CN111214187A - Squeeze Flat Mop - Google Patents

Abstract

The squeezing flat mop comprises a squeezing area, a water containing area and a flat mop, wherein a squeezing device is arranged on the squeezing area and comprises a squeezing frame, a squeezing port is formed in the squeezing frame, and a squeezing piece is rotatably connected to the squeezing frame; the flat mop comprises a mop rod and a flat mop head movably connected to the lower end of the mop rod, and wiping materials are arranged on the flat mop head; when water is squeezed, the flat mop head is inserted into the squeezing opening to move up and down; more than two extruded parts are arranged in parallel up and down between the extruded parts; when the wiping object extrudes and squeezes water, the flat mop head is inserted into the extrusion opening downwards, the extrusion part is driven to rotate downwards by the wiping object, so that the overlapping part of the extrusion part and the extrusion opening is enlarged, and the orientation of each extrusion part is the same; when the flat mop head moves upwards, the extrusion piece is driven by the wiper to rotate upwards, so that the overlapping part of the extrusion piece and the extrusion opening is reduced, and the direction of each extrusion piece is the same. The invention is provided with a plurality of rotating extrusion pieces, so that the wiping object can be more fully extruded.

Description

Squeezing flat mop

Technical Field

The invention relates to a squeezing flat mop.

Background

Chinese patent CN206080446U discloses a squeezing flat mop cleaning tool, which has a mop bucket having a squeezing area and a cleaning area, wherein the flat mop squeezes water in the squeezing area and cleans in the cleaning area. The mop barrel is provided with a smoothing squeezing device, and the flat mop is inserted into the smoothing squeezing device during water squeezing and cleaning to respectively squeeze water and squeeze and clean. The above-described squeeze flat mop cleaning tool also has disadvantages in that: the squeezing device of the opening smoothing squeezing device is not enough to squeeze the wiping object.

Disclosure of Invention

In order to overcome the above-mentioned disadvantages of the conventional squeeze flat mop, the present invention provides a squeeze flat mop capable of sufficiently squeezing a wipe.

The technical scheme for solving the technical problem is as follows: the squeezing flat mop comprises a squeezing area, a water containing area and a flat mop, wherein a squeezing device is arranged on the squeezing area and comprises a squeezing frame, a squeezing opening is formed in the squeezing frame, a squeezing piece is rotatably connected to the squeezing frame, and the squeezing piece partially extends into the squeezing opening;

the flat mop comprises a mop rod and a flat mop head movably connected to the lower end of the mop rod, and wiping materials are detachably arranged on the flat mop head;

when water is squeezed, the flat mop head rotates to a water squeezing state parallel or basically parallel to the mop rod, and the flat mop head is inserted into the squeezing port to move up and down to squeeze water of the wiping object by the squeezing piece;

the number of the extrusion parts is more than two, and the extrusion parts are arranged side by side up and down;

when the wiper is used for squeezing and squeezing water, the flat mop head is inserted into the squeezing opening in a downward direction, and the squeezing pieces are driven to rotate downward by the wiper, so that the overlapping parts of the squeezing pieces and the squeezing opening are enlarged, and the directions of the squeezing pieces are the same; when the flat mop head moves upwards, the extrusion piece is driven to rotate upwards through the wiper, so that the overlapping part of the extrusion piece and the extrusion opening is reduced, and the direction of each extrusion piece is the same.

In the invention, the water squeezing area is communicated with the water containing area, or the water squeezing area is isolated from the water containing area.

Further, the squeezing flat mop also comprises a water transfer mechanism, and water squeezed by the wiping material is transferred to the water containing area through the water transfer mechanism during squeezing.

Furthermore, the water transfer mechanism is a waterway channel arranged on the squeezing frame of the squeezing area. Or the water transfer mechanism is an electric water pump. Or the water transfer mechanism is a water pump driven by the flat mop head.

Further, the rotation axes of the extrusion pieces are parallel to each other.

Further, the extrusion piece is an extrusion plate.

