CN218692308U - Cleaning assembly and cleaning device - Google Patents

Abstract

The utility model discloses a cleaning assembly and cleaning equipment, wherein, the cleaning assembly comprises a cleaning main body, a wiping piece and a locking structure, the cleaning main body is provided with a cleaning groove, the cleaning main body is provided with a sewage discharge outlet communicated with the cleaning groove, the cleaning main body is also provided with a rotating shaft, and the rotating shaft is convexly arranged on the bottom wall of the cleaning groove; the wiping and dragging piece is rotatably connected to the rotating shaft and abutted against the groove bottom wall of the cleaning groove, and the surface of the wiping and dragging piece, back to the groove bottom wall, is abutted against the cleaning tool and is used for cleaning the cleaning tool; the locking structure is movably arranged between the cleaning main body and the wiping and dragging piece and is used for abutting and fixing the wiping and dragging piece. The utility model discloses technical scheme aims at realizing the self-cleaning function in clean groove, makes the user need not manual clearance clean groove, improves the practicality of clean subassembly.

Description

Cleaning assembly and cleaning device

Technical Field

The utility model relates to a cleaning device technical field, in particular to clean subassembly and cleaning device.

Background

In the existing cleaning devices, cleaning tools such as cleaning rags or round brushes are mostly arranged at the bottom of a cleaning device, and the cleaning device is driven to rotate on a surface to be cleaned, so that garbage on the surface to be cleaned is swept and recovered, and the surface to be cleaned is cleaned.

And in current cleaning device, mostly adopt to set up fixed wiping in the clean groove of cleaning assembly and drag the piece, when cleaning device placed on the clean groove, wipe through drive burnisher butt in the clean groove and drag a rotation, can make and wipe a scraping burnisher to in wiping the dusty collection clean groove of adnexed on the burnisher, realized the washing to burnisher, guarantee burnisher's clean and tidy, the continuous function of the cleaning device of being convenient for.

However, after the cleaning tool is cleaned by the existing cleaning assembly, part of the garbage is attached to the inner wall of the cleaning groove, and in order to prevent the garbage from accumulating on the groove wall of the cleaning groove for a long time to generate peculiar smell or mildew, a user needs to manually clean the inner wall of the cleaning groove by using a brush after the cleaning assembly cleans the cleaning tool, so that the operation is complicated and inconvenient to use; and the user receives the influence of fixing the piece of dragging of wiping on clean groove when scrubbing clean groove easily and hinders the washing, leads to wasing not smooth, causes the condition of wasing incompletely and taking place ponding easily, and then leads to user's use to experience relatively poor, has reduced clean subassembly's practicality.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a clean subassembly aims at realizing the self-cleaning function in clean groove, makes the user need not manual clearance clean groove, improves clean subassembly's practicality.

In order to achieve the purpose, the cleaning assembly provided by the utility model comprises a cleaning main body, a wiping piece and a locking structure, wherein the cleaning main body is provided with a cleaning groove, the cleaning main body is provided with a sewage outlet communicated with the cleaning groove, the cleaning main body is also provided with a rotating shaft, and the rotating shaft is convexly arranged on the bottom wall of the cleaning groove; the wiping and dragging piece is rotatably connected to the rotating shaft and abutted against the groove bottom wall of the cleaning groove, and the surface of the wiping and dragging piece, back to the groove bottom wall, is abutted against the cleaning tool and is used for cleaning the cleaning tool; the locking structure is movably arranged between the cleaning main body and the wiping and dragging piece and is used for abutting and fixing the wiping and dragging piece.

Optionally, the cleaning assembly is provided with at least two of the wiping and dragging pieces, the at least two wiping and dragging pieces are arranged in the cleaning groove at intervals, and the sewage draining exit is arranged between any two adjacent wiping and dragging pieces.

Optionally, the locking structure is swingably arranged on the inner side wall of the cleaning groove, the wiping and dragging piece abuts against the locking structure when rotating in the first rotating direction, and the wiping and dragging piece pushes the locking structure to swing towards the inner side wall of the cleaning groove when rotating in the second rotating direction, so that the locking structure avoids the rotation of the wiping and dragging piece.

Optionally, the inner side wall of the cleaning groove is provided with a first avoidance hole, the locking structure comprises a first stop piece and a first elastic piece, the first stop piece is swingably arranged in the first avoidance hole in a penetrating manner, and part of the first stop piece is convexly arranged on the inner side wall of the cleaning groove; the first elastic piece is arranged on the outer peripheral side of the cleaning groove and abuts against one side, back to the wiping piece, of the first stopper. The wiping and dragging piece abuts against the first stop piece when rotating in the first rotating direction, the first stop piece abuts against the first avoidance hole, the wiping and dragging piece pushes the first stop piece to swing towards the first avoidance hole when rotating in the second rotating direction, and the first stop piece is made to compress the first elastic piece.

Optionally, one side of the first stopper, which faces away from the wiping piece, is provided with a first abutting plate, and the first abutting plate abuts against the outer peripheral edge of the first avoidance hole when the wiping piece rotates towards the first rotation direction.

Optionally, the locking structure is telescopically inserted into the inner side wall of the cleaning groove, so that one end of the locking structure is convexly arranged on the inner side wall of the cleaning groove to resist the rotation of the wiping and dragging piece.

Optionally, the locking structure comprises a steering engine and a lock tongue, and the steering engine is arranged on the outer peripheral side of the cleaning groove; the spring bolt connect in the steering wheel, the steering wheel is used for driving about the spring bolt orientation wipe the direction of dragging the piece and move telescopically to make the one end of spring bolt pass clean inslot's inside wall is kept off wipe and drag the piece rotation.

Optionally, the spring bolt includes first clamping part and second clamping part, first clamping part and second clamping part interval set up, the steering wheel orders about the one end of first clamping part with the second clamping part passes respectively clean inslot wall centre gripping of groove wipe and drag the piece.

Optionally, wipe and drag the piece orientation one side of clean inslot lateral wall is equipped with spacing frame and dodges the board, spacing frame orientation one side of wiping the first direction of rotation of dragging the piece is equipped with the opening, it can locate asway to dodge the board the opening, it still is equipped with the resilience piece to wipe and drag the piece, the resilience piece is connected dodge the board with spacing frame is adjacent open-ended one side. The spring bolt orientation open-ended one side width is less than open-ended width, the spring bolt in wipe when dragging along first direction of rotation and push away the messenger dodge the board orientation spacing frame swing, and make dodge the board compression rebound spare, so that the spring bolt part at least gets into in the spacing frame and support the week side of spacing frame.

Optionally, the locking structure may be swingably connected to a side of the wiping and dragging member facing the rotating shaft, and the rotating shaft abuts against the locking structure when the wiping and dragging member rotates in the first rotating direction, and pushes the locking structure to swing toward the wiping and dragging member when the wiping and dragging member rotates in the second rotating direction, so that the locking structure avoids the rotation of the wiping and dragging member.

Optionally, a second avoidance hole is formed in one side, facing the rotating shaft, of the wiping and dragging piece, the locking structure comprises a second stop piece and a second elastic piece, the second stop piece is arranged in the second avoidance hole in a penetrating mode in a swinging mode, and part of the second stop piece is arranged on one side, facing the rotating shaft, of the wiping and dragging piece in a protruding mode; the second elastic piece is arranged in the wiping piece and is abutted against one side, back to the rotating shaft, of the second stop piece. The outer peripheral side of the rotating shaft is provided with a limiting bulge, the limiting bulge abuts against the second stop piece when the wiping and dragging piece rotates along the first rotating direction and enables the second stop piece to abut against the second avoiding hole, and the limiting bulge pushes the second stop piece to swing towards the second avoiding hole when the wiping and dragging piece rotates along the second rotating direction and enables the second stop piece to compress the second elastic piece.

Optionally, a second abutting plate is arranged on one side, back to the wiping and dragging piece, of the second stopping piece, and the second abutting plate abuts against the outer peripheral edge of the second avoiding hole when the wiping and dragging piece rotates towards the first rotating direction.

Optionally, a first water injection channel is arranged in the wiping and dragging piece, and a water spray hole communicated with the first water injection channel is arranged on the surface of the wiping and dragging piece, which is back to the cleaning groove. The cleaning main body is provided with a second water injection channel which is communicated with the first water injection channel when the locking structure abuts against and fixes the wiping and dragging piece, and the second water injection channel is used for being communicated with water supply equipment.

Optionally, the bottom of the wiping and dragging piece is provided with a first water inlet communicated with the first water injection channel, the second water injection channel is arranged below the cleaning groove, the bottom wall of the cleaning groove is provided with a first water injection hole communicated with the second water injection channel, and the first water injection hole is communicated with the first water inlet when the locking structure abuts against and fixes the wiping and dragging piece.

Optionally, one side of the wiping and dragging piece facing the rotating shaft is provided with a second water inlet communicated with the first water injection channel, and the second water injection channel is arranged below the cleaning groove. The rotating shaft is internally provided with a flow passage communicated with the second water injection passage, the peripheral side of the rotating shaft is provided with a second water injection hole communicated with the flow passage, and the second water injection hole is correspondingly communicated with the second water inlet when the locking structure abuts against and fixes the wiping and dragging piece.

Optionally, when the locking structure is movably disposed between the inner side wall of the cleaning tank and the wiping part, a third water inlet communicated with the first water injection channel is disposed on one side of the wiping part facing the locking structure, and the second water injection channel is disposed on one side of the cleaning tank and penetrates through the inner side wall of the cleaning tank and the locking structure. And a third water injection hole communicated with the second water injection channel is arranged on one side of the locking structure facing the wiping part, and the third water injection hole is correspondingly communicated with the third water inlet when the locking structure abuts against and fixes the wiping part.

Optionally, one side of the wiping and dragging piece, which faces the inner side wall of the cleaning groove, is provided with a fourth water inlet communicated with the first water injection channel, the second water injection channel is arranged on one side of the cleaning groove, the inner side wall of the cleaning groove is provided with a fourth water injection hole communicated with the second water injection channel, and the fourth water injection hole is communicated with the fourth water inlet correspondingly when the locking structure abuts against and fixes the wiping and dragging piece.

Optionally, a first water injection pipe is arranged in the wiping and dragging piece, the first water injection pipe is detachably inserted into the wiping and dragging piece, and a first water injection channel is formed in the first water injection pipe. The cleaning main body is provided with a second water injection pipe, the second water injection pipe is detachably inserted into the cleaning main body, and a second water injection channel is formed in the second water injection pipe.

Optionally, the wiping piece comprises a wiping main body, a first scraping strip and a second scraping strip, the wiping main body is rotatably connected to the rotating shaft, and the surface of the wiping main body, which faces away from the cleaning groove, abuts against the cleaning tool; the first scraping strip is connected to the bottom of the wiping body and abutted against the bottom wall of the cleaning groove; the second scraping strip is connected to the side surface, facing the side wall of the cleaning groove, of the wiping and dragging main body and abuts against the side wall of the cleaning groove.

Optionally, the first scraping strip is made of rubber or silica gel. And/or the second scraping strip is made of rubber or silica gel. And/or the mopping main body is detachably connected with the rotating shaft.

Optionally, the first scraping bar, the second scraping bar and the wiping body are of an integral structure. Or the first scraping strip and the second scraping strip are detachably connected to the wiping and dragging main body.

Optionally, the cleaning assembly further comprises a garbage collecting member, the garbage collecting member is connected to the wiping member and is provided with a dry-wet separation hole communicated with the cleaning groove, and the garbage collecting member is used for collecting the garbage on the cleaning tool and enabling the liquid garbage to enter the cleaning groove through the dry-wet separation hole.

Optionally, the surface of the garbage collection part back to the cleaning groove is provided with a dirt collecting groove, the inner wall of the dirt collecting groove is provided with the dry-wet separation hole, and the garbage collection part is at least connected to one side of the wiping part back to the rotation direction of the cleaning tool.

