CN221205314U - Mop cleaning module, mop barrel and mop - Google Patents

Abstract

The utility model discloses a mop cleaning module, a mop barrel and a mop, wherein the mop cleaning module comprises: the mop device comprises a bracket, wherein a through hole for inserting a mop plate is formed in the bracket, a wiper is arranged on at least one side of the through hole, the other side of the through hole opposite to the side provided with the wiper is a reference side, and the side adjacent to the side provided with the wiper is a mounting side; the scraping strip guide wheel is arranged at the installation side and is suitable for being matched with the scraping strip arranged on the side face of the mop plate, and the scraping strip guide wheel is used for rotating under the driving of the scraping strip. According to the mop cleaning module disclosed by the utility model, the scraping strip guide wheel is arranged, so that the scraping strip arranged on the side surface of the mop plate can be prevented from moving in the wearing mouth to generate larger friction force, the movement of the mop plate in the wearing mouth is easier and more labor-saving, and the use experience of a user is improved.

Description

Mop cleaning module, mop barrel and mop

The application is a divisional application, the application number of the main application is 202220775081.2, the application date is 2022-03-31, and the names are mop cleaning module, mop barrel and mop

Technical Field

The utility model relates to the technical field of cleaning tools, in particular to a mop cleaning module, a mop bucket and a mop.

Background

In the related art, the flat mop is widely applied to daily life due to the advantages of large cleaning area, convenient cleaning and the like, and some mops are cleaned by being provided with a cleaning barrel, and the cleaning barrel is repeatedly pulled to enable a scraper fixed on the barrel to clean the wiping object, or some mops are provided with water squeezing pieces on the rod to clean the wiping object through the movable water squeezing pieces.

But when the side of mop is provided with the strip that is used for scraping, the relative activity of mop and staving or wringing can lead to producing hard friction between strip and staving or the wringing, and then lead to the user to need exert great power just can accomplish the cleanness to the mop, user experience is not good.

Disclosure of utility model

The present utility model aims to solve at least one of the technical problems existing in the prior art. To this end, an object of the present utility model is to propose a mop cleaning module, a mop bucket and a mop.

According to an embodiment of the first aspect of the utility model, a mop cleaning module comprises: the mop comprises a bracket, wherein a through hole for inserting a mop plate is formed in the bracket, a water scraping piece for cleaning a mop of the mop plate is arranged on the arrangement side of the through hole, the water scraping piece is rotatably matched with the bracket through a rotating shaft, and the through hole further comprises a reference side opposite to the arrangement side and two installation sides adjacent to the arrangement side; the scraping strip guide wheel is arranged on the installation side, the rotating shaft of the scraping strip guide wheel is perpendicular to the rotating shaft of the scraping piece, and the scraping strip guide wheel is suitable for being matched with the scraping strip arranged on the side face of the mop plate in a butt joint mode and used for rotating under the driving of the scraping strip.

According to the mop cleaning module provided by the embodiment of the utility model, the scraping strip guide wheel which is abutted with the scraping strip on the side surface of the mop plate is arranged in the wearing mouth, so that the scraping strip can be prevented from moving in the wearing mouth to generate larger friction force, the movement of the mop plate in the wearing mouth is easier and more labor-saving, and the use experience of a user is improved.

In some embodiments, one of the scraper guide wheel and the bracket has a wheel shaft, and the other of the scraper guide wheel and the bracket has a shaft hole, the wheel shaft being mated with the shaft hole.

In some embodiments, the wheel axle is disposed at two ends of the scraping strip guide wheel, the mounting side of the bracket is provided with an avoidance gap, the axle hole is formed on two opposite side walls of the avoidance gap, and the scraping strip guide wheel is rotatably disposed at the avoidance gap.

In some embodiments, the bottom edge of the mounting side is recessed upward to form the relief notch.

In some embodiments, the outer surface of the scraper guide wheel forms an inwardly concave surface.

In some embodiments, the scraper bar guide wheel is a waist-shaped wheel.

A mop bucket according to an embodiment of the second aspect of the present utility model includes a bucket having an open-top treatment chamber, and a mop cleaning module according to an embodiment of the first aspect of the present utility model; the support is arranged at the top of the processing cavity, and the penetrating opening is communicated with the processing cavity.

According to the mop bucket provided by the embodiment of the utility model, the mop plate can be easily inserted and pulled out in the wearing mouth by adopting the mop cleaning module, so that the mop bucket is easy and labor-saving to clean, and the use experience of a user is improved.

In some embodiments, the treatment chamber comprises a cleaning chamber and a wringing chamber, and the support is provided with two through openings, and the two through openings respectively correspond to the cleaning chamber and the wringing chamber.

The mop comprises a mop rod, a mop plate and a water squeezing and stroking head, wherein the water squeezing and stroking head is arranged on the mop rod, one end, close to the mop plate, of the mop cleaning module according to the first aspect of the embodiment of the utility model is provided with the mop cleaning module, the mop plate can rotate relative to the mop rod between a use state and a cleaning state, and when the water squeezing and stroking head moves along the mop rod towards the direction, close to the mop plate, of the mop plate moves in the wearing mouth to clean the mop plate in the cleaning state.

According to the mop disclosed by the embodiment of the utility model, the mop plate can be easily inserted and pulled out in the wearing mouth by adopting the mop cleaning module, so that the mop is easy and labor-saving to clean, and the use experience of a user is improved.

According to the mop disclosed by the embodiment of the utility model, the mop plate is provided with the scraping strips for scraping water on two sides in the length direction.

Additional aspects and advantages of the utility model will be set forth in part in the description which follows, and in part will be obvious from the description, or may be learned by practice of the utility model.

Drawings

The foregoing and/or additional aspects and advantages of the utility model will become apparent and may be better understood from the following description of embodiments taken in conjunction with the accompanying drawings in which:

FIG. 1 is a schematic view of a mop cleaning module according to one embodiment of the present utility model in one view;

FIG. 2 is a schematic view of a mop cleaning module according to one embodiment of the present utility model in another view;

FIG. 3 is a schematic view of a mop cleaning module according to one embodiment of the present utility model in yet another view;

fig. 4 is a schematic structural view of a wiper member according to an embodiment of the present utility model;

FIG. 5 is a schematic view of the structure of an abutment guide wheel and a scraper bar guide wheel according to an embodiment of the utility model;

FIG. 6 is a schematic view of a figure-like fitting according to an embodiment of the present utility model;

FIG. 7 is a schematic view of a mop cleaning module according to another embodiment of the present utility model;

FIG. 8 is an enlarged view of the structure A of FIG. 7;

FIG. 9 is a schematic view of a mop cleaning module according to yet another embodiment of the present utility model;

FIG. 10 is a schematic view of a mop cleaning module according to still another embodiment of the present utility model;

FIG. 11 is a schematic view of a structure of a mop bucket according to one embodiment of the present utility model;

FIG. 12 is a schematic view of a mop bucket according to another embodiment of the present utility model;

FIG. 13 is a schematic view of the embodiment of FIG. 12 from another perspective;

FIG. 14 is a partial schematic view of the embodiment of FIG. 12;

FIG. 15 is an enlarged view of the B structure of FIG. 14;

FIG. 16 is a schematic view of a mop bucket according to yet another embodiment of the present utility model;

FIG. 17 is a schematic view of a structure of a mop bucket according to still another embodiment of the present utility model;

FIG. 18 is a schematic view of a mop bucket according to yet another embodiment of the present utility model;

FIG. 19 is a partial schematic view of the embodiment shown in FIG. 18;

FIG. 20 is a schematic view of a structure of a mop bucket according to still another embodiment of the present utility model;

Fig. 21 is a schematic structural view of a mop according to an embodiment of the present utility model.

