CN217338481U - Cleaning tool for squeezing flat mop - Google Patents

Abstract

A squeeze flat mop cleaning implement comprising a mop bucket and a flat mop; the flat mop comprises a mop rod and a flat mop head movably connected to the mop rod, wherein wiping materials are arranged on the flat mop head, and the flat mop head rotates to a water squeezing state in which water can be squeezed when water is squeezed; the mop bucket is provided with a water squeezing area, an extruding device is arranged above the water squeezing area, the flat mop in a water squeezing state is inserted into the water squeezing area to move up and down during water squeezing, and the wiping object and the extruding device move to squeeze, so that the wiping object is squeezed by the extruding device; the squeezing device is provided with a drainage mechanism, so that water extruded from the wiper during squeezing is drained through the drainage mechanism to leave the wiper and fall into a squeezing area, and the wiper is prevented from being splashed back to the wiper by the extruded water to influence the squeezing effect.

Description

Cleaning tool for squeezing flat mop

Technical Field

The utility model relates to a cleaning tool for extruding a flat mop.

Background

CN113069055A discloses a cleaning tool for squeezing flat mop, which comprises a flat mop and a mop bucket, wherein the mop bucket has a squeezing area, a squeezing device is arranged above the squeezing area, the squeezing device comprises a squeezing frame, a squeezing opening is arranged on the squeezing frame, and a squeezer is arranged in the squeezing opening. The flat mop comprises a mop rod and a flat mop head, the flat mop head is provided with a wiping material, the flat mop is inserted into the extrusion opening to move up and down when being used for squeezing water, and the wiping material is squeezed by the squeezer to squeeze water. Be equipped with diversion mechanism on the extrusion frame, when dull and stereotyped mop carries out the wiping material wringing in the extrusion district, the water that the wiping material was extruded is through diversion mechanism and is blockked the back and flow back to the extrusion district to the water of backward flow forms by watering from top to bottom to the wiping material, thereby makes the wiping material obtain watering in the middle of the wringing process and drench, obtains the washing of certain degree at the wringing in-process promptly, but this kind of structure can influence the wringing effect of wiping material.

Disclosure of Invention

In order to overcome the defects of the prior cleaning tool for extruding the flat mop, the utility model provides an extruding flat mop cleaning tool with better water extruding effect.

The technical proposal of the utility model for solving the technical problem is that: a squeeze flat mop cleaning implement comprising a mop bucket and a flat mop;

the flat mop comprises a flat mop head and a mop rod movably connected to the front of the flat mop head, the back of the flat mop head is provided with a wiping object, and the flat mop head rotates to a water squeezing state when water is squeezed; the mop rod is movably connected to the front side of the flat mop head, and the wiping materials are arranged on the back side of the flat mop head.

The mop bucket is provided with a water squeezing area, an extruding device is arranged above the water squeezing area, the flat mop head rotates to a water squeezing state parallel to the mop rod during water squeezing, the flat mop in the water squeezing state is inserted into the water squeezing area to move up and down, and the wiping object and the extruding device move to squeeze, so that the wiping object is squeezed by the extruding device;

the method is characterized in that: the squeezing device is provided with a drainage mechanism, so that water extruded from the wiper during squeezing is drained through the drainage mechanism to leave the wiper and fall into a squeezing area, and the wiper is prevented from being splashed back to the wiper by the extruded water to influence the squeezing effect.

Furthermore, the drainage mechanism comprises a drainage groove, the drainage groove is provided with a water falling mechanism, and water extruded by the wiper during water extrusion enters the drainage groove and then falls into the water extrusion area through the water falling mechanism.

Further, one form of drainage groove is: the drainage groove comprises a water receiving part and a drainage part;

the water receiving part faces the wiping object entering the water squeezing area during water squeezing, and water squeezed out of the wiping object enters the water receiving part during water squeezing;

the drainage part is communicated with the water receiving part and extends to the side part and/or the rear part of the extrusion device.

