CN209808258U - Deformable extrusion flat mop burnisher of squeezer - Google Patents

Abstract

The utility model provides a deformable extrusion dull and stereotyped mop burnisher of squeezer, includes extrusion bucket, extrusion device, and extrusion device includes extrusion frame, squeezer, and the extrusion frame is located extrusion bucket top, sets up the extrusion mouth that supplies dull and stereotyped mop to pass on this extrusion frame, and the squeezer part overlaps with the extrusion mouth. The squeezer is provided with a flexible part, when the flat mop moves up in the squeezing opening, the squeezer interacts with the wiping object, the squeezer is positioned at a first position, and the overlapped part of the squeezer and the squeezing opening is smaller through the deformation of the flexible part, so that the squeezing action of the squeezer on the wiping object is smaller, and the mop bucket cannot be lifted up when the flat mop moves up; when the flat mop moves downwards in the extrusion opening, the squeezer interacts with the wiping object, the squeezer is located at the second position, the overlapped part of the squeezer and the extrusion opening is larger through the deformation of the flexible part, so that the squeezing acting force of the squeezer on the wiping object is larger, and the wiping object can be squeezed more sufficiently.

Description

Deformable extrusion flat mop burnisher of squeezer

Technical Field

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

Background

Chinese utility model patent with patent number 201620870001.6, the patent name "an extrusion flat mop burnisher" discloses a take flat mop of bucket establishes the extrusion frame on the bucket, establishes the squeezer in the extrusion frame, reciprocates in inserting the extrusion frame with flat mop when crowded water or wasing, extrudees through the wiper on the flat mop to realize crowded water and wash. The squeegee is not movable in this prior art and therefore does not change the amount of force applied to the wipe by the squeegee during the upward and downward movement of the flat mop.

Disclosure of Invention

In order to overcome the defects of the prior cleaning tool for extruding the flat mop, the utility model provides a deformable extruding flat mop with an extruder.

The technical proposal of the utility model for solving the technical problem is that: a cleaning tool with a deformable squeezer for squeezing a flat mop comprises a squeezing barrel and a squeezing device, wherein the squeezing device comprises a squeezing frame and a squeezer;

the squeezing flat mop cleaning tool also comprises a flat mop, wherein the flat mop comprises a mop rod and a flat mop head movably connected to the mop rod, the flat mop head is provided with a wiping object, and the flat mop head rotates to a squeezing state during water squeezing or cleaning;

the flat mop head and the mop rod in the squeezing state are jointly inserted into the squeezing opening and further inserted into the squeezing barrel, the wiping material faces the squeezer, the flat mop moves up and down, and the wiping material is squeezed by the squeezer;

the method is characterized in that: the squeezer is provided with a flexible part;

when the flat mop moves upwards in the squeezing opening, the squeezer interacts with the wiping object, the squeezer is at the first position, and the overlapping part of the squeezer and the squeezing opening is smaller through the deformation of the flexible part; when the flat mop moves downwards in the squeezing opening, the squeezer interacts with the wiping object, the squeezer is at the second position, and the overlapping part of the squeezer and the squeezing opening is larger through the deformation of the flexible part.

In the utility model, the squeezer is a scraper made of flexible material, which is connected to the squeezing frame and extends obliquely upwards when no external force is applied; when the flat mop moves upwards in the squeezing opening, the squeezer interacts with the wiping object, and the scraper is folded upwards; when the flat mop moves downwards in the squeezing opening, the squeezer interacts with the wiping object, and the scraper is folded downwards.

Or the squeezer comprises a hard scraper and a flexible part connected to the tail part of the hard scraper, wherein the flexible part is connected with the squeezing frame, and the squeezer extends obliquely upwards when no external force is applied; when the flat mop moves upwards in the squeezing opening, the squeezer interacts with the wiping object, and the flexible part deforms to enable the squeezer to be folded upwards; when the flat mop moves downwards in the squeezing opening, the squeezer interacts with the wiping object, and the flexible part deforms to enable the squeezer to be folded downwards.

Further, the wiper can be detachably connected to the flat mop head.

Furthermore, the wiping object is connected to the flat mop head through a magic tape.

Furthermore, inserting pieces are arranged at one end or two ends of the flat mop head, inserting pockets corresponding to the inserting pieces are arranged at the head of the wiping object, and the inserting pieces are inserted into the inserting pockets.

