CN211633153U - Mop with synchronously folding mop plate - Google Patents

Abstract

The utility model provides a mop with a mop plate capable of being synchronously folded, which comprises a holding rod and a mop head. The mop head comprises a holding rod connecting piece, a movable sleeve piece, a rotating connecting piece, a first mop plate component, a second mop plate component and a synchronous linkage component. The grip link is connected to the grip. The movable sleeve is rotatably connected to the handle connecting member and has a sleeve structure. The rotating connecting piece is rotatably arranged in the sleeving structure in a penetrating way and is provided with a first pivoting part, a second pivoting part and a sliding limiting structure positioned between the first pivoting part and the second pivoting part. The first carriage assembly and the second carriage assembly are respectively pivoted on the first pivoting part and the second pivoting part. A slide block of the synchronous linkage assembly is limitedly arranged in the sliding limiting structure in a penetrating way and is synchronously connected with the first carriage assembly and the second carriage assembly in a transmission way. Therefore, the linkage is generated through the synchronous linkage component, so that the first carriage component and the second carriage component are synchronously turned and rotated, and the use convenience is improved.

Description

Mop with synchronously folding mop plate

Technical Field

The utility model relates to a synchronous folding mop with mops, in particular to a synchronous folding mop with mops, which uses a synchronous linkage component to drive two mops to be synchronously folded.

Background

Generally, the conventional foldable flat mop mainly comprises a mop holding rod and a flat mop head, and the flat mop head is mainly formed by assembling two planar planker assemblies in a central pivot structure, so that a user can fold and fold the two planar planker assemblies towards the mop holding rod to reduce the occupied volume of the whole foldable flat mop, and the folding flat mop not only can reduce the transportation cost due to the reduced volume, but also is convenient for the user to store.

As mentioned above, in the cleaning process of the conventional foldable flat mop, usually, when the foldable flat mop is placed in the mop bucket, the wall of the mop bucket is pushed against the foldable flat mop to turn the foldable flat mop into the folded state, but since most of the two flat mop components of the foldable flat mop are individually pivoted to the central pivot structure, when the flat mop component is folded by using the mop bucket, the user is likely to push the flat mop component individually due to the asynchronous flat mop components on both sides, and when the user cleans the flat mop component, the user is still required to individually unfold the flat mop component, which causes inconvenience in use.

SUMMERY OF THE UTILITY MODEL

In view of the fact that in the prior art, the two flat planker assemblies of the conventional foldable flat plate are respectively pivoted to the central pivoting structure, a user must respectively push the flat planker assemblies to enable the mop head to be in a folded state or an unfolded state, which causes inconvenience in use; accordingly, a primary object of the present invention is to provide a mop with a synchronously foldable mop plate, which can be synchronously coupled with a planar mop plate assembly through a simple synchronous coupling structure, thereby increasing the convenience of use.

The utility model solves the problems of the prior art, and the adopted necessary technical means is to provide a mop with a synchronous turnover mop plate, which comprises a holding rod and a mop head. The holding rod extends along an extending direction. The mop head comprises a holding rod connecting piece, a movable sleeve piece, a rotating connecting piece, a first mop plate component, a second mop plate component and a synchronous linkage component.

The holding rod connecting piece is connected with the holding rod and is provided with a pivoting end part. The movable sleeve is rotatably connected to the pivoting end part by a first rotating axis perpendicular to the extending direction and is provided with a sleeving structure. The rotating connecting piece is rotatably arranged in the sleeving structure in a penetrating mode through a second rotating axis perpendicular to the first rotating axis and the extending direction and provided with a first pivoting portion and a second pivoting portion which are arranged oppositely, and the rotating connecting piece further comprises a sliding limiting structure which is located between the first pivoting portion and the second pivoting portion.

The first pulling plate component is pivoted on the first pivoting part. The second carriage assembly is pivoted to the second pivoting portion. The synchronous linkage assembly comprises a sliding block, the sliding block is arranged in the sliding limiting structure in a penetrating mode in a limiting mode in a reciprocating mode along the extending direction in a limiting mode, and the sliding block is connected to the first carriage assembly and the second carriage assembly in a synchronous transmission mode.