Reference numerals:

the mop cleaning module 100, the mop bucket 200, the mop 300,

The bracket 10, the mounting flange 101, the through hole 11, the mounting side 111, the reference side 112, the mounting side 113, the bracket groove 12, the water guide rib 13, the water guide groove 131, the elastic rib 14, the connecting rib 15, the supporting section 16, the mounting boss 17, the elastic buckle 171, the elastic arm 1711, the clamping boss 1712, the mounting cylinder 172, the close-fitting groove 181, the inserting hole 182, the avoiding notch 19, the shaft hole 191,

The wiper 20, the pressing surface 201, the central area 2011, the edge area 2012, the main roller 21, the sub roller 22, the rotation shaft 23, the limit boss 231, the wiper seat 24, the first mounting plate 241, the second mounting plate 242,

Against the guide wheel 30, the mounting holes 31,

The bar guide 40, the wheel axle 41,

The mating element 50 in the shape of a Chinese character 'ji', parallel bars 51, vertical bars 52, collar 53,

Barrel 60, process chamber 61, receiving groove 62, partition 63, support frame 64, drain plug 65, suction cup 66, first drain 671, second drain 672, mounting groove 681, mating hole 682,

Mop rod 71, mop plate 72, scraping strip 721, fitting hole 722, wringing head 73, grip 731.

Detailed Description

Embodiments of the present utility model are described in detail below, examples of which are illustrated in the accompanying drawings, wherein like or similar reference numerals refer to like or similar elements or elements having like or similar functions throughout. The embodiments described below by referring to the drawings are illustrative only and are not to be construed as limiting the utility model.

In the description of the present utility model, it should be understood that the terms "center", "longitudinal", "lateral", "length", "width", "thickness", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", "clockwise", "counterclockwise", "axial", "radial", "circumferential", etc. indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings are merely for convenience in describing the present utility model and simplifying the description, and do not indicate or imply that the device or element being referred to must have a specific orientation, be configured and operated in a specific orientation, and therefore should not be construed as limiting the present utility model. Furthermore, features defining "first", "second" may include one or more such features, either explicitly or implicitly. In the description of the present utility model, unless otherwise indicated, the meaning of "a plurality" is two or more.

In the description of the present utility model, it should be noted that, unless explicitly specified and limited otherwise, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be either fixedly connected, detachably connected, or integrally connected, for example; can be mechanically or electrically connected; can be directly connected or indirectly connected through an intermediate medium, and can be communication between two elements. The specific meaning of the above terms in the present utility model will be understood in specific cases by those of ordinary skill in the art.

In the related art, in order to clean a flat mop, a flat mop cleaning bucket is commercially available, which cleans and dries a wiper of the flat mop by providing a wiper. The wiper on the common cleaning barrel can be movably arranged, along with the fact that the mop plate of the flat mop is inserted into the cleaning barrel, the scraping edge of the wiper just abuts against the wiping object, the flat mop is utilized, the scraping edge of the wiper can be repeatedly extruded and scraped on the wiping object surface of the mop plate only by repeatedly drawing and inserting the flat mop, and the movable wiper cannot form continuous and stable extrusion force on the wiping object. For example, assuming that the wiper is rotatable, when the mop plate of the flat mop is inserted downward, the wiper may rotate downward, the squeezing force of the wiper on the wiper after rotation may be weak, so that the wiper cannot be cleaned effectively, when the mop plate of the flat mop is pulled upward, the wiper may rotate upward, and the squeezing force of the wiper after rotation may be too large, resulting in a laborious pull-out of the mop plate; or if the wiper member can stretch under the action of elastic force, the penetration opening for inserting the mop plate is smaller, so that the mop plate is laborious to insert. In addition, some cleaning barrels have designed the wiper as stationary, but the stationary wiper is not ideal for drying because of the unadjustable position or because of insufficient squeezing force of the wiper on the wiper; or the squeezing force of the wiper on the wiping object is large, so that the flat mop is laborious to insert.

A mop cleaning module 100 according to an embodiment of the present utility model is described below with reference to fig. 1 to 21.

As shown in fig. 1 to 10, the mop cleaning module 100 according to one embodiment of the present utility model includes: a bracket 10 and a wiper member 20. The holder 10 is provided with a through-opening 11 for inserting the mop plate 72 of the mop, and the wiper 20 for cleaning the wiper of the mop plate 72 may be provided at one side of the through-opening 11, which side where the wiper 20 is provided is a side 111 of the through-opening 11, and the opposite side of the through-opening 11 is formed as a reference side 112 for abutting against the back surface of the mop plate 72.

The wiper 20 is rotatably matched with the bracket 10 through the rotating shaft 23, the wiper 20 is provided with a pressing surface 201, the pressing surface 201 is provided with a central area 2011 and edge areas 2012, as shown in fig. 4, the central area 2011 can extend along the up-down front-back direction, the edge areas 2012 are distributed on two sides of the central area 2011 along the up-down direction, wherein the distance between the central area 2011 and the reference side 112 is smaller than the distance between the edge area 2012 and the reference side 112, namely the distance between the central area 2011 and the reference side 112 on the wiper 20 is closest, and the distance between the edge area 2012 and the reference side 112 is gradually increased along the direction away from the central area 2011, namely the pressing surface 201 approximately forms an arc surface, and the arc can be a semicircle or a minor arc; alternatively, the central region 2011 and the two edge regions 2012 may each be arcuate surfaces, with the three arcuate surfaces being disposed in a spaced relationship and forming the compression surface 201. The rotation shaft 23 is disposed in the central area 2011, and two ends of the rotation shaft 23 extend to the outer sides of two ends of the central area 2011 in the front-rear direction (i.e., ends where the edge areas 2012 are not disposed), so that the rotation shaft 23 is matched with the bracket 10, and a through hole capable of realizing a water squeezing function is formed between the central area 2011 and the reference side 112 of the wiper 20.

