CN219270829U - Mop cleaning module and mop - Google Patents

Abstract

The utility model discloses a mop cleaning module and a mop, comprising: a housing having a through opening into which the mop plate is inserted; the first scraping component is arranged on the shell and is used for scraping and extruding the wiping objects of the mop plate; the first scraping assembly comprises a first scraping plate, the first scraping plate comprises a first arc-shaped water scraping convex part, two end parts of the first arc-shaped water scraping convex part are close to the top end of the mop plate inserted into the through hole, the arched part is close to the bottom end of the mop plate, and the first arc-shaped water scraping convex part defines a water collecting tank through the arched part; the top of the first arc-shaped water scraping convex part stretches into the through hole to form an abutting rib for scraping and extruding the wiping object; according to the mop cleaning module provided by the embodiment of the utility model, the first scraping plate is arranged to squeeze and scrape the wiping object and gather part of liquid on the wiping object for the wiping object to be absorbed again, so that the liquid can be reused, the cleaning effect on the wiping object is improved, and the use experience of a user is improved.

Description

Mop cleaning module and mop

Technical Field

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

Background

In the related art, the scraping plate of the hand-free mop is usually in a structure form with prismatic ribs, when the scraping plate cleans the wiping object soaked with the cleaning liquid, the ribs can scrape the liquid on the wiping object, and part of the liquid is discharged from two sides of the ribs under the backflow action of the ribs, so that the cleaning liquid on the wiping object can be lost after one scraping, and effective cleaning effect is still difficult to realize by scraping for a plurality of times in time, so that there is room for improvement.

Disclosure of Invention

The present utility model aims to solve at least one of the technical problems existing in the prior art. Therefore, an object of the present utility model is to provide a mop cleaning module which has a good cleaning effect.

The utility model also provides a mop.

According to an embodiment of the utility model, a mop cleaning module includes: a housing having a through hole into which the mop plate is inserted; a first scraping assembly disposed on the housing for scraping and/or squeezing the wipes of the mop plate; the first scraping assembly comprises a first scraping plate, the first scraping plate comprises a first arc-shaped water scraping convex part, two end parts of the first arc-shaped water scraping convex part are close to the top end of a mop plate inserted into the through hole, an arched part is close to the bottom end of the mop plate, and the first arc-shaped water scraping convex part defines a water collecting tank through the arched part; the top of the first arc-shaped water scraping convex part stretches into the through hole to form an abutting rib for scraping and/or extruding the wiping object; when the mop plate moves in the through hole, part of the liquid scraped and/or squeezed by the abutting ribs gathers to the water collecting tank, and the liquid in the water collecting tank can be absorbed by the wiper when the mop plate moves relative to the abutting ribs.

According to the mop cleaning module provided by the embodiment of the utility model, the first scraping plate with the first arc-shaped water scraping convex part is arranged, and the first arc-shaped water scraping convex part is arched towards the bottom end of the mop plate, so that when the mop plate passes through the through hole, the first scraping plate can press and scrape the wiper on the mop plate by abutting against the ribs, meanwhile, part of liquid on the wiper is gathered into the water collecting tank, the gathered liquid can be absorbed again by the wiper, the wiper is cleaned when the wiper is scraped again by abutting against the ribs, the condition that the liquid is completely lost after one scraping is avoided, the reutilization of the liquid is realized, namely, the wiper can be cleaned for multiple times by adopting the liquid with the same volume for cleaning, the cleaning effect of the wiper can be improved, and the use experience of a user is improved.

According to some embodiments of the utility model, the first scraper comprises a plurality of first arc-shaped wiper protrusions, and the water collecting tank is formed between two adjacent first arc-shaped wiper protrusions.

In some examples, the curvature of the plurality of first arcuate wiper projections is different.

According to some embodiments of the utility model, further comprising: the two ends of the second arc-shaped water scraping convex part are close to the bottom end of the mop plate inserted into the through hole, the arched part is close to the top end of the mop plate, and the second arc-shaped water scraping convex part is used for defining a water guide groove through the arched part; the top of the second arc-shaped water scraping convex part stretches into the through hole to form an abutting rib for scraping and/or extruding the wiping object; when the mop plate moves in the through hole, part of the liquid scraped and/or squeezed by the abutting ribs is discharged through the water guide groove.

In some examples, the first scraper includes a plurality of second arcuate wiper projections, the water guide groove being formed between two adjacent second arcuate wiper projections.

In some examples, the curvature of the plurality of second arcuate wiper projections is different.

In some examples, the second arcuate wiper projections are the same number and symmetrically arranged as the first arcuate wiper projections.

In some examples, the first and second arcuate wiper protrusions are each symmetrical in a direction of insertion of the mop plate into the wear.

In some examples, further comprising: the horizontal wiper convex part is arranged between the first arc wiper convex part and the second arc wiper convex part, the extending direction of the horizontal wiper convex part is perpendicular to the direction of inserting the mop plate into the through hole, and the top of the horizontal wiper convex part stretches into the through hole to form a propping rib for scraping and/or extruding the wiping object.

In some examples, the first and second arcuate wiper protrusions are symmetrically disposed on both sides of the horizontal wiper protrusion.

In some examples, the first arcuate wiper tab, the second arcuate wiper tab, and the horizontal wiper tab each include two flow guide surfaces, the area where the two flow guide surfaces meet forming the abutment rib.

