CN214549301U - Flat mop cleaning tool kit - Google Patents

Abstract

The utility model discloses a flat mop cleaning tool kit, which comprises a mop and a mop barrel; the mop bucket comprises a bucket body and an inner bucket arranged in the bucket body; the barrel body is internally provided with a clear water containing cavity and a sewage containing cavity and also comprises a piston component, the piston component is connected with the inner barrel, or the inner barrel is simultaneously used as the piston component, the piston component is connected with a pipeline, and water flowing out of the upper end of the pipeline can be injected into the inner barrel from an opening at the upper end of the inner barrel; in the process that the inner barrel moves downwards relative to the clean water containing cavity, the piston component drives water in the clean water containing cavity to flow upwards along the pipeline and finally flow into the inner barrel; a squeezer for cleaning and/or squeezing out the wiping materials is arranged on the barrel body above the opening at the upper end of the inner barrel; when the mop plate moves upwards and/or downwards relative to the squeezer, water adsorbed on the wiping materials can be squeezed out by the squeezer and is discharged into the sewage containing cavity. The utility model discloses can use the clear water to wash the mop, and the structure is retrencied, convenient operation.

Description

Flat mop cleaning tool kit

Technical Field

The utility model belongs to the burnisher field, concretely relates to dull and stereotyped mop and supporting mop bucket that uses.

Background

Chinese patent No. CN201721692243.1 discloses a burnisher, including dull and stereotyped mop and mop bucket, dull and stereotyped mop includes that mop pole and activity set up dull and stereotyped mop head on the mop pole, be provided with the inner tube in the mop bucket, inner tube and mop bucket mutual independence, the port is provided with the extrusion device with dull and stereotyped mop head looks adaptation on the inner tube, is provided with water squeezing device between inner tube and the mop bucket, and water squeezing device is in the liquid injection inner tube in with the mop bucket, the utility model provides a simple structure and stable, simple operation's burnisher.

The advantage of above-mentioned patent scheme is that the mop accomplishes washing and wringing in the inner tube, and whole process mop need not change the position. And the mop driving piston can move downwards to enable the water squeezing device to pump water from the mop bucket to the inner barrel for cleaning the mop.

But the problem that above-mentioned scheme exists is, because the mop when wasing in the inner tube, the dirt that carries on the mop can partially fall into the inner tube, can influence the normal removal of piston, and just can ensure the normal work of water wringing device because water wringing device still need set up two check valves, and check valve and mop bucket intercommunication, the dirt in the mop bucket also can influence the normal work of check valve, also obviously has the inconvenient problem of clearance, and the result of use is unsatisfactory.

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 flat mop cleaning tool kit is simple in structure, free of unsmooth movement due to the fact that movable parts are not affected by dirt stained on a mop, and capable of ensuring that the mop can be cleaned by clean water every time.

In order to realize the purpose of the utility model, the following technical scheme is adopted to realize: a flat mop cleaning tool kit comprises a mop and a mop bucket;

the mop comprises a mop plate with a wiping object and a mop rod movably connected with the mop plate;

the mop bucket comprises a bucket body and an inner bucket arranged in the bucket body;

the barrel body is internally provided withClean water containing cavityAndsewage holding cavitySaidInner barrel movable installationIn the clear water containing cavity, the inner barrel can move up and down relative to the barrel body;

the barrel body is provided withLimiting structureThe limiting structure limits the upper limit position of the inner barrel moving upwards relative to the barrel body; the inner barrel depends on elastic parts or is filled with water in the clean water cavityBuoyancy positioningAt said upper limit position;

the inner barrel is also provided with a lower limit position relative to the barrel body, and when the mop plate is inserted into the inner barrel, the inner barrel can move to the lower limit position under the driving of the downward thrust of the mop;

the piston component is connected with the inner barrel, or the inner barrel is used as the piston component at the same time, the piston component is connected with a pipeline, and water flowing out of the upper end of the pipeline can be injected into the inner barrel from an opening at the upper end of the inner barrel;

in the process that the inner barrel moves downwards relative to the clean water containing cavity, the piston component drives water in the clean water containing cavity to flow upwards along the pipeline and finally flow into the inner barrel;

a squeezer for cleaning and/or squeezing out the wiping materials is arranged on the barrel body above the opening at the upper end of the inner barrel;

when the mop plate moves upwards and/or downwards relative to the squeezer, water adsorbed on the wiping materials can be squeezed out by the squeezer and is discharged into the sewage containing cavity.