When at least one of the first carriage assembly and the second carriage assembly rotates relative to at least one of the corresponding first pivoting part and the second pivoting part, the first carriage assembly and the second carriage assembly synchronously rotate through the synchronous linkage assembly.

In an auxiliary technical means derived from the above-mentioned necessary technical means, the rotating connecting member further includes a body portion, the first pivoting portion and the second pivoting portion are integrally formed and extend from two ends of the body portion, the sliding limiting structure is integrally formed and extends from the body portion along a sliding direction, the sliding limiting structure is further provided with a through hole extending along the sliding direction and penetrating through the body portion, and the slider is limited by the through hole and is reciprocally movably inserted in the sliding limiting structure along the sliding direction.

Preferably, the sliding limiting structure further has a first side stroke limiting channel and a second side stroke limiting channel disposed opposite to each other, the first side stroke limiting channel and the second side stroke limiting channel are respectively communicated with the through hole and extend along the sliding direction, and the synchronous linkage assembly further includes a first linkage member and a second linkage member. The first linkage piece movably penetrates through the first side stroke limiting channel and is respectively pivoted with the first pulling plate component and the sliding block; the second linkage piece movably penetrates through the second side stroke limiting channel and is respectively pivoted with the second carriage assembly and the sliding block. The first linkage piece and the second linkage piece are mutually overlapped and pivoted to the sliding block.

In addition, the first pulling plate assembly further comprises a first connecting portion, the first connecting portion is provided with at least one first pivot hole and at least one first deviation linkage hole, the first pivot hole is pivoted to the first pivot portion, and the first deviation linkage hole is located around the first pivot hole and is adjacent to the movable sleeve member and pivoted to the first linkage member.

In an auxiliary technical means derived from the above-mentioned necessary technical means, the movable sleeve further includes a sleeve body, the sleeve body is rotatably connected to the pivot end portion along the first rotation axis, and the sleeve structure includes two sleeve rings, the two sleeve rings are respectively integrally connected to the sleeve body and rotatably sleeved on the body portion, and the two sleeve rings are located at two sides of the sliding limiting structure.

Preferably, the two collars are respectively provided with a gap in the opposite direction of the extending direction. In addition, the first carriage assembly is provided with a first limiting groove, the second carriage assembly is provided with a second limiting groove, the sleeve body is further provided with two limiting end portions, and when the first carriage assembly and the second carriage assembly are respectively turned over towards the holding rod, the two limiting end portions are respectively clamped and abutted against the first limiting groove and the second limiting groove.

As described above, because the utility model provides a synchronous folding mop of planker utilizes the slider of synchronous interlock subassembly to come the transmission to link first planker subassembly and second planker subassembly, consequently when first planker subassembly and second planker subassembly wherein arbitrary person receives to push and supports and turn over a book, can effectually drive another person and turn over a book in step through the interlock of slider.

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

Drawings

FIG. 1 is a schematic perspective exploded view showing a mop plate synchronous folding mop according to a preferred embodiment of the present invention;

FIG. 2 is a perspective view of a mop head according to the preferred embodiment of the present invention;

FIG. 3 is a perspective exploded view of a mop head according to the preferred embodiment of the present invention;

FIG. 4 is an exploded perspective view of the mop head of the preferred embodiment of the present invention;

FIG. 5 is a schematic sectional view taken along line A-A of FIG. 2;

FIG. 6 is a perspective exploded view of the mop with the mop plate synchronously folded and the mop cleaning barrel according to the preferred embodiment of the present invention;

FIG. 7 is a schematic perspective exploded view showing a mop cleaning tank with a mop head of a mop plate synchronously folded into a mop cleaning barrel according to a preferred embodiment of the present invention;

FIG. 8 is a schematic cross-sectional view taken along line B-B of FIG. 7;

FIG. 9 is a perspective view of a dewatering basket for placing the mop head of the mop plate synchronous turnover mop into the mop cleaning barrel according to the preferred embodiment of the present invention; and

fig. 10 is a perspective view showing that after the mop head of the mop with the mop plate synchronously folded according to the preferred embodiment of the present invention is taken out from the dewatering barrel for dewatering by rotation, the mop plate assembly is thrown away by centrifugal force, and then the mop plate assembly is returned to the use state from the folded state.