According to the mop cleaning module provided by the embodiment of the utility model, the first scraping assembly further comprises a frame, the first scraping plate is arranged in a hollow area formed by the frame, and the frame is detachably connected with the shell.

In some examples, the side of the housing is provided with an opening extending in the mop plate insertion direction, through which the frame is inserted into and snapped with the housing.

In some examples, the housing has a blade receiving cavity with one end open to form the opening, the blade receiving cavity inner wall has a mating portion, and the frame has a snap-fit portion that snap-fits with the mating portion.

In some examples, the mating portion forms a boss protruding from an inner wall surface of the squeegee-receiving chamber, the outer surface of the frame has an inwardly recessed mounting recess, and the snap-in portion forms a snap-in protrusion protruding from the mounting recess, wherein the snap-in protrusion snaps over the boss and into engagement with the boss when the frame is inserted into the squeegee-receiving chamber from the opening.

In some examples, the mating portion is disposed at an end of the squeegee housing cavity remote from the opening.

In some examples, the scraper receiving cavity inner wall surface has a clamping groove, and the clamping portion forms a clamping protrusion, wherein the clamping protrusion is clamped with the clamping groove when the frame is inserted into the scraper receiving cavity from the opening.

In some examples, the frame has a resilient cantilever arm, the clip is protruding from the resilient cantilever arm and adjacent to a fixed end of the resilient cantilever arm, and a free end of the resilient cantilever arm has a pressing portion adapted to operate.

In some examples, the mating portion is adjacent an end of the flight-receiving cavity proximate the opening.

The mop cleaning module according to the embodiment of the utility model further comprises: the second scraping assembly comprises a frame and a second scraping plate arranged in the frame, wherein the second scraping plate is provided with a scraping strip extending along the direction perpendicular to the insertion direction of the mop plate, and the scraping strip is used for scraping and/or extruding the wiping objects of the mop plate.

In some examples, the second scraper is provided with a plurality of scraping strips arranged at intervals, two adjacent scraping strips are connected with each other, and the connecting area between the two adjacent scraping strips forms an arc-shaped water guide groove.

In some examples, the second scraper is provided with a plurality of scraping strips arranged at intervals, two adjacent scraping strips are connected with each other, and the scraping strips are provided with a plurality of water guide holes arranged at intervals along the extending direction of the scraping strips.

In some examples, the second scraper is provided with two scraping strips, which are respectively provided at both ends in the insertion direction of the mop plate.

The mop cleaning module according to the embodiment of the utility model further comprises: the third scraping assembly comprises a frame and a third scraping plate arranged in the frame, and the third scraping plate is provided with a plurality of staggered comb teeth.

The mop cleaning module according to the embodiment of the utility model further comprises: a fourth scraping assembly comprising a frame and a plurality of rollers disposed within the frame extending in a direction perpendicular to the insertion of the mop plate, the plurality of rollers being for scraping and/or squeezing wipes of the mop plate.

The mop according to the second aspect of the embodiment of the utility model 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, which is 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, the mop plate in the cleaning state moves in the wearing mouth so that the scraping plate cleans the mop plate. According to the mop provided by the embodiment of the utility model, the mop cleaning module is adopted, so that the cleaning liquid can be reused, the cleaning effect on the wiping objects can be improved, and the use experience of a user is improved.

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 partial structure of a mop cleaning module according to an embodiment of the present utility model;

FIG. 2 is a schematic view of a first scraping assembly in one perspective in accordance with an embodiment of the utility model;

FIG. 3 is a schematic view of a first scraping assembly in another perspective in accordance with an embodiment of the utility model;

FIG. 4 is a schematic view of a first scraping assembly in yet another perspective in accordance with an embodiment of the utility model;

FIG. 5 is a cross-sectional view taken along line A-A of FIG. 4;

FIG. 6 is a partial schematic structural view of a housing according to an embodiment of the present utility model;

FIG. 7 is a schematic illustration of a second wiper assembly according to one embodiment of the present utility model;

FIG. 8 is a schematic view of a second wiper assembly according to another embodiment of the present utility model;

FIG. 9 is a schematic structural view of a second scraping assembly in accordance with yet another embodiment of the utility model;

FIG. 10 is a schematic structural view of a third scraping assembly in accordance with an embodiment of the utility model;

FIG. 11 is a schematic structural view of a third scraping assembly in accordance with another embodiment of the utility model;

FIG. 12 is a schematic illustration of the mating of a frame with a housing according to one embodiment of the utility model;

FIG. 13 is a schematic view of the structure of the frame shown in FIG. 12;

FIG. 14 is a schematic view of a fourth scraping assembly in accordance with yet another embodiment of the utility model;

fig. 15 is a schematic structural view of a mop according to an embodiment of the present utility model.

Reference numerals:

the cleaning module 100, the mop 200,

a shell 10, a through hole 11, an opening 12, a scraper accommodating cavity 13, a clamping groove 15,

the first wiper assembly 20, the first wiper blade 21, the abutment rib 2101, the first arcuate wiper lip 211, the sump 2111, the second arcuate wiper lip 212, the sump 2121, the horizontal wiper lip 213, the guide surface 214, the frame 22, the mounting recess 221, the catch lip 222, the resilient cantilever arm 223, the pressing portion 224,

the second scraping assembly 30, the second scraping plate 31, the scraping strip 311, the arc-shaped water guide groove 312, the water guide hole 313,

the third scraper assembly 40, the third scraper 41, the comb teeth 411,

a fourth scraping assembly 80, a roller 801,

Mop rod 50, mop plate 60, wringing head 70.