Furthermore, the extrusion frame is provided with a limiting device, and after the extrusion piece rotates downwards, the limiting device limits and keeps a state that the extrusion piece and the extrusion opening overlap more parts.

Furthermore, two ends of the extrusion piece are respectively provided with a rotating pin, and the two rotating pins are respectively inserted into two end faces of the extrusion opening; or the extrusion frame is provided with protruding shafts which are respectively inserted into two ends of the extrusion piece.

Or the extrusion frame is provided with a pivoting seat, and the side edge of the extrusion piece is pivoted on the pivoting seat.

Or the extrusion frame is provided with a clamping seat, the clamping seat is provided with a bayonet, the extrusion piece is provided with a clamping shaft, and the clamping shaft is clamped in the bayonet of the clamping seat and then rotates.

Or the extrusion piece is connected with the extrusion frame through soft rubber, so that the extrusion piece can rotate.

Furthermore, the limiting device is a limiting seat, a limiting notch is formed in the limiting seat, the extrusion piece is located in the limiting notch, and the extrusion piece is limited when being touched with the limiting seat in the rotating process.

Or the limiting devices are limiting grooves arranged at two ends of the extrusion opening, and two ends of the extrusion piece are inserted into the limiting grooves.

Or the extrusion frame is provided with a blocking part for blocking the extrusion piece, and the blocking part forms the limiting device.

Further, after the extrusion piece rotates upwards, the extrusion piece is limited by the limiting device, so that the state that the overlapping part of the extrusion piece and the extrusion opening is less is maintained.

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.

Furthermore, 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 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, when the flat mop head is downwards inserted into the extrusion opening for the first time, the wiping materials on the downward flat mop head drive the extrusion pieces to rotate in sequence.

Furthermore, the wiping materials on the flat mop head which moves upwards during water squeezing drive the extrusion pieces to rotate simultaneously.

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 mop is used for mopping, 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.

Or 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 cleaning device is arranged on the cleaning area, the cleaning device comprises a cleaning frame, a cleaning opening is formed in the cleaning frame, a cleaning piece is rotatably connected to the cleaning frame, and the cleaning piece partially extends into the cleaning opening; when the mop is cleaned, the flat mop head rotates to a cleaning state parallel or basically parallel to the mop rod, and the flat mop head is inserted into the cleaning opening to move up and down to realize the squeezing cleaning of the cleaning piece on the wiping material.

Furthermore, the number of the cleaning areas is two, and the two cleaning areas are isolated from each other.

The invention has the beneficial effects that: a plurality of rotating extrusion pieces are arranged, so that the wiping object can be squeezed more fully.

Drawings

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

Fig. 2 is a schematic view of the construction of the mop bucket of the present invention.

Fig. 3 is a schematic view of the structure of the pressing device.

Fig. 4 is a sectional view of fig. 3.

Fig. 5 is a schematic structural view of the safety mop.

Fig. 6 is a schematic view of a flat mop head.

FIG. 7 is another schematic view of the installation of an extrusion.

FIG. 8 is another schematic view of the installation of an extrusion.

FIG. 9 is another schematic view of the installation of an extrusion.

FIG. 10 is another schematic view of the installation of an extrusion.

Fig. 11 is a schematic view of a structure of the position limiting device.

Fig. 12 is another schematic view of the spacing device.

Figure 13 is a schematic view of the back structure of a wipe.

Fig. 14 is a schematic view of the flat mop in a wringing condition.

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

Fig. 16 is an internal schematic view of the flat mop in the wringing position.

Fig. 17 is an internal schematic view of the flat mop in a mopping position.

Fig. 18 is another internal schematic view of the flat mop in the wringing position.

FIG. 19 is another internal schematic view of the flat mop in a mopping position.

Fig. 20 is another schematic view of the flat mop in the wringing position.

Fig. 21 is a schematic structural view of the flat mop of fig. 20 in a mopping state.

Fig. 22 is a cross-sectional view of fig. 21.