Preferably, the method comprises the following steps: the upper end of the pipeline is communicated with the upper end of the inner barrel, or the upper end of the pipeline is fixed relative to the barrel body and is positioned above the opening at the upper end of the inner barrel.

Preferably, the method comprises the following steps: the barrel body is detachably connected with a cover body, and the cover body is of the limiting structure.

After the cover body is separated from the barrel body, the inner barrel can be taken out of the barrel body, and the inner barrel is convenient to clean.

Preferably, the method comprises the following steps: when the mop plate drives the inner barrel to move downwards to the lower limit position, the upper end of the mop plate is positioned below the squeezer.

Therefore, the upper end of the wiper can be washed and cleaned by water flow filled into the inner barrel, and the water flow cannot be blocked by the squeezer so that the flow speed is reduced.

Preferably, the method comprises the following steps: the barrel body is connected with a cover body, the cover body is provided with an extrusion opening, and the extruder is arranged on at least one side of the extrusion opening on the cover body;

the lower end of the squeezing opening or the squeezer is provided with a guide part, and the upper end of the mop plate can enter the squeezing opening from bottom to top along the guide part.

When the mop plate drives the inner barrel to move downwards to the lower limit position, the upper end of the mop plate can be separated from the extrusion opening downwards, and the guide part enables the mop plate to smoothly return to the extrusion opening when moving upwards.

Preferably, the method comprises the following steps: the lower end of the cover body is provided with a guide wall extending downwards;

the guide wall is inserted into an upper end opening of the inner barrel, and when the mop plate pushes the inner barrel to a lower limit position, the upper end of the mop plate is higher than the lower end of the guide part;

and/or the first and/or second light sources,

the extruder is provided with a guide plate which extends towards the oblique upper part of the extrusion opening;

the guide wall and/or the guide plate is the guide.

Preferably, the method comprises the following steps: the inner barrel is connected with a floater, and the floater can enable the inner barrel to be positioned at the upper limit position under the buoyancy action of water in the clean water containing cavity.

Preferably, the method comprises the following steps: the float is of a groove structure with a downward opening, and the float and the inner barrel are integrally formed by injection molding.

The float and the inner barrel can be manufactured into an integral part, so that the forming is convenient and the assembly procedures are reduced.

Preferably, the method comprises the following steps: the float is used as the piston component at the same time, and when the inner barrel moves downwards relative to the clear water containing cavity, the float can push clear water positioned below the float in the clear water containing cavity to flow to the upper end of the pipeline.

And a space for water circulation is reserved between the inner barrel and/or the floater and the inner wall of the clean water containing cavity, and in the process that the floater moves from the lower limit position to the upper limit position under the action of buoyancy, the clean water above the floater can flow to the lower part of the floater through the space.

In practical tests, the horizontal sectional area of the floater and the inner barrel is 10-100 times of the horizontal sectional area of the pipeline, the distance between the floater and the inner wall of the clear water containing cavity is 1-3mm, water feeding of the pipeline can be well realized, the larger the value of the multiple is, the more the water yield at the upper end of the pipeline is, the larger the distance is, the faster the inner barrel is reset upwards, but the water yield at the upper end of the pipeline is reduced, and the adjustment can be carried out according to practical requirements.

It can be seen that the utility model discloses a function of similar piston pump has been realized to interior bucket, but does not nevertheless need to set up parts such as piston, piston rod, check valve alone, and the structure is retrencied and the effect is superior to conventional water pump structure on the contrary.

Preferably, the method comprises the following steps: the inner wall of the clear water containing cavity is provided with a guide rail which is longitudinally arranged, and the side wall of the inner barrel is provided with a slide block which is connected with the guide rail in a sliding way;

the positions of the guide rail and the slide block can be reversed.

Preferably, the method comprises the following steps: a partition plate is arranged in the barrel body, a clean water containing cavity is formed in one side of the partition plate in the barrel body, and a sewage containing cavity is formed in the other side of the partition plate in the barrel body.

Preferably, the method comprises the following steps: when the upper end of the pipeline is fixed relative to the barrel body, the pipeline is a hose, or the pipeline comprises two pipe sections in sliding connection.

Preferably, the method comprises the following steps: the barrel body is detachably connected with a cover body, the lower end of the cover body is connected with a water tank, and a water outlet facing the inner barrel is formed in the water tank; the pipeline comprises a first pipe section and a second pipe section, wherein the first pipe section is fixedly connected with the piston part relatively, the second pipe section is fixedly connected with the water tank relatively, and the second pipe section is in sliding insertion connection with the first pipe section.