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.

A mop cleaning module 100 according to an embodiment of the present utility model is described below with reference to fig. 1 to 15.

As shown in fig. 1 to 6, the mop cleaning module 100 according to the embodiment of the present utility model includes: the mop comprises a shell 10 and a first scraping assembly 20, wherein the shell 10 is provided with a through hole 11 for inserting the mop plate 60, the first scraping assembly 20 is arranged on the shell 10, the first scraping assembly 20 can scrape the wiping objects of the mop plate 60 and can squeeze the wiping objects of the mop plate 60, and the scraping and squeezing functions can be realized on the wiping objects of the mop plate 60.

Wherein the first scraping assembly 20 comprises a first scraping blade 21, the first scraping blade 21 comprises a first arc-shaped scraping protrusion 211, the first arc-shaped scraping protrusion 211 is arched towards the bottom end of the mop plate 60, specifically, two ends (the left end and the right end as shown in fig. 4) of the first arc-shaped scraping protrusion 211 are close to the top end (the upper end as shown in fig. 4) of the mop plate 60 inserted into the through hole 11, namely, the end of the mop plate 60 close to the top end of the mop rod when rotating to the cleaning state, the arched part is close to the bottom end (the lower end as shown in fig. 4) of the mop plate 60 inserted into the through hole 11, namely, the end of the mop plate 60 far away from the top end of the mop rod when rotating to the cleaning state, the first arc-shaped scraping protrusion 211 is limited to a water collecting groove 2111 through the arched part, the top (the rear part as shown in fig. 3) of the first arc-shaped scraping protrusion 211 can extend into the through hole 11, the top of the first arc-shaped scraping protrusion 211 forms an abutting rib 2101, and the abutting rib 2101 can be contacted with a wiper, thereby the wiper, the wiper can wipe, and the wiper can also be pushed and simultaneously.

As shown in fig. 15, an embodiment of the present utility model discloses a mop 200, where the mop 200 may include a mop rod 50, a mop plate 60 and a wringing head 70, the wringing head 70 is sleeved on the mop rod 50, one end (a lower end as shown in fig. 15) of the wringing head 70, which is close to the mop plate 60, is provided with a mop cleaning module 100, the mop plate 60 can rotate relative to the mop rod 50 between a use state and a cleaning state, and when the wringing head 70 moves along the mop rod 50 in a direction approaching to the mop plate 60 (a lower side as shown in fig. 15), the mop plate 60 can be moved in the through hole 11, so as to clean the mop plate 60 in the cleaning state.

It will be appreciated that when a user cleans the mop, the mop plate 60 is extended into a mop bucket containing cleaning liquid, and the wringer head 70 is pulled to move the mop plate 60 within the mouth 11. In order to avoid the reverse flow of the cleaning liquid, the mop plate 60 must be facing downward at this time, and the water collecting tank 2111 formed by the first arc-shaped wiper protrusion 211 cooperates with the mop plate 60 to form a container in which the liquid can be stored and scooped up. Thus, when the wringer head 70 is moved from bottom to top, the wiper on the mop plate 60 is scraped and/or squeezed against the ribs 2101 at the top of the first arcuate wiper projections 211, and the portion of liquid scraped and/or squeezed against the ribs 2101 is stored in the container formed by the sump 2111 and the mop plate 60. When the wringer head 70 is moved from top to bottom, the cleaning liquid stored in the container is again absorbed by the wipe, and when the wringer head 70 is moved again from bottom to top, the wipe is again rinsed by scraping and/or squeezing against the ribs 2101. The cleaning liquid is repeatedly leached for many times, so that the wiping object can be cleaned for many times without repeatedly leaching the cleaning liquid, the cleaning effect of the wiping object can be improved, and the use experience of a user is improved.

Alternatively, a user may store less cleaning liquid in the mop bucket while cleaning the mop 200, then insert the mop plate 60 into the mop bucket, and after the mop plate 60 is inserted into the mop bucket, the cleaning liquid stored in the mop bucket may overflow the mop cleaning module 100 if the wringing head 70 is moved downward to a position where the mop cleaning module 100 contacts the enemy of the mop bucket. Thus, when the wringing head 70 moves from bottom to top, the container formed by the water collecting tank 2111 and the mop plate 60 scoops up the cleaning liquid stored in the mop barrel, and when the cleaning liquid moves to the wiping object which is not contacted with the cleaning liquid, the cleaning liquid stored in the container can be absorbed by the wiping object, when the wringing head 70 moves from top to bottom, the cleaning of the wiping object can be realized by scraping and/or squeezing the wiping object by the abutting ribs 2101, and the mop plate 60 can be thoroughly cleaned by repeatedly carrying out the cleaning operation. The purpose of cleaning the mop plate 60 with a small amount of water can be achieved in the above manner, and water for cleaning the mop plate 60 is saved.

According to the mop cleaning module 100 of the embodiment of the utility model, by arranging the first scraping plate 21 with the first arc-shaped water scraping convex part 211, the first arc-shaped water scraping convex part 211 is arched towards the bottom end of the mop plate 60, so that when the mop plate 60 passes through the through hole 11, the first scraping plate 21 can press and scrape the wiping object on the mop plate 60 by abutting against the rib 2101, meanwhile, part of liquid on the wiping object is gathered into the water collecting tank 2111, the gathered liquid can be absorbed by the wiping object again, and the wiping object is cleaned when the wiping object is scraped against the rib 2101 again, thereby avoiding the situation that the liquid is completely lost after one scraping, realizing the recycling of the liquid, further improving the cleaning effect of the wiping object and improving the use experience of users.