Detailed Description

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

Referring to fig. 1-22, the squeezing flat mop comprises a squeezing area 1, a water containing area 2 and a flat mop 3, wherein the squeezing area 1 and the water containing area 2 are isolated from each other, the squeezing area 1 and the water containing area 2 are arranged into two volume bodies which are not communicated with each other, the squeezing area 1 is used for squeezing water, so that the volume of the squeezing area can be smaller, and the water containing area 2 is used for containing water, so that the volume of the squeezing area can be larger. However, the water squeezing area and the water containing area can be communicated, and the water squeezing area and the water containing area are only different in position and are respectively located at different positions.

Crowded water district 1 on be equipped with extrusion device 4, extrusion device 4 including extrusion frame 5, extrusion frame 5 on seted up extrusion mouth 6, extrusion frame 5 on rotate and be connected with extruded article 7, 7 parts of extruded article stretch into extrusion mouth 6 in. The number of the extrusion parts 7 is more than two, the extrusion parts 7 are arranged side by side up and down, and the extrusion parts 7 are usually in the form of extrusion plates, but of course, other structural forms can also be adopted.

The flat mop comprises a mop rod 8 and a flat mop head 9 movably connected to the lower end of the mop rod 8, a wiping object 10 is arranged on the flat mop head 9, the wiping object 10 in the embodiment 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, and the connecting layer is connected with the flat mop head 8. Preferably, the mop rod 8 is composed of a plurality of detachable sectional rods, wherein the sectional rods are usually connected by threads, and the detachable sectional rods facilitate the packaging and transportation of products.

The mop rod and the flat mop rod head are movably connected in the following way: the lower extreme of mop pole 8 articulates there is connector 11, and connector 11 is articulated with dull and stereotyped mop head 9, usually speaking the articulated direction between mop pole 8 and the connector 11, the articulated direction between dull and stereotyped mop head 9 and the connector 11 are mutually perpendicular basically. The wipe 10 is typically removably attached to the flat mop head 9, and the removable attachment between the wipe 10 and the flat mop head 9 is typically by the following technique: the mop 10 is connected with the flat mop head 9 through a magic tape, or one end or two ends of the flat mop head 9 are provided with inserting pieces, the head of the mop is provided with inserting pockets 12 corresponding to the inserting pieces, the inserting pieces are inserted into the inserting pockets 12, and the detachable connection between the mop and the flat mop head can be realized by adopting the combination of the two modes.

In this embodiment, the insertion pocket 12 is a cloth of insertion pocket connected to the head of the wiper, and the insertion pocket cloth is provided with partitions 13, so that the insertion pocket 12 is formed between the adjacent partitions 13, the partitions 13 may be specifically configured as sewing threads sewn on the insertion pocket cloth and the wiper, the insertion pocket cloth is folded in half and then sewn on the head of the wiper, and the fold of the insertion pocket cloth is an opening of the insertion pocket.

When water is squeezed, the flat mop head 9 rotates to a water squeezing state parallel or basically parallel to the mop rod 8, and the flat mop head 9 is inserted into the squeezing port 6 to move up and down to squeeze the wiping materials 10 by the squeezing piece 7. When the wiper 10 squeezes and squeezes water, the flat mop head 9 is inserted into the squeezing opening downwards, the squeezing piece 7 is driven to rotate downwards by the wiper 10, so that the overlapping part of the squeezing piece 7 and the squeezing opening 6 is enlarged, and the directions of the squeezing pieces 7 are the same; when the flat mop head 9 moves upwards, the extrusion pieces 7 are driven by the wiper 10 to rotate upwards, so that the overlapping parts of the extrusion pieces 7 and the extrusion openings 6 are reduced, and the orientation of each extrusion piece 7 is the same. As an optimum manner, the rotation axes of rotation of the respective pressing members 7 are parallel to each other. When the flat mop head 9 is inserted into the extrusion opening 6 for the first time, the wiper 10 on the downward flat mop head 9 drives the extrusion members 7 to rotate in turn. The wipers on the flat mop head moving upwards during squeezing water drive the squeezing pieces 7 to rotate simultaneously.