Compared with the prior art, the beneficial effects of the utility model are that: the inner barrel not only serves as an accommodating space for extrusion cleaning and extrusion dewatering of the wiper, but also enables water in the clean water accommodating cavity to flow into the inner barrel through the pipeline for cleaning of the wiper when the inner barrel moves downwards relative to the barrel body.

In addition, because the water in the clean water area is filled into the inner barrel from the upper end opening of the inner barrel, a water inlet or a valve is not required to be arranged on the inner barrel. And the water flow entering the inner barrel from the upper end opening of the inner barrel can wash the wiping objects (particularly the upper end position of the wiping object which is difficult to clean), thereby avoiding the wiping objects from having sanitary dead angles.

Because the inner barrel can move up and down relative to the barrel body, when the mop is pushed and pulled up and down to squeeze and clean or squeeze, a buffer cushion which can float up and down relative to the barrel body is formed at the bottom of the inner barrel, and the mop plate cannot be damaged due to large force when the mop is pushed down.

Drawings

Fig. 1 is a schematic structural diagram of the present invention.

Fig. 2 is a schematic structural view of the inner tub at an upper limit position.

FIG. 3 is a schematic view of the inner barrel at the lower limit position

Fig. 4 is an exploded schematic view of the present invention.

Fig. 5 is a schematic structural view of the lid and the sink.

1. A barrel body; 11. a handle; 12. a guide rail; 10. a partition plate; 1a, a clear water containing cavity; 1b, a sewage containing cavity; 13. a step portion;

2. a cover body; 20. an extrusion port; 21. a guide wall; 22. a roller;

3. an inner barrel; 31. a slider; 32. the upper end is open; 33. a spring; 34. a piston member; 35. a pipeline;

5. an extruder; 51. a guide plate;

7. a water tank; 71. a water outlet;

8. a mop plate; 81. a wipe; 9. a mop rod.

Detailed Description

Example 1

Referring to fig. 1-5, this embodiment is a flat mop cleaning kit comprising a mop and a mop bucket; the mop comprises a mop plate with a wiping object and a mop rod movably connected with the mop plate.

The wiping matter is mop cloth or collodion of a common flat mop on the market. The mop plate is characterized in that a rotating joint is rotatably connected to the middle of the mop plate, the lower end of the mop rod is rotatably connected with the rotating joint, and the mop rod is perpendicular to a rotating shaft a of the rotating joint and a rotating shaft b of the mop plate. When the mop is to be cleaned or squeezed, the mop plate is rotated to a position substantially parallel to the mop pole as shown in fig. 1. The upper end of the mop plate and the upper end of the wiping object are generally vertically placed, and the mop plate rotates to the end which faces upwards when being parallel to the mop rod.

The mop bucket comprises a bucket body 1 and an inner bucket 3 arranged in the bucket body;

the inner barrel is movably arranged in the clean water containing cavity, so that the inner barrel can move up and down relative to the barrel body.

The inner wall of the clear water containing cavity is provided with a guide rail 12 which is longitudinally arranged, and the side wall of the inner barrel is provided with a slide block 31 which is connected with the guide rail in a sliding way. The positions of the guide rail and the slide block can be reversed.

A partition plate 10 is arranged in the barrel body, a clean water accommodating cavity 1a is formed in one side of the partition plate in the barrel body, and a sewage accommodating cavity 1b is formed in the other side of the partition plate in the barrel body.

The barrel body is provided with a limiting structure which limits the upper limit position of the inner barrel moving upwards relative to the barrel body; the inner barrel is positioned in the upper limit position by means of an elastic member such as a spring 33.

The barrel body is detachably connected with a cover body 2, and the cover body is of the limiting structure. After the cover body is separated from the barrel body, the inner barrel can be taken out of the barrel body, and the inner barrel is convenient to clean. The utility model discloses a staving, including staving, handle, plug shaft, lid lateral wall and lid lateral wall, can dismantle on the staving and be connected with handle 11, the handle is whole to be the U type, and the both ends inboard of handle is connected with the plug shaft respectively an organic whole, and the plug shaft passes staving lateral wall and lid lateral wall simultaneously for lid, handle all keep relatively fixed with the staving.