As shown in fig. 3 and 4, according to some embodiments of the present utility model, the first curved wiper protrusion 211 includes two guide surfaces 214, and the area where the two guide surfaces 214 meet forms an abutment rib 2101, the abutment rib 2101 may abut against the wipe, and the abutment rib 2101 may continuously scrape or squeeze the wipe as the mop plate 60 moves up and down relative to the wear port 11, thereby realizing the cleaning function of the mop cleaning module 100 on the wipe.

As shown in fig. 3 and 4, according to the mop cleaning module 100 of the embodiment of the utility model, the first scraper 21 includes a plurality of first arc-shaped wiper protrusions 211, and a water collecting tank 2111 is also formed between two adjacent first arc-shaped wiper protrusions 211, and the water collecting tank 2111 can collect the liquid scraped off the wiper, so that the wiper can reuse the liquid, save cleaning liquid, improve cleaning effect, and improve user experience without multiple times of soaking the wiper by a user. It can be appreciated that by setting the plurality of first arc-shaped wiper protrusions 211, the same part of the wiping object can be scraped repeatedly and extruded, and the liquid at the previous scraping part can be used for partial absorption of the rear scraping after being extruded, so that the liquid can be reused, the cleaning effect on the wiping object is improved, the reutilization degree of the liquid can be controlled by changing the quantity of the first arc-shaped wiper protrusions 211, and the use experience of a user is improved.

As shown in fig. 4 and 5, according to some embodiments of the present utility model, the radians of the plurality of first arc-shaped wiper protrusions 211 are different, and the radian of the first arc-shaped wiper protrusions 211 can change the amount of liquid that the water collection tank 2111 can hold, so that the degree of reusability of the liquid can be changed, and the use requirements of different users can be satisfied.

In some examples, the radian of the plurality of first arc-shaped wiper protrusions 211 may be gradually reduced from top to bottom, so that the space of the first wiper 21 may be fully utilized, the accommodating amount of the lower water collecting tank 2111 is improved, and of course, the radian of the plurality of first wiper protrusions 211 may be the same, so that the appearance of the first wiper 21 is more attractive and elegant.

As shown in fig. 3 and 4, according to some embodiments of the present utility model, the first squeegee 21 further includes: the second arc-shaped wiper protrusion 212, the second arc-shaped wiper protrusion 212 is arched towards the top of the mop plate 60, specifically, two ends (a left end and a right end as shown in fig. 4) of the second arc-shaped wiper protrusion 212 are close to the bottom end (a lower end as shown in fig. 4) of the mop plate 60 inserted into the through hole 11, the arched portion is close to the top end (an upper end as shown in fig. 4) of the mop plate 60, the first arc-shaped wiper protrusion 211 defines a water guide groove 2121 through the arched portion, the top (a rear portion as shown in fig. 3) of the second arc-shaped wiper protrusion 212 extends into the inside of the through hole 11, the top of the second arc-shaped wiper protrusion 212 forms an abutting rib 2101, the abutting rib 2101 abuts against a wiper, and the abutting rib 2101 can scrape the wiper, can squeeze the wiper, and can also scrape and squeeze the wiper simultaneously.

When the mop plate 60 moves in the through hole 11, the wiper is scraped or squeezed by the abutting ribs 2101 to clean the wiper, and meanwhile, part of liquid in the wiper flows out, and under the action of the second arc-shaped water scraping convex part 212, the liquid can flow into the water guide groove 2121 and be guided out rapidly through the two end parts of the water guide groove 2121, so that rapid flow guiding of the liquid is realized.

It will be appreciated that under the action of the first and second arcuate wiper protrusions 211, 212, a balance between secondary cleaning and wiping of the wipe may be achieved, and efficient cleaning and draining of the wipe may be achieved through multiple relative movements of the mop cleaning module 100 and the mop plate 60, improving user experience.

As shown in fig. 3 and 4, in some examples, the second curved wiper protrusion 212 includes two guide surfaces 214, and an area where the two guide surfaces 214 meet forms an abutment rib 2101, the abutment rib 2101 can abut against the wipe, and the abutment rib 2101 can continuously scrape or squeeze the wipe as the mop plate 60 moves up and down relative to the through-opening 11, thereby realizing the cleaning function of the mop cleaning module 100 on the wipe.

As shown in fig. 4 and 5, according to some embodiments of the present utility model, the first scraper 21 includes a plurality of second arc-shaped wiper protrusions 212, a water guide groove 2121 is formed between two adjacent second arc-shaped wiper protrusions 212, the water guide groove 2121 can guide the traveling direction of the liquid, the liquid flowing out by squeezing the wiper is discharged into the water guide groove 2121, the effect of wiping the wiper is achieved, and the wiping effect can be further improved by providing the plurality of second arc-shaped wiper protrusions 212. Illustratively, when the wringer head 70 is moved from bottom to top, liquid squeezed from the wipe by the abutment ribs 2101 of the second arcuate wiper projections 212 may be quickly directed out through the water channels 2121 above each of the second arcuate wiper projections 212; when the wringing head 70 is moved from top to bottom, liquid pressed from the wipe by the abutment ribs 2101 of the second arcuate wiper projections 212 can be quickly guided out through the water guide channels 2121 below each of the second arcuate wiper projections 212.