Optionally, the number of the garbage collecting pieces is two, and the two garbage collecting pieces are respectively connected to two opposite sides of the wiping piece. And/or the garbage collection member is detachably connected with the wiping and dragging member.

Optionally, the waste collection member is spaced from the floor wall of the cleaning tank.

Optionally, the waste collection member is provided with a filter member, and the filter member is provided in the wet-dry separation hole. And/or the bottom wall of the sewage collecting groove is provided with the dry-wet separation hole. And/or the side wall of the sewage collecting groove is provided with the dry-wet separation hole.

Optionally, the cleaning assembly further includes a driving device, the driving device is disposed on the rotating shaft and connected to the wiping and dragging member, and the driving device is configured to drive the wiping and dragging member to rotate.

The utility model discloses still provide a cleaning device, cleaning device includes cleaning device and as above the cleaning assembly, cleaning device is equipped with burnisher, cleaning assembly is used for right the burnisher cleans.

The utility model discloses technical scheme is through setting up the pivot in the clean groove of clean main part to the messenger wipes the piece and rotationally connects in the pivot, through clean main part and wipe and set up locking structure between the piece, can utilize locking structure to support when cleaning assembly cleans burnisher and wipe the piece fixedly, the restriction is wiped and is dragged the rotation of piece in the clean groove, and then can rotate burnisher through wiping a top, make and wipe a scraping burnisher and realize the cleanness to burnisher. Simultaneously, the movably setting of locking structure is wiping between dragging piece and the clean main part, can be the setting clean between groove and wiping the dragging piece or set up between pivot and wiping the dragging piece, and wipe the tank bottom wall in a dragging piece butt clean groove, and then after cleaning assembly cleaned the burnisher, can make locking structure dodge to wipe the dragging piece rotation through removing locking structure, can make and wipe the dragging piece at the clean inslot rotation under the drive of burnisher this moment, and scrape the cleanness to the tank bottom wall in clean groove, the automatically cleaning effect to the clean groove has been realized, the user need not manually to clean the clean groove, the clean convenience of cleaning assembly has been improved, further the practicality of cleaning assembly has been improved, user's use experience has been improved.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings needed to be used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the structures shown in the drawings without creative efforts.

FIG. 1 is a schematic view of an embodiment of a cleaning assembly of the present invention;

FIG. 2a is a top view of the scrubbing member of the cleaning assembly of FIG. 1, shown rotated in a first rotational direction;

FIG. 2b is a top view of the scrubbing member of the cleaning assembly of FIG. 1, shown rotated in a second rotational direction;

FIG. 3 is a partial cross-sectional view of one embodiment of the cleaning assembly of FIG. 1;

FIG. 4 is a cross-sectional exploded view of one embodiment of the wiper of the cleaning assembly of FIG. 1;

FIG. 5 is a schematic view of another embodiment of the cleaning assembly of the present invention;

FIG. 6 is a partial cross-sectional view of one embodiment of the cleaning assembly of FIG. 5;

FIG. 7 is a schematic view of another embodiment of the cleaning assembly of the present invention;

FIG. 8a is a top view of the scrubbing member of the cleaning assembly of FIG. 7, shown rotated in a first rotational direction;

FIG. 8b is a top view of the wiper and drag member of the cleaning assembly of FIG. 7, rotated in a second rotational direction;

FIG. 9 is an enlarged view of a portion of FIG. 8a at A;

FIG. 10 is an enlarged view of a portion of FIG. 8B at B;

FIG. 11 is a partial cross-sectional view of one embodiment of the cleaning assembly of FIG. 7;

FIG. 12 is a schematic view of another embodiment of the cleaning assembly of the present invention;

FIG. 13 is a partial cross-sectional view of one embodiment of the cleaning assembly of FIG. 12;

FIG. 14 is a schematic view of another embodiment of a cleaning assembly of the present invention;

figure 15a is a top view of a scrubbing element of another embodiment of a cleaning assembly of the present invention shown rotated in a first rotational direction;

FIG. 15b is a cross-sectional view taken at C-C of FIG. 15 a;

FIG. 16a is a top view of the wipe and drag member of one embodiment of the cleaning assembly of FIG. 15a, shown in position against a fixed locking structure;

fig. 16b is a cross-sectional view at D-D of fig. 16 a.

The reference numbers illustrate:

reference numerals	Name (R)	Reference numerals	Name (R)
				100	Cleaning assembly	35	Second scraping strip
10	Cleaning main body	37	Limiting frame
				11	Cleaning tank	371	Opening of the container
111	First avoidance hole	39a	Avoidance plate
				113a	First water injection hole	39b	Rebound part
13	Rotating shaft	50	Locking structure
				131	Spacing protrusion	51a	First stop piece
133	Flow passage	511a	First butt plate
				135	Second water injection hole	53a	First elastic member
15	Second water injection pipe	51b	Lock tongue
				151	Second water injection channel	511b	A first clamping part
30	Wiping and mopping piece	513b	Second clamping part
				31	Mop body	53b	Steering engine
311	Second avoiding hole	51c	Second stop member
				313	First water injection pipe	511c	Second abutting plate
3131	First water injection channel	53c	Second elastic member
				315a	First water inlet	55	Third water injection hole
315b	Second water inlet	70	Refuse collection member
				315c	Third water inlet	71	Dry-wet separation hole
317	Water spraying hole	73	Filter element
				33	First scraping strip

The objects, features and advantages of the present invention will be further described with reference to the accompanying drawings.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts belong to the protection scope of the present invention.

It should be noted that all the directional indicators (such as upper, lower, left, right, front, and rear … …) in the embodiments of the present invention are only used to explain the relative position relationship between the components, the motion situation, etc. in a specific posture (as shown in the drawings), and if the specific posture is changed, the directional indicator is changed accordingly.

In the present application, unless expressly stated or limited otherwise, the terms "connected" and "fixed" are to be construed broadly, e.g., "fixed" may be fixedly connected or detachably connected, or integrally formed; can be mechanically or electrically connected; they may be directly connected or indirectly connected through intervening media, or they may be connected internally or in any other suitable relationship, unless expressly stated otherwise. The specific meaning of the above terms in the present invention can be understood according to specific situations by those skilled in the art.

In addition, descriptions in the present application as to "first", "second", and the like are for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicit to the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include at least one such feature. In addition, the meaning of "and/or" appearing throughout is to include three juxtapositions, exemplified by "A and/or B," including either the A or B arrangement, or both A and B satisfied arrangement. In addition, the technical solutions in the embodiments may be combined with each other, but it must be based on the realization of those skilled in the art, and when the technical solutions are contradictory or cannot be realized, the combination of the technical solutions should not be considered to exist, and is not within the protection scope of the present invention.

After the existing cleaning assembly cleans the cleaning tool, partial garbage is attached to the inner wall of the cleaning groove, and in order to prevent the garbage from accumulating on the groove wall of the cleaning groove for a long time to generate peculiar smell or mildew, a user needs to manually clean the inner wall of the cleaning groove by using a brush after the cleaning assembly cleans the cleaning tool, so that the operation is complicated and inconvenient to use; and the user receives the influence of fixing the piece of dragging of wiping on clean groove when scrubbing clean groove easily and hinders the washing, leads to wasing not smooth, causes the condition of wasing incompletely and taking place ponding easily, and then leads to user's use to experience relatively poor, has reduced clean subassembly's practicality. In view of the above, the present invention provides a cleaning assembly 100.

Referring to fig. 1 to 16b, in the embodiment of the present invention, the cleaning assembly 100 includes a cleaning main body 10, a wiping member 30 and a locking structure 50, the cleaning main body 10 is provided with a cleaning groove 11, the cleaning main body 10 is provided with a sewage outlet communicated with the cleaning groove 11, the cleaning main body 10 is further provided with a rotating shaft 13, and the rotating shaft 13 is convexly disposed on a bottom wall of the cleaning groove 11; the wiping and dragging piece 30 is rotatably connected with the rotating shaft 13 and abuts against the bottom wall of the cleaning groove 11, and the surface of the wiping and dragging piece 30, which is back to the bottom wall of the groove, abuts against the cleaning tool and is used for cleaning the cleaning tool; a locking structure 50 is movably provided between the cleaning body 10 and the scrubbing member 30, the locking structure 50 being adapted to engage against the fixed scrubbing member 30.

It is understood that the cleaning assembly 100 can be applied to a cleaning device such as a sweeper, an intelligent mop or a cleaning robot, and the cleaning device can be provided with a cleaning tool such as a rotary rag or a round brush for cleaning the floor, a tabletop to be cleaned surface. When cleaning device parked above cleaning assembly 100, can make burnisher place in clean groove 11, and the butt is wiped and is dragged the piece 30 surface of being back to clean groove 11, and can protruding a lot of scraping archs that are equipped with on wiping and dragging the piece 30 surface of being back to clean groove 11, through drive burnisher rotation in clean groove 11 this moment, can make and wipe and drag piece 30 scraping burnisher when burnisher rotates, so that rubbish on the burnisher is scraped off, the cleanness of cleaning assembly 100 to burnisher has been realized, ensure that cleaning device can continuously utilize clean and tidy burnisher to treat the cleaning surface and clean.

In this application, the wiping and dragging member 30 can rotate around the rotating shaft 13 arranged on the bottom wall of the cleaning groove 11, and the locking structure 50 can move between the cleaning main body 10 and the wiping and dragging member 30, at this time, the locking structure 50 can clamp and fix the wiping and dragging member 30 or block and limit the wiping and dragging member 30 to rotate towards a certain rotating direction when the wiping and dragging member 30 cleans the cleaning tool, so that the wiping and dragging member 30 cannot be driven by the rotation of the cleaning tool, and the cleaning tool is cleaned. After the cleaning tool finishes cleaning, the fixing of the wiping and dragging member 30 can be loosened by moving the locking structure 50, or the locking structure 50 can be moved when the wiping and dragging member 30 rotates in another rotation direction, so that the locking structure 50 can be separated from the rotation track of the wiping and dragging member 30 to avoid the rotation of the wiping and dragging member 30 when the wiping and dragging member 30 rotates, the wiping and dragging member 30 can make circular motion around the rotating shaft 13 in the cleaning groove 11, the bottom surface of the wiping and dragging member 30 abuts against the groove bottom wall of the cleaning groove 11, and at this time, the wiping and dragging member 30 can rotate to scrape off garbage attached to the groove wall of the cleaning groove 11, so that the cleaning of the cleaning groove 11 is realized. Furthermore, when the cleaning assembly 100 is required to clean the cleaning tool of the cleaning device, the locking structure 50 is used for fixing the wiping and dragging piece 30 on the cleaning groove 11 to clean the cleaning tool, and when the cleaning groove 11 is required to be cleaned, the locking structure 50 is moved and the wiping and dragging piece 30 is rotated in the cleaning groove 11 to clean the cleaning groove 11, so that the cleaning tool can have a self-cleaning function, an invalid user utilizes a brush to manually clean the cleaning groove 11, the use experience of the user is effectively improved, and the practicability of the cleaning assembly 100 is improved. Wherein, through set up the drain on clean groove 11, can make the drain be in the off-state daily to can open the rubbish and the dirt of drain discharge in clean groove 11 after clean subassembly 100 cleans or automatically cleaning burnisher, further improve clean subassembly 100's simple operation nature, make user's use experience better.