Further, the side part is one side or two sides of the extruding device.

Alternatively, another form of drainage groove is: the drainage grooves further extend into the wringing area to form a ditch.

Furthermore, an inclined drainage surface is arranged on the extruding device, and the drainage surface inclines downwards from the extruded part of the wiper to the drainage groove, so that the drainage surface guides the water extruded by the wiper to the drainage groove.

Furthermore, the water falling mechanism is a water falling hole, or a water falling pipe communicated with the drainage groove, or a drainage track communicated with the drainage groove.

Furthermore, the water falling mechanism is positioned at the bottom of the drainage groove.

Alternatively, another form of the drainage mechanism is: a water falling space is arranged between the squeezing device and the mop bucket, water squeezed by the wiping object falls from the water falling space during squeezing, so that the wiping object is prevented from being splashed back and splashed, and the water falling space forms the drainage mechanism.

Furthermore, a water baffle plate extending downwards is arranged on the extrusion device to prevent falling water from splashing the wiping matters.

Furthermore, the extrusion device is provided with an inclined guide surface, the guide surface inclines downwards from the extruded part of the wiper to the water baffle to form a communicated water path, so that the guide surface guides the water extruded by the wiper to the water dropping space.

Furthermore, the guide surface and/or the water baffle plate are/is provided with a flow distribution rib.

Furthermore, the squeezing device comprises a squeezing frame, a squeezing opening is formed in the squeezing frame, and the flat mop in a squeezing state is inserted into the squeezing opening during squeezing.

Further, after the flat mop in the water squeezing state is inserted into the squeezing opening, the side wall of the squeezing opening squeezes the wiping object.

Furthermore, the extrusion frame is provided with an extruder, at least part of the extruder extends into the extrusion opening, and the extruder extrudes the wiper.

Further, the squeezer is integrated with the squeezing frame. Or the squeezer and the squeezing frame are separated, and the squeezer is installed on the squeezing frame.

Further, the squeezer is a squeezing strip, a squeezing sheet, a squeezing plate or a squeezing roller.

Another form of the extrusion apparatus is: the squeezing device comprises a squeezing frame, a supporting mechanism is arranged on the mop bucket, a squeezing interlayer is formed between the supporting mechanism and the squeezing frame, and the flat mop in a squeezing state is inserted into the squeezing interlayer during squeezing.

Further, after the flat mop in the water squeezing state is inserted into the squeezing interlayer, the side wall of the squeezing frame squeezes the wiping object.

Furthermore, the extrusion frame is provided with an extruder, at least part of the extruder extends into the extrusion interlayer, and the extruder extrudes the wiping material.

Further, the squeezer is integrated with the squeezing frame. Or the squeezer and the squeezing frame are separated, and the squeezer is installed on the squeezing frame.

The beneficial effects of the utility model reside in that: during wringing, the water extruded from the wiping object is drained through the drainage mechanism so as to leave the wiping object and enter the wringing area, and the phenomenon that the wiping object is wrung back by the extruded water to flow into the wiping object to influence the wringing effect is avoided.

Drawings

Fig. 1 is a schematic structural view of the flat mop in a wringing state.

Fig. 2 is a schematic structural view of the flat mop in a mopping state.

Fig. 3 is an exploded view of the flat mop.

Fig. 4 is a schematic structural view of the flat mop in a water squeezing state under the action of the positioning mechanism.

Fig. 5 is a schematic structural view of the flat mop in a mopping state.

Fig. 6 is a schematic view of the positioning mechanism in the wringing position of the flat mop.

Fig. 7 is a schematic view showing the positioning mechanism in the mopping state of the flat mop.

Fig. 8 is a schematic structural view of the present invention.

Fig. 9 is a mechanical schematic diagram of the drainage mechanism.

Fig. 10 is a schematic structural view of another drainage mechanism.

Fig. 11 is a schematic structural view of another drainage mechanism.