As shown in fig. 4, according to some embodiments of the present utility model, the radians of the plurality of second arc-shaped wiper protrusions 212 are different, for example, the radians of the plurality of second arc-shaped wiper protrusions 212 may be gradually reduced from bottom to top, so that the space of the first wiper 21 may be fully utilized, the flow guiding effect of the water guiding groove 2121 may be further improved, and of course, the radians of the plurality of second wiper protrusions 212 may be the same, so that the appearance of the first wiper 21 is more attractive and elegant.

According to some embodiments of the present utility model, the number of the second arc-shaped wiper protrusions 212 is the same as that of the first arc-shaped wiper protrusions 211, and the second arc-shaped wiper protrusions 212 and the first arc-shaped wiper protrusions 211 are symmetrically arranged, for example, the second arc-shaped wiper protrusions 212 are symmetrically arranged at the lower part of the first arc-shaped wiper protrusions 211, or the second arc-shaped wiper protrusions 212 are symmetrically arranged at the upper part of the first arc-shaped wiper protrusions 211, wherein the number of the water collecting grooves 2111 is the same as that of the water guiding grooves 2121, so that balance of secondary cleaning and wiping can be achieved, liquid can be saved, a great amount of liquid loss can be avoided, and the wiping can be quickly wiped, and the use experience of a user can be improved.

According to some embodiments of the present utility model, the first arc-shaped wiper protrusions 211 are symmetrical in a direction in which the mop plate 60 is inserted into the through hole 11 (up-down direction as shown in fig. 4), i.e., each of the first arc-shaped wiper protrusions 211 is in a laterally symmetrical arrangement, and the first arc-shaped wiper protrusions 211 are formed in a regular shape, thereby facilitating production and processing, and improving the aesthetic appearance of the first scraper 21 and the visual experience of the user.

In addition, the second arc-shaped wiper protrusions 212 are symmetrical along the direction (up-down direction as shown in fig. 4) in which the mop plate 60 is inserted into the through hole 11, that is, each of the second arc-shaped wiper protrusions 212 is in a laterally symmetrical arrangement structure, and the second arc-shaped wiper protrusions 212 are formed in a regular shape, thereby facilitating production and processing, improving the beauty of the first scraper 21, and improving the visual experience of the user.

As shown in fig. 3-6, according to some embodiments of the utility model, the first screed 21 further includes: the horizontal wiper protrusion 213, the horizontal wiper protrusion 213 is disposed between the first and second arc wiper protrusions 211 and 212, the horizontal wiper protrusion 213 extends in a horizontal direction (left and right directions as viewed in fig. 5), the extending direction of the horizontal wiper protrusion 213 is perpendicular to the direction in which the mop plate 60 is inserted into the through hole 11 (up and down directions as viewed in fig. 5), the top (rear portion as viewed in fig. 3) of the horizontal wiper protrusion 213 may extend into the through hole 11, the top of the horizontal wiper protrusion 213 forms an abutment rib 2101, the abutment rib 2101 may scrape or squeeze the wipe, and the cleaning effect of the mop cleaning module 100 on the wipe may be improved by providing a plurality of abutment ribs 2101.

As shown in fig. 3, in some examples, the horizontal wiping lip 213 includes two flow guiding surfaces 214, and the area where the two flow guiding surfaces 214 meet forms an abutment rib 2101, the abutment rib 2101 can abut against the wipe, and the abutment rib 2101 can continuously scrape or squeeze the wipe as the mop plate 60 moves up and down relative to the through-opening 11, thereby realizing the cleaning function of the mop cleaning module 100 on the wipe.

According to some embodiments of the present utility model, the first and second arc-shaped wiper protrusions 211 and 212 are symmetrically arranged at both sides of the horizontal wiper protrusion 213, i.e., the upper and lower sides of the horizontal wiper protrusion 213 have the same number of the first and second arc-shaped wiper protrusions 211 and 212, and the extension directions of the two arc-shaped wiper protrusions are symmetrically arranged. From this overall structure is more pleasing to the eye, and even first arc scrapes the water convex part 211 and the second arc scrapes water convex part 212 dress and reverse, first arc scrapes the water convex part 211 and also can realize the function of second arc scrapes water convex part 212, and second arc scrapes the water convex part 212 and also can realize the function of first arc scrapes water convex part 211, and the manufacturing shaping of overall structure of being convenient for need not to confirm the installation direction of first scraper blade 21 and can normally use, has improved user operation's convenience.

As shown in fig. 2, 3 and 4, according to some embodiments of the present utility model, the first scraping assembly 20 further includes a frame 22, the first scraping plate 21 is disposed in a hollow region formed by the frame 22, and the frame 22 is detachably connected with the housing 10, thereby facilitating the replacement of the scraping assembly by a user to meet different demands of the user. In practice, the hollow area of the frame 22 may be provided with other features that scrape and/or squeeze wipes disposed on the mop plate, such as individual scraping strips, rollers, or combs, etc.