When the mop plate 72 moves in the through hole 11, the wiper of the mop plate 72 contacts with the central area 2011, the wiper 20 swings through the rotating shaft 23 under the driving of the mop plate 72, and then drives one of the edge areas 2012 to move in a direction approaching the mop plate 72, and the other edge area 2012 moves in a direction separating from the mop plate 72, for example, when the mop plate 72 moves from top to bottom along the through hole 11, the wiper contacts with the central area 2011 and applies a downward force to the central area 2011, at this time, the central area 2011 drives the wiper 20 to rotate downward through the rotating shaft 23, so as to drive the edge area 2012 on the upper side of the central area 2011 to move in a direction approaching the mop plate 72, the edge area 2012 on the lower side moves in a direction separating from the mop plate 72, and when the mop plate 72 moves from bottom to top along the through hole 11, the wiper 20 is driven by the central area 2011 to rotate upward, so as to drive the edge area 2012 on the upper side to move in a direction separating from the mop plate 72, and the edge area 2012 on the lower side moves in a direction approaching the mop plate 72.

Since the wiper 20 has the arc-shaped pressing surface 201, the arc-shaped pressing surface 201 can form a guide effect on the mop plate 72 when the mop plate 72 is inserted into the through-hole 11, so that the mop plate 72 is easily inserted into the through-hole 11. Meanwhile, when the mop plate 72 moves in the through hole 11, although the wiper contacts with the central area 2011 and applies force, so that the central area 2011 drives the wiper 20 to rotate, in the rotating process of the wiper 20, the size of the through hole 11 is not changed, namely, the size of the through hole 11 is always the distance between the central area 2011 and the reference side 201, so that the problem that the wiper cannot be cleaned effectively due to the change of the size of the through hole 11 caused by the rotation of the wiper 20 is avoided, or the mop plate 72 is hard to be pulled out is solved. Moreover, when the wiper 20 rotates, one of the edge areas 2012 can move towards the direction close to the mop plate 72, and the other edge area 2012 moves towards the direction far away from the mop plate 72, and when the wiper 20 rotates and moves towards the edge area 2012 close to the mop plate 72 to be in contact with the wiping object of the mop plate 72, the wiping object can be cleaned or dehydrated for the second time, so that the cleaning or drying effect of the wiping object is further improved, and the user experience is better.

According to the mop cleaning module 100 disclosed by the embodiment of the utility model, the squeezing surface 201 of the wiper 20 plays a guiding role on the mop plate 72, so that the mop plate is easy to insert into the through hole 11, and the central area 2011 contacts with a wiper and applies force, so that the central area 2011 drives the wiper 20 to rotate, and the size of the through hole 11 is unchanged while the rotation is ensured, thereby ensuring that the wiper is cleaned effectively all the time, being easy and easy to withdraw, and improving the use experience of a user.

It should be noted that, since the distance between the central area 2011 and the reference side 112 is smaller than the distance between the edge area 2012 and the reference side 112, when the wiper 20 rotates along the rotation axis 23 at the central area 2011, the edge area 2012 can move to a position contacting with the wiper on the mop plate 72 when the edge area 2012 moves to a direction approaching to the mop plate 72, and the central area 2011 is still contacted with the central area 2011, so that the size of the water squeezing through hole is not changed, and the convenience of the pulling and inserting operation of the mop plate 72 is prevented from being affected by the reduction of the water squeezing through hole; of course, the edge region 2012 abuts against the wiper on the mop plate 72, so that the situation that the edge region 2012 and the central region 2011 simultaneously form extrusion force on the wiper is realized, and the cleaning effect on the wiper can be improved.

As shown in fig. 4, according to some embodiments of the present utility model, the central area 2011 is provided with a main roller 21, and the axis of the main roller 21 is coaxial with the rotation shaft 23, so that when the mop plate 72 moves in the through hole 11, the wiper of the mop plate 72 contacts with the main roller 21 and drives the main roller 21 to rotate, and the extrusion force of the main roller 21 on the mop plate 72 is not changed, i.e. the main roller 21 can form a continuous stable extrusion force on the wiper, and the wiper is repeatedly extruded and scraped to achieve better cleaning. Meanwhile, when the mop plate 72 is inserted into the through hole 11, the mop plate 72 is firstly contacted with the main roller 21, and the main roller 21 can rotate under the driving of the wiper, so that the friction force between the mop plate 72 and the wiper 20 is not needed to be overcome in the initial stage of the insertion of the mop plate 72, namely the insertion of the mop plate 72 is labor-saving.

Because the axis of the main roller 21 is coaxial with the rotating shaft 23, the rotation of the main roller 21 can drive the wiper 20 to swing through the rotating shaft 23, and further drive one of the edge regions 2012 to move in a direction approaching the mop plate 72, and the other edge region 2012 to move in a direction separating from the mop plate 72.

As shown in fig. 4, in some examples, each edge region 2012 is provided with a sub roller 22, the extending direction of the sub roller 22 is the same as that of the main roller 21, the sub roller 22 may be one or a plurality of sub rollers 22 arranged at intervals, and the number of sub rollers 22 of two edge regions 2012 may be the same or different. Of course, baffles for water guiding or scraping strips for cleaning the wipes may also be provided at the edge region 2012, and the shape of the baffles or scraping strips may be adapted to the shape of the edge region 2012, and the number may be one or a plurality of the baffles or scraping strips may be arranged at intervals.

When the main roller 21 rotates to drive the wiper 20 to swing, one of the edge areas 2012 moves towards the direction close to the mop plate 72, and if the wiper of the mop plate 72 is thicker, the edge areas 2012 can be squeezed for the second time when moving to the position contacting the wiper; if the wiping object of the mop plate 72 is thin, even if the edge region 2012 moves in a direction approaching the mop plate 72, no obstacle is caused to the movement of the wiping object, and the auxiliary roller 22 can be arranged at intervals with the wiping object, so that the mop plate 72 can be conveniently inserted and pulled out.

In some examples, the auxiliary roller 22 disposed in the edge region 2012 moves towards the direction close to the mop plate 72, and the auxiliary roller 22 may be in contact with the wiper of the mop plate 72, and the auxiliary roller 22 may rotate under the driving of the wiper, so that the insertion of the mop plate 72 is more labor-saving when the mop plate 72 continues to move due to the rotation of the auxiliary roller 22, and the operation experience of the user is improved.

As shown in fig. 4, in some examples, the wiper 20 further includes a wiper seat 24, the main roller 21 is fixedly connected to the wiper seat 24, the rotation shaft 23 is disposed outside the wiper seat 24, or the rotation shaft 23 extends to the outside of the wiper seat 24 away from the main roller 21, and the rotation shaft 23 corresponds in position to the main roller 21 such that the axis of the main roller 21 is coaxially collinear with the rotation shaft 23.

As shown in fig. 4, in some examples, the sub roller 22 is provided at both upper and lower sides of the main roller 21, wherein the sub roller 22 may be fixedly connected with the wiper seat 24, thereby facilitating the installation and fixation of the sub roller 22; of course, the auxiliary roller 22 may be rotatably connected to the wiper seat 24, so that the auxiliary roller 22 can save more effort when abutting the wiper on the mop plate 72. Specifically, when the mop plate 72 moves downwards, the main roller 21 follows to rotate to drive the wiper seat 24 to integrally rotate, and the auxiliary roller 22 on the upper side of the main roller 21 contacts with the wiper, so that the auxiliary roller 22 can rotate, and when the mop plate 72 continues to move downwards, the mop plate 72 can be inserted more effort-saving; when the mop plate 72 moves upwards, the main roller 21 rotates to drive the wiper seat 24 to rotate, and the auxiliary roller 22 at the lower side of the main roller 21 contacts with the wiping objects on the mop plate 72, so that the mop plate 72 can be taken out more labor-saving when the mop plate 72 continues to move upwards because the auxiliary roller 22 can rotate.