Description of the reference numerals

100 mop with synchronously folding mop plate

1: holding rod

11: rotating rod

111 mop head connecting part

112 drive link

113 helical structure

12 fixing rod

121: fixing rod body

1211 sleeve end part

1212 connecting end portion

122 limit component

13 operating rod

131 operating rod body

1311 socket joint end

132 limiting tube

133 drive assembly

2, mop head

21 grip lever connecting piece

211, pivoting end portion

22 Movable suite

221 kit body

2211,2212 limiting end part

222, sleeve joint structure

2221,2222 Collar

22211,22221 notch

23 rotating connecting piece

231 main body part

232 the first pivot part

233 second pivot joint part

234 slip restricting structure

2341 through holes

2342 first side travel limiting channel

2343 second side Stroke limiting channel

24 first mop plate assembly

241 the first mop plate body

2411 a first connecting part

24111 a first pivoting hole

24112 first deviation linkage hole

2412 a first positioning part

24121 preparing a first limit groove

2413 mop connecting piece

242 mop

25: second carriage assembly

251 the second carriage body

2511 second connecting part

25111 second pivot hole

25112 second deviation linkage hole

2512 second positioning part

25121 second limit groove

2513 mop fastener

252 mop

26 synchronous linkage component

261 sliding block

2611 limiting pivoting groove

262 first linkage member

2621 linking part

263 second linkage part

2631 linking joint part

200 mop bucket

201 cleaning tank

2011,2012 side bristles

202 dehydration basket

D1 direction of extension

D2 sliding direction

X1 first axis of rotation

X2 second axis of rotation

Detailed Description

Referring to fig. 1 to 5, fig. 1 is a schematic perspective exploded view showing a mop plate synchronous turnover mop according to a preferred embodiment of the present invention; FIG. 2 is a perspective view of a mop head according to the preferred embodiment of the present invention; FIG. 3 is a perspective exploded view of a mop head according to the preferred embodiment of the present invention; FIG. 4 is an exploded perspective view of the mop head of the preferred embodiment of the present invention; fig. 5 is a schematic sectional view taken along line a-a of fig. 2.

As shown in fig. 1 to 4, a mop plate synchronous folding mop 100 comprises a holding rod 1 and a mop head 2. The grip 1 is a rotary grip in this embodiment, and the grip 1 extends along an extending direction D1 and includes a rotating rod 11, a fixing rod 12 and an operating rod 13. The pivot lever 11 has a mop head connecting portion 111 and a driving connecting portion 112, and the mop head connecting portion 111 extends to the driving connecting portion 112 along the extending direction D1. The fixing rod 12 includes a fixing rod body 121 and a limiting component 122. The fixing rod body 121 integrally extends from a sleeve end 1211 to a connecting end 1212 along an extending direction D1, and the sleeve end 1211 is sleeved on the driving link 112. The operating rod 13 includes an operating rod body 131, a limiting tube 132 and a driving assembly 133 (shown in fig. 8). The lever body 131 is movably sleeved on the fixing lever body 121 along the extending direction D1 and has a sleeved end 1311, the limiting tube 132 is fixed on the sleeved end 1311 of the lever body 131, and the driving component 133 is fixed in the lever body 131 and passes through the fixing lever body 121 to be drivingly connected to the rotating lever 11. Since the rotary type holding rod is already in the prior art, it is not described herein in detail.

The mop head 2 comprises a holding rod connecting member 21, a movable sleeve member 22, a rotating connecting member 23, a first mop plate assembly 24, a second mop plate assembly 25 and a synchronization linkage assembly 26.