In other embodiments, the inner barrel is positioned at the upper limit position by virtue of buoyancy of water contained in the clear water cavity. Specifically, the inner barrel is connected with a floater, and the floater can enable the inner barrel to be positioned at the upper limit position under the buoyancy action of water in the clean water containing cavity. The float is of a groove structure with a downward opening, and the float and the inner barrel are integrally formed by injection molding. The float and the inner barrel can be manufactured into an integral part, so that the forming is convenient and the assembly procedures are reduced.

In other embodiments, the float may also be a sealed cavity structure with a closed housing, or may be a block of foamed material having a density less than water, or the like.

The inner barrel is also provided with a lower limit position relative to the barrel body, and when the mop plate is inserted into the inner barrel, the inner barrel can move to the lower limit position under the driving of the downward thrust of the mop;

and a piston component is also included, the piston component is connected with the inner barrel, or the inner barrel is used as the piston component at the same time, 34, and the floater is used as the piston component at the same time. The piston member is connected with a pipe 35, and water flowing out of the upper end of the pipe can be injected into the inner barrel from the upper end opening of the inner barrel. In the process that the inner barrel moves downwards relative to the clean water containing cavity, the piston component drives water in the clean water containing cavity to flow upwards along the pipeline and finally flow into the inner barrel. In the process that the inner barrel is reset from bottom to top relative to the clear water containing cavity, water above the piston component in the clear water containing cavity flows to the lower part of the piston component through a gap between the piston component and the clear water containing cavity.

And a space for water circulation is reserved between the inner barrel and/or the floater and the inner wall of the clean water containing cavity, and in the process that the floater moves from the lower limit position to the upper limit position under the action of buoyancy, the clean water above the floater can flow to the lower part of the floater through the space.

In practical tests, the horizontal sectional area of the floater and the inner barrel is 10-100 times of the horizontal sectional area of the pipeline, the distance between the floater and the inner wall of the clear water containing cavity is 1-3mm, water feeding of the pipeline can be well realized, the larger the value of the multiple is, the more the water yield at the upper end of the pipeline is, the larger the distance is, the faster the inner barrel is reset upwards, but the water yield at the upper end of the pipeline is reduced, and the adjustment can be carried out according to practical requirements.

It can be seen that the utility model discloses a function of similar piston pump has been realized to interior bucket, but does not nevertheless need to set up parts such as piston, piston rod, check valve alone, and the structure is retrencied and the effect is superior to conventional water pump structure on the contrary.

A squeezer 5 for cleaning and/or squeezing out the wipes is provided on the tub above the upper end opening 32 of the inner tub. Specifically, the squeezer is directly or indirectly connected to the cover body, the cover body is provided with a squeezing opening 20, one side of the cover body, which is positioned at the squeezing opening 20, is provided with the squeezer, and the other side of the cover body, which is positioned at the squeezing opening, is rotatably provided with a roller 22 which is in rolling fit with the back surface of the mop plate so as to reduce resistance. The squeezer is a fixed or movably mounted squeezing sheet, or a fixedly mounted squeezing rod, or a rotatably mounted squeezing roller, or a combination of more than two squeezer structures.

When the mop plate moves upwards and/or downwards relative to the squeezer, water adsorbed on the wiping materials can be squeezed out by the squeezer and is discharged into the sewage containing cavity.

In other embodiments, when the two sides of the mop plate are connected with the wiping materials, the two sides of the squeezing opening can be respectively provided with a squeezer for squeezing, cleaning and/or squeezing and dewatering the wiping materials on the two sides of the mop plate.

When the mop plate drives the inner barrel to move downwards to the lower limit position, the upper end of the mop plate is positioned below the squeezer. Therefore, the upper end of the wiper can be washed and cleaned by water flow filled into the inner barrel, and the water flow cannot be blocked by the squeezer so that the flow speed is reduced.

The lower end of the squeezing opening or the squeezer is provided with a guide part, and the upper end of the mop plate can enter the squeezing opening from bottom to top along the guide part. When the mop plate drives the inner barrel to move downwards to the lower limit position, the upper end of the mop plate can be separated from the extrusion opening downwards, and the guide part enables the mop plate to smoothly return to the extrusion opening when moving upwards.

Specifically, the lower end of the cover body is provided with a guide wall 21 extending downwards; the guiding wall is inserted into the upper end opening of the inner barrel, and when the mop plate pushes the inner barrel to the lower limit position, the upper end of the mop plate is higher than the lower end of the guiding part.

The extruder has a guide plate 51 extending obliquely upward toward the extrusion opening; the guide wall and/or the guide plate is the guide.