As shown in fig. 4, in some examples, the wiper seat 24 includes: the two opposite first mounting plates 241, the both ends of main gyro wheel 21 respectively with two first mounting plates 241 fixed connection, the both ends of axis of rotation 23 all extend to the outside that main gyro wheel 21 was kept away from to first mounting plate 241, the both ends and the first mounting plate 241 cooperation of vice gyro wheel 22, first mounting plate 241 roughly forms the arc to make main gyro wheel 21 and vice gyro wheel 22 become the arc and distribute, form the extrusion face 201.

As shown in fig. 4, in some examples, the wiper seat 24 further includes two second mounting plates 242 disposed opposite to each other, the second mounting plates 242 extend along the axial direction of the rotation shaft 23 (front-rear direction as shown in fig. 4), two ends of each second mounting plate 242 are respectively connected with two first mounting plates 241, the pressing surface 201 is disposed in an area surrounded by the first mounting plates 241 and the second mounting plates 242, that is, the main roller 21 and the plurality of auxiliary rollers 22 are disposed in an area surrounded by the first mounting plates 241 and the second mounting plates 242, and the second mounting plates 242 and the first mounting plates 241 are connected to form the wiper seat 24 as a whole, so that the wiper seat 24 is more stable in structure, high in structural overall strength, and capable of improving the service life of products.

As shown in fig. 1 and 2, in some examples, the bracket 10 has a bracket groove 12, and the rotation shaft 23 is rotatably provided on the bracket groove 12, thereby achieving the assembly of the wiper member 20 on the bracket 10, and the installation is convenient.

As shown in fig. 4, in some examples, two ends of the rotating shaft 23 are located at one side of the two first mounting plates 241, where the pressing surfaces 201 are not provided, i.e., the rotating shaft 23 extends out of the wiper seat 24, and one end of the rotating shaft 23 has a limiting boss 231, where in a state where the rotating shaft 23 is engaged with the bracket slot 12, the limiting boss 231 may be engaged with the bracket slot 12 to limit the rotating shaft 23 from being disengaged from the bracket slot 12, so that the wiper 20 is more reliably engaged with the bracket 10, and at the same time, reverse installation of the wiper 20 may be avoided, thereby achieving a fool-proof effect; of course, the limiting bosses 231 may be provided at both end portions of the rotation shaft 23, thereby improving the assembly effect.

As shown in fig. 9, according to some embodiments of the present utility model, the reference side 112 is also provided with the wiper 20, that is, opposite sides of the through hole 11 are provided with the wiper 20, and when both sides of the mop plate 72 have wipes, that is, when the double-sided mop is cleaned, the mop plate 72 moves in the through hole 11, the wipes on both sides of the mop plate 72 are respectively contacted with the central area 2011 of the corresponding wiper 20, and the two wiper 20 are simultaneously swung under the driving of the mop plate 72, specifically, when the mop plate 72 moves downward, the upper edge area 2012 on each wiper 20 moves in a direction approaching each other, the lower edge area 2012 on each wiper 20 moves in a direction separating each other, and when the mop plate 72 moves upward, the upper edge area 2012 on each wiper 20 moves in a direction separating each other.

In the moving process of the mop plate 72, as the two wiper members 20 can rotate along with the mop plate 72, the mop plate 72 can be easily inserted and pulled out through the rotation, so that the cleaning of the mop plate 72 is easy and labor-saving, and in addition, as the wiping objects of the mop plate 72 are contacted with the central areas 2011, the wiping objects on two sides of the mop plate 72 can be repeatedly squeezed and scraped, namely, continuous and stable squeezing force can be formed on the wiping objects, and therefore, the double-sided mop can be effectively cleaned. When the two edge regions 2012 contact the wipes of the mop plate 72, the wipes may be cleaned or dewatered a second time, further improving the cleaning or drying effect of the double-sided mop.

As shown in fig. 21, according to some embodiments of the present utility model, a mop 300 includes a mop rod 71, a mop plate 72 and a wringing head 73, the wringing head 73 is sleeved on the mop rod 71, one end of the wringing head 73 near the mop plate 72 is provided with a mop cleaning module 100, the mop cleaning module 100 may be any one of the mop cleaning modules 100 described in the previous embodiments, the mop plate 72 may rotate relative to the mop rod 71 between a use state and a cleaning state, and when the wringing head 73 moves along the mop rod 71 toward the mop plate 72, the mop plate 72 may be moved in the through hole 11, so as to clean the mop plate 72 in the cleaning state.

Specifically, when the mop plate 72 penetrates into the through hole 11 from bottom to top, the central area 2011 is in contact with the wiper of the mop plate 72 and applies force, so that the central area 2011 drives the wiper 20 to rotate, the extrusion surface 201 of the wiper 20 forms a guiding effect on the mop plate 72, the mop plate 72 is easy to insert into the through hole 11, the wiper 20 is driven by the mop plate 72 to swing through the rotating shaft 23, the lower edge area 2012 is driven to move towards the direction close to the mop plate 72, the upper edge area 2012 moves towards the direction far away from the mop plate 72, when the mop plate 72 moves from top to bottom, the central area 2011 is always in contact with the wiper of the mop plate 72, the wiper 20 is driven to rotate downwards, the upper edge area 2012 is driven to move towards the direction close to the mop plate 72, the lower edge area 2012 moves towards the direction far away from the mop plate 72, and the size of the through hole 11 is not changed in the rotating process of the wiper 20, so that the problem that the mop plate 72 cannot be effectively pulled out due to the change of the size of the wiper 20 is avoided, or the problem that the mop plate 72 cannot be cleaned is laboriously is solved. And when the wiper 20 rotates, if the wiper is moved to the edge area 2012 close to the mop plate 72 to contact with the wiper of the mop plate 72, the wiper can be cleaned or dehydrated secondarily, so that the effect of cleaning or drying the wiper is further improved, and the use experience of a user is improved.

According to the mop 300 disclosed by the embodiment of the utility model, the mop plate 72 can be easily inserted and pulled out to move, cleaning is easy and labor-saving, the central area 2011 is contacted with the wiper and applies force, the central area 2011 drives the wiper 20 to rotate, the size of the through hole 11 is unchanged, a continuous and stable extrusion force can be formed on the wiper, effective cleaning is ensured, extraction is easy and labor-saving, and the use experience of a user is improved. The support 10 may be integrally formed with the wringing head 73, and the support 10 may be connected with the wringing head 73 through a matching piece.

In addition, a wiper 20 may be provided on the wringing head 73 to clean the single-sided mop; two wiper members 20 may also be provided on the wringer head 73 to clean the double sided mop.