According to some embodiments of the present utility model, as shown in fig. 6, the side of the housing 10 is provided with the opening 12, the opening 12 extends along the insertion direction of the mop plate 60 (up and down direction as shown in fig. 6), and the frame 22 is inserted into the housing 10 through the opening 12, that is, the direction in which the frame 22 is mounted is perpendicular to the insertion direction of the mop plate 60, thereby avoiding the influence of the cooperation of the frame 22 and the housing 10 when the mop plate 60 moves, and ensuring the reliability of the cooperation of the two. Wherein, the frame 22 can be clamped with the shell 10, and the installation or the disassembly is more convenient.

As shown in fig. 6, according to some embodiments of the present utility model, the housing 10 has a scraper receiving cavity 13, one end of the scraper receiving cavity 13 is opened to form an opening 12, an inner wall surface of the scraper receiving cavity 13 has a mating portion, the frame 22 has a clamping portion, when the frame 22 is inserted into the scraper receiving cavity 13, the frame 22 is clamped and matched with the mating portion through the clamping portion, so that the fixing of the frame 22 is realized, and the mating portion is arranged on the inner wall surface of the scraper receiving cavity 13, so that the beauty of the mating is not affected, the frame 22 is limited in the scraper receiving cavity 13, shaking and falling of the frame 22 are avoided, and the reliability and stability of the mating are improved.

As shown in fig. 2, according to some embodiments of the present utility model, the outer surface of the frame 22 has an inwardly recessed mounting recess 221, the catching portion forms a catching protrusion 222 protruding from the mounting recess 221, and the mating portion forms a boss (not shown in the drawings) protruding from the inner wall surface of the squeegee housing chamber 13, wherein the catching protrusion 222 passes over the boss and catches with the boss when the frame 22 is inserted into the squeegee housing chamber 13 from the opening 12, so that the fixation between the frame 22 and the housing 10 is firm with good reliability.

Wherein, through setting up installation concave part 221, with the protruding 222 of card setting in installation concave part 221, can avoid the protruding 222 of card to take place to interfere with the in-process of scraper blade accommodation chamber 13 joint, prevent that frame 22 from having the one end perk of protruding 222 of card, influence the effect of leaning on muscle 2101 and wiper, guaranteed the job stabilization nature of mop cleaning module 100, and then improve user's use experience.

As shown in fig. 1 and 6, in some specific examples, the matching portion is disposed at the left end of the blade accommodating cavity 13, and the matching portion and the opening 12 are respectively located at opposite ends of the blade accommodating cavity 13, so that stability of the frame 22 after being inserted into the opening 12 can be improved, and operation experience of a user can be improved.

As shown in fig. 12 and 13, according to other embodiments of the present utility model, the inner wall surface of the scraper receiving chamber 13 has a clamping groove 15, and the clamping portion forms a clamping protrusion 222, wherein the clamping protrusion 222 is clamped with the clamping groove 15 when the frame 22 is inserted into the scraper receiving chamber 13 from the opening 12, thereby directly realizing the clamping fit of the frame 22 and the housing 10, and facilitating the connection and the manufacturing and forming of the structure.

As shown in fig. 12 and 13, in some specific examples, the frame 22 has an elastic cantilever 223, the catch boss 222 is disposed at the elastic cantilever 223, the catch boss 222 is adjacent to a fixed end of the elastic cantilever 223, a free end of the elastic cantilever 223 has a pressing portion 224 adapted to operate, by operating the pressing portion 224, the catch boss 222 is caught in the catch groove 15 after the elastic cantilever 223 is slightly deformed, and by operating the pressing portion 224, the catch boss 222 is separated from the catch groove 15 after the elastic cantilever 223 is slightly deformed, thereby facilitating the catch engagement of the frame 22 with the housing 10 or the disengagement of the frame 22 with the housing 10, and improving the convenience of user operation by disassembling the scraping assembly by a user.

Wherein the frame 22 has a handle located outside the opening 12, and the elastic cantilever 223 is provided at the handle, and the fitting portion is provided adjacent to the opening 12, thereby facilitating the user's operation of attaching and detaching the frame 22 at the opening 12.

As shown in fig. 7-9, the mop cleaning module 100, according to some embodiments of the present utility model, further includes: and a second scraping assembly 30, the second scraping assembly 30 including a frame 22 and a second scraper 31, the second scraper 31 being disposed in the frame 22, the second scraper 31 being provided with a scraping bar 311, the scraping bar 311 extending in a direction perpendicular to the insertion direction of the mop plate 60 (left and right direction as shown in fig. 7), the scraping bar 311 being capable of scraping the wipes of the mop plate 60 and pressing the wipes of the mop plate 60, and simultaneously scraping and pressing the wipes of the mop plate 60, thereby achieving cleaning of the wipes.

The frame 22 is the same as the frame 22 on the first scraping assembly 20, so that the second scraping assembly 30 is conveniently assembled on the shell 10, and the scraping assembly can be automatically selected to be replaced according to the requirement of a user, thereby realizing the function of replacing the scraping plate.

As shown in fig. 7, in some examples, the second scraper 31 is provided with a plurality of scraping strips 311 arranged at intervals, two adjacent scraping strips 311 are connected with each other, an arc-shaped water guide groove 312 is formed in a connection area between two adjacent scraping strips 311, and liquid after the scraping strips 311 scrape the wiping object can be gathered into the arc-shaped water guide groove, thereby achieving a water collecting effect on the effect of scraping.

