In addition, after the connecting sleeve is arranged on the water pipe or the supporting component, the side wall of the connecting sleeve and the water spraying pipe are communicated with the water pipe, and the connecting sleeve and the water pipe or the supporting component are positioned in the circumferential direction, namely the connecting sleeve is connected with the water pipe and cannot rotate relative to the water pipe or the supporting component, so that the brush can move relative to the wiping object when the mop rotates. The outer wall of the water pipe shown in fig. 12 is also provided with a positioning part for positioning the connecting sleeve.

The advantage of this embodiment is that no cover plate is required.

Example 4

The present embodiment differs from the previous embodiments in that: referring to fig. 13 and 14, the mop bucket includes an outer bucket 1p and an inner bucket 1q detachably mounted on the upper part of the outer bucket, the outer bucket is a sewage area, the inner bucket is a clean water area, water falls between the inner bucket and the outer bucket, 1q0, a cover plate 3 is arranged above the clean water area, and a brush 4 is arranged on the cover plate.

The advantage of this embodiment is that there are no other parts in the outer tub as a sewage area, facilitating the dumping of sewage and cleaning of the outer tub.

Claims (10)

1. A cleaning tool comprises a mop bucket and a mop, wherein the mop comprises a mop head with wiping materials and a mop rod which is movably connected to the upper end of the mop head and can drive the mop head to rotate; a supporting part is arranged in the mop bucket and can be detachably connected with the mop head; a water spray opening for spraying water to the wiping object and a water pump assembly for pumping the water in the mop bucket to the water spray opening are arranged in the mop bucket; the method is characterized in that: the water pump assembly comprises a piston cylinder and a piston part connected with the piston cylinder in a sliding manner; the supporting component is movably arranged in the mop bucket along the vertical direction; the mop head pushes the supporting component to move downwards, so that the piston part can be driven to move forwards; a reset piece is further arranged in the mop bucket and can drive the piston part and/or the supporting part to move reversely to reset; when the mop rod drives the mop head to rotate, the reset piece enables the piston part to be positioned at or near the initial position.

2. A cleaning implement according to claim 1 wherein: the water pump assembly is provided with a water inlet and a water outlet, the water inlet is communicated with the mop bucket, and the water outlet is communicated with the water spray opening.

3. A cleaning implement according to claim 2 wherein: the piston cylinder is vertically arranged, the water inlet is formed in the side wall of the piston cylinder, and when the piston portion is located at the initial position, the water inlet is close to the lower end of the piston portion.

4. A cleaning implement according to claim 2 or 3 wherein: the water outlet is arranged on the piston part, the upper end of the piston part is connected with a water delivery pipe communicated with the water outlet, the water spray nozzle is arranged at the upper end or the side wall of the upper part of the water delivery pipe, and the supporting part is arranged at the upper end of the water delivery pipe.

5. A cleaning implement according to claim 1 wherein: the piece that resets is elastic component, or sets up in pairs and the magnetic field sets up the permanent magnet in opposite directions.

6. A cleaning implement according to claim 3 wherein: the bottom in the mop bucket is provided with a lower concave part, the lower part of the piston cylinder is positioned in the range of the lower concave part, and the water inlet is positioned at the bottom in the mop bucket.

7. A cleaning implement according to claim 1 wherein: a clear water area and a sewage area are arranged in the mop bucket; a partition board is arranged in the mop bucket, and the clean water area and the sewage area are formed in the mop bucket and positioned on two sides of the partition board; or the mop bucket comprises an outer bucket and an inner bucket which is detachably arranged at the upper part in the outer bucket, wherein one of the outer bucket and the inner bucket is a clean water area, and the other one is a sewage area.

8. A cleaning implement according to claim 7 wherein: the mop bucket is characterized in that the partition plates are in a closed shape connected end to end, the inner peripheries of the partition plates are provided with clean water areas, the outer peripheries of the partition plates in the mop bucket are provided with sewage areas, a cover plate is arranged above the clean water areas, and brushes are arranged on the cover plate.

9. A cleaning implement according to claim 7 wherein: the outer barrel is a clear water area, the inner barrel is a sewage area, and a brush is arranged in the inner barrel; the middle of the inner barrel is provided with a through hole which is communicated up and down, and the supporting component can penetrate through the through hole from bottom to top.

10. A cleaning implement according to claim 7 wherein: the outer barrel is a sewage area, the inner barrel is a clear water area, a water falling port is reserved between the inner barrel and the outer barrel, a cover plate is arranged above the clear water area, and a brush is arranged on the cover plate.

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