As shown in fig. 21, in some examples, the end of the wringing head 73 near the top end of the mop rod 71 is provided with a holding part 731, the holding part 731 is sleeved outside the mop rod 71, and the mop cleaning module 100 can be moved along the axial direction of the mop rod 71 by operating the holding part 731, so as to facilitate the movement of the mop plate 72 in the wearing mouth 11.

As shown in fig. 21, in some examples, the mop plate 72 has scraping bars 721 at both sides in a length direction thereof, the scraping bars 721 may be used for scraping water, and the scraping bars 721 may be rubber members, whereby the practicality of the mop 300 may be improved.

As shown in fig. 21, in some examples, the side of the mop plate 72 facing away from the wipe has a plurality of mounting holes 722, the mounting holes 722 being used to mount the wipe, which may be disposable or reusable.

As shown in fig. 1 and 2, according to some embodiments of the present utility model, the arrangement side 111 of the through hole 11 includes a plurality of water guide ribs 13, a water guide groove 131 is defined between two adjacent water guide ribs 13, the plurality of water guide ribs 13 are spaced along the axial direction of the rotation shaft 23 (front-rear direction as shown in fig. 1), each water guide rib 13 extends along the moving direction of the mop plate 72 in the through hole 11 (up-down direction as shown in fig. 1), and the distance between each water guide rib 13 and the reference side 112 gradually increases along the direction away from the wiper 20, as shown in fig. 1, each water guide rib 13 gradually extends from bottom to top to outside, thereby making the through hole 11 approximately form a submerged opening, on one hand, the water guide ribs 13 can guide the penetration of the mop plate 72 in the through hole 11, and on the other hand, the water guide ribs 131 between the water guide ribs 13 can guide the sewage pressed on the mop plate 72, thereby facilitating the drainage of the sewage.

As shown in fig. 1 and 2, in some examples, the reference side 112 includes a plurality of elastic ribs 14, the plurality of elastic ribs 14 are arranged at intervals in an axial direction of the rotation shaft 23 (front-rear direction as shown in fig. 1), each elastic rib 14 extends in a moving direction of the mop plate 72 in the through hole 11 (up-down direction as shown in fig. 1), and a distance of each elastic rib 14 from the setting side 111 is gradually increased in a direction away from the wiper 20, thereby making the through hole 11 substantially form a sinking-type opening, and by setting the plurality of elastic ribs 14, the structural strength of the stand 10 can be improved while realizing an elastically deformable function of the stand 10.

As shown in fig. 2, in some examples, the lower end of the reference side 112 has a connecting rib 15, the lower end of each elastic rib 14 is fixed with the connecting rib 15, and two ends of the connecting rib 15 are respectively connected with the water guide ribs 13 of the setting side 111, wherein two ends of the connecting rib 15 can be respectively connected with one water guide rib 13 or can be connected with the lower ends of a plurality of water guide ribs 13, by setting the connecting rib 15, on one hand, the stability and the structural strength of the whole bracket can be improved, on the other hand, the elastic performance of the reference side 112 can be enhanced, when the mop plate 72 is inserted, the mop plate or the mop abuts against the connecting rib 15, the reference side 112 is elastically deformed under the abutting action, so that the stress between the mop plate 72 and the wiper 20 can be reduced, the damage to the wiper 20 is avoided, and the like, and meanwhile, the drawing and inserting are convenient.

As shown in fig. 1, in some examples, the stand 10 further includes a support section 16, the support section 16 forms a ring shape surrounding the through hole 11, and the top ends of the plurality of water guide ribs 13 and the plurality of elastic ribs 14 are connected to the support section 16, and by providing the support section 16, the structural strength and stability of the stand 10 can be further improved, and at the same time, the installation of the stand 10 on the mop bucket 200 can be facilitated. In some examples, the bracket 10 is an integrally formed piece, and the integrally formed piece has good structural stability, is easy to reset after being elastically deformed, is not easy to damage, and improves the service life of the product.

As shown in fig. 1, according to some implementations of the utility model, the mop cleaning module 100 further includes: the propping guide wheel 30 is arranged in the through hole 11, when the mop plate 72 moves in the through hole 11, the propping guide wheel 30 can be matched with one side, deviating from the wiping object, of the mop plate 72 in a propping mode, and the propping guide wheel 30 can rotate under the driving of the mop plate 72, so that the movement of the mop plate 72 is easier and more labor-saving, and the use experience of a user is further improved.

As shown in fig. 1 and 5, in some examples, the abutment guide wheel 30 is mounted on the bracket 10, the bracket 10 has a mounting protrusion 17 thereon, the mounting protrusion 17 extends inward of the through hole 11, the abutment guide wheel 30 has a mounting hole 31, the mounting protrusion 17 may be inserted into the mounting hole 31 to achieve a rotational fit of the abutment guide wheel 30 and the bracket 10, for example, the abutment guide wheel 30 forms a ring, the mounting hole 31 is formed at the center of the abutment guide wheel 30, the mounting protrusion 17 is provided at a side of the bracket 10 facing the through hole 20, and the mounting protrusion 17 may be inserted into the mounting hole 31 of the abutment guide wheel 30 so that the abutment guide wheel 30 is mounted on the bracket 10 and rotatable with respect to the bracket 10.

Of course, the mounting protrusion 17 may be provided on the abutting guide wheel 30, the mounting hole 31 may be provided on the bracket 10, and the abutting guide wheel 30 and the bracket 10 may be rotationally engaged by the insertion engagement of the mounting protrusion 17 and the mounting hole 31.

As shown in fig. 3, in some specific examples, the through hole 11 further has a mounting side 113, the mounting side 113 is adjacent to the wiper 20, the mounting side 113 includes two opposite sides, that is, the through hole 11 is formed substantially in a square shape, the through hole 11 includes two opposite mounting sides 111 and 112, and two opposite mounting sides 113, the mounting protrusion 17 is disposed on the mounting side 113, and the extending direction of the mounting protrusion 17 is parallel to the axial direction of the rotation shaft 23, whereby the rotation axis of the abutment guide wheel 30 is parallel to the axial direction of the rotation shaft 23, so that when the wiper 20 is rotated by the mop plate 72, the synchronous rotation of the abutment guide wheel 30 is driven, so that the mop plate 72 easily moves within the through hole 11.

As shown in fig. 3, in some specific examples, the top end of the mounting protrusion 17 is provided with an elastic buckle 171, when the mounting protrusion 17 is plugged into the mounting hole 31 abutting against the guide wheel 30, the elastic buckle 171 is forced to be closed, and when the mounting protrusion 17 is plugged into the mounting hole 31 abutting against the guide wheel 30, the elastic buckle 171 is opened, so that the abutting against the guide wheel 30 can be limited to be separated from the mounting protrusion 17, reliable mounting is achieved against the guide wheel 30, and further, the falling-off of the abutting against the guide wheel 30 and the like are avoided, so that the subsequent use experience of a user is prevented.