Further, the lower end of the cover body 2 is connected with a water tank 7, a water outlet 71 facing the inner barrel is arranged on the water tank, and when the mop plate is inserted into the inner barrel, the water outlet just faces the wiping objects; the pipe comprises a first pipe section 351 fixedly connected with the piston part relatively and a second pipe section 352 fixedly connected with the water tank relatively, and the second pipe section is inserted with the first pipe section in a sliding mode. Therefore, when the inner barrel moves downwards, the first pipe section and the second pipe section can be kept in a communicated state, and clean water is conveyed into the water tank and injected into the inner barrel from the water outlet or sprayed onto the wiping materials.

The pipe section is formed by the sliding insertion of the first pipe section and the second pipe section, so that the cover body can be conveniently detached from the barrel body, and the detached inner barrel can be conveniently cleaned independently.

In addition, the pipeline can also be a hose, and the convenient disassembly of the cover body can also be realized.

Further, as shown in fig. 5, the squeezer is disposed at the upper end of the water tank, the squeezer is a squeezing blade, and one end of the squeezing blade, which is far away from the inner barrel, is located outside the water tank, so that water scraped from the wiper by the squeezer is discharged into the sewage containing chamber in a straight flow.

Further, as shown in fig. 4, a step portion 13 is disposed at a lower portion of the clean water cavity, that is, a portion of the clean water cavity located below the step portion constitutes the piston cavity. When the inner barrel is located at the upper limit position, the piston component is located above the step part, so that clean water located above the piston component in the clean water containing cavity can flow into a space below the piston component. When the inner barrel moves downwards under the pushing force of the mop, the piston component moves downwards to cross the step part, so that most of clean water below the piston component flows into the water tank from the pipeline when the piston component continues to move downwards. Only a small amount of fresh water overflows from the clearance between the piston part and the piston cavity to the upper part of the piston part.

In other embodiments, the upper end of the pipe may be directly connected and communicated with the upper end of the inner barrel, that is, the water outlet at the upper end of the pipe can spray water towards the wipes.

The use process and principle of the flat mop cleaning tool kit are as follows: when the mop bucket is used for cleaning a mop, water is filled in a clear water containing cavity of the mop bucket, and the water level is not higher than an upper end opening of the inner bucket. And then the mop plate is rotated to be in a state of being approximately parallel to the mop rod, the lower end of the mop plate is aligned with the extrusion port and downwards inserted into the inner barrel, the mop rod is continuously pushed downwards until the lower end of the mop plate is contacted with the bottom of the inner barrel, so that the mop plate drives the inner barrel to continuously downwards move along the clean water containing cavity to a state shown in figure 3, in the process that the inner barrel downwards moves, clean water positioned below the inner barrel and the piston part in the clean water containing cavity upwards flows along the pipeline, clean water overflowing from the upper end of the pipeline flows into the water tank, and then the clean water is poured into the inner barrel from the water outlet of the water tank to wet the wiping matters on the mop plate. When the clean water is filled into the inner barrel, the wiping object is at the lowest position relative to the barrel body, so that the wiping object can be ensured to fully absorb water from all positions from top to bottom, and the subsequent processes of extrusion cleaning and extrusion dehydration are facilitated.

Then the mop rod is pulled upwards to move the mop plate upwards, and when the wiping object is contacted with the squeezer, the squeezing and cleaning of the wiping object can be realized. When the mop plate moves from bottom to top relative to the wiping object, water absorbed by the wiping object is scraped by the squeezer and falls into the inner barrel; when the mop plate moves from top to bottom relative to the squeezer, water adsorbed by the wiping materials is scraped by the squeezer and mostly flows into the sewage containing cavity along the upper end of the squeezer, and when the lower end of the mop plate extends to the bottom of the inner barrel, the wiping materials adsorb the water in the inner barrel. The mop rod is repeatedly pushed and pulled for a plurality of times, so that the water in the inner barrel is gradually reduced, and finally most of the water falls into the sewage containing cavity.

Since the mop is cleaned and dewatered within the inner bucket, there is no clear limit to squeeze cleaning and squeeze dewatering. When the wiper moves up and down relative to the squeezer after being wetted, the process that the dirt adhered on the wiper is separated from the wiper along with the water flow extruded on the wiper can be considered as the process of squeezing and cleaning. When the dirt on the wiper is scraped clean by the squeezer, the wiper continuously moves up and down relative to the squeezer so that the water adsorbed on the wiper can be squeezed completely, and the stage can be considered as a squeezing dehydration process.