Furthermore, the insertion bag is an insertion bag cloth connected to the head of the wiping object, and partitions are arranged on the insertion bag cloth, so that the insertion bag is formed between the adjacent partitions.

Further, the partition is a sewing thread sewn on the pocket cloth and the wiping material, the pocket cloth is folded in half and then sewn at the head of the wiping material, and the folding crease 39 of the pocket cloth is an opening of the pocket.

Furthermore, the wiping material consists of three layers of wiping cloth, wherein the first layer is a wiping layer, the second layer is a water absorbing layer, the third layer is a connecting layer, the connecting layer is connected with the flat mop head, and the inserting bag is also arranged on the connecting layer.

Furthermore, the mop rod is composed of a plurality of detachable sectional rods.

Further, the lower extreme of mop pole articulates there is the connector, and the connector is articulated with dull and stereotyped mop head, the articulated direction between mop pole and the connector, the articulated direction between dull and stereotyped mop head and the connector are mutually perpendicular basically.

Furthermore, a rotation stopping mechanism is arranged between the mop rod and the flat mop head, the rotation stopping mechanism positions the flat mop head and the mop rod when water is squeezed so that the flat mop head can not rotate, and the flat mop head is separated from the control of the rotation stopping mechanism when mopping so that the flat mop head rotates to a mopping state.

Furthermore, the rotation stopping mechanism comprises a first positioning mechanism for preventing the flat mop head from rotating around a hinged position between the connector and the flat mop head, and a second positioning mechanism for preventing the flat mop head from rotating around a hinged position between the connector and the mop rod.

Furthermore, the connector is longitudinally hinged on the front surface of the flat plate mop head, the mop rod is transversely hinged with the connector, and the wiping object is arranged on the back surface of the flat plate mop head.

Furthermore, a first hinge seat and a second hinge seat which are raised are arranged on the flat mop head, and two ends of the connector are respectively hinged on the first hinge seat and the second hinge seat; the lower part of the mop rod is provided with a first positioning groove, the first hinge seat is embedded into the first positioning groove during water squeezing, the flat mop head is basically parallel to the mop rod at the moment, and the first positioning mechanism comprises the first positioning groove and the first hinge seat.

Furthermore, the second positioning mechanism comprises an iron block arranged on the mop rod and a magnet arranged on the flat mop head, the iron block and the magnet are attracted together when water is squeezed, and the iron block and the magnet are separated when the mop is used for mopping; or the second positioning mechanism comprises a magnet arranged on the mop rod and an iron block arranged on the flat mop head, the iron block is attracted with the magnet when water is squeezed, and the iron block is separated from the magnet when the mop is used for mopping.

Or the second positioning mechanism comprises an elastic buckle arranged on the flat mop head, the mop rod is buckled into the elastic buckle during water squeezing, and the mop rod is separated from the elastic buckle during mopping;

or the second positioning mechanism comprises an elastic buckle arranged on the mop rod, a buckle hole matched with the elastic buckle is arranged on the flat mop head, and the elastic buckle is buckled into the buckle hole during water squeezing; when the floor is mopped, the elastic buckle is separated from the buckle hole.

Or the second positioning mechanism comprises an elastic ejecting piece arranged in the mop rod, and the elastic ejecting piece is ejected on a connecting head between the flat mop head and the mop rod during wringing so as to position the flat mop head; when mopping, the mop rod or the flat mop head rotates to enable the flat mop head to be in a mopping state;

or the second positioning mechanism comprises an elastic ejecting piece arranged on a connecting head between the flat mop head and the mop rod, and the elastic ejecting piece is ejected on the mop rod during water squeezing so as to position the flat mop head; when mopping, the mop rod or the flat mop head rotates to enable the flat mop head to be in a mopping state.

Or the second positioning mechanism comprises a magic male buckle arranged on the flat mop head and a magic female buckle arranged on the mop rod, and the flat mop head and the mop rod are bonded and bound through the magic male buckle and the magic female buckle during water squeezing; when the floor is mopped, the magic male buckle is separated from the magic female buckle; or the second positioning mechanism comprises a magic female buckle arranged on the flat mop head and a magic male buckle arranged on the mop rod, and the flat mop head and the mop rod are bonded and bound through the magic male buckle and the magic female buckle during water squeezing; when the mop is used for mopping, the magic male buckle is separated from the magic female buckle.