Specifically, the mounting boss 17 includes a mounting cylinder 172 and the elastic clip 171 disposed at the top end of the mounting cylinder 172, and the elastic clip 171 includes two elastic arms 1711 disposed opposite to each other, and a clip boss 1712 is disposed at the top end of each elastic arm 1711. When the mounting protrusion 17 is inserted into the mounting hole 31 abutting against the guide wheel 30, the two oppositely arranged elastic arms 1711 are pressed by the side wall of the mounting hole 31 to be close to each other, so that the mounting protrusion 17 can be smoothly inserted into the mounting hole 31; after the mounting protrusion 17 and the mounting hole 31 are assembled, that is, the clamping boss 1712 at the top end of the elastic arm 1711 passes over the side wall of the mounting hole 31, the two elastic arms 1711 can be opened because the two elastic arms 1711 are not subjected to external pressure, so that the outer side wall of the elastic arms 1711 contacts with the side wall of the mounting hole 31, the clamping boss 1712 is limited at the top end of the mounting hole 31, and further, the influence on the subsequent use experience of a user caused by falling off of the guide wheel 30 from the mounting protrusion 17 is avoided.

As shown in fig. 6, the mop cleaning module 100 may further include: the tee-shaped matching piece 50 comprises three sections of parallel ribs 51 and two ends of vertical ribs 52, the three sections of parallel ribs 51 are axially parallel to the rotating shaft 23, the two ends of vertical ribs 52 are axially perpendicular to the rotating shaft 23, the parallel ribs 51 and the vertical ribs 52 are sequentially and alternately arranged, so that the three sections of parallel ribs 51 and the two ends of vertical ribs 52 form a tee-shaped structure, the tee-shaped matching piece 50 can be directly installed on the support 10 or other supporting structures, the tee-shaped matching piece 50 is abutted against the guide wheel 30 and is directly sleeved on the parallel ribs 51 at two ends of the tee-shaped matching piece 50, assembly convenience is improved, the tee-shaped matching piece 30 is also sleeved on the parallel ribs 51 through a sleeve ring 53, the sleeve ring 53 can be an elastic material piece with certain hardness, abrasion can be reduced on the basis of not affecting rotation of the guide wheel 30, durability of the structure is improved, and further service life of the mop cleaning module 100 is prolonged, and user experience is improved. Meanwhile, by arranging the collar 53 with certain elasticity, when the propping guide wheel 30 is propped against the back surface of the mop plate 72, a certain elastic avoidance space is provided by the collar 53, so that the problem that the propping guide wheel 30 and the mop plate 72 are damaged due to the large acting force between the propping guide wheel and the mop plate 72 is avoided.

As shown in fig. 7 and 8, in some examples, the reference side 112 of the through hole 11 is provided with two close-fitting grooves 181, and the two vertical ribs 52 of the n-shaped matching piece 50 are respectively close-fitted and fixed with the two close-fitting grooves 181, so that the n-shaped matching piece 50 can be directly mounted on the bracket 10, wherein the close-fitting grooves 181 can be defined by the elastic ribs 14 of the reference side 112, it is understood that the close-fitting grooves 181 can have a clamping protrusion, the vertical ribs 52 are clamped in the close-fitting grooves 181 by the clamping protrusion, and are not easy to separate, so that the vertical ribs 52 are assembled with the bracket 10.

As shown in fig. 7, 8 and 17, in some examples, the two mounting sides 113 of the through hole 11 are respectively provided with a plugging hole 182, and the two parallel ribs 51 at two ends of the n-shaped matching piece 50 are respectively plugged into the plugging holes 182, thereby fixing two ends of the n-shaped matching piece 50, that is, the two ends of the n-shaped matching piece 50 are fixed in the plugging holes 182, and the middle part of the n-shaped matching piece 50 is clamped in the tight-fit groove 181 through the vertical ribs 52, so that the n-shaped matching piece 50 is mounted in a matched manner with the bracket 10.

As shown in fig. 19, in other examples, the bracket 10 is disposed on the tub 60, the sidewall of the tub 60 adjacent to the reference side 112 of the through hole 11 has a mounting groove 681, the sidewall of the tub 60 adjacent to both ends of the wiper 20 is provided with a fitting hole 682, that is, the fitting holes 682 are disposed on both sidewalls of the tub 60 adjacent to both mounting sides 113 of the through hole 11, the parallel rib 51 of the center of the chevron shaped fitting 50 is disposed on the mounting groove 681, and both ends of the chevron shaped fitting 50 are respectively inserted into the two insertion holes 182, thereby achieving the mounting and fixing of the chevron shaped fitting 50. It should be noted that, the fitting hole 682 may be a through hole penetrating through the sidewall of the tub 60, or may be a non-through hole structure located in the sidewall of the tub 60. Of course, the parallel ribs 51 of the center of the figure-shaped fitting 50 may also be supported on the partition 63 inside the tub 60.

As shown in fig. 1 and 5, according to some embodiments of the present utility model, the scraping strips 721 for scraping water are disposed on both sides of the mop plate 72, in order to prevent the scraping strips 721 from moving in the through hole 11 to generate a larger friction force, the scraping strip guide wheels 40 may be further disposed on the mounting side 113 of the through hole 11, and the scraping strip guide wheels 40 are rotatably matched with the support 10, wherein the rotation axes of the scraping strip guide wheels 40 are perpendicular to the rotation axis 23 of the scraping piece 20, when the mop plate 72 moves in the through hole 11, the scraping strip guide wheels 40 can be in abutting fit with the scraping strips 721, and the scraping strip guide wheels 40 can rotate under the driving of the scraping strips 721, so that the movement of the mop plate 72 is easier and more labor-saving, and the use experience of a user is improved.

As shown in fig. 5, in some specific examples, the outer surface of the wiper strip guide wheel 40 forms an inwardly concave surface, thereby allowing the wiper strip 721 to be positioned within the concave surface, i.e., the wiper strip guide wheel 40 is a kidney-shaped wheel, avoiding the wiper strip 721 from disengaging from the wiper strip guide wheel 40.

As shown in fig. 1 and 5, in some examples, the scraping strip guide wheel 40 has a wheel rotating shaft 41, the support 10 has a shaft hole 191, the scraping strip guide wheel 40 is rotatably connected with the support 10 by matching the rotating shaft 41 with the shaft hole 191, of course, the shaft hole 191 may also be arranged on the scraping strip guide wheel 40, the rotating shaft 41 is arranged on the support 10, and the rotating shaft 41 of the support 10 may be inserted into the shaft hole 191, so as to realize the assembly of the scraping strip guide wheel 40 and the support 10.

As shown in fig. 1, in some specific examples, the wheel rotating shaft 41 is disposed at two ends of the scraper guide wheel 40, the mounting side 113 of the through hole 11 has an avoidance gap 19, the shaft hole 191 is formed on two opposite side walls of the avoidance gap 19, and the scraper guide wheel 40 is rotatably disposed at the avoidance gap 19 through the cooperation of the wheel rotating shaft 41 and the shaft hole 191, so that the scraper can be matched with the scraper guide wheel 40, the overall structure layout is compact, and the structural aesthetic property is improved.