The rotational connection of the extrusion may take a variety of configurations, some of which are listed below:

1. referring to fig. 7 and 11, the pressing member 7 is provided at both ends thereof with rotation pins 14, and the rotation pins 14 are inserted into both end surfaces of the pressing port 6, respectively.

2. Referring to fig. 8 and 12, the extrusion frame 5 is provided with protruding shafts 15, and the protruding shafts 15 are respectively inserted into both ends of the extrusion member 7.

3. Referring to fig. 9, the pressing frame 5 is provided with a pivot base 16, and the side of the pressing member 7 is pivoted on the pivot base 16.

4. Referring to fig. 10, a clamping seat 17 is arranged on the extrusion frame 5, a clamping opening 18 is arranged on the clamping seat, a clamping shaft 19 is arranged on the extrusion member 7, and the clamping shaft 19 is clamped in the clamping opening 18 of the clamping seat and then rotates.

5. The extrusion piece is connected with the extrusion frame through soft glue, so that the extrusion piece can rotate.

In this embodiment, the extrusion frame is provided with a limiting device, and after the extrusion member 7 rotates downwards, the limiting device limits and keeps a state that the extrusion member 7 and the extrusion opening 6 are provided with a plurality of overlapped parts. It is recommended to provide a resilient means (usually a torsion spring) between the squeezing frame 5 and the squeezing member 7, under the action of which the squeezing member 7 is in an initial state, i.e. in a state with a large number of parts overlapping the squeezing opening 6. Preferably, after the extrusion member is rotated upwards, the extrusion member is limited by the limiting device, so that the state that the overlapping part of the extrusion member 7 and the extrusion opening 6 is less is maintained. It is of course not essential that the position of the state where the overlapping portion of the pressing member and the pressing port is small is defined by the position restricting means.

The form of the limiting device is various, and the following lists several specific structural forms of the limiting device:

1. as shown in fig. 7, 8 and 10, the limiting device is a limiting seat 20, a limiting notch 21 is arranged on the limiting seat 20, the extrusion part 7 is partially positioned in the limiting notch 21, the extrusion part 7 is limited when contacting with the limiting seat 20 in the rotating process, an ear 22 is arranged on the extrusion part 7 in the embodiment, the extrusion part 7 is contacted with the end surface of the limiting notch through the ear 22 after being turned upwards when the flat mop goes upwards, and the extrusion part 7 is contacted with the other surface of the limiting notch after being turned upwards when the flat mop goes upwards.

2. As shown in fig. 11 and 12, the limiting means are limiting grooves 23 arranged at both ends of the extrusion port 6, both ends of the extrusion member are inserted into the limiting grooves 23, and the limiting grooves 23 limit the rotation angle of the extrusion member. In fig. 11, stopper plates 24 are provided at both ends of the extrusion member 7, the stopper plates 24 are inserted into the stopper grooves, and in fig. 12, both ends of the extrusion member 7 are directly inserted into the stopper grooves.

3. The extrusion frame is provided with a blocking part for blocking the extrusion piece, and the blocking part forms the limiting device.

The squeezing flat mop of the embodiment can also comprise a water transfer mechanism, and water squeezed by the wiping materials during squeezing is transferred to the water containing area through the water transfer mechanism, so that the water squeezing area is kept dry. The water transfer mechanism has various forms, for example, the water transfer mechanism is a water channel arranged on a squeezing frame of the water squeezing area, and water squeezed by the wiper flows to the water containing area through the water channel. Or the water transfer mechanism is an electric water pump. Or the water transfer mechanism is a water pump driven by the flat mop head.