Alternatively, the second positioning mechanism comprises: the mop rod is provided with a slot, the flat mop head is provided with a dowel, the end part of the dowel is provided with a bayonet, the end part of the slot is provided with a clamping point, the dowel enters the slot after the flat mop head rotates during wringing, and the clamping point is clamped in the bayonet; or the mop rod is provided with a plug point, the flat mop head is provided with a slot, and the plug point is clamped into the bayonet after the flat mop head rotates during water squeezing.

Furthermore, a limiting mechanism is arranged on the extrusion frame, and the extruder is limited by the limiting mechanism when being positioned at the second position.

Furthermore, when the squeezer is at the first position, the squeezer is limited by the limiting mechanism.

Furthermore, the limiting mechanism is a blocking part for blocking the squeezer.

Furthermore, the extrusion frame is also provided with an elastic component acting on the extruder, and the elastic component enables the extruder to have the tendency of being in the second position.

The beneficial effects of the utility model reside in that: when the flat mop moves upwards in the squeezing opening, the squeezer interacts with the wiping object, the squeezer is positioned at the first position, and the overlapped part of the squeezer and the squeezing opening is smaller through the deformation of the flexible part, so that the squeezing action of the squeezer on the wiping object is smaller, the mop bucket cannot be lifted up when the flat mop moves upwards, and simultaneously, the resistance of the flat mop moving upwards is smaller, so that the labor is saved; when the flat mop moves downwards in the extrusion opening, the squeezer interacts with the wiping object, the squeezer is located at the second position, and the overlapped part of the squeezer and the extrusion opening is larger through the deformation of the flexible part, so that the squeezing action force of the squeezer on the wiping object is larger, and the wiping object can be squeezed more fully.

Drawings

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

Fig. 2 is a schematic structural view of the flat mop of the present invention.

Figure 3 is a schematic view of the structure of a wipe.

Figure 4 is an exploded view of the wipe.

Fig. 5 is a schematic view of the structure of the pressing device.

Figure 6 is a cross-sectional view of the squeezer of flexible material in a first position.

Figure 7 is a cross-sectional view of the squeezer of flexible material in a second position.

Figure 8 is a cross-sectional view of a squeezer with a tail having a flexible portion in a second position.

Figure 9 is a cross-sectional view of a squeezer with a tail having a flexible portion in a first position.

Fig. 10 is a schematic structural view of the flat mop in a mopping state.

Fig. 11 is a schematic view of the flat mop of fig. 10 in a squeezable state.

Fig. 12 is a schematic structural view of another flat mop in a mopping state.

Fig. 13 is a schematic view of the flat mop of fig. 12 in a squeezable state.

Fig. 14 is a schematic structural view of another flat mop in a mopping state.

Fig. 15 is a schematic view of the flat mop of fig. 14 in a squeezable state.

Fig. 16 is a schematic structural view of another flat mop in a mopping state.

Fig. 17 is a schematic view of the flat mop of fig. 17 in a squeezable state.

Fig. 18 is a schematic structural view of another flat mop in a mopping state.

Fig. 19 is a schematic view of the flat mop of fig. 18 in a squeezable state.

Fig. 20 is a schematic view showing the inner structure of the flat mop of fig. 18 in a mopping state.

Fig. 21 is a schematic view showing the internal structure of the flat mop of fig. 18 in a squeezable state.

Fig. 22 is a schematic structural view of another flat mop in a mopping state.

Fig. 23 is a schematic view of the flat mop of fig. 22 in a squeezable state.

Fig. 24 is a schematic view showing the internal structure of the flat mop of fig. 22 in a mopping state.

Fig. 25 is a schematic view of the internal structure of the flat mop of fig. 22 in a squeezable state.

Fig. 26 is a schematic structural view of another flat mop in a mopping state.

Fig. 27 is a schematic view of the flat mop of fig. 26 in a squeezable state.

Fig. 28 is a cross-sectional view of fig. 27.

Detailed Description

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

Referring to fig. 1-28, a deformable extrusion dull and stereotyped mop burnisher of squeezer, including extrusion bucket 1, extrusion device 2 include extrusion frame 3, squeezer 4, extrusion frame 3 be located extrusion bucket 1 top, generally speaking extrusion frame 3 erects in the upper end of extrusion bucket 1, and can dismantle with extrusion bucket 1 and be connected, and the most commonly used connection mode of dismantling is the buckle connection. The extrusion frame 3 is provided with an extrusion opening 5 for the flat mop to pass through, and the part of the extruder 4 is overlapped with the extrusion opening 5. Typically, the extruder 4 is mounted on the extrusion frame 3, but the extruder 4 may also be mounted on the extrusion barrel 1.