The locking structure 50 can be arranged outside the cleaning groove 11, and the locking structure 50 can move back and forth at the through hole on the cleaning groove 11 by opening a hole on the bottom wall or the inner side wall of the cleaning groove 11, so that the locking structure 50 can be highlighted on the cleaning groove 11 to abut against the fixed wiping and dragging piece 30 or move to the outside of the cleaning groove 11 to be separated from the rotation track of the wiping and dragging piece 30 to avoid the wiping and dragging piece 30; or, the locking structure 50 may also be disposed between the inner wall of the cleaning tank 11 and the wiping part, for example, between the tank bottom wall of the cleaning tank 11 and the wiping part 30 or between the inner side wall of the cleaning tank 11 and the wiping part 30, the abutting fixation of the wiping part 30 is realized by connecting the cleaning tank 30 and the wiping part 11 by making the locking structure 50 protrude between the tank inner wall of the cleaning tank 11 and the wiping part 30, and the locking structure 50 may be moved to the tank inner wall of the cleaning tank 11 or the wiping part to release the connection of the cleaning tank 11 and the wiping part 30, so that the locking structure 50 is separated from the rotation track of the wiping part 30 to realize the avoidance of the wiping part 30; or, the locking structure 50 may also be disposed between the rotating shaft 13 and the wiping part 30, so that the locking structure 50 can move back and forth between the rotating shaft 13 and the wiping part 30, so as to connect the rotating shaft 13 and the wiping part 30 to block the fixed wiping part 30 or to release the connection between the rotating shaft and the wiping part 30 to avoid the rotation of the wiping part 30.

Instead of rotating the wiping member 30 around the rotating shaft 13, the wiping member 30 may be rotated circumferentially in the cleaning tank 11 by setting the shape of the cleaning tank 11 to be circular and providing a slider rail on the inner wall of the cleaning tank 11 and the wiping member 30. For example, a circular slide rail surrounding the central axis of the cleaning tank 11 may be disposed on the inner side wall or the bottom wall of the cleaning tank 11, and a slider may be disposed on the surface of the wiping and dragging member 30 corresponding to the slide rail, so that the slider slides in the slide rail to realize the circular motion of the wiping and dragging member 30 in the cleaning tank 11, and further realize the wiping and dragging member 30 to wipe and clean the cleaning tank 11. At this time, the locking structure 50 can be disposed between the slider and the slide rail, so as to achieve the purpose of supporting and fixing the wiping and dragging member 30 by limiting the sliding of the slider, thereby ensuring that the cleaning tool can be stably cleaned in the cleaning assembly 100.

The utility model discloses technical scheme is through setting up pivot 13 in the clean groove 11 of clean main part 10, and make and wipe and drag piece 30 and rotationally connect in pivot 13, through setting up locking structure 50 between clean main part 10 and wiping and drag piece 30, can utilize locking structure 50 to support when cleaning assembly 100 cleans burnisher and fix and wipe and drag piece 30, the restriction is wiped and is dragged the rotation of piece 30 in clean groove 11, and then can be through wiping and dragging 30 top and rotate burnisher, make and wipe and drag 30 scraping burnisher and realize the cleanness to burnisher. Meanwhile, the locking structure 50 is movably arranged between the wiping part 30 and the cleaning main body 10, the locking structure can be arranged between the cleaning groove 11 and the wiping part 30 or between the rotating shaft 13 and the wiping part 30, the wiping part 30 abuts against the groove bottom wall of the cleaning groove 11, and after the cleaning assembly 100 cleans the cleaning tool, the locking structure 50 can be moved to avoid the rotation of the wiping part 30, at the moment, the wiping part 30 can be driven by the cleaning tool to rotate in the cleaning groove 11, and the groove bottom wall of the cleaning groove 11 is scraped and cleaned, so that the self-cleaning effect of the cleaning groove 11 is realized, a user does not need to manually clean the cleaning groove 11, the cleaning convenience of the cleaning assembly 100 is improved, the practicability of the cleaning assembly 100 is further improved, and the use experience of the user is improved.

Referring to fig. 1, 5, 7, 12 and 14, in one embodiment of the present invention, the cleaning assembly 100 is provided with at least two mopping units 30, the at least two mopping units 30 are spaced apart from each other in the cleaning tank 11, and the drain outlet is provided between any two adjacent mopping units 30.

In this embodiment, by providing at least two scrubbing members 30 in the cleaning tank 11, it is possible to achieve better cleaning efficiency by using a plurality of scrubbing members 30 in cooperation when the cleaning tool of the cleaning apparatus is large in size. Meanwhile, when the cleaning device is provided with a plurality of cleaning tools, the plurality of wiping pieces 30 can be arranged corresponding to the positions of the plurality of cleaning tools, so that the cleaning effect of the cleaning device is guaranteed. At this moment, through setting up the drain between two adjacent wiping members 30, can make rubbish sweep at the effect of two wiping members 30 and collect and discharge in drain department, be favorable to further improving the blowdown efficiency and the blowdown effect of clean subassembly 100, reduce rubbish and remain. Meanwhile, the air outlet position of the cleaning groove 11 during water drainage is concentrated at the sewage discharge port, the turbulence of air flow in the cleaning groove 11 is favorably reduced, the wind noise generated when the cleaning assembly 100 operates is conveniently reduced, and the practicability and the reliability of the cleaning assembly 100 are further improved. In addition, can also be provided with the intercommunication drain in the outside of clean subassembly 100 and carry out the suction pump or the pumping equipment such as motor that draw water to clean groove 11, it makes rivers assemble the drain discharge between adjacent two wiping pieces 30 to rotate to drag piece 30 through utilizing this moment, can also make the rivers that get into pumping equipment through the drain can fill pumping equipment's pumping pipe better, prevented that pumping pipe in rivers mixed with the air current when not full and arouse the noise by the suction pumping equipment in, reach better noise reduction, user's use experience has further been improved. Wherein, the whole area of clean groove 11 can be equated with a plurality of rotation area sums of wiping the piece 30 of dragging for wipe the tank bottom wall and the inside wall that the piece 30 can butt clean groove 11 completely of dragging, so that a plurality of clean the piece 30 of dragging that wipe can realize more comprehensive clearance when cleaning clean groove 11, reduce the clearance blind area, further improved the clean effect of clean subassembly 100.

Referring to fig. 1, 2a, 2b and 5, in an embodiment of the present invention, the locking structure 50 is swingably disposed on the inner sidewall of the cleaning tank 11, the wiping and dragging member 30 abuts against the locking structure 50 when rotating along the first rotation direction, and the wiping and dragging member 30 pushes the locking structure 50 to swing toward the inner sidewall of the cleaning tank 11 when rotating along the second rotation direction, so that the locking structure 50 avoids the rotation of the wiping and dragging member 30.

In this embodiment, the locking structure 50 may be a blocking block or a blocking plate, and the locking structure 50 is swingably disposed on the inner sidewall of the cleaning tank 11, at this time, the locking structure 50 may abut against the cleaning tank 11 if swinging to a certain angle in the direction toward the wiping part 30, and the protrusion is on the rotation track of the wiping part 30, and the locking structure 50 may be separated from the rotation track of the wiping part 30 if swinging in the direction toward the inner sidewall of the cleaning tank 11, so as to avoid the rotation of the wiping part 30.

When the cleaning tool is cleaned by the wiping and dragging member 30, the cleaning tool abuts against the wiping and dragging member 30 and rotates in the forward rotation direction (the forward rotation direction can be the rotation direction of the cleaning tool when the cleaning tool cleans a surface to be cleaned), at this time, when the wiping and dragging member 30 rotates in the first rotation direction which is the same as the forward rotation direction of the cleaning tool, the wiping and dragging member 30 can push the locking structure 50 to swing towards the direction of the wiping and dragging member 30 when rotating to contact with the locking structure 50, so that the locking structure 50 protrudes on the rotation track of the wiping and dragging member 30, at this time, the locking structure 50 is supported by the cleaning groove 11, the wiping and dragging member 30 can abut against and be fixed on the locking structure 50 and cannot rotate continuously, and the wiping and dragging member 30 can scrape the cleaning tool to clean the cleaning tool. When the cleaning groove 11 is cleaned by the wiping part 30, the wiping part 30 can be rotated in a second rotation direction opposite to the first rotation direction, and at this time, when the wiping part 30 is rotated to be in contact with the locking structure 50, the locking structure 50 can be pushed to swing towards the direction of the wiping part 30, so that the locking structure 50 is separated from the rotation track of the wiping part 30, and further, the wiping part 30 can move circumferentially in the cleaning groove 11 along the second rotation direction, and the cleaning groove 11 is cleaned by rotating the wiping part 30 in the cleaning groove 11 for 360 degrees to wipe the groove wall of the cleaning groove 11. Wherein, when wiping and dragging piece 30 and cleaning groove 11 and cleaning, can drive to wipe and drag piece 30 and rotate along the second soon form direction through making burnisher along with reversal direction rotation for need not to set up the drive arrangement drive on clean subassembly 100 and wipe and drag piece 30 and rotate, be favorable to simplifying the overall structure of clean subassembly 100 better, further improved clean subassembly 100's practicality.

Further, referring to fig. 1, 2a and 2b, in an embodiment of the present invention, the inner sidewall of the cleaning tank 11 is provided with a first avoiding hole 111, the locking structure 50 includes a first stopper 51a and a first elastic member 53a, the first stopper 51a is swingably inserted through the first avoiding hole 111 and is partially protruded from the inner sidewall of the cleaning tank 11; the first elastic member 53a is provided on the outer peripheral side of the cleaning tank 11 and abuts against the side of the first stopper 51a facing away from the wiper 30. When the wiping member 30 rotates in the first rotation direction, the first stopper 51a abuts against the first avoiding hole 111, and when the wiping member 30 rotates in the second rotation direction, the first stopper 51a is pushed to swing toward the first avoiding hole 111, and the first stopper 51a compresses the first elastic member 53a.

In this embodiment, the first stop 51a may be a plate or a block having a certain size and thickness, and at this time, the first stop 51a may swing around the rotating shaft 13 connected to one side thereof at a certain angle, and by providing the first avoiding hole 111 on the inner side wall of the cleaning slot 11, the swing shaft of the first stop 51a may be disposed on the hole wall of the first avoiding hole 111 or on the outer peripheral side of the first avoiding hole 111, so that the first stop 51a may pass through the first avoiding hole 111 to protrude on the rotation track of the mop 30 when swinging in the direction toward the mop 30, and the first stop 51a abuts on the hole wall of the first avoiding hole 111, so that the cleaning slot 11 may support the first stop 51a at a certain angle, and the locking structure 50 may abut against and fix the mop 30. When the wiping member 30 rotates in the second rotation direction, the first stopping member 51a can be pushed by the wiping member 30 to swing towards the first avoiding hole 111 when contacting the wiping member 30, so that the first stopping member 51a can be accommodated in the first avoiding hole 111 and separated from the rotation track of the wiping member 30, and the first stopping member 51a avoids the wiping member 30 to rotate, so that the wiping member 30 performs a circular motion in the cleaning groove 11 to clean the cleaning groove 11. By arranging the first elastic member 53a on the side of the first stopper 51a opposite to the wiping member 30, where the first elastic member 53a may be a spring or a brace having elasticity, the first stopper 51a may be pushed by the wiping member 30 to compress the first elastic member 53a when the wiping member 30 rotates along the second rotation direction, and the first stopper 51a may be kept protruding on the inner sidewall of the cleaning tank 11 by the elastic return of the first elastic member 53a after the wiping member 30 rotates over the first stopper 51a, so that it is not necessary to provide a driving structure to drive the first stopper 51a to swing to the rotation track of the wiping member 30 when the wiping member 30 rotates along the first direction, thereby facilitating to reduce the overall structure of the cleaning assembly 100, and further improving the overall structural stability and practicability of the cleaning assembly 100.

Further, referring to fig. 1, 2a and 5, in an embodiment of the present invention, a side of the first stopper 51a facing away from the wiping and dragging member 30 is provided with a first abutting plate 511a, and the first abutting plate 511a abuts against an outer peripheral edge of the first avoiding hole 111 when the wiping and dragging member 30 rotates towards the first rotation direction.