As a preferable scheme, a rotation stopping mechanism is arranged between the mop rod 8 and the flat mop head 9, when the mop is used for squeezing water, the rotation stopping mechanism positions the flat mop head 9 and the mop rod 8 so as to make the flat mop head 9 non-rotatable, so that the water squeezing is facilitated, and when the mop is used for mopping, the flat mop head 9 is separated from the control of the rotation stopping mechanism so as to rotate to a mopping state. The rotation stopping mechanism preferably comprises a first positioning mechanism for preventing the flat mop head 9 from rotating around a hinged position between the connector 11 and the flat mop head 9, and a second positioning mechanism for preventing the flat mop head 9 from rotating around a hinged position between the connector 11 and the mop rod 8.

In this embodiment, the connecting head 11 is longitudinally hinged to the front surface of the flat mop head 9 (the longitudinal hinge means that the hinge shaft is hinged along the length direction of the flat mop head), the mop rod 8 is transversely hinged to the connecting head 11 (the transverse hinge means that the hinge shaft is hinged along the width direction of the flat mop head), and the wiping material 10 is disposed on the back surface of the flat mop head 9. The flat mop head 9 is provided with a first hinge seat 25 and a second hinge seat 26 which are protruded, and two ends of the connector 11 are respectively hinged on the first hinge seat 25 and the second hinge seat 26; the lower part of the mop rod 8 is provided with a first positioning groove 27, the first hinge seat 25 is embedded into the first positioning groove 27 during water squeezing, the flat mop head 9 is basically parallel to the mop rod 8 at the moment, and the first positioning mechanism comprises the first positioning groove 27 and the first hinge seat 25.

The second positioning mechanism can have various forms, and the following lists several structural forms of the second positioning mechanism:

1. 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.

2. 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.

3. 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.

4. 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.

5. 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;

6. 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.

7. As shown in fig. 14-19, the second positioning mechanism comprises an elastic top member disposed in the mop rod, and when the mop is squeezed, the elastic top member is abutted against the connecting head 11 between the flat mop head and the mop rod to position the flat mop head 9. When mopping, the mop rod 8 or the flat mop head 9 rotates to enable the flat mop head 9 to be in a mopping state. The elastic top piece can be a top rod 28, a spring 29 is arranged in the mop rod to push against the top rod 28 to enable the top rod 28 to have a downward pressing tendency, so that the top rod 28 is always pressed on the side surface of the connecting head 11, and when the flat mop head 9 rotates to be in a squeezing state, the top rod 28 is also tightly pressed on the connecting head 11 to enable the flat mop head to be positioned. In order to obtain better positioning effect, a plane part can be arranged on the side surface of the connecting head 11, and when the flat mop head 9 reaches a compressible state, the ejector rod top 28 is arranged on the plane part, so that better positioning effect can be achieved. A groove 32 can be arranged on the side surface of the connecting head 11, and when the flat mop head 9 reaches a squeezable state, the ejector rod 28 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 8 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 9 automatically rotates to a state of being capable of being squeezed under the action of the spring 29 after the flat mop is lifted.

The lower end of the top rod can be provided with a wheel 30 or a convex rib 31, when the flat mop head 9 rotates to a water squeezing state, the wheel 30 or the convex rib 31 enters the groove 32, 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.

8. The second positioning mechanism comprises an elastic ejecting piece arranged on a connecting head between the flat mop head and the mop rod, and when the wiping object is extruded, the elastic ejecting piece is ejected on the mop rod 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.

9. As shown in fig. 20-22, the mop rod 8 is provided with a slot 33, the flat mop head 9 is provided with a dowel 34, the end of the dowel 34 is provided with a slot 35, the end of the slot 38 is provided with a fastening point 36, when wiping materials are squeezed, the dowel 34 enters the slot 33 after the flat mop head 9 rotates, and the fastening point 36 is fastened in the slot 35; when mopping, the flat mop head or the mop rod is rotated to separate the clamping point 36 from the clamping groove 35. The clip 36 may be fixed to the end of the slot or may be movably arranged, for example, a spring may be arranged in the mop rod, and a plurality of springs may push out a bump to form a bump.