As shown in fig. 11 to 20, the mop bucket 200 according to the embodiment of the utility model comprises a bucket body 60 and any one of the mop cleaning modules 100, wherein the bucket body 60 is provided with a processing cavity 61 with an open top, the bracket 10 is arranged at the top of the processing cavity 61, the through hole 11 is communicated with the processing cavity 61, and the mop plate 72 can move into the processing cavity 61 through the through hole 11, so that the cleaning of the wiping objects on the mop plate 72 can be realized through up and down movement.

Specifically, when the mop plate 72 passes through the through hole 11 from top to bottom and enters the processing cavity 61, the central area 2011 of the wiper 20 contacts with the wiper of the mop plate 72 and applies force, so that the central area 2011 drives the wiper 20 to rotate, the extrusion surface 201 of the wiper 20 plays a guiding role on the mop plate 72, the mop plate 72 is easy to insert into the through hole 11, and the wiper 20 swings through the rotating shaft 23 under the driving of the mop plate 72, and then drives the upper edge area 2012 to move towards the direction close to the mop plate 72, and the lower edge area 2012 to move towards the direction far away from the mop plate 72; when the mop plate 72 is pulled out of the processing cavity 61, the mop plate 72 moves from bottom to top, the central area 2011 is always in contact with the wiper of the mop plate 72, the wiper 20 rotates upwards, so that the lower edge area 2012 is driven to move towards the direction close to the mop plate 72, the upper edge area 2012 moves towards the direction far away from the mop plate 72, the wiper 20 cannot change the size of the through hole 11 in the rotating process, the mop plate 72 can be easily plugged and pulled out through the rotation of the wiper 20, and the problem that the wiper cannot be effectively cleaned due to the change of the size of the through hole 11 caused by the rotation of the wiper 20 or the problem that the mop plate 72 is laborious to pull out is avoided. And when the wiper 20 rotates, if the wiper is moved to the edge area 2012 close to the mop plate 72 to contact with the wiper of the mop plate 72, the wiper can be cleaned or dehydrated secondarily, so that the effect of cleaning or drying the wiper is further improved, and the use experience of a user is improved.

According to the mop bucket 200 provided by the embodiment of the utility model, by adopting the mop cleaning module 100, the mop plate 72 can be easily inserted and removed, cleaning is easy and labor-saving, the central area 2011 is contacted with a wiper and applies force, the central area 2011 drives the wiper 20 to rotate, the size of the through hole 11 is unchanged, a continuous and stable extrusion force can be formed on the wiper, effective cleaning is ensured, extraction is easy and labor-saving, and the use experience of a user is improved.

In some specific examples, the central area 2011 of the wiper 20 is fixed with a main roller 21, the edge area 2012 is provided with a rotatable auxiliary roller 22, when the mop plate 72 moves, the main roller 21 presses the wipes on the mop plate 72, the auxiliary roller 22 can be spaced from the wipes, and the auxiliary roller 22 can also rotate under the drive of the wipes, so that convenience in the moving process of the mop plate 72 is ensured.

In some specific examples, the bracket 10 includes a water guiding rib 13, an elastic rib 14, a connecting rib 15 and a supporting section 16, the water guiding rib 13 is disposed on the disposed side 111 of the through hole 11 and includes a plurality of spaced arrangement, the elastic rib 14 is disposed on the reference side 112 and includes a plurality of spaced arrangement, lower ends of the elastic rib 14 and the water guiding rib 13 are connected with the connecting rib 15, upper ends of the elastic rib 14 and the water guiding rib 13 are connected with the supporting section 16, and the bracket 10 forms an integral part.

As shown in fig. 1 and 11, the support section 16 may be supported on the tub 60, the support section 16 has a mounting flange 101, and the mounting flange 101 may be mounted on the outside of the tub 60, where the mounting flange 101 has a snap-on protrusion, the tub 60 has a snap-on groove, or the mounting flange 101 has a snap-on groove, the tub 60 has a snap-on protrusion, and the bracket 10 may be mounted on the tub 60 by snap-fit of the snap-on protrusion and the snap-on groove, and at the same time, the bracket 10 and the tub 60 may be easily removed to facilitate cleaning or replacement of the bracket 10, etc.

In some examples, the processing cavity 61 includes a cleaning cavity and a squeezing cavity, the support 10 is provided with two through holes 11, and the two through holes 11 correspond to the cleaning cavity and the squeezing cavity respectively, so that the mop plate 10 can be cleaned by moving in the cleaning cavity, and the mop plate 10 can be squeezed and dehydrated by moving in the squeezing cavity, so that the operation is more convenient.

As shown in fig. 11-19, the top of each treatment chamber 61 may be provided with a wiper 20 to clean a single sided mop, according to some embodiments of the present utility model.

As shown in fig. 20, the top of each treatment chamber 61 may be provided with two wiper members 20, the two wiper members 20 being disposed opposite each other, in order to facilitate cleaning of the double-sided mop, according to some embodiments of the present utility model.

As shown in fig. 11, in some examples, the two through-holes 11 may be arranged longitudinally, i.e., the two through-holes 11 are arranged in the width direction of the through-holes 11 (the left-right direction as viewed in fig. 11), the wiper members 20 provided in the two through-holes 11 are arranged in parallel, and the positions and directions in which the two wiper members 20 are provided in the two through-holes 11 are the same, whereby the mop plate 72 does not need to be rotated when the two processing chambers are switched. In practical application, the wiper members 20 disposed in the two through holes 11 are disposed in parallel, and the wiper members 20 in the two through holes 11 may be disposed opposite to each other, that is, the wiper members 20 disposed in the two through holes 11 may also be disposed on opposite sides of the tub 60, so that the stability of the overall structure may be improved; the two wiper members 20 may be disposed back-to-back, that is, both wiper members 20 are disposed at the center of the tub 60.

As shown in fig. 20, in some examples, the two through holes 11 may be arranged longitudinally, that is, the two through holes 11 may be arranged in a width direction (left-right direction as viewed in fig. 20) of the through holes 11, and two wiper members 20 may be disposed in each through hole 11, and the two wiper members 20 may be disposed opposite to each other, so that the double-sided mop may be cleaned and scraped.

As shown in fig. 12, in some examples, the two through-holes 11 may be arranged laterally, that is, the two through-holes 11 may be arranged in a length direction of the through-holes (front-to-rear direction as shown in fig. 12), the wiper members 20 provided in the two through-holes 11 may be positioned on the same side of the tub 60, and the wiper members 20 provided in the two through-holes 11 may be arranged in a common line, whereby the mop plate 72 does not need to be rotated when the two process chambers are switched.

As shown in fig. 16, in other examples, the wiper members 20 provided in the two through holes 11 may be located at opposite sides of the tub 60, and the wiper members 20 provided in the two through holes 11 may be disposed in parallel, thereby improving the stability of the overall structure.

In yet another example, two wiper members 20 are provided in each of the through holes 11, and the two wiper members 20 are disposed opposite to each other so that the double-sided mop can be cleaned and scraped.