In the embodiment, by providing the first abutting plate 511a on the side of the first stopper 51a opposite to the wiping and dragging member 30, the first abutting plate 511a can be used to abut against the outer periphery of the first avoiding hole 111 when the first stopper 51a abuts against the fixed wiping and dragging member 30, so that the first stopper 51a can be more stably and convexly disposed on the rotation track of the wiping and dragging member 30, the contact area between the cleaning groove 11 and the first stopper 51a is increased, the supporting effect of the cleaning groove 11 on the first stopper 51a is further increased, the first stopper 51a can more stably and reliably abut against the rotation of the wiping and dragging member 30 along the first rotation direction, and the overall structural stability and reliability of the cleaning assembly 100 are further improved.

Referring to fig. 12 to 14, in an embodiment of the present invention, the locking structure 50 is telescopically inserted into the inner sidewall of the cleaning groove 11, so that one end of the locking structure 50 protrudes from the inner sidewall of the cleaning groove 11 to prevent the rotation of the wiping and dragging member 30.

In this embodiment, the locking structure 50 may be a resisting column or a resisting block, and at this time, by passing the locking structure 50 through the inner side wall of the cleaning groove 11 in a retractable manner, when the mop 30 needs to be fixed on the cleaning groove 11 to clean a cleaning tool, the locking structure 50 extends out of the inner side wall of the cleaning groove 11 and is correspondingly inserted into one side of the mop 30 or clamps the mop 30 to realize the propping fixation of the locking structure 50 on the mop 30; or the locking structure 50 can extend out of the inner side wall of the cleaning groove 11 and be convexly arranged on the rotation track of the wiping and dragging member 30, so that the wiping and dragging member 30 can be abutted against the locking structure 50 to realize abutting and fixing of the wiping and dragging member 30 when rotating in the same direction as the forward rotation direction of the cleaning tool (the forward rotation direction can be the rotation direction of the cleaning tool when cleaning the surface to be cleaned). And then the wiping and dragging piece 30 can not be driven by the cleaning tool by the rotation under the resisting action of the locking structure 50, so that the wiping and dragging piece 30 can be fixed on the cleaning groove 11 to clean the cleaning tool, and the cleaning effect of the cleaning assembly 100 is ensured. When the locking structure 50 is inserted into the wiping and dragging member 30 or the wiping and dragging member 30 is clamped to fixedly support the wiping and dragging member 30, the wiping and dragging member 30 can be stably and fixedly arranged in the cleaning groove 11 under the action of the locking structure 50, and the cleaning tool can be scraped by the wiping and dragging member 30 in the cleaning groove 11 by clockwise rotation or anticlockwise rotation to achieve the purpose of cleaning the cleaning tool, so that the limitation of cleaning the cleaning tool on the cleaning assembly 100 is effectively reduced, and the practicability of the cleaning assembly 100 is improved.

When the wiping and dragging piece 30 needs to clean the cleaning groove 11, the locking structure 50 can be contracted to one side of the cleaning groove 11, so that the locking structure 50 is separated from the rotation track of the wiping and dragging piece 30 to avoid the rotation of the wiping and dragging piece 30, and further the wiping and dragging piece 30 can rotate 360 degrees in the cleaning groove 11 to scrape the groove wall of the cleaning groove 11, and the cleaning of the cleaning groove 11 is realized. Wherein, the rotation that drags piece 30 is dodged to the realization of breaking away from to the rotation orbit of dragging piece 30 through moving locking structure 50 to clean groove 11 inside wall, and the piece 30 that drags is unrestricted in clean groove 11 internal rotation this moment, makes to drag the piece 30 and do clockwise pivoted circular motion or anticlockwise pivoted circular motion around the pivot in clean groove 11 and all can scrape the inslot wall of clean groove 11 and reach and carry out clear purpose to clean groove 11, makes the suitability of cleaning assembly 100 wider, and the practicality is better. When the locking structure 50 is contracted to avoid the rotation of the wiping and dragging member 30, the wiping and dragging member 30 can rotate in the cleaning groove 11 through the rotation of the cleaning tool, so that the cleaning assembly 100 can be driven to wipe and drag the rotating driving structure of the wiping and dragging member 30 without setting a driving structure, the whole structure of the cleaning assembly 100 can be better simplified, and the practicability of the cleaning assembly 100 is improved.

Further, referring to fig. 12 to 14, in an embodiment of the present invention, the locking structure 50 includes a steering gear 53b and a lock tongue 51b, and the steering gear 53b is disposed on the outer peripheral side of the cleaning groove 11; the latch 51b is connected to the steering gear 53b, and the steering gear 53b is used for driving the latch 51b to move telescopically towards the direction of the wiping and dragging member 30, so that one end of the latch 51b penetrates through the inner side wall of the cleaning groove 11 to prevent the wiping and dragging member 30 from rotating.

In this embodiment, the latch 51b may be a block structure or a column structure with a certain size and thickness, the steering engine 53b is disposed on the outer peripheral side of the cleaning groove 11 to drive the latch 51b to reciprocate and extend in the direction toward the wiping and dragging member 30, and when the wiping and dragging member 30 needs to clean the cleaning tool, the latch 51b can be controlled by the steering engine 53b to move toward the wiping and dragging member 30, so that the latch 51b can be inserted into the wiping and dragging member 30 or abut against one side of the wiping and dragging member 30, so that the wiping and dragging member 30 can be fixed in the cleaning groove 11 under the abutting action of the latch 51b, and the wiping and dragging member 30 cannot be driven by the cleaning tool to clean the cleaning tool.

When the cleaning groove 11 needs to be cleaned by the wiping and dragging piece 30, the steering engine 53b can be used for driving the lock tongue 51b to move to the periphery side of the cleaning groove 11, so that the lock tongue 51b is separated from the rotating track of the wiping and dragging piece 30, further, the wiping and dragging piece 30 is separated from the blocking limit of the locking structure 50, 360-degree rotation can be realized in the cleaning groove 11, the cleaning effect of the cleaning assembly 100 is ensured, and the practicability and reliability of the cleaning assembly 100 are further improved. When the cleaning assembly 100 is provided with a plurality of wiping and dragging pieces 30, a plurality of steering engines 53b can be respectively arranged to drive a plurality of lock tongues 51b, so that one locking structure 50 can support and fix one wiping and dragging piece 30, which is beneficial to improving the structural stability of the cleaning assembly 100; the steering engine 53b can also be used to drive the plurality of lock tongues 51b to respectively and simultaneously support and fix the plurality of wiping and dragging pieces 30, so that the overall structure of the cleaning assembly 100 is simplified, and the cooperative control of the cleaning assembly 100 is facilitated.

Further, referring to fig. 14, in an embodiment of the present invention, the latch 51b includes a first clamping portion 511b and a second clamping portion 513b, the first clamping portion 511b and the second clamping portion 513b are disposed at an interval, and the steering gear 53b drives one end of the first clamping portion 511b and one end of the second clamping portion 513b to pass through the inner sidewall clamping wiping part 30 of the cleaning slot 11 respectively.

In this embodiment, the first clamping portion 511b and the second clamping portion 513b are arranged on the lock tongue 51b at intervals, the first clamping portion 511b and the second clamping portion 513b can clamp and fix the wiping piece 30, and under the action of the first clamping portion 511b and the second clamping portion 513b, the contact area between the lock tongue 51b and the wiping piece 30 can be effectively increased, so that the locking structure 50 can more stably and reliably resist and fix the wiping piece 30, and the overall structural stability of the cleaning assembly 100 is further improved. Wherein, can be provided with detection device such as laser or infrared sensor between clean groove 11 and the piece 30 that drags, when dragging the piece 30 and need be to burnisher, can trigger steering wheel 53b drive spring bolt 51b centre gripping when dragging the position that piece 30 rotated to spring bolt 51b and wipe and drag piece 30 when wiping, realize locking structure 50 and wipe the accurate fixed of dragging piece 30, further improved the reliability and the practicality of clean subassembly 100.

Referring to fig. 15a to 16b, in an embodiment of the present invention, one side of the cleaning and dragging member 30 facing the inner side wall of the cleaning groove 11 is provided with a limiting frame 37 and a avoiding plate 39a, one side of the limiting frame 37 facing the first rotation direction of the cleaning and dragging member 30 is provided with an opening 371, the avoiding plate 39a is swingably provided with the opening 371, the cleaning and dragging member 30 is further provided with a resilient member 39b, and the resilient member 39b connects one side of the avoiding plate 39a and the adjacent opening 371 of the limiting frame 37. The width of the latch 51b facing the opening 371 is smaller than the width of the opening 371, and when the wiping member 30 rotates in the first rotation direction, the latch 51b pushes the avoiding plate 39a to swing toward the limiting frame 37, and the avoiding plate 39a compresses the resilient member 39b, so that the latch 51b at least partially enters the limiting frame 37 and abuts against the inner circumferential side of the limiting frame 37.

In this embodiment, a side of the wiping and dragging member 30 facing an inner side wall of the cleaning groove 11 may be provided with a limiting frame 37 and an avoiding plate 39a, the avoiding plate 39a is swing-arranged on an opening 371 at one side of the limiting frame 37, and a rebounding member 39b is arranged at one side of the avoiding plate 39a and the opening 371 adjacent to the limiting frame 37, because the opening 371 is arranged facing a first rotation direction of the wiping and dragging member 30 (the first rotation direction may be a rotation direction of a cleaning tool when cleaning a surface to be cleaned), at this time, a lock tongue 51b is driven by a steering engine 53b to pass through the inner side wall of the cleaning groove 11 and be convexly arranged on a rotation track of the wiping and dragging member 30, because a width of the lock tongue 51b facing the opening 371 is smaller than a width of the opening 371, when the wiping and dragging member 30 rotates in the first rotation direction, the avoiding plate 39a contacts the lock tongue 51b during rotation of the wiping and dragging member 30, and is pushed by the lock tongue 51b to swing towards an inner peripheral side of the limiting frame 37, so that the avoiding plate 39a compresses the rebounding member 39b, and the rebounding member 51b can enter the inner peripheral side of the limiting frame 37, and the wiping and the top of the limiting frame 37 can be fixed, thereby the wiping and dragging member 30. The limit frame 37 and the lock tongue 51b are abutted to realize abutting fixation of the wiping and dragging piece 30 and the locking structure 50, at the moment, the lock tongue 51b is equivalently inserted on one side of the wiping and dragging piece 30, the contact area between the wiping and dragging piece 30 and the lock tongue 51b can be effectively increased, and the overall structural stability and reliability of the cleaning assembly 100 are further improved. When the lock tongue 51b is driven by the steering engine 53b to be far away from the wiping and dragging piece 30, or the whole width of the lock tongue 51b is smaller than the width of the opening 371, the lock tongue 51b can be enabled to release the abutting joint with the avoiding plate 39a, at the moment, the avoiding plate 39a can swing towards the direction of the opening 371 under the elastic recovery action of the rebound piece 39b, so that the avoiding plate 39a can be reset to the opening 371, the lock tongue 51b is enabled to be in contact with the cleaning groove 11 when extending out of the cleaning groove 11 next time, the wiping and dragging piece 30 is enabled to be fixedly abutted against the locking structure 50 stably, and the structural stability of the cleaning assembly 100 is further improved.

Therefore, when the cleaning tool needs to be cleaned by the wiping part 30, the cleaning tool abuts against the wiping part 30 and rotates along the first rotation direction, meanwhile, the wiping part 30 can be driven by the friction force of the cleaning tool to rotate along the first rotation direction in the cleaning groove 11, at this time, the lock tongue 51b is controlled by the steering engine 53b to penetrate through the inner side wall of the cleaning groove 11 and be convexly arranged on the rotation track of the wiping part 30, the lock tongue 51b can push the avoiding plate 39a to abut against the inner peripheral side of the limiting frame 37 to realize that the locking structure 50 and the wiping part 30 are abutted and fixed, so that the wiping part 30 can be fixed on the cleaning groove 11 to wipe the cleaning tool, and the purpose of cleaning the cleaning tool is achieved. The bolt 51b and the wiping and dragging piece 30 are fixed in a propping mode, the bolt 51b can move to the rotating track of the wiping and dragging piece 30 when the wiping and dragging piece 30 rotates to prop against the fixed wiping and dragging piece 30, accurate butt joint of the bolt 51b and the wiping and dragging piece 30 can be achieved without using an infrared sensor or laser alignment equipment, operation convenience and practicability of the cleaning assembly 100 are effectively improved, and the overall structure of the cleaning assembly 100 is convenient to simplify better.