In addition, when the wipes are dirty and cannot be washed clean enough through one-time squeezing cleaning, the inner barrel can be driven to move downwards for multiple times to increase the water quantity in the inner barrel or increase the water absorption capacity of the wipes, so that the wipes are ensured to be cleaned.

Claims (10)

1. A flat mop cleaning tool kit comprises a mop and a mop bucket;

the mop comprises a mop plate with a wiping object and a mop rod movably connected with the mop plate;

the mop bucket comprises a bucket body and an inner bucket arranged in the bucket body;

the method is characterized in that:

the inner barrel is movably arranged in the clean water containing cavity, so that the inner barrel can move up and down relative to the barrel body;

the barrel body is provided with a limiting structure which limits the upper limit position of the inner barrel moving upwards relative to the barrel body; the inner barrel is positioned at the upper limit position by virtue of an elastic piece or buoyancy of water contained in the clear water containing cavity; the inner barrel is also provided with a lower limit position relative to the barrel body, and when the mop plate is inserted into the inner barrel, the inner barrel can move to the lower limit position under the driving of the downward thrust of the mop;

the piston component is connected with the inner barrel, or the inner barrel is used as the piston component at the same time, the piston component is connected with a pipeline, and water flowing out of the upper end of the pipeline can be injected into the inner barrel;

in the process that the inner barrel moves downwards relative to the clean water containing cavity, the piston component drives water in the clean water containing cavity to flow upwards along the pipeline and finally flow into the inner barrel;

a squeezer for cleaning and/or squeezing out the wiping materials is arranged on the barrel body above the opening at the upper end of the inner barrel;

when the mop plate moves upwards and/or downwards relative to the squeezer, water adsorbed on the wiping materials can be squeezed out by the squeezer and is discharged into the sewage containing cavity.

2. A flat mop cleaning tool kit as defined in claim 1, wherein: the upper end of the pipeline is communicated with the upper end of the inner barrel, or the upper end of the pipeline is fixed relative to the barrel body and is positioned above the opening at the upper end of the inner barrel.

3. A flat mop cleaning tool kit as defined in claim 1, wherein: the barrel body is detachably connected with a cover body, and the cover body is of the limiting structure.

4. A flat mop cleaning tool kit as defined in claim 1, wherein: when the mop plate drives the inner barrel to move downwards to the lower limit position, the upper end of the mop plate is positioned below the squeezer.

5. A flat mop cleaning tool kit as claimed in claim 4, wherein: the barrel body is connected with a cover body, the cover body is provided with an extrusion opening, and the extruder is arranged on at least one side of the extrusion opening on the cover body;

the lower end of the squeezing opening or the squeezer is provided with a guide part, and the upper end of the mop plate can enter the squeezing opening from bottom to top along the guide part.

6. A flat mop cleaning tool kit as claimed in claim 5, wherein: the lower end of the cover body is provided with a guide wall extending downwards;

the guide wall is inserted into an upper end opening of the inner barrel, and when the mop plate pushes the inner barrel to a lower limit position, the upper end of the mop plate is higher than the lower end of the guide part;

and/or the first and/or second light sources,

the extruder is provided with a guide plate which extends towards the oblique upper part of the extrusion opening;

the guide wall and/or the guide plate is the guide.

7. A flat mop cleaning tool kit as defined in claim 1, wherein: the inner barrel is connected with a floater, and the floater can enable the inner barrel to be positioned at the upper limit position under the buoyancy action of water in the clean water containing cavity.

8. A flat mop cleaning tool kit as claimed in claim 7, wherein: the float is used as the piston component at the same time, and when the inner barrel moves downwards relative to the clear water containing cavity, the float can push clear water positioned below the float in the clear water containing cavity to flow to the upper end of the pipeline.

9. A flat mop cleaning tool kit as claimed in claim 2, wherein: when the upper end of the pipeline is fixed relative to the barrel body, the pipeline is a hose, or the pipeline comprises two pipe sections in sliding connection.

10. A flat mop cleaning tool kit as claimed in claim 9, wherein: the barrel body is detachably connected with a cover body, the lower end of the cover body is connected with a water tank, and a water outlet facing the inner barrel is formed in the water tank; the pipeline comprises a first pipe section and a second pipe section, wherein the first pipe section is fixedly connected with the piston part relatively, the second pipe section is fixedly connected with the water tank relatively, and the second pipe section is in sliding insertion connection with the first pipe section.

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