The grip link 21 is fixedly connected to the rotating lever 11 of the grip 1 and has a pivot end 211. The activity kit 22 includes a kit body 221 and a kit connection structure 222. The sleeve main body 221 is rotatably connected to the pivot end 211 along a first rotation axis X1 perpendicular to the extending direction D1, and the sleeve main body 221 further has two opposite limiting end portions 2211 and 2212. The sleeve structure 222 of the sleeve member body 221 includes two collars 2221 and 2222, and the collars 2221 and 2222 are integrally connected to the sleeve member body 221. In this embodiment, the ferrules 2221 and 2222 are C-shaped ferrules, and the ferrule 2221 has a notch 22211 formed in a direction opposite to the extending direction D1, and the ferrule 2222 has a notch 22221 formed in a direction opposite to the extending direction D1.

The rotating connecting element 23 includes a main body 231, a first pivot portion 232, a second pivot portion 233 and a sliding limiting structure 234. The main body 231 is rotatably disposed through the two collars 2221 and 2222 of the socket structure 222 by a second rotation axis X2 perpendicular to the first rotation axis X1 and the extending direction D1. The first pivot portion 232 and the second pivot portion 233 are integrally formed and extend from two ends of the main body 231.

The sliding limiting structure 234 integrally extends from the main body 231 along a sliding direction D2 and is located between the first pivot portion 232 and the second pivot portion 233, and the sliding limiting structure 234 further defines a through hole 2341 extending along the sliding direction D2 and penetrating through the main body 231. The movable sleeve 22 is rotatably sleeved on the main body 231, and the two collars 2221 and 2222 are located at two sides of the sliding limiting structure 234.

In addition, the sliding limiting structure 234 further has a first side stroke limiting channel 2342 and a second side stroke limiting channel 2343 disposed oppositely, and the first side stroke limiting channel 2342 and the second side stroke limiting channel 2343 are respectively communicated with the through hole 2341 and extend and open along the sliding direction D2.

The first mop plate assembly 24 includes a first mop plate body 241 and a mop 242. The first mop body 241 has a first connecting portion 2411, a first positioning portion 2412 and a mop connecting member 2413, the first connecting portion 2411 defines a first pivot hole 24111 and two first deviation linking holes 24112 (only one is labeled in the figure), the first pivot hole 24111 is pivotally connected to the first pivot portion 232, and the first deviation linking hole 24112 is located around the first pivot hole 24111 and adjacent to the movable sleeve 22. The first positioning portion 2412 has a first limit groove 24121. The mop cloth connector 2413 is fixedly arranged on the inner side surface (not shown) of the first mop plate body 241, and the mop cloth 242 is detachably connected with the mop cloth connector 2413; in this embodiment, the mop cloth connector 2413 is fixed to the inner side surface of the first mop plate body 241 by, for example, screw fastening, and connects and fixes the mop cloth 242 by velcro.

The second carriage assembly 25 includes a second carriage body 251 and a mop 252. The second carriage body 251 has a second connecting portion 2511, a second positioning portion 2512 and a mop connecting member 2513, the second connecting portion 2511 has a second pivot hole 25111 and two second offset linking holes 25112 (only one is labeled in the figure), the second pivot hole 25111 is pivoted to the second pivot portion 233, and the second offset linking hole 25112 is located around the second pivot hole 25111 and adjacent to the movable sleeve 22. The second positioning portion 2512 has a second retaining groove 25121. The mop fastener 2513 is fixed on the inner surface (not shown) of the second mop body 251, and the mop 252 is detachably connected to the mop fastener 2513; in this embodiment, the mop fastener 2513 is fixed to the inner side surface of the second mop plate body 251 by screws, and fastens and fixes the mop 252 by velcro.

The synchronous linkage assembly 26 includes a slider 261, a first linkage member 262 and a second linkage member 263, the slider 261 is reciprocally disposed through the through hole 2341 of the sliding limiting structure 234 along the sliding direction D2, so as to be reciprocally disposed through the sliding limiting structure 234 along the sliding direction D2 limited by the through hole 2341, and the slider 261 is provided with a limit pivot groove 2611 along a lateral direction (not shown) perpendicular to the sliding direction D2.