When the cleaning groove 11 needs to be cleaned by the wiping and dragging piece 30, the steering engine 53b can be used for driving the lock tongue 51b to move towards the direction far away from the wiping and dragging piece 30, so that the lock tongue 51b is separated from the rotating track of the wiping and dragging piece 30, and further the wiping and dragging piece 30 can not be obstructed in the cleaning groove 11 and can make 360-degree circular motion, so that the wiping and dragging piece 30 can rotate to scrape the inner wall of the cleaning groove 11 to clean the cleaning groove 11. At this time, the wiping and dragging member 30 rotates in the cleaning groove 11 along the first rotation direction or rotates in the opposite direction of the first rotation direction to scrape the cleaning groove 11, so that the wiping and dragging member 30 is driven by the cleaning tool to rotate or the external driving device drives the wiping and dragging member 30 to rotate, and the cleaning groove 11 can be cleaned, the application range of the cleaning assembly 100 is further improved, and the practicability and reliability of the cleaning assembly 100 are better.

Referring to fig. 7, 8a, 8b, 9 and 10, in an embodiment of the present invention, the locking structure 50 is swingably connected to a side of the wiping and dragging member 30 facing the rotating shaft 13, the rotating shaft 13 abuts against the locking structure 50 when the wiping and dragging member 30 rotates along the first rotating direction, and the locking structure 50 is pushed to swing towards the wiping and dragging member 30 when the wiping and dragging member 30 rotates along the second rotating direction, so that the locking structure 50 is avoided from the rotation of the wiping and dragging member 30.

In this embodiment, the locking structure 50 may be a blocking block or a blocking plate, and by arranging the locking structure 50 on the side of the mop 30 facing the rotating shaft 13 in a swinging manner, the locking structure 50 can be abutted against the mop 30 when swinging a certain angle in the direction of the rotating shaft 13, and the protrusion is abutted against the rotating shaft 13 on the side of the rotating shaft 13; when the locking mechanism 50 is pivoted in the direction of the mop 30, it can be moved away from the pivot 13 against the mop 30, so that the mop 30 can be moved around the pivot 13.

When the wiping and dragging member 30 cleans the cleaning tool, the cleaning tool abuts against the wiping and dragging member 30 and rotates along the forward rotation direction (the forward rotation direction can be the rotation direction of the cleaning tool when cleaning a surface to be cleaned), and when the wiping and dragging member 30 rotates along the first rotation direction which is the same as the forward rotation direction of the cleaning tool, the locking structure 50 can protrude on one side of the wiping and dragging member 30, which faces the rotating shaft 13, and abuts against the rotating shaft 13 under the supporting action of the wiping and dragging member 30, so that the locking structure 50 abuts against and fixes the wiping and dragging member 30 and the rotating shaft 13, the wiping and dragging member 30 cannot be selected to rotate along the first rotation direction, and the wiping and dragging member 30 can scrape the cleaning tool to clean the cleaning tool. When the cleaning groove 11 is cleaned by the wiping and dragging member 30, the wiping and dragging member 30 can be made to rotate in a second rotation direction opposite to the first rotation direction, at the moment, when the locking structure 50 rotates to contact with the rotating shaft 13 along with the wiping and dragging member 30, the rotating shaft 13 can push the locking structure 50 to swing towards the direction of the wiping and dragging member 30, the locking structure 50 is further made to be separated from the rotating shaft 13 to avoid the rotating shaft 13, the wiping and dragging member 30 can circularly move around the rotating shaft 13 in the cleaning groove 11 along the second rotation direction, the wiping and dragging member 30 can rotate 360 degrees in the cleaning groove 11 to scrape the groove wall of the cleaning groove 11, and the cleaning of the cleaning groove 11 is realized. Wherein, when wiping and dragging piece 30 and cleaning groove 11 and cleaning, can drive to wipe and drag piece 30 and rotate along the second soon form direction through making burnisher along reversal direction rotation for need not to set up the drive arrangement drive on clean subassembly 100 and wipe and drag piece 30 and rotate, be favorable to simplifying the overall structure of clean subassembly 100 better, further improved clean subassembly 100's practicality.

Further, referring to fig. 8a, 8b, 9 and 10, in an embodiment of the present invention, a second avoiding hole 311 is formed in a side of the friction and drag element 30 facing the rotating shaft 13, the locking structure 50 includes a second stopping element 51c and a second elastic element 53c, the second stopping element 51c is swingably inserted into the second avoiding hole 311, and is partially protruded on the side of the friction and drag element 30 facing the rotating shaft 13; the second elastic member 53c is disposed in the wiping member 30 and abuts against a side of the second stopper 51c opposite to the rotating shaft 13. The outer peripheral side of the rotating shaft 13 is provided with a limiting protrusion 131, the limiting protrusion 131 abuts against the second stop 51c when the wiping part 30 rotates along the first rotating direction, and makes the second stop 51c abut against the second avoiding hole 311, and the limiting protrusion 131 pushes the second stop 51c to swing towards the second avoiding hole 311 when the wiping part 30 rotates along the second rotating direction, and makes the second stop 51c compress the second elastic member 53c.

In this embodiment, the second stop 51c may be a plate or a block having a certain size and thickness, at this time, the second stop 51c may swing around the rotating shaft 13 connected to one side thereof at a certain angle, and by providing the limiting protrusion 131 on the outer circumferential side of the rotating shaft 13 and providing the second avoiding hole 311 on the inner sidewall of the cleaning groove 11, the swing shaft of the second stop 51c may be disposed on the hole wall of the second avoiding hole 311 or on the outer circumferential side of the second avoiding hole 311, so that the second stop 51c may pass through the second avoiding hole 311 and protrude from one side of the rotating shaft 13 to abut against the limiting protrusion 131 for fixing when swinging in the direction toward the rotating shaft 13, and the second stop 51c abuts against the hole wall of the second avoiding hole 311, so that the mop 30 may support the second stop 51c to a certain extent, and the locking structure 50 may abut against and fix the mop 30. When the wiping and dragging member 30 rotates along the second rotation direction, the second stop 51c can be pushed by the limiting protrusion 131 to swing towards the second avoiding hole 311 when contacting the limiting protrusion 131, so that the second stop 51c can be accommodated in the second avoiding hole 311, the locking structure 50 cannot be fixed against the limiting protrusion 131, and the wiping and dragging member 30 can rotate around the rotating shaft 13, so that the wiping and dragging member 30 performs circular motion in the cleaning groove 11 to clean the cleaning groove 11. Wherein, by arranging the second elastic member 53c at the side of the second stopper 51c opposite to the rotating shaft 13, the second elastic member 53c may be a spring or a brace having elasticity, etc., when the wiping member 30 rotates along the second rotating direction, the second stopper 51c is pushed by the limit protrusion 131 to compress the first elastic member 53a, and after the limit protrusion 131 rotates over the second stopper 51c, the second stopper 51c can be kept protruding on the inner side wall of the cleaning groove 11 by using the elastic reset of the second elastic member 53c, so that it is not necessary to provide a driving structure to drive the second stopper 51c to swing to one side of the rotating shaft 13 to abut against the limit protrusion 131 when the wiping member 30 rotates along the second direction, thereby being beneficial to reducing the overall structure of the cleaning assembly 100, and further improving the overall structural stability and practicability of the cleaning assembly 100.

Further, referring to fig. 9 and 10, in an embodiment of the present invention, a second abutting plate 511c is disposed on a side of the second stopper 51c facing away from the wiping member 30, and the second abutting plate 511c abuts against an outer peripheral edge of the second avoiding hole 311 when the wiping member 30 rotates toward the first rotating direction.

In this embodiment, by providing the second abutting plate 511c on the side of the second stopper 51c opposite to the rotating shaft 13, the second abutting plate 511c can be used to abut against the outer periphery of the second avoiding hole 311 when the second stopper 51c abuts against the limiting protrusion 131 to fix the mop 30, so that the second stopper 51c can more stably abut against the limiting protrusion 131, the contact area between the mop 30 and the second stopper 51c is increased, and further, the supporting effect of the mop 30 on the second stopper 51c is increased, so that the second stopper 51c can more stably and reliably abut against the rotation of the mop 30 along the first rotating direction, and the overall structural stability and reliability of the cleaning assembly 100 are further increased.

Referring to fig. 3, 6 and 11, in an embodiment of the present invention, a first water injection passage 3131 is provided in the mop 30, and a water injection hole 317 communicating with the first water injection passage 3131 is provided on a surface of the mop 30 facing away from the cleaning tank 11. The cleaning main body 10 is provided with a second water filling passage 151, the second water filling passage 151 is communicated with the first water filling passage 3131 when the locking structure 50 abuts against the fixed wiping and dragging member 30, and the second water filling passage 151 is used for communicating with a water supply device.

In this embodiment, by setting up the hole for water spraying 317 on the surface of the cleaning groove 11 back to the wiping and dragging member 30, the locking structure 50 can be abutted against the fixed wiping and dragging member 30 to enable the wiping and dragging member 30 to clean the cleaning tool, and the hole for water spraying 317 can be utilized to spray water towards the cleaning tool, so that the wiping and dragging member 30 can utilize clean water or cleaning liquid to wash the cleaning tool, the functionality of the cleaning assembly 100 is further enriched, and the cleaning effect of the cleaning assembly 100 is improved. Wherein, through setting up first water injection passageway 3131 on wiping and dragging the piece 30, set up second water injection passageway 151 on cleaning main part 10, and make first water injection passageway 3131 and second water injection passageway 151 communicate when locking structure 50 supports fixed wiping and dragging the piece 30, can make cleaning assembly 100 can supply water to wiping and dragging the piece 30 through the water supply equipment in the cleaning main part 10 outside when cleaning the burnisher, need not to set up on wiping and dragging the piece 30 and deposit water equipment, be convenient for simplify cleaning assembly 100's overall structure better, be favorable to cleaning assembly 100's lightweight design, the practicality of cleaning assembly 100 has further been improved.

Referring to fig. 5 and 6, in an embodiment of the present invention, the bottom of the wiping and dragging member 30 is provided with a first water inlet 315a communicated with the first water filling passage 3131, the second water filling passage 151 is disposed below the cleaning tank 11, the tank bottom wall of the cleaning tank 11 is provided with a first water filling hole 113a communicated with the second water filling passage 151, and the first water filling hole 113a is correspondingly communicated with the first water inlet 315a when the locking structure 50 abuts against the fixed wiping and dragging member 30.

In this embodiment, the second water injection passage 151 may be disposed below the cleaning tank 11, and the first water inlet 315a communicating with the first water injection passage 3131 is disposed at the bottom of the mop 30, and when the locking structure 50 abuts against and fixes the mop 30, the first water injection hole 113a communicating with the second water injection passage 151 is disposed at a position corresponding to the first water inlet 315a on the bottom wall of the cleaning tank 11, so that when the mop 30 is fixed in the cleaning tank 11 under the abutting fixing action of the locking structure 50, the first water inlet 315a of the mop 30 and the first water injection hole 113a on the bottom wall of the cleaning tank 11 may be relatively communicated, so that the water supply device outside the cleaning body 10 may inject water into the first water injection passage 3131 through the second water injection passage 151, and the water injection hole 317 of the mop 30 may spray clean water or cleaning liquid toward the cleaning tool to perform water washing, thereby achieving a better cleaning effect. Wherein, the second water injection channel 151 can be communicated with the first water injection hole 113a through a pipeline, or can be arranged below the first water injection hole 113a through the second water injection channel 151, and the end of the second water injection channel 151 is bent to be communicated with the first water injection hole 113a or the inner wall of the channel of the second water injection channel 151 is provided with a hole communicated with the first water injection hole 113a to realize the communication between the second water injection channel 151 and the first water injection hole 113a, which is favorable for further reducing the pipeline arrangement in the cleaning assembly 100, and is convenient for better simplifying the overall structure of the cleaning assembly 100.

