CN211749396U - Mop water squeezing structure, mop bucket with water squeezing structure and cleaning tool - Google Patents

Abstract

The utility model relates to the technical field of mops, and discloses a mop wringing structure, a mop bucket with the wringing structure and a cleaning tool, which comprises a wringing frame and a wringing device, wherein the wringing frame is provided with a cleaning opening through which a flat mop head can pass, the wringing device is arranged at the lower part of one side edge of the cleaning opening, two ends of the wringing device are provided with sliding parts, the inner side wall of the wringing frame is symmetrically provided with guiding parts in sliding fit with the sliding parts, the sliding track between the sliding parts and the guiding parts is an inclined sliding track, the wringing device does reciprocating motion along the inclined sliding track so as to realize the adjustment of the width of the wringing opening, and two ends of the wringing device are also provided with reset elastic parts convenient for the; the utility model provides a pair of mop wringing structure, structural design is more reasonable, can guarantee to the stability of wringing in the dull and stereotyped mop cleaning process, operate more smoothly, laborsaving.

Description

Mop water squeezing structure, mop bucket with water squeezing structure and cleaning tool

Technical Field

The utility model relates to a mop technical field, concretely relates to mop wringing structure, mop bucket and burnisher that have wringing structure.

Background

The existing flat mop realizes the cleaning of the mop by inserting into a cleaning port arranged on a wringing frame and reciprocating in the cleaning port, a wringer is arranged below one side edge of the cleaning port, the horizontal distance between the wringer and the other side edge of the cleaning port forms a wringing port, the wringer is mainly used for realizing the wringing effect on the mop cover by matching with the cleaning port, at present, a mode of sliding matching the wringer and the wringing frame is adopted, mainly, two ends of the wringer are in sliding matching with chutes arranged on the inner side wall of the wringing frame, the mop does reciprocating motion in the cleaning port to drive the wringer to carry out lifting motion in a certain space, because the water squeezer and the water squeezing frame are in an inclined sliding fit mode, the reciprocating motion of the mop can drive the water squeezer to lift, therefore, the width of the water squeezing opening is changed adaptively, and the tightness of water squeezing can be adjusted.

The design that the width of the water squeezing opening is adjusted in a sliding fit mode has the problems that the width of the water squeezing opening can be adjusted adaptively in the vertical moving process of the water squeezing device due to the design of the chute, so that the water squeezing operation is completed, but the force application direction of the mop in the operation process is the vertical direction, namely the force application direction and the sliding direction of the water squeezing device are not on the same straight line, so that the sliding friction resistance of the water squeezing device in the force application process of the mop in the vertical direction is large, labor is wasted during the operation of the mop, the situation that the water squeezing device is blocked and cannot move is caused by unsmooth operation or even the occurrence of the situation that the water squeezing device is blocked, the water squeezing stability cannot be guaranteed by the water squeezing opening in the cleaning process of the mop, and the use effect is poor.

SUMMERY OF THE UTILITY MODEL

To the problem that exists among the above-mentioned prior art, the utility model provides a mop wringing structure, mop bucket and burnisher that have wringing structure, structural design is more reasonable, can guarantee to the stability of wringing in the dull and stereotyped mop cleaning process, operate more smoothly, laborsaving.

The utility model discloses the technical scheme who adopts does:

a mop squeezing structure comprises a squeezing frame and a squeezing device, wherein a cleaning opening through which a flat mop head can penetrate is formed in the squeezing frame, the squeezing device is arranged on the lower portion of one side edge of the cleaning opening, sliding parts are arranged at two ends of the squeezing device, guiding parts in sliding fit with the sliding parts are symmetrically arranged on the inner side wall of the squeezing frame, the sliding track between the sliding parts and the guiding parts is an inclined sliding track, the squeezing device does reciprocating motion along the inclined sliding track to achieve adjustment of the width of a squeezing opening, reset elastic parts convenient for resetting of the squeezing device are further arranged at two ends of the squeezing device, and the length of the sliding parts is larger than one fourth of the length of the guiding parts.