The flat mop squeezing tool further comprises a flat mop, the flat mop comprises a mop rod 6 and a flat mop head 7 movably connected to the mop rod 6, a wiping object 8 is arranged on the flat mop head 7, the flat mop head 7 rotates to a squeezing state when water squeezing or cleaning is carried out, as an optimal implementation mode, when the flat mop head 7 is in the squeezing state, the flat mop head 7 rotates to be parallel or basically parallel to the mop rod 6, the length direction of the flat mop head 7 is consistent with that of the mop rod 6, and the flat mop head 7 is erected rather than horizontally.

In this embodiment, the movable connection mode of the flat mop head 7 and the mop rod 6 is as follows: the lower end of the mop rod 6 is hinged with a connector 9, the connector 9 is hinged with the flat mop head 7, the hinging direction between the mop rod 6 and the connector 9 and the hinging direction between the flat mop head 7 and the connector 9 are basically vertical to each other, as mentioned above as the best mode, when the flat mop head is in the state of being capable of being squeezed, the flat mop head is parallel or basically parallel to the mop rod after being rotated, and the length direction of the flat mop head is consistent with the mop rod, that is, the connecting head 9 is longitudinally hinged with the flat mop head 7 (i.e. the hinged axis of the two is along the length direction of the flat mop head), the connecting head 9 is transversely hinged with the mop rod 6 (i.e. the hinged axis of the two is along the width direction of the flat mop head), therefore, the flat mop head 7 can be rotated to be parallel or basically parallel to the mop rod 6, and the length direction of the flat mop head 7 is consistent with that of the mop rod 6. In this embodiment, the connecting head 9 is longitudinally hinged to the front surface of the flat mop head 7, and the wiping material 8 is arranged on the back surface of the flat mop head 7. Of course, wipes can be provided on both sides of a flat mop head.

In the embodiment, the rotation stopping mechanism is arranged between the mop rod 6 and the flat mop head 7, and after the flat mop head 7 is in a state of being capable of being squeezed during water squeezing, the rotation stopping mechanism positions the flat mop head 7 and the mop rod 6 so as to prevent the flat mop head 7 from rotating, and therefore water can be squeezed smoothly; when mopping, the flat mop head 7 is separated from the control of the rotation stopping mechanism so as to rotate to the mopping state.

The rotation stopping mechanism comprises a first positioning mechanism for preventing the flat mop head 7 from rotating around a hinged position between the connector 9 and the flat mop head 7, and a second positioning mechanism for preventing the flat mop head 7 from rotating around a hinged position between the connector 9 and the mop rod 6.

The flat mop head 7 in this embodiment is provided with a first hinge base 10 and a second hinge base 11 which are protruded, and two ends of the connector 9 are respectively hinged on the first hinge base 10 and the second hinge base 11; the lower part of the mop rod 6 is provided with a first positioning groove 12, the first hinge support 10 is embedded into the first positioning groove 12 during water squeezing, the flat mop head 7 is basically parallel to the mop rod 6 at the moment, and the first positioning mechanism comprises the first positioning groove 12 and the first hinge support 10, namely the first hinge support 10 is embedded into the first positioning groove 12 to prevent the flat mop head 7 from rotating around the hinged position between the connector 9 and the flat mop head 7.

The second positioning mechanism has various mechanism forms, which are respectively exemplified as follows:

as shown in fig. 10 and 11, the second positioning mechanism includes an iron block 13 disposed on the mop rod 6 and a magnet 14 disposed on the flat mop head 7, the iron block 13 and the magnet 14 attract each other when squeezing water, and the iron block 13 and the magnet 14 separate from each other when mopping. Or the second positioning mechanism comprises a magnet arranged on the mop rod and an iron block arranged on the flat mop head, the iron block is attracted with the magnet when water is squeezed, and the iron block is separated from the magnet when the mop is used for mopping.

As shown in fig. 16 and 17, the second positioning mechanism includes an elastic buckle 15 disposed on the flat mop head, the mop rod 6 is buckled into the elastic buckle 15 when squeezing water, and the mop rod 6 is separated from the elastic buckle 15 when mopping.