Referring to fig. 9, 10 and 11, in an embodiment of the present invention, a side of the mop 30 facing the rotation shaft 13 is provided with a second water inlet 315b communicated with the first water filling passage 3131, and the second water filling passage 151 is provided below the cleaning tank 11. The rotating shaft 13 is provided with a flow passage 133 communicated with the second water injection passage 151, the outer peripheral side of the rotating shaft 13 is provided with a second water injection hole 135 communicated with the flow passage 133, and the second water injection hole 135 is correspondingly communicated with the second water inlet 315b when the locking structure 50 abuts against the fixed wiping and dragging member 30.

In this embodiment, the second water injection passage 151 may be disposed below the cleaning tank 11, the overflowing passage 133 communicating with the second water injection passage 151 is disposed in the rotating shaft 13, the second water inlet 315b communicating with the first water injection passage 3131 is disposed at a side of the mop 30 facing the rotating shaft 13, at this time, when the locking structure 50 abuts against and fixes the mop 30, the second water injection hole 135 communicating with the overflowing passage 133 is disposed at a position of the rotating shaft 13 corresponding to the second water inlet 315b, and when the mop 30 is fixed in the cleaning tank 11 under the abutting fixing action of the locking structure 50, the second water inlet 315b of the mop 30 is relatively communicated with the second water injection hole 135 at the outer circumferential side of the rotating shaft 13, so that the water supply device at the outer side of the cleaning body 10 can inject water to the first water injection passage 3131 through the second water injection passage 151 via the overflowing passage 133, and the water injection hole 317 of the mop 30 can spray cleaning solution or wash clean water toward the cleaning tool, thereby achieving a better cleaning effect. Wherein, the second water injection channel 151 can communicate the overflow channel 133 through a pipe, or can communicate one end of the second water injection channel 151 to the rotating shaft 13, so that the second water injection channel 151 is directly communicated with the overflow channel 133, which is beneficial to further reducing the pipe arrangement in the cleaning assembly 100, and is convenient for better simplifying the overall structure of the cleaning assembly 100.

Referring to fig. 1, 3, 12 and 13, in an embodiment of the present invention, when the locking structure 50 is movably disposed between the inner sidewall of the cleaning tank 11 and the wiping member 30, the wiping member 30 is provided with a third water inlet 315c communicating with the first water filling passage 3131 toward one side of the locking structure 50, and the second water filling passage 151 is disposed at one side of the cleaning tank 11 and penetrates through the inner sidewall of the cleaning tank 11 and the locking structure 50. A third water injection hole 55 communicated with the second water injection channel 151 is formed in one side of the locking structure 50 facing the mop 30, and the third water injection hole 55 is correspondingly communicated with the third water inlet 315c when the locking structure 50 abuts against and fixes the mop 30.

In this embodiment, the second water injection passage 151 may be disposed at an outer side of the cleaning tank 11, when the locking structure 50 is disposed between an inner sidewall of the cleaning tank 11 and the mop 30, a third water injection hole 55 communicating with the second water injection passage 151 may be disposed on the locking structure 50 in a penetrating manner, and when the locking structure 50 abuts against the fixed mop 30, a third water injection hole communicating with the first water injection passage 3131 is disposed at a position of the mop 30 corresponding to the third water injection hole 55, and further when the mop 30 is fixed in the cleaning tank 11 under the abutting fixing action of the locking structure 50, the third water injection hole 315c of the mop 30 is relatively communicated with the third water injection hole 55 of the locking structure 50, so that the water supply device at the outer side of the cleaning body 10 may inject water into the first water injection passage 3131 through the second water injection passage 151, and the water injection hole 317 of the mop 30 may spray clean water or wash water toward the cleaning tool, thereby achieving a better cleaning effect. Wherein, the second water injection channel 151 can be communicated with the third water injection hole 55 through a pipeline, or the second water injection channel 151 can be arranged at the peripheral side of the cleaning tank 11, and one end of the second water injection channel 151 is communicated to the locking structure 50 or communicated with the third water injection hole 55 through a hole at a position corresponding to the third water injection hole 55 on the inner wall of the channel of the second water injection channel 151, which is beneficial to further reducing the pipeline arrangement in the cleaning assembly 100, and is convenient for better simplifying the overall structure of the cleaning assembly 100.

Referring to the drawings, in an embodiment of the present invention, the wiping and dragging member 30 is provided with a fourth water inlet communicated with the first water filling passage 3131 toward one side of the inner side wall of the cleaning tank 11, the second water filling passage 151 is provided at one side of the cleaning tank 11, the inner side wall of the cleaning tank 11 is provided with a fourth water filling hole communicated with the second water filling passage 151, and the fourth water filling hole is correspondingly communicated with the fourth water inlet when the locking structure 50 abuts against the fixed wiping and dragging member 30.

In this embodiment, the second water filling channel 151 may be disposed outside the cleaning tank 11, and a side of the wiping member 30 facing the inner side wall of the cleaning tank 11 may abut against the inner side wall of the cleaning tank 11, or when the locking structure 50 abuts against the fixed wiping member 30, a convex structure abutting against the wiping member 30 may be disposed on the inner side wall of the cleaning tank 11 facing the wiping member 30. At this time, a fourth water inlet communicated with the first water injection passage 3131 is arranged at one side of the wiping and dragging piece 30 facing the cleaning groove 11, and a fourth water injection hole communicated with the fourth water inlet is arranged on the inner side wall of the cleaning groove 11 corresponding to the inner side wall of the fourth water inlet or the protruding structure, so that the wiping and dragging piece 30 can be fixed in the cleaning groove 11 under the supporting and fixing action of the locking structure 50, the fourth water inlet and the fourth water injection hole are communicated relatively, water supply equipment outside the cleaning main body 10 can inject water into the first water injection passage 3131 through the second water injection passage 151, and the water injection hole 317 of the wiping and dragging piece 30 can spray clean water or cleaning liquid towards the cleaning tool to wash water, thereby achieving a better cleaning effect. Wherein, the second water injection channel 151 can be communicated with the fourth water injection hole through a pipe, or the second water injection channel 151 can be disposed at the outer peripheral side of the cleaning tank 11, and one end of the second water injection channel 151 is bent to be communicated with the fourth water injection hole or communicated with the fourth water injection hole through a hole at a position corresponding to the fourth water injection hole on the inner wall of the channel of the second water injection channel 151, which is favorable for further reducing the pipe arrangement in the cleaning assembly 100, and is convenient for simplifying the overall structure of the cleaning assembly 100 better.

The locking structure 50 can be abutted against the inner side wall of the cleaning groove 11, and the wiping and dragging piece 30 is abutted and fixed by the supporting function of the cleaning groove 11; or the driving device can be arranged outside the cleaning groove 11 to drive the locking structure 50 to penetrate through the inner side wall of the cleaning groove 11 to abut against the end face or the side face of the wiping and dragging piece 30, so that the locking structure 50 abuts against and is fixed on the wiping and dragging piece 30, at the moment, a fourth water inlet and a fourth water injection hole can be arranged on the contact surface of the wiping and dragging piece 30 and the locking structure 50, under the power supporting effect of the driving device, the locking structure 50 can abut against the contact surface between the wiping and dragging piece 30 more tightly, leakage of water flow from a gap between the wiping and dragging piece 30 and the locking structure 50 is favorably reduced, and the overall structural stability and reliability of the cleaning assembly 100 are further improved.

Further, referring to fig. 1, 4, 5 and 7, in an embodiment of the present invention, a first water injection pipe 313 is provided in the wiping and dragging member 30, the first water injection pipe 313 is detachably inserted into the wiping and dragging member 30, and a first water injection passage 3131 is formed in the first water injection pipe 313. The cleaning main body 10 is provided with a second water injection pipe 15, the second water injection pipe 15 is detachably inserted into the cleaning main body 10, and a second water injection passage 151 is formed in the second water injection pipe 15.

In this embodiment, first water injection pipe 313 is inserted into mop 30 to form first water injection passage 3131, at this time, first water injection pipe 313 is detachably disposed on mop 30, first water injection passage 3131 can be cleaned and dredged by detaching first water injection pipe 313 from mop 30, it prevents that cleaning assembly 100 from being used for a long time and having certain probability to lead to the situation that rubbish is piled up or scales are more blocked in first water injection passage 3131, and meanwhile, cleaning is performed by detaching first water injection pipe 313, which is also beneficial to improving the overhaul and maintenance convenience of cleaning assembly 100, so that the user experience is better, and the practicability and reliability of cleaning assembly 100 are further improved.

In the same way, through inserting in clean main part 10 and establishing second water injection pipe 15 and form second water injection passageway 151, this moment through with second water injection pipe 15 removable setting on clean main part 10, can clear up and dredge second water injection passageway 151 through dismantling second water injection pipe 15 on clean cylinder, prevent that clean subassembly 100 from using for a long time and have certain probability to lead to piling up rubbish or the condition such as the more emergence jam of incrustation scale in the second water injection passageway 151, clear up through dismantling second water injection pipe 15 simultaneously, still be favorable to improving the maintenance and the maintenance convenience of clean subassembly 100, make user's use experience better, the practicality and the reliability of clean subassembly 100 have further been improved.

Referring to the drawings, in one embodiment of the present invention, the wiping member 30 includes a wiping body 31, a first scraping strip 33 and a second scraping strip 35, the wiping body 31 is rotatably connected to the rotating shaft 13, and the surface of the wiping body 31 facing away from the cleaning tank 11 abuts against the cleaning tool; the first scraping strip 33 is connected to the bottom of the wiping body 31 and abuts against the bottom wall of the cleaning groove 11; the second wiper strip 35 is attached to a side surface of the wiper main body 31 facing the groove side wall of the cleaning groove 11 and abuts against the groove side wall of the cleaning groove 11.

In this embodiment, when the cleaning tank 11 needs to be cleaned by the wiping member 30, the wiping body 31 can be used to drive the first scraping strip 33 and the second scraping strip 35 to rotate around the rotating shaft 13 in the cleaning tank 11, at this time, the first scraping strip 33 abutting against the tank bottom wall of the cleaning tank 11 can well scrape the tank bottom wall of the cleaning tank 11, so that the garbage attached to the tank bottom wall of the cleaning tank 11 can be well scraped and discharged through the sewage outlet, meanwhile, the second scraping strip 35 abutting against the inner side wall of the cleaning tank 11 can well scrape the inner side wall of the cleaning tank 11, so that the garbage attached to the inner side wall of the cleaning tank 11 can be well scraped and discharged through the sewage outlet, and the cleaning of the cleaning tank 11 by the wiping member 30 is realized. Through set up first scraping strip 33 and second scraping strip 35 on wiping main part 31 and clean the inslot wall in clean groove 11, can make clean groove 11 can realize more comprehensive clearance, further improved the clean effect of clean subassembly 100, improved the practicality and the reliability of clean subassembly 100.

Referring to the drawings, in an embodiment of the present invention, the first scraping strip 33 is made of rubber or silica gel. And/or the second scraping strip 35 is made of rubber or silica gel. And/or, the scrubbing body 31 may be detachably connected to the shaft 13.