10. The mop rod is provided with a plug point, the flat mop head is provided with a slot, and the flat mop head is used for wiping articles

When water is squeezed, the flat mop head rotates and then the clamping point is clamped into the clamping opening; when mopping, the flat mop head or the mop rod is rotated to separate the clamping point from the bayonet.

Of course, a cleaning device can be arranged on the cleaning area, the cleaning device comprises a cleaning frame, a cleaning opening is formed in the cleaning frame, a cleaning piece is connected to the cleaning frame in a rotating mode, and the cleaning piece partially extends into the cleaning opening; when the mop is cleaned, the flat mop head rotates to a cleaning state parallel or basically parallel to the mop rod, and the flat mop head is inserted into the cleaning opening to move up and down to realize the squeezing cleaning of the cleaning piece on the wiping material.

Wherein the washing district can be equipped with two, mutual isolation between two washing districts, and a washing district is the water purification district, and a washing district is dirty water district.

Claims (39)

1. Squeeze the flat mop, including a water squeezing area, a water holding area, and a flat mop, the squeezing area is provided with a squeezing device, and the squeezing device includes a squeezing frame, and the squeezing frame is A extrusion port is opened, an extrusion part is rotatably connected to the extrusion frame, and a part of the extrusion part extends into the extrusion port; The flat mop comprises a mop rod, a flat mop head movably connected to the lower end of the mop rod, and a wiper is arranged on the flat mop head; When squeezing water, the flat mop head rotates to a squeezing state that is parallel or substantially parallel to the mop rod, and the flat mop head is inserted into the squeezing port and moves up and down to squeeze the wipes by the squeezing member. squeeze water; It is characterized in that: there are more than two extruded parts, and the extruded parts are arranged side by side up and down; When the wiper squeezes water, the flat mop head is inserted downward into the squeeze port, and the wiper drives the squeeze member to rotate downward, so that the overlapping portion of the squeeze member and the squeeze port increases. The orientation of each extrusion piece is the same; when the flat mop head goes up, the extruder is driven to rotate upward by the wiper, so that the overlapping part of the extrusion piece and the extrusion port is reduced, and the orientation of each extrusion piece is the same. 2 . The extruded flat mop according to claim 1 , wherein the water squeezing area and the water holding area communicate with each other. 3 . 3. The extruded flat mop according to claim 1, wherein the water squeezing area and the water holding area are isolated from each other. 4. The squeezing flat mop as claimed in claim 3, characterized in that: the squeezing flat mop further comprises a water transfer mechanism, and the water squeezed out by the wiper during squeezing is transferred to the water holding area through the water transfer mechanism middle. 5 . The extruded flat mop according to claim 4 , wherein the water transfer mechanism is a water channel provided on the extruded frame in the water squeezing area. 6 . 6. The extruded flat mop according to claim 4, wherein the water transfer mechanism is an electric water pump. 7 . The squeeze flat mop according to claim 4 , wherein the water transfer mechanism is a water pump driven by the flat mop head. 8 . 8 . The extruded flat mop according to claim 1 , wherein the rotational axes of the extruded parts are parallel to each other. 9 . 9 . The extruded flat mop according to claim 1 , wherein the extruded part is an extruded plate. 10 . 10 . The extruded flat mop according to claim 1 , wherein the extruding frame is provided with a limiting device, and after the extruding piece is rotated downward, the limiting device is used to limit the position. 11 . And keep the state where the extrusion part and the extrusion port overlap with many parts. 11 . The extruded flat mop according to claim 1 , wherein both ends of the extruding member are provided with rotating pins, and the two rotating pins are respectively inserted into the two end faces of the extrusion port; 11 . Alternatively, the extrusion frame is provided with protruding shafts, and the protruding shafts are respectively inserted into the two ends of the extrusion piece. 12 . The extruded flat mop of claim 1 , wherein the extruding frame is provided with a pivot seat, and the side edge of the extruding piece is pivotally connected to the pivot seat. 13 . 