CN210697522U - Cleaning tool for foaming cotton mop - Google Patents

Abstract

The utility model discloses a burnisher for foaming cotton mop, including mop pole, mop head, the mop head includes mount pad and the cotton head of foaming, still installs crowded water installation on the mop pole, and this crowded water installation includes crowded flood peak, and crowded flood peak has the mouth of wearing that supplies the cotton head of foaming to pass, wears to be equipped with in the mouth to be used for carrying out extruded crowded water part to the cotton head surface of foaming that passes the mouth, and crowded water part includes: the turnover plate is arranged at the front wall through a hinge shaft in a rotating way, a water squeezing piece is arranged on the turnover plate, and the water squeezing piece rotates around the hinge shaft along with the turnover plate; the reset piece is used for driving the turning plate to swing upwards to a water squeezing position; the limiting block is used for preventing the turning plate at the water squeezing position from continuously swinging; and the extrusion plate is positioned below the wringing piece and fixedly connected with the turning plate, and the extrusion plate gradually inclines towards the center of the wringing channel from bottom to top. During the operation process, the foam cotton head only needs large force when moving towards one direction, and is more suitable for being operated by children and women.

Description

Cleaning tool for foaming cotton mop

Technical Field

The utility model relates to a mop, in particular to a cleaning tool for a foam cotton mop.

Background

At present, the use of collodion mops in the market is continuously developing towards cleaning and convenience, and particularly the water squeezing function of the collodion mops is continuously improved. If the publication date is 2018, 1, 23 and the publication number is CN107616764A, the mop with the foam cotton head disclosed in the 'mop with the foam cotton head improved in a water squeezing mode' comprises a mop rod and the foam cotton head, wherein the foam cotton head is movably connected to the lower end of the mop rod, the mop rod is provided with a squeezing device capable of sliding along the mop rod, the foam cotton head can rotate to the length direction of the foam cotton head to be basically parallel to the mop rod and aligned with the water squeezing device, when water is squeezed, the water squeezing device slides up and down along the length direction of the foam cotton head and squeezes the bottom surface of the foam cotton head to achieve water squeezing, and when the mop is used for mopping, the foam cotton head is completely separated from the water squeezing device. The squeezing device comprises a squeezing handle arranged on a mop rod, the squeezing handle and the mop rod can relatively slide up and down, the squeezing handle is connected with a squeezing head through a connecting rod, the squeezing head is provided with a through hole for the passing of a foaming cotton head, and a squeezing part for squeezing the bottom surface of the foaming cotton head passing through the through hole is arranged in the through hole; the foaming cotton head rotates to the side surface of the foaming cotton head and the through opening aligning position when water is squeezed, the foaming cotton head enters and squeezes the bottom surface of the foaming cotton head through the through opening via the water squeezing part so as to achieve water squeezing, and the foaming cotton head is completely separated from the through opening when mopping.

In the disclosed mop with the foam cotton head, when the foam cotton head is squeezed and cleaned, the foam cotton head can be squeezed and cleaned only by holding the squeezing handle and pushing and pulling the squeezing handle along the axial direction of the mop rod. However, it is a very hard matter for the user to hold the squeezing handle to bring the squeezing head to slide up and down to overcome the friction force of the squeezing part on the surface of the foam cotton head, especially for children or women. In actual use, the squeezing head only needs to generate enough extrusion force on the surface of the foam cotton head in the upward moving process, and the squeezing effect is achieved.

Disclosure of Invention

In order to overcome the defects of the prior art, the utility model provides a cleaning tool for a foam cotton mop, which can make the water squeezing part tightly attach to the foam cotton head when the water squeezing head moves downwards and is easy to apply force when moving upwards.