Because the sliding track between the sliding part and the guide part is an inclined sliding track, the width of the water squeezing opening can be adaptively adjusted in the up-and-down moving process of the water squeezing device, so that the water squeezing operation is completed, but the force application direction of the mop in the operation process is the vertical direction, namely the force application direction and the sliding direction of the water squeezing device are not in the same straight line, so that the sliding friction resistance of the water squeezing device in the process of applying force to the vertical direction of the mop is large, the mop is labor-consuming to operate, the operation is unsmooth, even the situation that the water squeezing device is clamped and cannot move occurs, the water squeezing stability in the cleaning process of the mop is poor, and the using effect is poor.

In the technical scheme, the structure is improved, namely, the corresponding reset elastic piece is designed between the water squeezing device and the water squeezing frame, and the reset elastic piece improves the flexibility of the lifting motion of the water squeezing device in the process that the water squeezing device is lifted along with the lifting motion of the mop.

The mop cleaning device comprises a mop frame, a water squeezing hole, a water squeezing device, a reset elastic piece, a water squeezing device and a water squeezing device, wherein the water squeezing device is arranged on the mop frame, the water squeezing device is arranged on the water squeezing device.

In addition, under the effect of the elastic part that resets, the wringing device elevating movement is more nimble, smooth and easy, the condition that the wringing device blocked can not appear to exert force too greatly, and wringing stability obtains guaranteeing, and the result of use is better.

Furthermore, in order to realize that the elastic direction of the reset elastic piece is consistent with the sliding direction of the sliding piece, a first elastic piece mounting position is arranged on the sliding piece, two second elastic piece mounting positions opposite to the first elastic piece mounting positions are arranged on the inner side wall of the water squeezing frame, a connecting line between the second elastic piece mounting positions of the first elastic piece mounting position is consistent with the length direction of the guide piece, and the reset elastic piece is arranged between the first elastic piece mounting position and the second elastic piece mounting position.

Furthermore, in order to facilitate installation of the reset elastic piece, the sliding piece is of a columnar structure in sliding fit with the guide piece, the first elastic piece installation position is a spring installation groove formed in the sliding piece, and the axis of the spring installation groove is consistent with the axis of the sliding piece.

Further, for the installation of the internal structure of the wringing frame, the wringing frame comprises an upper frame body and a lower frame body which are mutually buckled, the guide piece is arranged on the inner side wall of the lower frame body, and the second elastic piece is arranged at the lower end of the upper frame body.

Further, for the convenient installation that realizes the elastic component that resets, second elastic component installation position is for setting up the reference column at last support body lower extreme, the elastic component that resets is the spring, and the one end of spring is located spring mounting groove and with spring mounting groove's bottom butt, the other end of spring cup joints on the reference column that corresponds.

Furthermore, in order to conveniently draw out water in the spring mounting groove, ponding in the spring mounting groove is avoided, be equipped with the hole that leaks with the spring mounting groove intercommunication on the slider.

In order to better realize the drainage effect of the spring mounting groove, the water leakage holes comprise inner side water leakage holes facing the inner side of the cleaning opening and lower end water leakage holes arranged at the lower end of the sliding part.

Further, in order to avoid the phenomenon that the water squeezer turns over, the resetting of the water squeezer is difficult to realize, the sliding piece protrudes towards one direction or two directions relative to the water squeezer along the sliding direction, and the length of the sliding piece is greater than 15% of the length of the guide piece and less than 95% of the length of the guide piece.

It should be noted that, the relationship between the length of the sliding part and the length of the guiding part not only affects the stable lifting movement of the water squeezing device, but also can control the lifting height of the water squeezing device, i.e. the variation range of the width of the water squeezing opening, in order to better achieve the water squeezing effect and simultaneously ensure the stable lifting movement of the water squeezing device, the length of the sliding part is preferably selected to be greater than one half of the length of the guiding part and less than three quarters of the length of the guiding part.

In order to ensure the structural strength between the water squeezing device and the sliding part, the water squeezing device and the sliding part are of an integrated structure, and a reinforcing rib is arranged between the sliding part and the water squeezing device.

The utility model also provides a mop bucket with wringing structure, which comprises a bucket body and the mop wringing structure.

Furthermore, mop wringing structure sets up the upper end at the staving, the staving includes washing bucket, clear water bucket and slop pail, the washing mouth is located the top of washing bucket and washs mouthful and be equipped with the gyro wheel with the relative one side of wringing ware, the slop pail is located the one side of washing bucket, the clear water bucket is located the top of slop pail.