As shown in fig. 8, in some examples, the second scraper 31 is provided with a plurality of scraping strips 311 arranged at intervals, two adjacent scraping strips 311 are connected with each other, and a plurality of water guide holes 313 are formed on the scraping strips 311 and are arranged at intervals along the extending direction of the scraping strips 311 (the left-right direction as shown in fig. 8), so that the drainage capacity of the second scraper 31 can be enhanced, and the liquid scraped by the scraping strips 311 can be timely drained through the water guide holes 313, so that the wiping effect of the mop cleaning module 100 on the wiping object is improved.

As shown in fig. 9, according to some embodiments of the present utility model, the second scraper 31 is provided with two scraping strips 311, the two scraping strips 311 are respectively disposed at the upper and lower ends of the second scraper 31, and the two scraping strips 311 disposed at intervals can respectively scrape or squeeze the wiper to realize the cleaning function of the mop cleaning module 100.

As shown in fig. 10 and 11, the mop cleaning module 100 further includes: the third scraping assembly 40, the third scraping assembly 40 includes a frame 22 and a third scraping plate 41, the third scraping plate 41 is arranged in the frame 22, the third scraping plate 41 is provided with a plurality of comb teeth 411, the comb teeth 411 are arranged in a staggered mode, the comb teeth 411 can comb and scrape the wiping objects on the mop plate, and the cleaning function of the mop cleaning module 100 is achieved by scraping hairs and the like adhered to the wiping objects.

The frame 22 is the same as the frame 22 on the first scraping assembly 20, so that the third scraping assembly 40 is conveniently assembled on the shell 10, and the scraping assembly can be automatically selected to be replaced according to the requirement of a user, thereby realizing the function of replacing the scraping plate.

In some examples, as shown in fig. 10, the third scraper 41 may be provided with comb teeth 411 having a large size and a small density, and in other examples, as shown in fig. 11, the third scraper 41 may be provided with comb teeth 411 having a small size and a large density, so that the cleaning effect of the mop cleaning module 100 may be improved by increasing the number of the comb teeth 411 and reducing the size of the comb teeth 411, and a user may select the cleaning mode of the mop cleaning module 100 according to his/her own needs, thereby improving the user experience.

As shown in fig. 14, the mop cleaning module 100 further includes: and a fourth scraping assembly 80, wherein the fourth scraping assembly 80 comprises a frame 22 and a plurality of rollers 801 (left and right in fig. 14) extending along a direction perpendicular to the insertion direction of the mop plate 60, the plurality of rollers 801 are arranged inside the frame 22, when the mop plate 60 moves up and down relative to the fourth scraping assembly 80, the plurality of rollers 801 can squeeze the wiping material of the mop plate 60, repeatedly squeeze and scrape the wiping material, and the rollers 801 can be rotatably matched with the frame 22, so that friction in the moving process of the mop plate 60 can be reduced, the convenience of operation is improved, and the service life of the wiping material is prolonged. In practical applications, the roller 801 may be fixedly connected to the frame 22. The diameters of the plurality of rollers 801 may be the same or different, for example, the diameters of the plurality of rollers 801 may be sequentially increased or sequentially decreased in the up-down direction in fig. 14.

The frame 22 is the same as the frame 22 on the first scraping assembly 20, so that the fourth scraping assembly is conveniently assembled on the shell 10, and the scraping assembly can be automatically selected to be replaced according to the requirement of a user, thereby realizing the function of replacing the scraping plate.

As shown in fig. 15, the mop 200 according to the embodiment of the present utility model includes a mop rod 50, a mop plate 60 and a wringing head 70, the wringing head 70 is sleeved on the mop rod 50, one end (lower end as shown in fig. 15) of the wringing head 70, which is close to the mop plate 60, is provided with the mop cleaning module 100 according to any one of the embodiments described above, the mop plate 60 can rotate relative to the mop rod 50 between a use state and a cleaning state, and when the wringing head 70 moves along the mop rod 50 in a direction (lower side as shown in fig. 15) close to the mop plate 60, the mop plate 60 can be moved in the through hole 11, thereby cleaning the mop plate 60 in the cleaning state.

Other constructions and operations of the mop 200 according to the embodiment 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 (26)

1. A mop cleaning module, the mop cleaning module comprising:

a housing having a through hole into which the mop plate is inserted;

a first scraping assembly disposed on the housing for scraping and/or squeezing the wipes of the mop plate;

The first scraping assembly comprises a first scraping plate, the first scraping plate comprises a first arc-shaped water scraping convex part, two end parts of the first arc-shaped water scraping convex part are close to the top end of a mop plate inserted into the through hole, an arched part is close to the bottom end of the mop plate, and the first arc-shaped water scraping convex part defines a water collecting tank through the arched part; the top of the first arc-shaped water scraping convex part stretches into the through hole to form an abutting rib for scraping and/or extruding the wiping object;

when the mop plate moves in the through hole, part of the liquid scraped and/or squeezed by the abutting ribs gathers to the water collecting tank, and the liquid in the water collecting tank can be absorbed by the wiper when the mop plate moves relative to the abutting ribs.

2. The mop cleaning module of claim 1, wherein the first scraper includes a plurality of first arcuate wiping protrusions, the water collection trough being formed between two adjacent first arcuate wiping protrusions.

3. The mop cleaning module of claim 2, wherein the plurality of first arcuate wiper projections have different curvatures.