Fig. 12 is a schematic view of another drainage mechanism.

Fig. 13 is a mechanism schematic of another view of fig. 12.

Fig. 14 is a schematic structural view of another drainage mechanism.

Fig. 15 is a schematic view of the structure of the pressing device of fig. 14.

Fig. 16 is a schematic structural view of another drainage mechanism.

Fig. 17 is a schematic structural view of another drainage mechanism.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings and specific embodiments.

Referring to fig. 17, a squeeze flat mop cleaning implement includes a flat mop and a mop bucket 1.

The flat mop comprises a mop rod 2 and a flat mop head 3 movably connected to the mop rod 2, a wiping object is arranged on the flat mop head 3, the flat mop head 3 rotates to a water squeezing state in which water can be squeezed during water squeezing, and the state is usually embodied in that the flat mop head 3 is parallel to the mop rod 2.

The mop pole is divided the pole 4 including two sections more usually, divides and can dismantle the connection between the pole 4, will divide pole 4 to assemble into holistic mop pole when using, will divide pole 4 to dismantle when packing, forms the quarter butt, is convenient for pack and reduces the packing volume, and the branch pole 4 of dismantling also can be put into the mop bucket. The detachable connection mode between the branch rods 4 can be threaded connection, can also be connected through a buckle, a screw, a rivet or a bolt after being sleeved with each other, and can also be a combination of more than two detachable connection modes, for example, the upper mop rods are in threaded connection, and the last section of mop rod is connected with the last second section of mop rod through a buckle after being sleeved. The detachable connection mode of the lowermost section of the branch rod and other branch rods can also be as follows: the lowermost sectional rod is connected with the flat mop head 3, an elastic sheet is arranged in the lowermost sectional rod, the elastic sheet is provided with a clamping head 5, the clamping head 5 penetrates out of the lowermost sectional rod, a clamping hole 6 corresponding to the clamping head is arranged on the penultimate sectional rod, the lowermost sectional rod is inserted into the penultimate sectional rod, the clamping head 5 is inserted into the clamping hole 6, and the rest sectional rods are in threaded connection.

In this embodiment, the flexible sleeve 7 is sleeved on the mop rod, the flexible sleeve 7 can be a foam sleeve, a rubber sleeve or the like, and the flexible sleeve 7 can be held by a hand when the mop rod is held, so that the hand feeling of holding is more comfortable.

In this embodiment, the upper end of the mop rod is provided with a rod head 8, the rod head 8 is provided with a hanging hole, and when the flat mop is not used, the flat mop can be hung through the hanging hole.