The idler wheels are symmetrically arranged on the lower frame body, a sewage collecting groove and a sewage outlet which leads sewage in the sewage collecting groove into the sewage barrel are formed in the lower frame body, and the water outlet end of the water squeezing device is located above the sewage collecting groove.

The utility model also provides a cleaning tool, including mop and mop bucket, the mop include the mop pole, the lower extreme swing joint of mop pole has dull and stereotyped mop head, the mop bucket do the mop bucket that has crowded water structure.

When the mop is cleaned, the flat mop head is inserted into the cleaning opening and reciprocates in the cleaning opening;

when the flat mop head moves downwards, the mop cloth on the mop head is contacted with the water squeezing device, the water squeezing device in the water squeezing structure moves downwards, so that the water squeezing opening is narrowed and reaches a limiting position, the opening width of the water squeezing opening is kept small, the limiting position is a descending limiting structure designed on the lower frame body, and the descending limiting structure is positioned below the water squeezing device to limit the descending state of the water squeezing device.

When the mop head moves upwards, the mop cloth on the mop head is contacted with the water squeezing device, the water squeezing device in the water squeezing structure rotates upwards, so that the water squeezing opening is widened and reaches a limiting position, the opening width of the water squeezing opening is kept larger, the limiting position is an ascending limiting structure designed on the upper frame body, and the ascending limiting structure is positioned above the water squeezing device to limit the ascending state of the water squeezing device.

The utility model has the advantages that: because the sliding track between the sliding part and the guide part is an inclined sliding track, the width of the water squeezing opening can be adaptively adjusted in the up-and-down moving process of the water squeezing device, so that the water squeezing operation is completed, but the force application direction of the mop in the operation process is the vertical direction, namely the force application direction and the sliding direction of the water squeezing device are not in the same straight line, so that the sliding friction resistance of the water squeezing device in the process of applying force to the vertical direction of the mop is large, the mop is labor-consuming to operate, the operation is unsmooth, even the situation that the water squeezing device is clamped and cannot move occurs, the water squeezing stability in the cleaning process of the mop is poor, and the using effect is poor.

In the technical scheme, the structure is improved, namely, the corresponding reset elastic piece is designed between the water squeezing device and the water squeezing frame, and the reset elastic piece improves the flexibility of the lifting motion of the water squeezing device in the process that the water squeezing device is lifted along with the lifting motion of the mop.

The mop cleaning device comprises a mop frame, a water squeezing hole, a water squeezing device, a reset elastic piece, a water squeezing device and a water squeezing device, wherein the water squeezing device is arranged on the mop frame, the water squeezing device is arranged on the water squeezing device.

In addition, under the effect of the elastic part that resets, the wringing device elevating movement is more nimble, smooth and easy, the condition that the wringing device blocked can not appear to exert force too greatly, and wringing stability obtains guaranteeing, and the result of use is better.

Drawings

FIG. 1 is a schematic structural view of a mop wringing structure of the present invention;

FIG. 2 is an enlarged view at A in FIG. 1;

FIG. 3 is a top view of the mop wringing structure of the present invention;

FIG. 4 is a cross-sectional view taken at A-A of FIG. 3;

FIG. 5 is a bottom view of the mop wringing structure of the present invention;

FIG. 6 is a cross-sectional view taken at B-B of FIG. 5;

FIG. 7 is a schematic structural view of the installation state of the upper frame body and the wringer of the present invention;

FIG. 8 is an enlarged view at B in FIG. 7;

FIG. 9 is a schematic structural view of the middle and lower frame body of the present invention;

FIG. 10 is a schematic structural view showing the installation state of the lower frame and the wringer of the present invention;

FIG. 11 is a schematic structural view showing a state where the blade wiping structure is inserted into the flat planker head of the present invention;

fig. 12 is a sectional view showing a state where the flat planker head is inserted into the wiper structure of the present invention;

FIG. 13 is a schematic view of a mop bucket with a wringing structure according to the present invention;

FIG. 14 is a schematic view of the cleaning tool of the present invention;

fig. 15 is a schematic structural view of the guide member and the sliding member in a fitting relationship according to embodiment 8 of the present invention;

fig. 16 is another schematic structural view of the guide member and the sliding member in the engaging relationship according to embodiment 8 of the present invention;

fig. 17 is a schematic structural view of the connection relationship between the wringer and the sliding member according to embodiment 8 of the present invention.