As shown in fig. 14 and 15, the second positioning mechanism includes a snap fastener 16 disposed on the mop rod 6, a fastening hole 17 adapted to the snap fastener 16 is disposed on the flat mop head 7, and the snap fastener 16 is fastened into the fastening hole 17 during squeezing water; when the mop is used for mopping, the elastic buckle 16 is separated from the buckle hole 17.

As shown in fig. 18-25, the positioning device comprises an elastic top member disposed in the mop rod 6, and the elastic top member is abutted against the connecting head 9 between the flat mop head 7 and the mop rod 6 during squeezing or cleaning so as to position the flat mop head 7. When mopping, the mop rod or the flat mop head rotates to enable the flat mop head to be in a mopping state. The elastic top piece can be a top rod 18, a spring 19 is arranged in the mop rod 6 and props against the top rod 18 to enable the top rod 18 to have a downward pressing trend, so that the top rod 18 is always pressed on the side surface of the connector 9, and when the flat mop head 7 rotates to be in a squeezing state, the top rod 18 is also tightly propped against the connector 9 to achieve positioning. In order to obtain better positioning effect, a plane part can be arranged on the side surface of the connecting head 9, and when the flat mop head 7 reaches a squeezing state, the ejector rod 18 is propped against the plane part, so that better positioning effect can be achieved. A groove can be arranged on the side surface of the connecting head 9, and when the flat mop head 7 reaches a squeezable state, the ejector rod 18 is ejected into the groove, so that a better positioning effect can be achieved. The provision of the above-mentioned planar portion or groove also has another effect: when mopping, if the mop rod 6 rotates to the critical part of the plane part or the groove (the critical part of the plane part or the groove and the other part of the connector), the flat mop head automatically rotates to a state of being capable of being squeezed under the action of the spring 19 after the flat mop is lifted.

The lower end of the top rod 18 can be provided with a wheel 20 or a convex rib 21, when the flat mop head 7 rotates to a squeezable state, the wheel 20 or the convex rib 21 enters the groove, and a better positioning effect can be achieved. At this time, another groove can be arranged at other positions of the connector, and the wheels or the convex ribs enter the groove to be beneficial to keeping the mopping state in the mopping state.

Certainly, the connecting head can also be provided with a convex point, the ejector rod is provided with a recess, and when the flat mop head reaches a squeezable state, the convex point enters the recess, so that a better positioning effect can be achieved.

As shown in fig. 12 and 13, the second positioning mechanism includes a male hook-and-loop fastener 22 disposed on the flat mop head 7 and a female hook-and-loop fastener 23 disposed on the mop rod 6, and the flat mop head 7 and the mop rod 6 are bonded and bound by the male hook-and-loop fastener 22 and the female hook-and-loop fastener 23 during squeezing; when the floor is mopped, the magic male buckle 22 is separated from the magic female buckle 23. Or the second positioning mechanism comprises a magic female buckle arranged on the flat mop head and a magic male buckle arranged on the mop rod, and the flat mop head and the mop rod are bonded and bound through the magic male buckle and the magic female buckle during water squeezing; when the mop is used for mopping, the magic male buckle is separated from the magic female buckle.

As shown in fig. 26-28, the second positioning mechanism comprises: the mop rod 6 is provided with a slot 24, the flat mop head 7 is provided with a dowel 25, the end of the dowel 25 is provided with a bayonet 26, the end of the slot 24 is provided with a clamping point 27, the dowel 25 enters the slot 24 after the flat mop head 7 rotates during water squeezing or cleaning, and the clamping point 27 is clamped in the bayonet 26; when mopping, the flat mop head or the mop rod is rotated to separate the clamping point 27 from the bayonet 26. The clip 27 may be fixed to the end of the slot or may be movable, for example, by providing a spring in the handle bar, which pushes a projection out to form a bump. Or the mop rod is provided with a plug point, the flat mop head is provided with a slot, and the plug point is clamped into the bayonet after the flat mop head rotates during water squeezing.

The mop 8 on the flat mop head 7 is squeezed or cleaned in the squeezing device and the squeezing barrel, the flat mop head 7 and the mop rod in the squeezing state are jointly inserted into the squeezing port 5 and further inserted into the squeezing barrel 1, the mop 8 faces the squeezer 4, the flat mop moves up and down, and the wiper 8 is squeezed by the squeezer 4.