The flat mop can be a single-side mop or a double-side mop. The single-sided mop is as follows: as shown in fig. 1-7, the mop rod 2 is movably connected to the front surface of the flat mop head 3, and the wiping material is arranged on the back surface of the flat mop head 3. In one embodiment, the movable connection between the mop rod 2 and the flat mop head 3 is as follows: the lower end of the mop rod 2 is longitudinally hinged with a connector 9 (the longitudinal hinge is the length direction of the hinge shaft along the flat mop head), the flat mop head 3 is transversely hinged with the connector 9 (the transverse hinge is the width direction of the hinge shaft along the flat mop head), the flat mop head 3 can flexibly rotate when mopping the floor through two hinges, and can rotate to a folding state along the hinge part when packaging, thereby reducing the packaging volume. A positioning mechanism is preferably arranged between the mop rod 2 and the flat mop head 3 of the single-sided mop, and the positioning mechanism enables the flat mop head 3 to be kept in a water squeezing state when the flat mop is in the water squeezing state (the water squeezing state of the flat mop is generally embodied as that the flat mop head 3 is rotated to be parallel to the mop rod 2). Positioning mechanism can adopt multiple mechanism form, for example adopt magic subsides structure, buckle structure, locate clamp mechanism etc. on mop pole or the dull and stereotyped mop head, a better positioning mechanism's structural style is: as shown in fig. 4-7, an elastic top member is arranged in the mop rod 2, the elastic top member can be a top rod 10, a spring 11 is arranged in the mop rod 2 to prop against the top rod 10 to make it have a downward pressing tendency, so that the top rod 10 is always pressed against the side surface of the connector 9, and when the flat mop head 3 is rotated to an extrudable state, the top rod 10 is also pressed against the connector 9 to achieve positioning. In order to obtain better positioning effect, a plane part can be arranged on the end surface of the connecting head 9 which is opposite to the top rod, when the flat mop head 3 reaches a squeezing state, the top rod 10 is propped against the plane part, and better positioning effect can be achieved. A groove can also be arranged on the end surface of the connector 9 which is propped against the mandril, when the flat mop head 3 reaches a squeezable state, the mandril 10 is propped into the groove, and a better positioning effect can be achieved. Wheels or convex ribs can be arranged at the lower end of the top rod 10, and when the flat mop head 3 rotates to a squeezable state, the wheels or the convex ribs enter the grooves, so that a better positioning effect can be achieved. Providing the above-mentioned planar portion or groove also has another effect: when mopping, if the top rod 10 rotates to the critical part of the plane part or the groove (the critical place of the plane part or the groove and other parts of the connector), the flat mop head 3 automatically rotates to the state of squeezing water under the action of the spring 11 after the flat mop is lifted.

The double-sided mop is as follows: both sides of the flat mop head are provided with wipes such as the double-sided mops of CN209695102U, CN 110169742A.

The mop bucket 1 is provided with a water squeezing area, an extruding device 12 is arranged above the water squeezing area, the flat mop in a water squeezing state is inserted into the water squeezing area to move up and down during water squeezing, and the wiping object and the extruding device 12 move to squeeze, so that the wiping object is squeezed by the extruding device 12.

One form of the press 12 is: the squeezing device comprises a squeezing frame 13, a squeezing opening 14 is formed in the squeezing frame 13, the flat mop in a squeezing state is inserted into the squeezing opening 14 during squeezing, and the flat mop can move up and down to squeeze the wiping materials.

After the flat mop in the water squeezing state is inserted into the squeezing opening 14, the side wall of the squeezing opening 14 can squeeze the wiping object. A squeezer 15 may be provided on the squeezing frame 13, the squeezer 15 at least partially extends into the squeezing opening 14, and the wiper is squeezed by the squeezer 15. The pressing device 15 and the pressing frame 13 may be integrated, the pressing device 15 and the pressing frame 13 may be separate, and the pressing device 15 is mounted on the pressing frame 13. The press 15 may be in the form of a press bar, or a press sheet, or a press plate, or a press roll.

Another form of the extrusion apparatus is: the squeezing device comprises a squeezing frame, a supporting mechanism is arranged on the mop bucket, a squeezing interlayer is formed between the supporting mechanism and the squeezing frame, and the flat mop in a squeezing state is inserted into the squeezing interlayer during squeezing. The support mechanism can be in the form of support ribs, support plates, support arms and the like, and is used for supporting the flat mop head. After the flat mop in the water squeezing state is inserted into the squeezing interlayer, the side wall of the squeezing frame can squeeze the wiping object. The squeezing frame can also be provided with a squeezer, the squeezer at least partially extends into the squeezing interlayer, and the wiper is squeezed by the squeezer. The squeezer and the squeezing frame can be integrated, the squeezer and the squeezing frame can also be separated, and the squeezer is arranged on the squeezing frame. The said extruder may be in the form of an extrusion bar, or an extrusion sheet, or an extrusion plate, or an extrusion roll.

The squeezing device 12 is provided with a drainage mechanism, when squeezing water, the water squeezed out of the wiping object is drained and leaves the wiping object through the drainage mechanism and falls into the squeezing area, the wiping object is prevented from being splashed back to the wiping object by the squeezed water, the squeezing effect is prevented from being influenced, and the purposes of preventing the squeezed water from being splashed back and splashing to the wiping object are achieved.