13. The extruded flat mop of claim 1, wherein the extruding frame is provided with a socket, the socket is provided with a bayonet, and the extruding member is provided with A clamping shaft, the clamping shaft is clamped into the bayonet of the clamping seat and then rotates. 14 . The extruded flat mop according to claim 1 , wherein the extruded piece is connected with the extruded frame through soft glue, so that the extruded piece can be rotated. 15 . 15. The extruded flat mop of claim 10, wherein the limiting device is a limiting seat, the limiting seat is provided with a limiting notch, and the extruding piece is located at the In the limiting notch, the extruding piece reaches the limiting position when it touches the limiting seat during the rotation process. 16. The extruded flat mop of claim 10, wherein the limiting device is a limiting groove provided at both ends of the extrusion port, and the two ends of the extrusion piece are inserted into the in the limit groove. 17. The extruded flat mop of claim 10, wherein the extruding frame is provided with a blocking portion that blocks the extruding piece, and the blocking portion forms the limiting portion. bit device. 18. The extruded flat mop as claimed in claim 10, wherein after the extruding piece is rotated upwards, it is limited by the limiting device, thereby maintaining the overlapping portion of the extruding piece and the extruding port less state. 19. The squeeze flat mop of claim 1, wherein the wiper is detachably connected to the flat mop head. 20. The extruded flat mop of claim 19, wherein the wiper is connected to the flat mop head by a Velcro. 21. The squeeze flat mop of claim 19, wherein one or both ends of the flat mop head are provided with inserts, the head of the wiper is provided with insert pockets corresponding to the inserts, and the Insert the insert into the insert pocket. 22. The squeeze flat mop as claimed in claim 21, characterized in that: the slip pocket is a slip pocket cloth connected to the head of the wiper, and a partition is provided on the slip pocket cloth, so that adjacent The said insert pocket is formed between the partitions. 23. The extruded flat mop according to claim 22, wherein the partition is a sewing thread sewn on the slip pocket cloth and the wiper, and the slip pocket cloth is folded in half and sewn on the head of the wiper part, the folded crease of the pocket cloth is the opening of the pocket. 24. The extruded flat mop of claim 19, wherein the wiper is composed of three layers of wiping cloth, the first layer is a wiping layer, the second layer is a water-absorbing layer, and the third layer is a connecting layer , the connecting layer is connected with the flat mop head, and the inserting pocket is also arranged on the connecting layer. 25. The extruded flat mop according to claim 1, wherein the mop rod is composed of several detachable segments. 26. The extrusion flat mop according to claim 1, wherein when the flat mop head is inserted downward into the extrusion port for the first time, the wiper on the downward flat mop head drives each extrusion member to rotate in sequence. 27. The extruded flat mop according to claim 1, wherein when squeezing water, the wiper on the head of the flat mop that goes upward drives each extruder to rotate simultaneously. 28. The extruded flat mop according to claim 1, wherein the lower end of the mop rod is hinged with a connecting head, the connecting head is hinged with the flat mop head, and the hinge direction between the mop rod and the connecting head, The hinge directions between the flat mop head and the connecting head are substantially perpendicular to each other. 29. The squeezing flat mop according to claim 28, characterized in that: a rotation stop mechanism is arranged between the mop rod and the flat mop head, and the rotation stop mechanism stops the flat mop when water is squeezed. The flat mop head is positioned between the head and the mop rod so that the flat mop head cannot be rotated. When mopping the floor, the flat mop head is separated from the control of the rotation stop mechanism and rotated to the mopping state. 