In the figure: a wringing frame 1; an upper frame body 1.1; a lower frame body 1.2; 1.2.1 sewage collecting tank; a sewage outlet 1.2.2; a wringer 2; a cleaning port 3; a guide 4; a slider 5; a return elastic member 6; a spring mounting groove 7; a positioning column 8; inner side water leakage holes 9; a lower water leakage hole 10; a barrel body 11; a cleaning barrel 11.1; a clear water barrel 11.2; a sewage bucket 11.3; a flat mop head 12; a downlink limiting structure 13; an upstream limit structure 14; the scraping teeth 15; a roller 16; and a reinforcing rib 17.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are some, but not all, embodiments of the present invention. The components of embodiments of the present invention, as generally described and illustrated in the figures herein, may be arranged and designed in a wide variety of different configurations.

Thus, the following detailed description of the embodiments of the present invention, presented in the accompanying drawings, is not intended to limit the scope of the invention, as claimed, but is merely representative of selected embodiments of the invention. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts belong to the protection scope of the present invention.

It should be noted that, in the present invention, the embodiments and features of the embodiments may be combined with each other without conflict.

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

Example 1:

as shown in fig. 1 to 12, the embodiment provides a mop squeezing structure, which includes a squeezing frame 1 and a squeezing unit 2, wherein a cleaning opening 3 through which a flat mop head 12 can pass is formed in the squeezing frame 1, the squeezing unit 2 is disposed at a lower portion of one side of the cleaning opening 3, sliding members 5 are disposed at two ends of the squeezing unit 2, guide members 4 slidably engaged with the sliding members 5 are symmetrically disposed on an inner side wall of the squeezing frame 1, a sliding track between the sliding members 5 and the guide members 4 is an inclined sliding track, the squeezing unit 2 reciprocates along the inclined sliding track to adjust a width of the squeezing opening, return elastic members 6 facilitating return of the squeezing unit 2 are further disposed at two ends of the squeezing unit 2, and a length of the sliding member 5 is greater than a quarter of a length of the guide member 4.

Because the sliding track between the sliding part 5 and the guide part 4 is an inclined sliding track, the width of the water squeezing opening can be adaptively adjusted in the up-and-down moving process of the water squeezing device 2, so that the water squeezing operation is completed, but the force application direction of the mop in the operation process is the vertical direction, namely the force application direction and the sliding direction of the water squeezing device 2 are not in the same straight line, so that the sliding friction resistance of the water squeezing device 2 in the process of applying force to the mop in the vertical direction is larger, the mop is labor-consuming to operate, the operation is unsmooth, even the situation that the water squeezing device 2 is blocked and cannot move occurs, the water squeezing stability in the process of cleaning the mop is poorer, and the using effect is poor.

In the technical scheme, the structure is improved, namely, the corresponding reset elastic piece 6 is arranged between the water squeezing device 2 and the water squeezing frame 1, and the reset elastic piece 6 improves the flexibility of the lifting motion of the water squeezing device 2 in the process that the water squeezing device 2 lifts along with the lifting motion of the mop.

That is to say, when the wringing device 2 moves down to the limit position along with the mop, a wringing action is completed at the moment, and the state is also the state of the minimum width of the wringing port, then the mop moves up, because the width of the wringing port is small, and the mop wringing device 2 is lifted up under the driving of the mop, the friction force between the wringing device 2 and the wringing frame 1 needs to be overcome, so that the mop can be lifted out of the cleaning port 3 by applying a large force.

In addition, under the effect of the elastic part 6 that resets, the elevating movement of the wringing device 2 is more flexible and smooth, the situation that the wringing device 2 is blocked due to overlarge force application can not occur, the wringing stability is ensured, and the using effect is better.

Example 2:

this embodiment is optimized based on embodiment 1 described above.

In order to realize that the elastic direction of the reset elastic piece 6 is consistent with the sliding direction of the sliding piece 5, a first elastic piece mounting position is arranged on the sliding piece 5, two second elastic piece mounting positions opposite to the first elastic piece mounting positions are arranged on the inner side wall of the wringing frame 1, a connecting line between the first elastic piece mounting positions is consistent with the length direction of the chute 4, and the reset elastic piece 6 is arranged between the first elastic piece mounting position and the second elastic piece mounting positions.