Drainage mechanism can adopt multiple structural style, and a drainage mechanism's structural style is: the drainage mechanism comprises a drainage groove, the drainage groove is provided with a water falling mechanism, water extruded by the wiper during water extrusion enters the drainage groove and then falls into a water extrusion area through the water falling mechanism, and the purposes of avoiding the water extruded from flowing back and splashing to wiping are achieved. The water falling mechanism is usually located at the bottom of the drainage groove, but may also be located at the side of the drainage groove. The water falling mechanism can be a water falling hole 16, a water falling pipe communicated with the drainage groove and a drainage track communicated with the drainage groove.

Referring to FIGS. 9, 10 and 11, in one embodiment, the drainage channels are configured in the form of: the drainage groove comprises a water receiving part 17 and a drainage part 18, the water receiving part 17 faces the wiper entering the flat mop head of the water squeezing area during water squeezing, the water squeezed out of the wiper enters the water receiving part 17 during water squeezing, and the water receiving part 17 has enough volume and can contain the water squeezed out of the wiper; the drainage part 18 is communicated with the water receiving part 17 and extends to one side or two sides or the rear part of the extrusion device, the water falling mechanism is usually arranged at the tail end of the drainage part at the moment, and the water extruded by the wiper falls into the water extrusion area, so that the purpose of preventing the extruded water from flowing back and splashing back to the wiper is achieved. In fig. 9, the flow-directing portion 18 is shown extending to both sides of the squeezing means, but it is of course also possible that the flow-directing portion extends to only one side of the squeezing means; in fig. 10, the drainage portion 18 extends unilaterally to the rear of the pressing device; in fig. 11, the drainage portion 18 extends from both sides to the rear of the pressing device

Referring to fig. 12 and 13, in another embodiment, the drainage grooves have a structure form: the channels extend further into the wringing zone to form channels 19, in which case the channels are deep enough to receive water squeezed out from the wipe and fall into the wringing zone.

In order to ensure that water squeezed out of the wiper flows into the drainage grooves smoothly and quickly, the squeezing device is provided with an inclined drainage surface 20, the drainage surface 20 inclines downwards from the squeezed position of the wiper to the drainage grooves, and therefore the drainage surface 20 can guide the water squeezed out of the wiper to the drainage grooves quickly and quickly. The drainage surface 20 may be an inclined plane, an inclined arc surface, or a plane at the front section and an arc surface at the rear section.

In one embodiment, the pressing device 12 is provided with a raised baffle 21, the drainage surface 20 is an upper end surface of the baffle 21, and the baffle 21 blocks the squeezed water from flowing back to the wiper after the squeezed water enters the drainage groove during squeezing.

Referring to fig. 14, 15, 16 and 17, another drainage mechanism is in the form of: a water falling space 22 is arranged between the squeezing device 12 and the mop bucket 1, water squeezed by the wiping matters falls from the water falling space 22 during water squeezing so as to avoid back-flushing and splashing to the wiping matters, and the water falling space 22 forms the drainage mechanism.

When the drainage means is in the form of the fall space 22, there is a possibility that the wipes entering the wringing zone will be splashed when the wipes are forced out of the fall space 22 by the squeezed water. To avoid this, the squeezing device is provided with a water guard 23 extending downward to block water falling from the falling water space 22 to prevent the falling water from splashing the wiper.

In one embodiment, the squeezing means 12 is provided with an inclined guide surface 24, and the guide surface 24 is inclined downwards from the place where the wiper is squeezed to the water baffle 23, so that the guide surface 24 guides the water squeezed out of the wiper to the water falling space 22. The water deflector 23 and the guide surface 24 are generally integral; of course, the guide surface 24 and the splash guard 23 may be separate bodies and connected to each other. Of course, the water guard 23 and the guide surface 24 may be separate bodies, and they are not connected to each other. The guide surface 24 may be an inclined plane, an inclined arc surface, or a plane surface at the front end and an arc surface at the rear end.