In this embodiment, first scraping strip 33 can adopt rubber or silica gel material preparation to form for first scraping strip 33 can have certain elasticity and extensibility, and interference fit realizes between first scraping strip 33 and the clean groove 11 inseparabler being connected between first scraping strip 33 and the clean groove 11 between the groove bottom wall of first scraping strip 33 of being convenient for, and then makes first scraping strip 33 can scrape the rubbish that adheres to on the groove bottom wall of clean groove 11 better, reaches better clean effect. Simultaneously, the surface of the first scraping strip 33 made of rubber or silica gel is smoother, which is beneficial to better reducing the direct friction between the first scraping strip 33 and the cleaning groove 11, so that the first scraping strip 33 is not easy to scratch the groove bottom wall of the cleaning groove 11, the wiping piece 30 can rotate more smoothly in the cleaning groove 11, and the structural reliability and the practicability of the cleaning assembly 100 are further improved.

Similarly, the second is scraped the strip 35 and also can be adopted rubber or silica gel material preparation to form for the second is scraped the strip 35 and can be had certain elasticity and extensibility, and interference fit realizes between the second is scraped strip 35 and the inside wall of clean groove 11 that the second is scraped and more inseparable being connected between strip 35 and the clean groove 11, and then makes the second scrape the strip 35 can scrape the rubbish that drops on attached to on the inside wall of clean groove 11 better, reaches better clean effect. Simultaneously, the surface of the second scraping strip 35 made of rubber or silica gel is smoother, which is beneficial to better reducing the direct friction between the second scraping strip 35 and the cleaning groove 11, so that the second scraping strip 35 is not easy to scratch the inner side wall of the cleaning groove 11, the second scraping strip 30 can be conveniently and smoothly rotated in the cleaning groove 11, and the structural reliability and the practicability of the cleaning assembly 100 are further improved.

Secondly, will wipe and drag main part 31 removable setting on pivot 13, can clean and maintain wiping and dragging main part 31 through dismantling wiping and dragging main part 31 on clean groove 11, can be convenient for the user simultaneously and change wiping and dragging main part 31 to make cleaning assembly 100 can utilize the better wiping of clean effect to drag main part 31 and clean burnisher, effectively improved cleaning assembly 100's application scope, satisfy user's user demand. And through will wipe and drag main part 31 and separate clean groove 11, can reduce and wipe the interference and the influence of dragging main part 31 when maintaining arrangement clean groove 11, further improved the simple operation nature of cleaning assembly 100, improved the practicality and the reliability of cleaning assembly 100.

Further, referring to fig. 4, in an embodiment of the present invention, the first scraping bar 33, the second scraping bar 35 and the wiping body 31 are an integral structure. Alternatively, the first and second wiper strips 33 and 35 may be detachably attached to the wiping body 31.

In this embodiment, the first scraping strip 33, the second scraping strip 35 and the wiping body 31 are integrally formed, so that the overall structural strength of the wiping member 30 can be effectively improved, the wiping member 30 can better scrape the bottom wall and the inner side wall of the cleaning groove 11, and the cleaning effect of the wiping member 30 is further improved. Or, can adopt removable setting with first scraper 33 and second scraper 35 on dragging main part 31 to make the user can dismantle first scraper 33 and second scraper 35 alone and wash, in order to reduce the first scraper 33 and the second scraper 35 surperficial adhesion's rubbish and the incrustation scale that forms, ensure clean and tidy of cleaning assembly 100, improve the clean effect of cleaning assembly 100. Meanwhile, the first scraping strip 33 and the second scraping strip 35 which are made of hard materials or other materials are convenient for a user to detach and replace according to use requirements, the dismounting convenience of the cleaning assembly 100 is improved, the use requirements of the user are met, and the practicability and the reliability of the cleaning assembly 100 are further improved.

Referring to fig. 1, 5, 7, 12 and 14, in an embodiment of the present invention, the cleaning assembly 100 further includes a garbage collection member 70, the garbage collection member 70 is connected to the wiping and mopping member 30 and is provided with a dry-wet separation hole 71 communicated with the cleaning tank 11, and the garbage collection member 70 is used for collecting garbage on the cleaning tool and allowing liquid garbage to enter the cleaning tank 11 through the dry-wet separation hole 71.

In this embodiment, by providing the garbage collecting member 70 on the wiping member 30, when the wiping member 30 cleans the cleaning tool, the garbage on the cleaning tool can be scraped to fall into the garbage collecting member 70 for collection, at this time, by providing the dry-wet separation hole 71 communicating with the cleaning groove 11 on the garbage collecting member 70, the garbage collecting member 70 can perform dry-wet separation on the collected garbage, so that the collected solid garbage can be accumulated in the garbage collecting member 70, and the collected liquid garbage can enter the cleaning groove 11 through the dry-wet separation hole 71, which is beneficial for reducing the solid garbage scraped to fall into the cleaning groove 11 by the wiping member 30, so that the sewage mainly deposits in the cleaning groove 11, which is beneficial for improving the sewage discharge efficiency of the cleaning groove 11, and meanwhile, which is beneficial for preventing the sewage discharge port of the cleaning groove 11 from being blocked, so that the user can clean the cleaning groove 11 more conveniently, further improves the operation convenience of the cleaning assembly 100, and improves the practicability of the cleaning assembly 100. Secondly, carry out the wet-dry separation to the rubbish that clean subassembly 100 was collected through utilizing rubbish collection spare 70 to utilize the drain to clear away the sewage in the clean groove 11, avoid solid rubbish to soak and produce the peculiar smell easily or take place to milden and rot the circumstances such as in sewage for a long time, further improved the practicality and the reliability of clean subassembly 100.

Referring to fig. 1, 5, 7, 12 and 14, in an embodiment of the present invention, a dirt collecting groove is formed on a surface of the garbage collecting member 70 facing away from the cleaning groove 11, a dry-wet separating hole 71 is formed on an inner wall of the dirt collecting groove, and the garbage collecting member 70 is connected to at least one side of the wiping member 30 facing away from the rotation direction of the cleaning tool.

In this embodiment, garbage collection part 70 can collect the garbage wiped down on the cleaning tool through setting up the dirty groove of collection, dry and wet separation hole 71 can set up on the inslot wall in the dirty groove of collection this moment, can make the solid garbage collection that garbage collection part 70 collected collect in the dirty inslot of collection, and make liquid waste deposit in cleaning tank 11 through dry and wet separation hole 71, be convenient for the user separately clear up solid garbage and liquid waste in the clean subassembly 100, the cleanness convenience of clean subassembly 100 has been improved, be favorable to improving user's use experience better, the practicality of clean subassembly 100 has further been improved. Wherein, through setting up garbage collection piece 70 in wiping one side of dragging piece 30 back to burnisher direction of rotation, at this moment, wipe and drag piece 30 behind locking structure 50's the top fixed action that supports, make burnisher rotate on wiping dragging piece 30, wipe and drag piece 30 can be scraped the rubbish on the burnisher to the dirty inslot that gathers of garbage collection piece 70 to the dirty orientation of burnisher rotatory orientation, make garbage collection piece 70 can retrieve rubbish better, reduce solid waste and drop in the clean groove 11, be favorable to preventing further ground that solid waste from blockking up the drain, improve the practicality and the reliability of cleaning assembly 100.

In one embodiment of the present invention, the number of the garbage collectors 70 is two, and two garbage collectors 70 are respectively connected to the opposite sides of the wiping and dragging member 30. And/or, the garbage collection member 70 can be removably attached to the wipe or drag member 30.

In this embodiment, the cleaning tool rotates along any direction on the cleaning assembly 100 to recycle the garbage into the garbage collecting part 70 by respectively arranging the garbage collecting part 70 on the two opposite sides of the wiping part 30, so that the garbage collecting part 70 can collect the garbage on the cleaning tool more comprehensively, thereby realizing better cleaning effect of the cleaning assembly 100 and further improving the practicability and structural reliability of the cleaning assembly 100.

And through wiping the removable setting of dragging piece 30 with garbage collection spare 70, can clear up the rubbish that garbage collection spare 70 was collected through dismantling garbage collection spare 70, can clear up or replace garbage collection spare 70 simultaneously for the user can be according to the different garbage collection spare 70 of actual use demand replacement material or capacity, satisfies user's user demand, has further improved the practicality of cleaning assembly 100. The garbage collecting element 70 can be fastened to the wiping and dragging element 30 by a screw or a fastener, or the garbage collecting element 70 can be fixed by a clamping element arranged on the wiping and dragging element 30. Thereby facilitating easier removal of the garbage collection member 70 from the mop 30 and further improving the convenience and utility of the cleaning assembly 100.

In one embodiment of the present invention, the garbage collection member 70 is spaced apart from the bottom wall of the cleaning tank 11.

In this embodiment, through the tank bottom wall interval setting with garbage collection piece 70 and clean groove 11, make garbage collection piece 70 can be apart from the certain distance of the tank bottom wall of clean groove 11, avoid the solid waste in the garbage collection piece 70 to soak the condition such as the easy peculiar smell that produces or take place to milden and rot in sewage for a long time, further ensured the overall structure stability and the reliability of clean subassembly 100 for user's use experience is better. Meanwhile, the garbage collection part 70 and the bottom wall of the cleaning groove 11 are kept at a certain distance, so that liquid garbage in the garbage collection part 70 can fully enter the cleaning groove 11 through the dry-wet separation hole 71, the phenomenon that part of sewage remained in the garbage collection part 70 does not reach the garbage collection part 70 when the garbage collection part 70 is soaked in the sewage and the sewage is easily discharged is avoided, further, the cleaning assembly 100 can discharge the sewage more comprehensively, the condition that the sewage is not completely discharged in the cleaning assembly 100 to cause accumulation and the like is effectively reduced, and the practicability and the structural reliability of the cleaning assembly 100 are further improved.

Referring to fig. 1, in one embodiment of the present invention, the garbage collection member 70 is provided with a filter member 73, and the filter member 73 is provided in the wet-dry separation hole 71. And/or, the bottom wall of the sewage collecting groove is provided with a dry-wet separation hole 71. And/or, the side wall of the sewage collecting groove is provided with a dry-wet separation hole 71.

In this embodiment, the garbage collection member 70 can filter the filter member 73 such as a filter screen or filter cotton through the dry-wet separation hole 71, so that the filter member 73 can filter the liquid garbage collected by the garbage collection member 70 into the cleaning tank 11, thereby realizing the dry-wet separation of the garbage collection member 70 and effectively preventing the solid garbage from dropping into the cleaning tank 11 to block the sewage outlet. And can also carry out certain filtration impurity or treatment such as degerming to sewage through utilizing filtering piece 73, effectively reduce the harmful substance of arranging to the sewage in clean groove 11, be favorable to improving user's use experience better. The filter element 73 can be fixed on the wall of the dry-wet separation hole 71 by adhesion, or can be fixed on the inner wall of the dirt collecting groove by screws and covers the dry-wet separation hole 71, so that the assembly convenience of the cleaning assembly 100 is improved.

Secondly, dry-wet separation hole 71 can be arranged on the groove bottom wall of the dirt collecting groove, so that liquid garbage in garbage collection part 70 can be better discharged into cleaning groove 11 through dry-wet separation hole 71 under the action of gravity, the dry-wet separation efficiency of garbage collection part 70 is improved, the garbage collection efficiency and the pollution discharge efficiency of cleaning assembly 100 are effectively improved, and the practicability and the reliability of cleaning assembly 100 are improved. And can also be provided with dry wet separation hole 71 on the groove lateral wall in dirty groove of collection, dry wet separation hole 71 can set up the bottom at dirty groove lateral wall of collection this moment to make the liquid rubbish in the dirty inslot of collection arrange to cleaning tank 11 in better, realize better blowdown effect.

In an embodiment of the present invention, the cleaning assembly 100 further includes a driving device, the driving device is disposed on the rotating shaft 13 and connected to the wiping and dragging member 30, and the driving device is used for driving the wiping and dragging member 30 to rotate.