The squeezer 4 has a flexible portion, when the flat mop moves upwards in the squeezing opening 5, the squeezer interacts with the wiper 8, the squeezer 4 is at the first position, and the overlapping part of the squeezer 4 and the squeezing opening 5 is small through the deformation of the flexible portion; when the flat mop moves downwards in the squeezing opening 5, the squeezer 4 interacts with the wiping object 8, and the squeezer 4 is in the second position, so that the overlapping part of the squeezer 4 and the squeezing opening 5 is larger through the deformation of the flexible part.

The specific form of the extruder can be as follows: as shown in fig. 6 and 7, the pressing device 4 is a scraper 28, the scraper 28 is made of a flexible material, the scraper 28 is connected to the pressing frame 3, and the scraper 28 extends obliquely upward when no external force is applied; when the flat mop moves upwards in the squeezing opening 5, the squeezer 4 interacts with the wiping object 8, and the scraper 28 is folded upwards; when the flat mop moves down in the squeezing opening 5, the squeezer 4 interacts with the wipe 8 and the squeegee 28 is folded down.

The specific form of the extruder can also be as follows: as shown in fig. 8 and 9, the squeezer 4 includes a hard scraper 29 and a flexible portion 30 connected to the tail of the hard scraper, the flexible portion 30 is connected to the squeezing frame 3, and the squeezer 4 extends obliquely upward when no external force is applied; when the flat mop moves upwards in the squeezing opening, the squeezer 4 interacts with the wiping object 8, and the flexible part deforms to enable the squeezer 4 to be folded upwards; when the flat mop moves downwards in the squeezing opening, the squeezer 4 interacts with the wiping object 8, and the flexible part deforms to enable the squeezer 4 to be folded downwards.

In this embodiment, the wipe 8 is removably attached to the flat mop head 7. The detachable connection between the wipe 8 and the flat mop head 7 can be: the wiping object 8 is connected to the flat mop head 7 through a magic tape.

The detachable connection between the wipe 8 and the flat mop head 7 can also be: one end or two ends of the flat mop head 7 are provided with inserting pieces, the head of the wiping object 8 is provided with inserting pockets 31 corresponding to the inserting pieces, the inserting pieces are inserted into the inserting pockets 31, and other parts of the wiping object can be connected with the flat mop head through magic tapes. The insert pocket 31 in this embodiment is an insert pocket cloth attached to the head of the wiper, and partitions 32 are provided on the insert pocket cloth, so that the insert pocket 31 is formed between adjacent partitions. The partition 32 in this embodiment is a sewing thread sewn on the pocket cloth and the wiper, the pocket cloth is folded in half and then sewn at the head of the wiper, and the fold of the pocket cloth is an opening of the pocket 31.

The wiping material in this embodiment is composed of three layers of wiping cloths, the first layer is a wiping layer 33, the second layer is a water absorbing layer 34 (usually sponge), the third layer is a connecting layer 35, the connecting layer 35 is connected with the flat mop head 7, and the insert bag 31 is also arranged on the connecting layer 35.

In this embodiment, the mop rod 6 is composed of a plurality of detachable sectional rods 38, and the sectional rods can be connected with each other by threads. In this embodiment, the other branch rods are connected through a screw thread, and the connection mode between the last branch rod and the penultimate branch rod is as follows: the last section of the branch rod is internally provided with an elastic sheet which is provided with a ball 36, the last section of the branch rod is provided with a hole, the ball is popped out from the hole, the penultimate section of the branch rod is provided with a clamping hole 37, and after the last section of the branch rod is inserted into the penultimate section of the branch rod, the ball 36 is clamped into the clamping hole 37.

In this embodiment, the extrusion frame is provided with a limiting mechanism, and the extruder 4 is limited by the limiting mechanism when being located at the second position. It is of course preferred that the squeezer 4 is also retained in the first position by the retention mechanism. The limiting mechanism is generally arranged to form a blocking part for blocking the squeezer.

In this embodiment, the pressing frame is further provided with an elastic component acting on the pressing device 4, the elastic component is usually a torsion spring, and the elastic component makes the pressing device 4 have a tendency to be in the second position. Therefore, when no external force is applied to the squeezer 4, the squeezer is in the second position, which is beneficial to resetting the squeezer when the flat mop is pulled upwards and pushed downwards.