4. The mop cleaning module of claim 1, further comprising: the two ends of the second arc-shaped water scraping convex part are close to the bottom end of the mop plate inserted into the through hole, the arched part is close to the top end of the mop plate, and the second arc-shaped water scraping convex part is used for defining a water guide groove through the arched part; the top of the second arc-shaped water scraping convex part stretches into the through hole to form an abutting rib for scraping and/or extruding the wiping object;

When the mop plate moves in the through hole, part of the liquid scraped and/or squeezed by the abutting ribs is discharged through the water guide groove.

5. The mop cleaning module of claim 4, wherein the first scraper includes a plurality of second arcuate wiping protrusions, the water guide channel being formed between two adjacent second arcuate wiping protrusions.

6. The mop cleaning module of claim 5, wherein the plurality of second arcuate wiper projections have different curvatures.

7. The mop cleaning module of claim 4, wherein the second arcuate wiping protrusions are the same number and symmetrically arranged as the first arcuate wiping protrusions.

8. The mop cleaning module of claim 4, wherein the first and second arcuate wiper projections are symmetrical in a direction of insertion of the mop plate into the wear.

9. The mop cleaning module of claim 4, further comprising: the horizontal wiper convex part is arranged between the first arc wiper convex part and the second arc wiper convex part, the extending direction of the horizontal wiper convex part is perpendicular to the direction of inserting the mop plate into the through hole, and the top of the horizontal wiper convex part stretches into the through hole to form a propping rib for scraping and/or extruding the wiping object.

10. The mop cleaning module of claim 9, wherein the first and second arcuate wiper projections are symmetrically disposed on either side of the horizontal wiper projection.

11. The mop cleaning module of claim 9, wherein the first arcuate wiping lip, the second arcuate wiping lip and the horizontal wiping lip each include two flow directing surfaces, the area where the two flow directing surfaces meet forming the abutment rib.

12. The mop cleaning module of any one of claims 1 to 11, wherein the first scraper assembly further comprises a frame, the first scraper being disposed in a hollow region defined by the frame, the frame being detachably connected to the housing.

13. The mop cleaning module of claim 12, wherein the housing is provided with an opening in a side thereof, the opening extending in a mop plate insertion direction, the frame being inserted into the housing through the opening and being snapped into engagement with the housing.

14. The mop cleaning module according to claim 13, wherein the housing has a blade receiving chamber, one end of the blade receiving chamber being open to form the opening, an inner wall surface of the blade receiving chamber having a fitting portion, and the frame having a clamping portion, the clamping portion being clamped with the fitting portion.

15. The mop cleaning module according to claim 14, wherein the engaging portion forms a boss protruding from an inner wall surface of the blade receiving chamber, the outer surface of the frame has an inwardly recessed mounting recess, the engaging portion forms a catching protrusion protruding from the mounting recess,

wherein, when the frame is inserted into the scraper accommodating cavity from the opening, the clamping protrusion passes over the boss to be clamped with the boss.

16. The mop cleaning module of claim 15, wherein the mating portion is disposed at an end of the blade receiving cavity remote from the opening.

17. The mop cleaning module according to claim 14, wherein the blade receiving chamber has a catching groove on an inner wall surface thereof, the catching portion forming a catching protrusion,

wherein, when the frame is inserted into the scraper accommodating cavity from the opening, the clamping protrusion is clamped with the clamping groove.

18. The mop cleaning module of claim 17, wherein the frame has a resilient cantilever arm, the clip is protruding from the resilient cantilever arm adjacent to a fixed end of the resilient cantilever arm, and a free end of the resilient cantilever arm has a pressing portion adapted to be operated.

19. The mop cleaning module of claim 18, wherein the mating portion is adjacent an end of the blade receiving cavity proximate the opening.

20. The mop cleaning module of any one of claims 14 to 19, further comprising: the second scraping assembly comprises a frame and a second scraping plate arranged in the frame, wherein the second scraping plate is provided with a scraping strip extending along the direction perpendicular to the insertion direction of the mop plate, and the scraping strip is used for scraping and/or extruding the wiping objects of the mop plate.

21. The mop cleaning module according to claim 20, wherein the second scraper is provided with a plurality of scraping strips arranged at intervals, two adjacent scraping strips are connected with each other, and a connecting area between two adjacent scraping strips forms an arc-shaped water guide groove.

22. The mop cleaning module according to claim 20, wherein the second scraper is provided with a plurality of scraping strips arranged at intervals, two adjacent scraping strips are connected with each other, and a plurality of water guide holes are formed in the scraping strips at intervals along the extending direction of the scraping strips.

23. The mop cleaning module according to claim 20, wherein said second scraper is provided with two of said scraping strips, which are provided at both ends in the insertion direction of said mop plate, respectively.

24. The mop cleaning module of any one of claims 14 to 19, further comprising: the third scraping assembly comprises a frame and a third scraping plate arranged in the frame, and the third scraping plate is provided with a plurality of staggered comb teeth.

25. The mop cleaning module of any one of claims 14 to 19, further comprising: a fourth scraping assembly comprising a frame and a plurality of rollers disposed within the frame extending in a direction perpendicular to the insertion of the mop plate, the plurality of rollers being for scraping and/or squeezing wipes of the mop plate.

26. The mop is characterized by comprising 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, which is close to the mop plate, of the mop cleaning module set according to any one of claims 1 to 25 is arranged, 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, which is close to the mop plate, the mop plate in the cleaning state moves in the wearing mouth so that the scraping plate cleans the mop plate.

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