The utility model provides a technical scheme that its technical problem adopted is: the utility model provides a burnisher for foaming cotton mop, including the mop pole, and swing joint in the mop head of mop pole lower extreme, the mop head include with mop pole swing joint's mount pad, and be fixed in the cotton head of foaming on the mount pad, the mop head can be changeed to its length direction and the mop pole position of being parallel basically, still install crowded water installation on the mop pole, this crowded water installation include with the mop pole between can be relative about the crowded water head that slides, crowded water head has the mouth of wearing that supplies the cotton head of foaming to pass, wear to be equipped with in the mouth and be used for carrying out the crowded water part of extruded to the cotton head surface of foaming who passes the mouth, just being the antetheca to the inner wall of the cotton head bottom surface of foaming in the mouth, the inner wall relative with this antetheca position is the back wall, crowded water part includes:

the turning plate is arranged at the front wall through a hinge shaft in a rotating mode, a water squeezing piece is arranged at a position, close to the rear wall, of the turning plate, the water squeezing piece rotates around the hinge shaft along with the turning plate and is provided with a water squeezing position for squeezing the bottom surface of the foaming cotton head penetrating through the through opening, when the water squeezing piece rotates to the water squeezing position, a water squeezing channel for the foaming cotton head to penetrate through is formed between the water squeezing piece and the rear wall, and the water squeezing piece moves, squeezes and squeezes the bottom surface of the foaming cotton head;

the reset piece is used for driving the turning plate to swing upwards to a water squeezing position;

the limiting device is used for limiting the turnover plate at the water squeezing position to continuously swing;

the extrusion plate is arranged at the turning plate and positioned below the water squeezing piece, and the extrusion plate gradually inclines towards the center of the water squeezing channel from bottom to top and extends to the position of the water squeezing piece.

The utility model has the advantages that: the board can be round the articulated shaft luffing motion to turn over, and under the effect that resets and stop device, when no exogenic action, it is in crowded water position to turn over the board, and at this moment, it upwards swings to crowded water position to turn over the board under the effect that resets, and because stop device's restriction and make crowded water spare keep in this position, forms the crowded water passageway that supplies the cotton head of foaming to upwards pass from bottom to top between crowded water spare and the back wall this moment. The limiting device has the effect that when the turning plate swings to the wringing position, the limiting device limits the turning plate to continuously swing. When the foaming cotton head moves from top to bottom, the end part of the foaming cotton head presses the upper surface of the turning plate, so that the turning plate is driven to rotate around the hinge shaft, the water squeezing piece rotates along with the turning plate, and the water squeezing channel is opened. The opening means that the distance between the water squeezing piece and the rear wall is increased along with the rotation of the water squeezing piece, so that the resistance to be overcome when the foaming cotton head passes through is reduced, and the foaming cotton head is convenient to move downwards. After the foaming cotton head completely passes through the through opening, the turning plate rotates under the action of the resetting piece to reset to a water squeezing position, the foaming cotton head is pulled upwards in the reverse direction, the end part of the foaming cotton head is abutted against the surface of the extrusion plate, the section shrinks and becomes small under the action of the extrusion plate, and therefore the foaming cotton head can enter the water squeezing channel more smoothly, and the water squeezing piece and the rear wall clamp and squeeze the passing foaming cotton head along with the upward movement of the foaming cotton head. In the whole process, when the foaming cotton head moves downwards, the turning plate can be turned and opened, and the required force is small and labor is saved; when the foaming cotton head completely passes through the rear turning plate and returns to the water squeezing position, the foaming cotton head is pulled to move upwards, and the foaming cotton head is forced to pass through the water squeezing channel, so that the water squeezing of the foaming cotton head is realized. During the operation process, the foam cotton head only needs large force when moving towards one direction, and is more suitable for being operated by children and women.

Wherein, the wringing piece is a wringing lug arranged on the turning plate or a wringing roller rotatably arranged on the turning plate.

In order to ensure that the turning plate always bears the force to swing upwards in the process of upwards pulling the foaming cotton head, the axis position of the wringing roller is higher than the axis position of the articulated shaft. Similarly, the surface of the water squeezing lug for squeezing the foaming cotton head is of a cambered surface structure, and the position of the center of the cambered surface structure is higher than the axis position of the hinged shaft in the vertical direction.

The piece that resets is the torsional spring of cover locating on the articulated shaft.