Claims (24)

1. A cleaning tool with a deformable squeezer for squeezing a flat mop comprises a squeezing barrel and a squeezing device, wherein the squeezing device comprises a squeezing frame and a squeezer;

the squeezing flat mop cleaning tool also comprises a flat mop, wherein the flat mop comprises a mop rod and a flat mop head movably connected to the mop rod, the flat mop head is provided with a wiping object, and the flat mop head rotates to a squeezing state during water squeezing or cleaning;

the flat mop head and the mop rod in the squeezing state are jointly inserted into the squeezing opening and further inserted into the squeezing barrel, the wiping material faces the squeezer, the flat mop moves up and down, and the wiping material is squeezed by the squeezer;

the method is characterized in that: the squeezer is provided with a flexible part;

when the flat mop moves upwards in the squeezing opening, the squeezer interacts with the wiping object, the squeezer is at the first position, and the overlapping part of the squeezer and the squeezing opening is smaller through the deformation of the flexible part; when the flat mop moves downwards in the squeezing opening, the squeezer interacts with the wiping object, the squeezer is at the second position, and the overlapping part of the squeezer and the squeezing opening is larger through the deformation of the flexible part.

2. The squeezable flat mop cleaning implement of claim 1 wherein: the extruder is a scraper made of flexible materials, the scraper is connected to the extrusion frame, and the scraper extends obliquely upwards when no external force is applied;

when the flat mop moves upwards in the squeezing opening, the squeezer interacts with the wiping object, and the scraper is folded upwards; when the flat mop moves downwards in the squeezing opening, the squeezer interacts with the wiping object, and the scraper is folded downwards.

3. The squeezable flat mop cleaning implement of claim 1 wherein: the extruder comprises a hard scraper and a flexible part connected to the tail part of the hard scraper, the flexible part is connected with the extrusion frame, and the extruder extends obliquely upwards when no external force is applied;

when the flat mop moves upwards in the squeezing opening, the squeezer interacts with the wiping object, and the flexible part deforms to enable the squeezer to be folded upwards; when the flat mop moves downwards in the squeezing opening, the squeezer interacts with the wiping object, and the flexible part deforms to enable the squeezer to be folded downwards.

4. The squeezable flat mop cleaning implement of claim 1 wherein: the wiper is detachably connected to the flat mop head.

5. The squeezable flat mop cleaning implement of claim 4 further comprising: the wiping material is connected to the flat mop head through a magic tape.

6. The squeezable flat mop cleaning implement of claim 4 further comprising: the mop is characterized in that inserting pieces are arranged at one end or two ends of the flat mop head, inserting pockets corresponding to the inserting pieces are arranged at the head of the wiping object, and the inserting pieces are inserted into the inserting pockets.

7. The squeezable flat mop cleaning implement of claim 6 further comprising: the insertion bag is an insertion bag cloth connected to the head of the wiping object, and partitions are arranged on the insertion bag cloth, so that the insertion bag is formed between the adjacent partitions.

8. The squeezable flat mop cleaning implement of claim 7 further comprising: the partition is sewing threads sewn on the pocket cloth and the wiping material, the pocket cloth is folded in half and then sewn at the head of the wiping material, and the folding crease of the pocket cloth is an opening of the pocket.

9. The squeezable flat mop cleaning implement of claim 6 further comprising: the mop is characterized in that the mop is composed of three layers of wiping cloth, the first layer is a wiping layer, the second layer is a water absorbing layer, the third layer is a connecting layer, the connecting layer is connected with the flat mop head, and the inserting bag is also arranged on the connecting layer.

10. The squeezable flat mop cleaning implement of claim 1 wherein: the mop rod is composed of a plurality of detachable sectional rods.

11. The squeezable flat mop cleaning implement of claim 1 wherein: the lower extreme of mop pole articulates there is the connector, and the connector is articulated with dull and stereotyped mop head, the articulated direction between mop pole and the connector, the articulated direction between dull and stereotyped mop head and the connector are mutually perpendicular basically.

12. The squeezable flat mop cleaning implement of claim 11 wherein: the mop is characterized in that a rotation stopping mechanism is arranged between the mop rod and the flat mop head, the rotation stopping mechanism positions the flat mop head and the mop rod when water is squeezed so that the flat mop head can not rotate, and the flat mop head is separated from the control of the rotation stopping mechanism when mopping so that the flat mop head rotates to a mopping state.

13. The squeezable flat mop cleaning implement of claim 12 wherein: the rotation stopping mechanism comprises a first positioning mechanism for preventing the flat mop head from rotating around a hinged position between the connector and the flat mop head, and a second positioning mechanism for preventing the flat mop head from rotating around a hinged position between the connector and the mop rod.