Example 3:

this embodiment is optimized based on embodiment 2 described above.

In order to facilitate installation of the return elastic member 6, the guide member 4 is an inclined sliding groove, the sliding member 5 is a columnar structure which is in sliding fit with the inclined sliding groove, it should be noted that the sliding member 5 may be a square column or a cylinder, the shape is not limited too much, the first elastic member installation position is a spring installation groove 7 which is arranged inside the sliding member 5, and the axis of the spring installation groove 7 is consistent with the axis of the sliding member 5.

Example 4:

this embodiment is optimized based on embodiment 3 described above.

For the installation of convenient 1 inner structure to crowded water frame, crowded water frame 1 includes last support body 1.1 and lower support body 1.2 of mutual lock, and the spout setting is on the inside wall of support body 1.2 down to one side, and second elastic component installation position sets up the lower extreme at last support body 1.1.

Example 5:

this embodiment is optimized based on embodiment 4 described above.

For the installation of convenient realization to the elastic component 6 that resets, the second elastic component installation position is for setting up at the reference column 8 of 1.1 lower extreme of last support body, and elastic component 6 that resets is the spring, and the one end of spring is located spring mounting groove 7 and with the bottom butt of spring mounting groove 7, the other end of spring cup joints on the reference column 8 that corresponds.

Example 6:

this embodiment is optimized based on embodiment 5 described above.

In order to conveniently draw out water in the spring mounting groove 7 and avoid water accumulation in the spring mounting groove 7, the sliding part 5 is provided with a water leakage hole communicated with the spring mounting groove 7.

In order to better achieve the drainage effect of the spring installation groove 7, the water leakage holes include an inner side water leakage hole 9 facing the inside of the cleaning opening 3 and a lower end water leakage hole 10 provided at the lower end of the sliding member 5.

Example 7:

this embodiment is optimized based on embodiment 6 described above.

In order to avoid the phenomenon that the water squeezer 2 turns over and is difficult to reset the water squeezer 2, the sliding piece 5 protrudes towards one direction or two directions relative to the water squeezer 2 along the sliding direction, and the length of the sliding piece 5 is greater than 15% of the length of the inclined sliding chute and less than 95% of the length of the inclined sliding chute. In the present embodiment, the length of the slide 5 is 60% of the length of the inclined chute.

If the length of the sliding member 5 in the sliding direction is too short, the long-term mop presses downward to wipe water, which easily causes the sliding member 5 to be deformed or rubbed seriously, so that the water squeezer 2 rotates during the sliding process.

The length of the sliding piece 5 is greater than one half of the length of the inclined sliding groove, so that the overlapping surface of the sliding piece and the inclined sliding groove is longer, the strength of the sliding piece is increased, and the sliding piece 5 and the inclined sliding groove can slide more smoothly in a matched mode.

It should be noted that, the relationship between the length of the sliding member 5 and the length of the inclined chute not only affects the stable lifting movement of the water squeezer 2, but also can control the lifting height of the water squeezer 2, i.e. the variation range of the width of the water squeezing opening, in order to better achieve the water squeezing effect and ensure the stable lifting movement of the water squeezer 2, it is preferable to select that the length of the sliding member 5 is greater than one half of the length of the inclined chute and less than three quarters of the length of the inclined chute.

In order to ensure the structural strength between the water squeezer 2 and the sliding part 5, the water squeezer 2 and the sliding part 5 are of an integrated structure, and a reinforcing rib 17 is arranged between the sliding part 5 and the water squeezer 2.

Example 8:

this embodiment is optimized based on embodiment 2 described above.

As shown in fig. 15, the guiding element 4 is an oblique sliding column 18 installed on the wringing rack 1, the sliding element 5 is a sliding slot 19 installed on the wringing machine 1, and the elastic return element 6 is a spring sleeved at two ends of the oblique sliding column 18 and abutting against two ends of the sliding slot 19.