In this embodiment, the cleaning assembly 100 may further be provided with a driving device, and by disposing the driving device on the rotating shaft 13 and connecting the wiping and dragging member 30, the wiping and dragging member 30 can be driven by the driving device to rotate in the cleaning groove 11, at this time, the cleaning tool fixed on the cleaning device can be cleaned by driving the wiping and dragging member 30 in the cleaning groove 11 by the driving device, so that the cleaning assembly 100 can be applied to more types of cleaning devices; or when the wiping element 30 needs to clean the trough 11, the driving device can be used to drive the wiping element 30 to rotate, so that the cleaning assembly 100 can better automatically realize the cleaning function. Thereby better meeting the user's needs and further improving the utility and reliability of the cleaning assembly 100.

The utility model discloses still provide a cleaning device, this cleaning device include cleaning device and cleaning assembly 100, and the concrete structure of this cleaning assembly 100 refers to above-mentioned embodiment, because this cleaning device has adopted the whole technical scheme of above-mentioned all embodiments, consequently has all beneficial effects that the technical scheme of above-mentioned embodiment brought at least, and the repeated description is no longer given here. Wherein the cleaning device is provided with a cleaning tool, and the cleaning assembly 100 is used for cleaning the cleaning tool.

The above only is the preferred embodiment of the present invention, not limiting the scope of the present invention, all the equivalent structure changes made by the contents of the specification and the drawings under the inventive concept of the present invention, or the direct/indirect application in other related technical fields are included in the patent protection scope of the present invention.

Claims (28)

1. A cleaning assembly for cleaning a cleaning implement, said cleaning assembly comprising:

the cleaning device comprises a cleaning main body, a cleaning groove and a rotating shaft, wherein the cleaning main body is provided with a sewage discharge outlet communicated with the cleaning groove, and the rotating shaft is convexly arranged on the bottom wall of the cleaning groove;

the wiping and dragging piece is rotatably connected to the rotating shaft and abutted against the groove bottom wall of the cleaning groove, and the surface of the wiping and dragging piece, back to the groove bottom wall, is abutted against the cleaning tool and is used for cleaning the cleaning tool; and

the locking structure is movably arranged between the cleaning main body and the wiping and dragging piece and is used for abutting and fixing the wiping and dragging piece.

2. The cleaning assembly of claim 1 wherein said cleaning assembly is provided with at least two of said scrubbing members, at least two of said scrubbing members being spaced apart within said cleaning channel, said waste outlet being provided between any two adjacent ones of said scrubbing members.

3. The cleaning assembly of claim 1, wherein the locking structure is pivotally disposed on an inner sidewall of the cleaning groove, the mop member abuts against the locking structure when rotating in a first rotational direction, and the mop member pushes the locking structure to swing toward the inner sidewall of the cleaning groove when rotating in a second rotational direction, so that the locking structure prevents the mop member from rotating.

4. The cleaning assembly of claim 3, wherein the inner sidewall of the cleaning tank is provided with a first relief hole, and the locking structure comprises:

the first stop piece can be arranged in the first avoidance hole in a penetrating mode in a swinging mode, and part of the first stop piece is arranged on the inner side wall of the cleaning groove in a protruding mode; and

a first elastic member provided on an outer peripheral side of the cleaning tank and abutting against a side of the first stopper facing away from the wiper;

the wiping and dragging piece abuts against the first stop piece when rotating in the first rotating direction, the first stop piece abuts against the first avoidance hole, the wiping and dragging piece pushes the first stop piece to swing towards the first avoidance hole when rotating in the second rotating direction, and the first stop piece is made to compress the first elastic piece.

5. The cleaning assembly of claim 4, wherein a side of the first stop facing away from the mop is provided with a first abutment plate that abuts an outer periphery of the first relief hole when the mop is rotated in the first rotational direction.

6. The cleaning assembly of claim 1, wherein the locking structure is telescopically disposed on the inner sidewall of the cleaning groove, such that an end of the locking structure protrudes from the inner sidewall of the cleaning groove to prevent the rotation of the mop.

7. The cleaning assembly of claim 6, wherein the locking structure comprises:

the steering engine is arranged on the outer peripheral side of the cleaning groove; and

the spring bolt, the spring bolt connect in the steering wheel, the steering wheel is used for driving about the spring bolt orientation wipe the direction of dragging the piece and move telescopically to make the one end of spring bolt pass clean inslot's inside wall is kept off wipe and drag the piece rotation.

8. The cleaning assembly of claim 7, wherein the latch comprises a first clamping portion and a second clamping portion, the first clamping portion and the second clamping portion are spaced apart from each other, and the steering engine drives one end of the first clamping portion and one end of the second clamping portion to penetrate through the inner side wall of the cleaning groove respectively to clamp the wiping member.

9. The cleaning assembly of claim 7, wherein the scrubbing member is provided with a spacing frame and a bypass plate on a side facing an inner side wall of the cleaning tank, the spacing frame is provided with an opening on a side facing the scrubbing member in the first rotational direction, the bypass plate is swingably provided in the opening, and the scrubbing member is further provided with a resilient member connecting the bypass plate and the spacing frame adjacent to the side of the opening;

the spring bolt orientation open-ended one side width is less than the open-ended width, the spring bolt in wipe when dragging along first direction of rotation push away make dodge the board orientation spacing frame swing, and make dodge the board compression rebound spare, so that the spring bolt at least part gets into in the spacing frame and support the week side of spacing frame.

10. The cleaning assembly of claim 1, wherein the locking structure is pivotally connected to a side of the scrubbing member facing the pivot axis, the pivot axis abutting the locking structure when the scrubbing member is rotated in a first rotational direction and pushing the locking structure to swing towards the scrubbing member when the scrubbing member is rotated in a second rotational direction to allow the locking structure to avoid rotation of the scrubbing member.

11. The cleaning assembly of claim 10, wherein the scrubbing member is provided with a second relief hole on a side facing the shaft, and the locking structure comprises:

the second stopping piece can be arranged in the second avoidance hole in a penetrating mode in a swinging mode, and part of the second stopping piece is arranged on one side, facing the rotating shaft, of the wiping and dragging piece in a protruding mode; and

the second elastic piece is arranged in the wiping and dragging piece and is abutted against one side, back to the rotating shaft, of the second stop piece;

the periphery side of pivot is equipped with spacing arch, spacing protruding in wipe and drag piece and support when rotating along first direction of rotation the second stopper, and make the second stopper butt the hole is dodged to the second, spacing protruding in wipe and drag piece and push when rotating along the second direction of rotation and make the second stopper orientation the hole swing is dodged to the second, and makes the second stopper compression the second elastic component.

12. The cleaning assembly of claim 11, wherein a side of the second stop facing away from the mop is provided with a second abutment plate that abuts an outer periphery of the second relief hole when the mop is rotated in the first rotational direction.

13. The cleaning assembly of claim 1, wherein a first water injection passage is provided in the scrubbing member, and a water injection hole communicated with the first water injection passage is provided on the surface of the scrubbing member, which faces away from the cleaning tank;

the cleaning main body is provided with a second water injection channel which is communicated with the first water injection channel when the locking structure abuts against and fixes the wiping and dragging piece, and the second water injection channel is used for being communicated with water supply equipment.

14. The cleaning assembly of claim 13, wherein the bottom of the scrubbing member is provided with a first water inlet connected to the first water supply channel, the second water supply channel is disposed below the cleaning tank, the bottom wall of the cleaning tank is provided with a first water supply hole connected to the second water supply channel, and the first water supply hole is correspondingly connected to the first water inlet when the locking structure abuts against and fixes the scrubbing member.

15. The cleaning assembly of claim 13, wherein a side of the scrubbing member facing the shaft is provided with a second water inlet communicating with the first water injection passage, the second water injection passage being provided below the cleaning tank;

the rotating shaft is internally provided with a flow passage communicated with the second water injection passage, the peripheral side of the rotating shaft is provided with a second water injection hole communicated with the flow passage, and the second water injection hole is correspondingly communicated with the second water inlet when the locking structure abuts against and fixes the mopping piece.

16. The cleaning assembly as claimed in claim 13, wherein when the locking structure is movably disposed between the inner sidewall of the cleaning tank and the scrubbing and pulling member, a third water inlet communicating with the first water filling channel is disposed at a side of the scrubbing and pulling member facing the locking structure, and the second water filling channel is disposed at a side of the cleaning tank and passes through the inner sidewall of the cleaning tank and the locking structure;

and a third water injection hole communicated with the second water injection channel is arranged on one side of the locking structure facing the wiping part, and the third water injection hole is correspondingly communicated with the third water inlet when the locking structure abuts against and fixes the wiping part.

17. The cleaning assembly as claimed in claim 13, wherein the scrubbing and dragging member has a fourth water inlet connected to the first water injecting passage at a side facing the inner sidewall of the cleaning tank, the second water injecting passage is provided at a side of the cleaning tank, the inner sidewall of the cleaning tank has a fourth water injecting hole connected to the second water injecting passage, and the fourth water injecting hole is correspondingly connected to the fourth water inlet when the locking structure abuts against and fixes the scrubbing and dragging member.

18. The cleaning assembly of claim 13, wherein a first water injection tube is provided in the scrubbing member, the first water injection tube being removably insertable into the scrubbing member, the first water injection tube having the first water injection passage formed therein;

the cleaning main body is provided with a second water injection pipe, the second water injection pipe is detachably inserted into the cleaning main body, and a second water injection channel is formed in the second water injection pipe.

19. A cleaning assembly as claimed in any one of claims 1 to 18, wherein said scrubbing member includes:

the wiping body is rotatably connected to the rotating shaft, and the surface of the wiping body, back to the cleaning groove, abuts against the cleaning tool;

the first scraping strip is connected to the bottom of the wiping body and abutted against the bottom wall of the cleaning groove; and

and the second scraping strip is connected to the side surface, facing the side wall of the cleaning groove, of the wiping body and is abutted against the side wall of the cleaning groove.

20. The cleaning assembly of claim 19, wherein the first scraper bar is made of rubber or silicone;

and/or the second scraping strip is made of rubber or silica gel;

and/or the mopping main body is detachably connected with the rotating shaft.

21. The cleaning assembly of claim 19, wherein said first wiper strip, said second wiper strip, and said wiping body are of unitary construction;

or the first scraping strip and the second scraping strip are detachably connected to the wiping main body.

22. The cleaning assembly of any one of claims 1 to 18, further comprising a waste collection member connected to the scrubbing member and having a wet and dry separating aperture in communication with the cleaning tank, the waste collection member being configured to collect waste from the cleaning implement and to allow liquid waste to enter the cleaning tank through the wet and dry separating aperture.

23. The cleaning assembly of claim 22, wherein the surface of the garbage collection member facing away from the cleaning groove is provided with a dirt collection groove, the inner wall of the dirt collection groove is provided with the dry-wet separation hole, and the garbage collection member is connected to at least one side of the wiping member facing away from the rotation direction of the cleaning tool.

24. The cleaning assembly of claim 23, wherein said waste collection members are two in number, and wherein said waste collection members are attached to opposite sides of said scrubbing member;

and/or the garbage collection member is detachably connected with the wiping and dragging member.

25. The cleaning assembly of claim 23, wherein said waste collection member is provided with a filter element, said filter element being disposed in said wet and dry separation aperture;

and/or the bottom wall of the sewage collecting groove is provided with the dry-wet separation hole;

and/or the side wall of the sewage collecting groove is provided with the dry-wet separation hole.

26. The cleaning assembly of claim 22, wherein said waste collection member is spaced from a floor wall of said cleaning trough.

27. The cleaning assembly of any one of claims 1 to 18, further comprising a driving device disposed on the shaft and connected to the scrubbing member, wherein the driving device is configured to drive the scrubbing member to rotate.

28. A cleaning device, characterized in that the cleaning device comprises a cleaning apparatus provided with a cleaning tool and a cleaning assembly as claimed in any one of claims 1 to 27 for cleaning the cleaning tool.

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