In order to overcome the defects of the prior art, the utility model provides a cleaning tool for a foam cotton mop, which can make the water squeezing part tightly attach to the foam cotton head when the water squeezing head moves downwards and is easy to apply force when moving upwards.

The utility model provides a technical scheme that its technical problem adopted is: a cleaning tool for a foaming cotton mop comprises a cleaning barrel and a mop, wherein the mop comprises a mop rod and a mop head movably connected to the lower end of the mop rod, the mop head comprises a mounting seat movably connected with the mop rod and a foaming cotton head fixed on the mounting seat, a water squeezing device for squeezing the foaming cotton head is installed at the cleaning barrel and comprises a water squeezing head installed at the cleaning barrel, the water squeezing head is provided with a penetrating opening for the foaming cotton head to penetrate through, a water squeezing part for squeezing the surface of the foaming cotton head penetrating through the penetrating opening is arranged in the penetrating opening, the inner wall opposite to the bottom surface of the foaming cotton head in the penetrating opening is a front wall, the inner wall opposite to the front wall is a rear wall, the inner wall between the front wall and the rear wall is a side wall, the number of the water squeezing parts is two, the two water squeezing parts are symmetrically arranged at the position of the side wall of the penetrating opening and are used for squeezing the two axial side faces of the foaming cotton head penetrating opening, each wringing component includes:

the turning plate is arranged at one side wall through a hinge shaft in a rotating way, the turning plate is provided with a water squeezing piece opposite to the other side wall, the water squeezing piece rotates around the hinge shaft along with the turning plate and is provided with a water squeezing position for squeezing the side surface of the foaming cotton head passing through the through opening, when the water squeezing piece rotates to the water squeezing position, a water squeezing channel for the foaming cotton head to pass through is arranged between the two water squeezing pieces, and the water squeezing piece moves, squeezes and squeezes the two side surfaces of the foaming cotton head;

the reset piece is used for driving the turning plate to swing upwards to a water squeezing position;

the limiting device is used for limiting the turnover plate at the water squeezing position to continuously swing upwards;

and the extrusion plate is arranged at the turning plate, positioned below the water squeezing piece and fixedly connected with the turning plate, gradually inclines towards the center of the water squeezing channel from bottom to top and extends to the position of the water squeezing piece.

The utility model has the advantages that: two crowded water parts symmetry sets up, and two crowded water spare symmetries set up promptly, are crowded water passageway between two crowded water spare, when the cotton head of foaming moves down, roof pressure two crowded water spare simultaneously for two crowded water spare rotate around the articulated shaft simultaneously and enlarge the internal diameter of crowded water passageway, let the cotton head of foaming easily pass through. When the foam cotton head completely passes through the water squeezing channel, the two water squeezing heads return to the water squeezing position under the action of the resetting piece, the foam cotton head is pulled to move upwards, and the foam cotton head passes through the water squeezing channel under the action of pulling force, so that the water squeezing of the foam cotton head is realized. During the operation process, the foam cotton head only needs large force when moving towards one direction, and is more suitable for being operated by children and women.

Wherein, the wringing piece is a wringing lug arranged on the turning plate or a wringing roller rotatably arranged on the turning plate.

In order to ensure that the turning plate always bears the force to swing upwards in the process of upwards pulling the foaming cotton head, the axis position of the wringing roller is higher than the axis position of the articulated shaft. Similarly, the surface of the water squeezing lug for squeezing the foaming cotton head is of a cambered surface structure, and the position of the center of the cambered surface structure is higher than the axis position of the hinged shaft in the vertical direction.

The piece that resets is the torsional spring of cover locating on the articulated shaft.

Drawings

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

Fig. 2 is a schematic structural view of a cleaning barrel according to a first embodiment of the present invention.

Fig. 3 is a schematic structural view of a squeezing head according to an embodiment of the present invention.

Fig. 4 is a sectional view of an extruding head of the present invention, wherein the turning plate is rotated downward.

Fig. 5 is a sectional view of a wringing head of the embodiment of the present invention, and the turning plate is located at the wringing position.