In order to lead the water extruded by the wiping object to the water dropping space smoothly, the diversion rib 25 is arranged on the guide surface 24, or the water baffle plate 23, or the guide surface 24 and the water baffle plate 23, and the water extruded by the wiping object is diverted through the diversion rib 25 to guide and divert the water so as to prevent the water from being splashed back and turbulent flow. The flow dividing rib 25 may be a straight bar as illustrated in fig. 16, or may be an oblique bar as illustrated in fig. 17.

The water that falls into the wringing zone, typically to the bottom of the bucket of the wringing zone. When water falls to the barrel head in crowded water district, can produce ponding at the barrel head, flat mop head lower part is stained with ponding influence wringing effect when avoiding flat mop head to push down, can establish at the mop bucket bottom surface in crowded water district and raise the boss, raises the peripheral ponding memory area that holds ponding that forms of boss, the water that the wiper was crowded down falls to the barrel head after and deposits in the ponding memory area, flat mop head is when pushing down crowded water, flat mop head's lower extreme supports and is in raise the boss on to do not contact with crowded water, can further improve crowded water effect. Another method for avoiding the accumulated water being stuck to the mop head when the mop head is pressed down is to arrange a partition plate on the bottom surface of the water squeezing area, so that an accumulated water storage area is partitioned on the bottom surface of the water squeezing area and is positioned below the water falling mechanism, the water falling through the water falling mechanism is stored in the water squeezing storage area, and the flat mop is positioned outside the accumulated water storage area when being pressed down to the bottom of the mop barrel, so that the accumulated water cannot be stuck to the mop head.

Naturally, the water squeezed out of the wiping object may not fall to the bottom of the barrel of the squeezing area, for example, a water containing box located below the water falling mechanism is arranged in the squeezing area, and the water falling through the water falling mechanism falls into the water falling box, so that the water falling from the water falling box is prevented from forming accumulated water at the bottom of the barrel of the squeezing area.

Claims (22)

1. A squeeze flat mop cleaning implement comprising a mop bucket and a flat mop;

the flat mop comprises a flat mop head and a mop rod movably connected to the front of the flat mop head, the back of the flat mop head is provided with a wiping object, and the flat mop head rotates to a water squeezing state when water is squeezed; the mop rod is movably connected to the front side of the flat mop head, and the wiping object is arranged on the back side of the flat mop head;

the mop bucket is provided with a water squeezing area, an extruding device is arranged above the water squeezing area, the flat mop head rotates to be in a water squeezing state parallel to the mop rod during water squeezing, the flat mop in the water squeezing state is inserted into the water squeezing area to move up and down, and the wiping object and the extruding device move to squeeze, so that the wiping object is squeezed by the extruding device;

the method is characterized in that: the squeezing device is provided with a drainage mechanism, so that water extruded from the wiper during squeezing is drained through the drainage mechanism to leave the wiper and fall into a squeezing area, and the wiper is prevented from being splashed back to the wiper by the extruded water to influence the squeezing effect.

2. The squeeze flat mop cleaning tool defined in claim 1, wherein: the drainage mechanism comprises a drainage groove, the drainage groove is provided with a water falling mechanism, and water extruded by the wiper during water extrusion enters the drainage groove and then falls into the water extrusion area through the water falling mechanism.

3. The squeeze flat mop cleaning tool of claim 2, wherein: the drainage groove comprises a water receiving part and a drainage part;

the water receiving part faces the wiping object entering the water squeezing area during water squeezing, and water squeezed out of the wiping object enters the water receiving part during water squeezing;

the drainage part is communicated with the water receiving part and extends to the side part and/or the rear part of the extrusion device.

4. The squeeze flat mop cleaning tool defined in claim 3, wherein: the side part is one side or two sides of the extruding device.