As shown in fig. 16, as shown in fig. 15, the guiding element 4 is an inclined sliding column 18 installed on the wringing rack 1, the sliding element 5 is a sliding sleeve 20 installed on the wringing machine 1, and the return elastic element 6 is a spring sleeved at two ends of the inclined sliding column 18 and abutted against two ends of the sliding sleeve 20.

It should be noted that, the shape of the sliding groove 19 and the shape of the sliding sleeve 20 may be circular or square, and the shape is not limited too much, and the shape of the corresponding oblique sliding column 18 may be cylindrical or square column, so that the sliding fit with the sliding groove 19 can be achieved.

The wringer 2 may be a wringing strip, a wringing sheet, or a rotatable wringing roller.

As shown in fig. 17, the wringer 2 may be connected to any position in the longitudinal direction of the slider 5, the wringer 2 may be connected to the middle portion of the slider 5, may be connected to a position near the upper end of the slider 5, or may be connected to a position near the lower end of the slider 5, and as shown in fig. 17, the wringer 2 is connected to a position near the lower end of the slider 5.

In order to avoid the phenomenon that the water squeezer 2 turns over and is difficult to reset the water squeezer 2, the sliding piece 5 protrudes relative to the water squeezer 2 along the sliding direction in one or two directions, and the length of the sliding piece 5 is greater than 15% of the length of the guide piece and less than 95% of the length of the guide piece. In the present embodiment, the length of the slide 5 is 60% of the length of the guide.

If the length of the sliding member 5 in the sliding direction is too short, the long-term mop presses downward to wipe water, which easily causes the sliding member 5 to be deformed or rubbed seriously, so that the water squeezer 2 rotates during the sliding process.

The length of the sliding part 5 is 15% greater than that of the guide part and is less than 95% of that of the guide part, so that the overlapping surface of the sliding part and the guide part is longer, the strength of the sliding part is increased, and the sliding part 5 and the guide part can slide more smoothly in a matching manner.

Example 9:

as shown in fig. 13, the present invention further provides a mop bucket with a wringing structure, which comprises a bucket body 11 and a mop wringing structure as in any one of embodiments 1-8.

The mop water squeezing structure is arranged at the upper end of the bucket body 11, the bucket body 11 comprises a cleaning bucket 11.1, a clear water bucket 11.2 and a sewage bucket 11.3, the cleaning opening 3 is positioned above the cleaning bucket 11.1, one side of the cleaning opening 3, which is opposite to the water squeezing device 2, is provided with a roller 16, the sewage bucket 11.3 is positioned at one side of the cleaning bucket 11.1, and the clear water bucket 11.2 is positioned above the sewage bucket 11.3.

The two idler wheels 16 are symmetrically arranged on the lower frame body 1.2, the lower frame body 1.2 is provided with a sewage collecting groove 1.2.1 and a sewage outlet 1.2.2 for leading the sewage in the sewage collecting groove 1.2.1 into the sewage barrel 11.3, and the water outlet end of the water squeezer 2 is positioned above the sewage collecting groove 1.2.1.

Example 10:

as shown in fig. 14, the present invention further provides a cleaning tool, which comprises a mop and a mop bucket, wherein the mop comprises a mop rod, the lower end of the mop rod is movably connected with a flat mop head 12, and the mop bucket is the mop bucket with the water squeezing structure in embodiment 9.

When the mop is cleaned, the flat mop head 12 is inserted into the cleaning opening 3 and reciprocates in the cleaning opening 3;

when the flat mop head 12 moves downwards, the mop cloth on the mop head contacts the water squeezing device 2, the water squeezing device 2 in the water squeezing structure moves downwards, so that the water squeezing opening is narrowed and reaches a limiting position, the opening width of the water squeezing opening is kept small, the limiting position is a descending limiting structure 13 designed on the lower frame body 1.2, and the descending limiting structure 13 is positioned below the water squeezing device 2 to limit the descending state of the water squeezing device 2.

When the mop head moves upwards, the mop cloth on the mop head is contacted with the water squeezing device 2, the water squeezing device 2 in the water squeezing structure rotates upwards, so that the water squeezing opening is widened and reaches a limiting position, the opening width of the water squeezing opening is kept larger, the limiting position is an ascending limiting structure 14 designed on the upper frame body 1.1, and the ascending limiting structure 14 is positioned above the water squeezing device 2 to limit the ascending state of the water squeezing device 2.