Fig. 6 is a schematic structural view of a wringing member according to an embodiment of the present invention, in which the wringing member is a wringing roller.

Fig. 7 is a schematic structural view of a wringing member according to an embodiment of the present invention, wherein the wringing member is a wringing projection.

Fig. 8 is a schematic structural view of a squeezing head in the second embodiment of the present invention.

Detailed Description

The invention will be further described with reference to the accompanying drawings:

the placement position and direction of the cleaning bucket in the drawings are only for reference, and the directions of front, rear, left, right, up and down in the embodiments are defined with reference to the detailed explanation.

The inner wall of the through opening 231 facing the bottom surface of the foam cotton head 122 is a front wall, the inner wall opposite to the front wall is a rear wall, the inner wall between the front wall and the rear wall is a side wall, and the side wall is divided into a left side wall and a right side wall. The foaming cotton head 122 is installed on the mount pad 121, and the foaming cotton head 122 is rectangular structure, and to the foaming cotton head 122, the foaming cotton head 122 surface 360 degrees all can be used to the cleaning effect, in order to distinguish the surface relation of different orientations on the foaming cotton head 122, specifically named as follows: the surface of the foam cotton head 122 fixed with the mounting seat 121 is a mounting surface, and the surface of the foam cotton head 122 back to the mounting seat 121 is a bottom surface; the left side and the right side are respectively arranged at the two axial sides of the foaming cotton head 122, and the two axial sides of the foaming cotton head 122 mean that the left surface of the foaming cotton head 122 is the left side and the right surface of the foaming cotton head 122 is the right side when an observer faces the bottom surface of the foaming cotton head 122 by taking the length direction of the foaming cotton head 122 as an axis; the surface of the foam tip 122 at both axial ends is not particularly described since it has a small area. The cross-sectional shape of the foam cotton head 122 can be a rectangular structure, and can also be a circular or drop shape, and at this time, the left side, the bottom side and the right side of the foam cotton head 122 can be transited through an arc-shaped surface, but the division of the left side, the bottom side and the right side is not affected.

The first embodiment is as follows: as shown in fig. 1 to 6, the embodiment includes a cleaning barrel 9 and a mop, the mop includes a mop rod 11 and a mop head 12 movably connected to a lower end of the mop rod 11, the mop head 12 includes a mounting seat 121 movably connected to the mop rod 11 and a foam cotton head 122 fixed on the mounting seat 121, the foam cotton head 122 includes a rubber plate and a foam cotton body fixed on the rubber plate, and the rubber plate is fixed to the mounting seat 121, so that the foam cotton head 122 is fixed to the mounting seat 121, and the mop head 12 can rotate to a position where its length direction is substantially parallel to the mop rod 11. The wringing device 2 for wringing the foaming cotton head 122 is installed at the opening of the cleaning barrel 9, the wringing device 2 comprises a wringing head erected at the opening of the cleaning barrel 9, the wringing head 23 is provided with a penetrating opening 232 for the foaming cotton head 122 to penetrate through, a passage for the foaming cotton head 122 to penetrate through in the penetrating opening 233 is a wringing passage, a wringing component for wringing the surface of the foaming cotton head 122 penetrating through the penetrating opening 233 is arranged in the wringing passage, and the squeezed liquid flows into the cleaning barrel 9 along with the trend. The wringing component 3 comprises a turning plate 31 which is rotatably arranged at the front wall through a hinge shaft 311, a wringing roller 312 is arranged at a position on the turning plate 31 close to the rear wall, the wringing roller 312 is in hinged fit with the turning plate 31, the wringing roller 312 rotates around the hinge shaft 311 along with the turning plate 31 and has a wringing position for squeezing the bottom surface of the foaming cotton head 122 which passes through the through hole 231. Here, the squeezing position means that when the foam head 122 moves from bottom to top, the distance between the squeezing roller 312 and the rear wall is kept constant, so that the squeezing roller 312 and the rear wall clamp the mop head 12 and the bottom surface of the foam head 122 is squeezed by the roller surface of the squeezing roller 312. When the wringing roller 312 is located at the wringing position, a wringing channel 313 is formed between the wringing roller 312 and the rear wall for the foam cotton head 122 to pass through from bottom to top. A torsion spring 32 is mounted on the hinge shaft 311, and the torsion spring 32 is used for driving the flap 31 to swing upward. Meanwhile, a limit block 33 is further installed in the upward turning direction of the turning plate 31, the limit block 33 is fixed on the inner wall of the penetrating port 231, and in the upward swinging process of the turning plate 31, the limit block is used for preventing the turning plate 31 from swinging over and exceeding the water squeezing position. A squeezing plate 34 is further installed below the wringing roller 312, and the squeezing plate 34 is fixedly connected with the turning plate 31 and gradually inclines towards the center of the wringing channel 312 from bottom to top. The rightmost position of the pressing plate 34 does not exceed the rightmost position of the wringing roller 312 in the vertical direction. In order to ensure that the turning plate 31 is always forced to swing upwards in the process of pulling the foaming cotton head 122 upwards, the axial position of the wringing roller 312 is higher than the axial position of the hinge shaft 311. In addition, torsion spring 32 may be replaced with another type of spring as long as it can drive flap 31 to swing around hinge shaft 311 toward the wringing position, which is upward swing in the drawing.