14. The squeezable flat mop cleaning implement of claim 13 wherein: the connector vertically hinge joint in the front of dull and stereotyped mop head, the mop pole with the connector transversely hinge joint, the wiper locate the back of dull and stereotyped mop head.

15. The squeezable flat mop cleaning implement of claim 14 wherein: the flat mop head is provided with a first hinge seat and a second hinge seat which are raised, and two ends of the connector are respectively hinged on the first hinge seat and the second hinge seat;

the lower part of the mop rod is provided with a first positioning groove, the first hinge seat is embedded into the first positioning groove during water squeezing, the flat mop head is basically parallel to the mop rod at the moment, and the first positioning mechanism comprises the first positioning groove and the first hinge seat.

16. The squeezable flat mop cleaning implement of claim 14 wherein: the second positioning mechanism comprises an iron block arranged on the mop rod and a magnet arranged on the flat mop head, the iron block is attracted with the magnet when water is squeezed, and the iron block is separated from the magnet when the mop is used for mopping;

or the second positioning mechanism comprises a magnet arranged on the mop rod and an iron block arranged on the flat mop head, the iron block is attracted with the magnet when water is squeezed, and the iron block is separated from the magnet when the mop is used for mopping.

17. The squeezable flat mop cleaning implement of claim 14 wherein: the second positioning mechanism comprises an elastic buckle arranged on the flat mop head, the mop rod is buckled into the elastic buckle during water squeezing, and the mop rod is separated from the elastic buckle during mopping;

or the second positioning mechanism comprises an elastic buckle arranged on the mop rod, a buckle hole matched with the elastic buckle is arranged on the flat mop head, and the elastic buckle is buckled into the buckle hole during water squeezing; when the mop is used for mopping, the elastic buckle is separated from the buckle hole.

18. The squeezable flat mop cleaning implement of claim 14 wherein: the second positioning mechanism comprises an elastic ejecting piece arranged in the mop rod, and the elastic ejecting piece is ejected on a connecting head between the flat mop head and the mop rod during wringing so as to position the flat mop head; when mopping, the mop rod or the flat mop head rotates to enable the flat mop head to be in a mopping state;

or the second positioning mechanism comprises an elastic ejecting piece arranged on a connecting head between the flat mop head and the mop rod, and the elastic ejecting piece is ejected on the mop rod during water squeezing so as to position the flat mop head; when mopping, the mop rod or the flat mop head rotates to enable the flat mop head to be in a mopping state.

19. The squeezable flat mop cleaning implement of claim 14 wherein: the second positioning mechanism comprises a magic male buckle arranged on the flat mop head and a magic female buckle arranged on the mop rod, and the flat mop head and the mop rod are bonded and bound through the magic male buckle and the magic female buckle during water squeezing; when the floor is mopped, the magic male buckle is separated from the magic female buckle;

or the second positioning mechanism comprises a magic female buckle arranged on the flat mop head and a magic male buckle arranged on the mop rod, and the flat mop head and the mop rod are bonded and bound through the magic male buckle and the magic female buckle during water squeezing; when the mop is used for mopping, the magic male buckle is separated from the magic female buckle.

20. The squeezable flat mop cleaning implement of claim 14 wherein: the second positioning mechanism comprises: the mop rod is provided with a slot, the flat mop head is provided with a dowel, the end part of the dowel is provided with a bayonet, the end part of the slot is provided with a clamping point, the dowel enters the slot after the flat mop head rotates during wringing, and the clamping point is clamped in the bayonet;

or the mop rod is provided with a plug point, the flat mop head is provided with a slot, and the plug point is clamped into the bayonet after the flat mop head rotates during water squeezing.

21. The squeezable flat mop cleaning implement of claim 1 wherein: the extrusion frame is provided with a limiting mechanism, and the extruder is limited by the limiting mechanism when being positioned at the second position.

22. The squeezable flat mop cleaning implement of claim 21 wherein: when the squeezer is at the first position, the squeezer is limited by the limiting mechanism.

23. A squeezable squeeze flat mop cleaning implement as defined in claim 21 or claim 22 further characterized by: the limiting mechanism is a blocking part for blocking the squeezer.

24. The squeezable flat mop cleaning implement of claim 21 wherein: the extrusion frame is also provided with an elastic component acting on the extruder, and the elastic component enables the extruder to have the tendency of being in the second position.