It should be noted that, a scraping tooth 15 for scraping and washing the mop on the flat mop head 12 is arranged on one side of the cleaning opening 3 on the lower frame body 1.2, the scraping tooth 15 is positioned below the wringing device 2, the flat mop head 12 is inserted into the cleaning opening 3, and the distance between the wringing device 2 and the mop is smaller than the distance between the scraping tooth 15 and the mop.

It should be noted that, the wringing structure in this design may not be designed on the mop bucket 11, but may also be directly designed as a wringing structure integrated with the mop, that is, the wringing structure is connected with an operating handle, the operating handle is an existing structure, the operating handle is sleeved on the mop rod, and the mutual motion between the wringing structure and the flat mop head 12 is realized by pushing the operating handle back and forth, so that the wringing effect is achieved, the wringing effect is good, and the operation is easy and labor-saving.

The present invention is not limited to the above-mentioned optional embodiments, and any other products in various forms can be obtained by anyone under the teaching of the present invention, and any changes in the shape or structure thereof, all the technical solutions falling within the scope of the present invention, are within the protection scope of the present invention.

Claims (10)

1. A mop water-squeezing structure is characterized in that: the mop squeezer comprises a wringing frame and wringers, wherein a cleaning opening through which a flat mop head can penetrate is formed in the wringing frame, the wringers are arranged on one side of the cleaning opening, sliding parts are arranged at two ends of each wringing device, guiding parts in sliding fit with the sliding parts are symmetrically arranged on the inner side wall of the wringing frame, the sliding track between the sliding parts and the guiding parts is an inclined sliding track, the wringers do reciprocating motion along the inclined sliding track to realize adjustment of the width of a wringing opening, and reset elastic parts convenient for the wringers to reset are further arranged at two ends of each wringing device.

2. The structure of claim 1, wherein: the water squeezing frame is characterized in that a first elastic piece mounting position is arranged on the sliding piece, two second elastic piece mounting positions opposite to the first elastic piece mounting position are arranged on the inner side wall of the water squeezing frame, a connecting line between the second elastic piece mounting positions is arranged in the first elastic piece mounting position and is consistent with the length direction of the guide piece, and the reset elastic piece is arranged between the first elastic piece mounting position and the second elastic piece mounting position.

3. The structure of claim 2, wherein: the guide piece is oblique spout, the slider is with oblique spout sliding fit's columnar structure, first elastic component installation position is the spring mounting groove who sets up in slider inside, the axis of spring mounting groove is unanimous with the axis of slider.

4. A mop wringing structure as in claim 3, wherein: the wringing frame comprises an upper frame body and a lower frame body which are mutually buckled, the inclined chute is arranged on the inner side wall of the lower frame body, and the second elastic piece mounting position is arranged at the lower end of the upper frame body.

5. The structure of claim 4, wherein: the second elastic part installation position is the reference column that sets up at last support body lower extreme, the elastic part that resets is the spring, and the one end of spring is located spring mounting groove and with spring mounting groove's bottom butt, the other end of spring cup joints on the reference column that corresponds.

6. A mop wringing structure as in claim 3, wherein: and the sliding piece is provided with a water leakage hole communicated with the spring mounting groove.

7. The structure of claim 1, wherein: the sliding piece protrudes towards one or two directions relative to the water squeezing device along the sliding direction, and the length of the sliding piece is larger than 15% of the length of the guide piece and smaller than 95% of the length of the guide piece.

8. A mop bucket with a water squeezing structure is characterized in that: comprising a bucket body and a mop wringing structure as claimed in any one of claims 1 to 7.

9. The mop bucket with a wringing structure of claim 8, wherein: the mop wringing structure is arranged at the upper end of the bucket body, the bucket body comprises a cleaning bucket, a clear water bucket and a sewage bucket, the cleaning opening is positioned above the cleaning bucket, one side of the cleaning opening, opposite to the wringing device, is provided with a roller, the sewage bucket is positioned on one side of the cleaning bucket, and the clear water bucket is positioned above the sewage bucket.

10. A cleaning implement characterized by: the mop comprises a mop rod, the lower end of the mop rod is movably connected with a flat mop head, and the mop bucket is the mop bucket with the water squeezing structure as claimed in any one of claims 8 or 9.

Images