As shown in fig. 7, in this embodiment, the wringing roller 312 can be replaced with a wringing projection 317, and the surface of the wringing projection 317 for squeezing the foam cotton head 122 is a smooth arc structure having a circular arc. In the vertical direction, the center of the arc structure is higher than the axis of the hinge shaft 311.

When the wringing roller 312 rotates to the wringing position, the wringing roller 312 begins to squeeze the bottom surface of the foam cotton head 122. As shown in the figure, when the turning plate 31 swings to the wringing position, the turning plate 31 cannot swing to the direction of the stopper 33 due to the blocking effect of the stopper 33, and according to the foregoing description, the stopper 33 is at the position above the turning plate 31, so that the stopper 33 is used for limiting the turning plate 31 to continuously swing upwards. If stop 33 is located below flap 31 and torsion spring 32 acts to drive flap 31 with a tendency to swing downward, stop 33 should act to limit flap 31 from continuing to swing downward.

In the present embodiment, there are multiple alternatives regarding the structure of the position limiting device, which are also disclosed and belong to the prior art, and therefore, only the illustration is given here. The stopper 33 in this embodiment functions to limit the turning of the flap 31, and alternative stopper means include several forms in order to achieve this stopper effect. If the limiting device is, mutually matched positioning lugs are respectively convexly arranged on the inner walls of the turning plate 31 and the through opening 231, when the turning plate 31 rotates to the wringing position, the positioning lugs on the turning plate 31 are just abutted against the positioning lugs at the through opening 231, so that the turning plate 31 is kept relatively static at the wringing position, and the wringing roller 312 is further ensured to roll, extrude and wring the bottom surface of the foaming cotton head 122. Or, the limiting device is that inclined grooves corresponding to two ends of the turning plate 31 are arranged in the through hole 231, two ends of the turning plate 31 are inserted into the inclined grooves, a movable space along the thickness direction of the turning plate 31 is arranged between the turning plate 31 and the inclined grooves, and the turning plate 31 is limited by the space of the inclined grooves in the rotating process, so that the limitation of the turning angle of the turning plate 31 is realized, and the turning plate 31 is further ensured to be positioned at the position of the water squeezing position in a relatively static manner. Or, the limiting device is that two ends of the turning plate 31 are provided with oblique grooves, the inner wall of the through hole 231 is provided with inserting plates corresponding to the two oblique grooves, the inserting plates are inserted into the oblique grooves, a moving space along the thickness direction of the turning plate 31 is formed between the inserting plates and the oblique grooves, and the turning plate 31 is limited by the matching of the inserting plates and the oblique grooves in the rotating process, so that the limitation of the turning angle of the turning plate 31 is realized, and the turning plate 31 is ensured to be positioned at the position of the water squeezing position in a relatively static manner. In addition, the limiting device can also have other forms, which are not described in detail herein.