As shown in fig. 13, in some examples, in order to avoid the tub 60 from swaying and tipping, a suction cup 66 may be disposed at the bottom of the tub 60, so that the stability of the center of gravity of the tub 60 may be ensured, and the use experience of the user may be improved, where the suction cups 66 may be uniformly disposed or may be disposed in a staggered manner, so as to improve stability.

In some examples, the suction cups 66 may be disposed at positions corresponding to the wiper 20 at the bottom of the tub 60, so that the number of suction cups 66 is reduced and the cost is reduced on the basis of ensuring stability.

As shown in fig. 14, in some examples, a receiving groove 62 is provided at a sidewall of the tub 60, and the receiving groove 62 may be engaged with the bracket 10 to mount and limit the rotation shaft 23 of the wiper member 20.

For example, the bracket 10 is provided with a bracket groove 12, the bracket groove 12 forms a semicircular groove with an open lower side, the receiving groove 62 on the barrel 60 corresponds to the bracket groove 12 in position, the receiving groove 62 forms a semicircular groove with an open upper side, the rotating shaft 23 of the wiper 20 can be supported on the receiving groove 62, and the rotating shaft 23 is clamped between the receiving groove 62 and the bracket groove 12 through the cooperation of the bracket 12 and the barrel 60, so that the limit installation of the wiper 20 is realized.

As shown in fig. 14 and 15, in some examples, the partition 63 separates the tub 60 to form a cleaning chamber and a wringing chamber, the wiper 20 on the two processing chambers are located on the same side (left side as shown in fig. 15), the partition 63 is provided with a support 64, and the receiving groove 62 is provided on the support 64, so that one end of the rotating shaft 23 of the wiper 20 is mounted on the receiving groove 62 of the tub 60 to be clamped with the bracket 20 by the tub 60, and the other end of the rotating shaft 23 of the wiper 20 is mounted on the receiving groove 62 of the support 64 to be clamped with the bracket by the support 64. It can be appreciated that the two sides of the supporting frame 64 are respectively provided with a receiving groove 62, and by arranging the supporting frame 64, interference during fixing of the two wiper members 20 can be avoided, and the structure is convenient to be ejected from the mold, and the manufacturing and the forming are convenient.

Wherein the support 64 may be in a plug-in engagement with the spacer 63, e.g. the support 64 defines a slot with an open underside, and the spacer 63 may be in a plug-in engagement with the slot. The end of the support frame 64 can be provided with a mounting hole, the upper end of the partition plate 63 is provided with a limiting table corresponding to the position, and the mounting hole and the limiting table are penetrated through by a fastener, so that the support frame 64 is further fixedly connected with the partition plate 63, and the stability of the structure is ensured.

In some examples, the wash chamber and the wringer chamber may be separated by a partition 63, the wash chamber having a first drain opening 671 and the wringer chamber having a second drain opening 672, the first drain opening 671 and the second drain opening 672 being located at the bottom of the side wall of the bucket 60 to facilitate drainage.

In some examples, the first and second drain openings 671 and 672 are each provided adjacent to the partition 63, whereby both drain openings can be blocked by one drain plug 65, i.e., the drain plug 65 includes two blocking portions arranged at intervals, which are blocked corresponding to the first and second drain openings 671 and 672, whereby convenience of user operation can be improved.

In some examples, the bottom of the treatment chamber 61 has an anti-collision table, so that when the mop plate 72 moves, the mop plate 72 can be prevented from directly colliding with the bottom wall of the treatment chamber 61, and damage to the tub 60 can be avoided.

Other constructions and operations of mops in accordance with embodiments of the present utility model are known to those of ordinary skill in the art and will not be described in detail herein. The vertical direction, the horizontal direction, and the front-rear direction are defined by the vertical direction, the horizontal direction, and the front-rear direction in the drawing. In the description of the present utility model, unless explicitly stated and limited otherwise, a first feature "above" or "below" a second feature may include both the first and second features being in direct contact, or may include both the first and second features not being in direct contact but being in contact by another feature therebetween. Moreover, a first feature being "above," "over" and "on" a second feature includes the first feature being directly above and obliquely above the second feature, or simply indicating that the first feature is higher in level than the second feature.

In the description of the present specification, reference to the terms "one embodiment," "some embodiments," "illustrative embodiments," "examples," "specific examples," or "some examples," etc., means that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the utility model. In this specification, schematic representations of the above terms do not necessarily refer to the same embodiments or examples. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

While embodiments of the present utility model have been shown and described, it will be understood by those of ordinary skill in the art that: many changes, modifications, substitutions and variations may be made to the embodiments without departing from the spirit and principles of the utility model, the scope of which is defined by the claims and their equivalents.

Claims (9)

1. A mop cleaning module, comprising:

The mop comprises a bracket, wherein a through hole for inserting a mop plate is formed in the bracket, a water scraping piece for cleaning a mop of the mop plate is arranged on the arrangement side of the through hole, the water scraping piece is rotatably matched with the bracket through a rotating shaft, and the through hole further comprises a reference side opposite to the arrangement side and two installation sides adjacent to the arrangement side;

The scraping strip guide wheel is arranged on the installation side, the rotating shaft of the scraping strip guide wheel is perpendicular to the rotating shaft of the scraping piece, and the scraping strip guide wheel is suitable for being matched with the scraping strip arranged on the side face of the mop plate in a butt joint mode and used for rotating under the driving of the scraping strip.

2. The mop cleaning module of claim 1, wherein one of the scraper guide wheel and the support has a wheel axis of rotation, and the other of the scraper guide wheel and the support has a shaft hole, the wheel axis of rotation being mated with the shaft hole.

3. The mop cleaning module according to claim 2, wherein the wheel is pivotally disposed at two ends of the scraper guide wheel, the mounting side of the bracket has an avoidance gap, the shaft hole is formed on two opposite side walls of the avoidance gap, and the scraper guide wheel is rotatably disposed at the avoidance gap.

4. A mop cleaning module according to any one of claims 1 to 3, wherein the outer surface of the scraper guide forms an inwardly concave surface.

5. The mop cleaning module of claim 4, wherein the scraper guide wheel is a waist wheel.

6. A mop bucket comprising a bucket body and a mop cleaning module according to any one of claims 1 to 5, the bucket body having an open-topped treatment chamber; the support is arranged at the top of the processing cavity, and the penetrating opening is communicated with the processing cavity.

7. The mop bucket of claim 6, wherein the treatment chamber comprises a cleaning chamber and a wringing chamber, the support is provided with two through openings, and the two through openings correspond to the cleaning chamber and the wringing chamber respectively.

8. The mop is characterized by comprising a mop rod, a mop plate and a water squeezing and straightening head, wherein the water squeezing and straightening head is arranged on the mop rod, one end, close to the mop plate, of the water squeezing and straightening head is provided with the mop cleaning module set according to any one of claims 1 to 5, the mop plate can rotate relative to the mop rod between a use state and a cleaning state, and when the water squeezing and straightening head moves along the mop rod towards the direction, close to the mop plate, the mop plate moves in the wearing mouth so as to clean the mop plate in the cleaning state.

9. The mop of claim 8, wherein the mop plate has a wiper strip for wiping water on both sides in a length direction thereof.