5. The squeeze flat mop cleaning tool defined in claim 2, wherein: the drainage grooves further extend into the wringing area to form a ditch.

6. The squeeze flat mop cleaning tool defined in claim 2, wherein: the squeezing device is provided with an inclined drainage surface, and the drainage surface inclines downwards from the squeezed position of the wiper to the drainage groove, so that the drainage surface guides the water squeezed out of the wiper to the drainage groove.

7. The squeeze flat mop cleaning tool of claim 2, wherein: the water falling mechanism is a water falling hole, or a water falling pipe communicated with the drainage groove, or a drainage track communicated with the drainage groove.

8. The squeeze flat mop cleaning tool defined in claim 2, wherein: the water falling mechanism is positioned at the bottom of the drainage groove.

9. The squeeze flat mop cleaning tool defined in claim 1, wherein: a water falling space is arranged between the squeezing device and the mop bucket, water squeezed by the wiping object falls from the water falling space during squeezing, so that the wiping object is prevented from being splashed back by the water, and the water falling space forms the drainage mechanism.

10. The squeeze flat mop cleaning tool defined in claim 9, wherein: the extrusion device is provided with a water baffle plate extending downwards to prevent falling water from splashing the wiping matters.

11. The squeeze flat mop cleaning tool defined in claim 10, wherein: the squeezing device is provided with an inclined guide surface, the guide surface inclines downwards from the squeezed position of the wiper to the water baffle to form a communicated water path, and therefore the guide surface guides the water squeezed out by the wiper to the water dropping space.

12. The squeeze flat mop cleaning tool defined in claim 11, wherein: and the guide surface and/or the water baffle are/is provided with a flow dividing rib.

13. The squeeze flat mop cleaning tool of any one of claims 1-12, wherein the squeeze flat mop cleaning tool is characterized by

In the following steps: the squeezing device comprises a squeezing frame, a squeezing opening is formed in the squeezing frame, and the flat mop in a squeezing state is inserted into the squeezing opening during squeezing.

14. The squeeze flat mop cleaning tool defined in claim 13, wherein: after the flat mop in the water squeezing state is inserted into the squeezing opening, the side wall of the squeezing opening squeezes the wiping material.

15. The squeeze flat mop cleaning tool defined in claim 13, wherein: the squeezing frame is provided with a squeezer, at least part of the squeezer extends into the squeezing opening, and the wiper is squeezed by the squeezer.

16. The squeeze flat mop cleaning tool defined in claim 15, wherein: the squeezer is integrated with the squeezing frame;

or the squeezer and the squeezing frame are separated, and the squeezer is installed on the squeezing frame.

17. The squeeze flat mop cleaning tool defined in claim 15, wherein: the squeezer is a squeezing strip, a squeezing sheet, a squeezing plate or a squeezing roller.

18. A squeeze flat mop cleaning tool as defined in any one of claims 1-12 wherein: the squeezing device comprises a squeezing frame, a supporting mechanism is arranged on the mop bucket, a squeezing interlayer is formed between the supporting mechanism and the squeezing frame, and the flat mop in a squeezing state is inserted into the squeezing interlayer during squeezing.

19. The squeeze flat mop cleaning tool defined in claim 18, wherein: after the flat mop in the water squeezing state is inserted into the squeezing interlayer, the side wall of the squeezing frame squeezes the wiping materials.

20. The squeeze flat mop cleaning tool defined in claim 18, wherein: the squeezing frame is provided with a squeezer, at least part of the squeezer extends into the squeezing interlayer, and the squeezer squeezes the wiper.

21. The squeeze flat mop cleaning tool defined in claim 20, wherein: the squeezer is integrated with the squeezing frame;

or the squeezer and the squeezing frame are separated, and the squeezer is installed on the squeezing frame.

22. The squeeze flat mop cleaning tool defined in claim 20, wherein: the squeezer is a squeezing strip, a squeezing sheet, a squeezing plate or a squeezing roller.

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