Example two: the difference from the first embodiment mainly lies in the number and the position of the wringing elements 3. As shown in fig. 8, in the present embodiment, there are two water squeezing members 3, and the two water squeezing members 3 are symmetrically disposed at the through hole 231 and are used for squeezing two axial side surfaces of the foam cotton head 122 passing through the through hole 231. The components in each wringing component 3 are identical to those in the first embodiment in structure, and the only difference is that the two wringing components 3 are respectively located on two side walls (i.e., located on two axial sides of the foam cotton head 122, and on the left side wall and the right side wall of the through hole 231), the wringing roller 312 rotates around the hinge shaft 311 following the turning plate 31, and has a wringing position for squeezing the side surface of the foam cotton head 122 passing through the through hole 231, and when the wringing roller 312 is located at the wringing position, a wringing channel 313 for the foam cotton head 122 to pass through from bottom to top is formed between the two wringing rollers 312. A squeezing plate 34 is respectively installed below each squeezing roller 312, and the squeezing plate 34 is fixedly connected with the turning plate 31 and gradually inclines towards the center of the squeezing channel 313 from bottom to top. In order to ensure that the turning plate 31 is always forced to swing upwards in the process of pulling the foaming cotton head 122 upwards, the axial position of the wringing roller 312 is higher than the axial position of the hinge shaft 311. In addition, torsion spring 32 may be replaced with another type of spring as long as it can drive flap 31 to swing around hinge shaft 311 toward the wringing position, which is upward swing in the drawing.

In this embodiment, the wringing roller 312 can be replaced by a wringing projection 317, the surface of the wringing projection 317 for squeezing the foam cotton head 122 is a smooth arc structure, and in the vertical direction, the center of the arc structure is higher than the axis of the hinge shaft 311.

In the above embodiments, the squeezing head 23 is installed on the cleaning barrel, and the foam cotton head 122 is driven to pass through the upper penetrating opening of the squeezing head and move back and forth, so that the squeezing head 23 squeezes the foam cotton head 122.

The orientations and positional relationships indicated by "front", "rear", "left", "right", "upper", "lower", and the like in the embodiments are based on the orientations and positional relationships shown in the drawings only for convenience in describing the present invention or simplifying the description, and do not indicate or imply that the referred devices or elements must have a specific orientation, be constructed in a specific orientation, and be operated, and thus, should not be construed as limiting the present invention. That is, the foam cotton head 122 passes through the through opening 231 from bottom to top or from top to bottom, and in the process of passing in a certain direction, the foam cotton head 122 is squeezed by the wringing member, and in which direction, the corresponding effect can be realized by adjusting the structure of the wringing member 3. The terms "mounted," "connected," and "coupled" are to be construed broadly and may, for example, be fixedly coupled, detachably coupled, or integrally coupled; either directly or through an intermediary, or the communication between the two elements.

Claims (10)

1. The utility model provides a burnisher for foaming cotton mop, includes clean bucket and mop, and this mop includes mop pole, and swing joint in the mop head of mop pole lower extreme, and the mop head includes the mount pad with mop pole swing joint and is fixed in the cotton head of foaming on the mount pad, and clean bucket department installs and is used for carrying out the crowded water installation of extruded to the cotton head of foaming, crowded water installation is including installing the crowded water head in clean bucket department, and crowded water head has the mouth of wearing that supplies the cotton head of foaming to pass, wears to be equipped with in the mouth and is used for carrying out extruded crowded water part to the cotton head surface of foaming of wearing the mouth, characterized by, just being the antetheca front wall in wearing the mouth, the inner wall relative with this antetheca position is the back wall, crowded water part includes:

the turning plate is arranged at the front wall through a hinge shaft in a rotating mode, a water squeezing piece is arranged at a position, close to the rear wall, of the turning plate, the water squeezing piece rotates around the hinge shaft along with the turning plate and is provided with a water squeezing position for squeezing the bottom surface of the foaming cotton head penetrating through the through opening, when the water squeezing piece rotates to the water squeezing position, a water squeezing channel for the foaming cotton head to penetrate through is formed between the water squeezing piece and the rear wall, and the water squeezing piece moves, squeezes and squeezes the bottom surface of the foaming cotton head;