30. The squeeze flat mop of claim 29, wherein the rotation stop mechanism comprises a first positioning mechanism for preventing the flat mop head from rotating around the hinge between the connector and the flat mop head and a second positioning mechanism for preventing the flat mop head from rotating around the hinge between the connector and the mop rod. 31. The squeeze flat mop according to claim 29, wherein the connecting head is longitudinally hinged on the front of the flat mop head, the mop rod is laterally hinged with the connecting head, and the The wipes are located on the back of the flat mop head. 32. The extruded flat mop according to claim 31, wherein the flat mop head is provided with a raised first hinge seat and a second hinge seat, and the two ends of the connecting head are respectively hinged at the on the first hinge seat and the second hinge seat; The lower part of the mop rod is provided with a first positioning groove, and the first hinge seat is embedded in the first positioning groove when squeezing water. At this time, the flat mop head is basically parallel to the mop rod, and the first positioning The mechanism includes the first positioning groove and the first hinge seat. 33. The squeezing flat mop of claim 31, wherein the second positioning mechanism comprises an iron block arranged on the mop rod, a magnet arranged on the flat mop head, and squeezes water. When the iron block is attracted to the magnet, the iron block is separated from the magnet when mopping the floor; Or the second positioning mechanism includes a magnet arranged on the mop rod and an iron block arranged on the mop head of the flat mop. When the iron block is separated from the magnet. 34. The squeezing flat mop of claim 31, wherein the second positioning mechanism comprises an elastic buckle provided on the flat mop head, and the mop rod is buckled into the mop when water is squeezed. In the elastic buckle, the mop rod is separated from the elastic buckle when mopping the floor; Or, the second positioning mechanism includes an elastic buckle provided on the mop rod, and the flat mop head is provided with a button hole adapted to the elastic buckle. When squeezing water, the elastic buckle Buckle into the button hole; when mopping the floor, the elastic buckle is released from the button hole. 35. The squeezing flat mop of claim 31, wherein the second positioning mechanism comprises an elastic top member disposed in the mop rod, and the elastic top member is pressed against the mop when water is squeezed. The flat mop head is positioned on the connecting head between the flat mop head and the mop rod; when mopping the ground, the flat mop head is in a mopping state after the mop rod or flat mop head is rotated; Alternatively, the second positioning mechanism includes an elastic top piece arranged on the connecting head between the flat mop head and the mop rod, and the elastic top piece is pressed against the mop rod when squeezing water, so as to prevent the flat mop head Positioning; when mopping the floor, the mop bar or the flat mop head is rotated to make the flat mop head in the mopping state. 36. The extruded flat mop of claim 31, wherein the second positioning mechanism comprises a male magic buckle provided on the flat mop head, a magic female buckle provided on the mop rod , when squeezing water, the flat mop head and the mop rod are bound by the magic male buckle and the magic female buckle; when mopping the floor, the magic male buckle is separated from the magic female buckle; Or, the second positioning mechanism includes a magic female buckle arranged on the flat mop head, a magic male buckle arranged on the mop rod, and the flat mop head and the mop rod pass through when water is squeezed. The magic male buckle and the magic female buckle are bonded and bound; the magic male buckle and the magic female buckle are disengaged when mopping the floor. 37. The extruded flat mop of claim 31, wherein the second positioning mechanism comprises: a slot is provided on the mop rod, a rib is provided on the flat mop head, The end of the insertion rib is provided with a bayonet, and the end of the slot is provided with a catch point. When the flat mop head is rotated, the insert rib enters the slot, and the catch point is inserted into the bayonet; Alternatively, the mop rod is provided with an insertion point, and the flat mop head is provided with a slot, and the flat mop head is rotated and locked into the bayonet when water is squeezed. 38. The squeeze flat mop according to claim 1, wherein a cleaning device is provided on the cleaning area, the cleaning device comprises a cleaning rack, and a cleaning port is opened on the cleaning rack, so The cleaning rack is rotatably connected with a cleaning piece, and part of the cleaning piece extends into the cleaning port; During cleaning, the flat mop head rotates to a cleaning state parallel or substantially parallel to the mop rod, and the flat mop head is inserted into the cleaning port and moves up and down to realize the squeezing cleaning of the wipes by the cleaning element. 39. The extruded flat mop of claim 38, wherein there are two cleaning areas, and the two cleaning areas are isolated from each other.

Images