the reset piece is used for driving the turning plate to swing upwards to a water squeezing position;

the limiting device is used for limiting the turnover plate at the water squeezing position to continuously swing;

the extrusion plate is arranged at the turning plate and positioned below the water squeezing piece, and the extrusion plate gradually inclines towards the center of the water squeezing channel from bottom to top and extends to the position of the water squeezing piece.

2. The cleaning tool for a foam mop of claim 1, wherein: the water squeezing piece is a water squeezing lug arranged on the turning plate or a water squeezing roller rotatably arranged on the turning plate.

3. The cleaning tool for a foam mop of claim 2, wherein: in the vertical direction, the axis position of the wringing roller is higher than the axis position of the articulated shaft.

4. The cleaning tool for a foam mop of claim 3, wherein: the surface of the water squeezing lug for squeezing the foaming cotton head is of a cambered surface structure, and the position of the circle center of the cambered surface structure is higher than the axis position of the hinged shaft in the vertical direction.

5. The cleaning tool for a foam mop of claim 1, wherein: the reset piece is a torsion spring sleeved on the hinged shaft.

6. A cleaning tool for a foam cotton mop comprises a cleaning barrel and the mop, wherein the mop comprises a mop rod and a mop head movably connected to the lower end of the mop rod, the mop head comprises a mounting seat movably connected with the mop rod and a foam cotton head fixed on the mounting seat, a water squeezing device for squeezing the foam cotton head is installed at the cleaning barrel and comprises a water squeezing head installed at the cleaning barrel, the water squeezing head is provided with a through hole for the foam cotton head to pass through, and a water squeezing part for squeezing the surface of the foam cotton head passing through the through hole is arranged in the through hole, the cleaning tool is characterized in that the inner wall of the through hole, which is opposite to the bottom surface of the foam cotton head, is a front wall, the inner wall opposite to the front wall is a rear wall, the inner wall between the front wall and the rear wall is a side wall, the number of the water squeezing parts is two, the two water squeezing parts are symmetrically arranged at the side wall of the through hole and are used for squeezing the two axial side faces of the foam cotton head passing through, each wringing component includes:

the turning plate is arranged at one side wall through a hinge shaft in a rotating way, the turning plate is provided with a water squeezing piece opposite to the other side wall, the water squeezing piece rotates around the hinge shaft along with the turning plate and is provided with a water squeezing position for squeezing the side surface of the foaming cotton head passing through the through opening, when the water squeezing piece rotates to the water squeezing position, a water squeezing channel for the foaming cotton head to pass through is arranged between the two water squeezing pieces, and the water squeezing piece moves, squeezes and squeezes the two side surfaces of the foaming cotton head;

the reset piece is used for driving the turning plate to swing upwards to a water squeezing position;

the limiting device is used for limiting the turnover plate at the water squeezing position to continuously swing upwards;

and the extrusion plate is arranged at the turning plate, positioned below the water squeezing piece and fixedly connected with the turning plate, gradually inclines towards the center of the water squeezing channel from bottom to top and extends to the position of the water squeezing piece.

7. The cleaning tool for a foam mop of claim 6, wherein: the water squeezing piece is a water squeezing lug arranged on the turning plate or a water squeezing roller rotatably arranged on the turning plate.

8. The cleaning tool for a foam mop of claim 7, wherein: in the vertical direction, the axis position of the wringing roller is higher than the axis position of the articulated shaft.

9. The cleaning tool for a foam mop of claim 6, wherein: the surface of the water squeezing lug for squeezing the foaming cotton head is of a cambered surface structure, and the position of the circle center of the cambered surface structure is higher than the axis position of the hinged shaft in the vertical direction.

10. The cleaning tool for a foam mop of claim 6, wherein: the reset piece is a torsion spring sleeved on the hinged shaft.

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