The first linking member 262 is pivotally connected to the first pivot hole 24111 of the first pulling plate assembly 24 and movably disposed through the first side stroke limiting passage 2342, and the first linking member 262 has a linking portion 2621, and the linking portion 2621 extends into the limiting pivot slot 2611 of the sliding block 261 and is pivotally connected to the sliding block 261. The second linking member 263 is pivotally connected to the second pivot hole 25111 of the second carriage assembly 25 and movably penetrates through the second side stroke limiting channel 2343, and the second linking member 263 has a linking portion 2631, the linking portion 2631 extends into the limiting pivot slot 2611 of the slider 261 and is pivotally connected to the slider 261, and the linking portions 2621 and 2631 are pivotally connected to the slider 261 in the limiting pivot slot 2611 in an overlapping manner, so that the slider 261 is synchronously and drivingly connected to the first carriage assembly 24 and the second carriage assembly 25 through the first linking member 262 and the second linking member 263 respectively.

With continuing reference to fig. 6 to 8, fig. 6 is a schematic perspective exploded view showing the mop plate synchronous turnover mop and the mop cleaning barrel according to the preferred embodiment of the present invention; FIG. 7 is a schematic perspective exploded view showing a mop cleaning tank with a mop head of a mop plate synchronously folded into a mop cleaning barrel according to a preferred embodiment of the present invention; fig. 8 is a schematic sectional view taken along line B-B of fig. 7. As shown in fig. 1 to 8, the mop 100 of the present invention can be used with a mop bucket 200, the mop bucket 200 has a cleaning tank 201 and a dewatering basket 202, the cleaning tank 201 has two side bristles 2011 (only one is labeled in the figure) and two side bristles 2012 (only one is labeled in the figure)

As mentioned above, when a user wants to clean the mop cloth 242 of the first mop plate assembly 24 and the mop cloth 252 of the second mop plate assembly 25, the user can push the first mop plate assembly 24 and the second mop plate assembly 25 to drive the rotating link 23 linking the first mop plate assembly 24 and the second mop plate assembly 25 to rotate along the second rotation axis X2 and drive the movable sleeve 22 to rotate along the first rotation axis X1, so that the sliding direction D2 extending through the through hole 2341 of the rotating link 23 is parallel to the extending direction D1 of the grip lever 1, and at this time, the first link 262 and the second link 263 respectively correspond to the notch 22211 of the collar 2221 and the notch 22221 of the collar 2222, so that the user can align the mop head 2 with the cleaning tank 201 and extend the mop head 2 into the cleaning tank 201 in the direction opposite to the extending direction D1.

At this time, when at least one of the first carriage assembly 24 and the second carriage assembly 25 rotates relative to at least one of the corresponding first pivot portion 232 and the second pivot portion 233, the first carriage assembly 24 and the second carriage assembly 25 rotate synchronously to be turned over by the driving of the synchronous linkage assembly 26; therefore, in practice, when the mop head 2 extends into the cleaning groove 201, no matter the first mop plate assembly 24 or the second mop plate assembly 25 contacts the wall of the mop bucket 200, the first mop plate assembly 24 and the second mop plate assembly 25 rotate synchronously to fold, so that the mop head 2 extends into the cleaning groove 201 in a folded state, and the mops 242 and 252 respectively contact the side bristles 2011 and 2012, so that the mop 100 can reciprocate along the extending direction D1 through the synchronous folding of the mop plate, and the dirt adhered to the mops 242 and 252 can be effectively removed.

In addition, when the first mop plate assembly 24 and the second mop plate assembly 25 are in the folded state, the limiting end portions 2211 and 2212 of the sleeve body 221 respectively abut against the first limiting groove 24121 and the second limiting groove 25121, so that the rotational inertia force of the first mop plate assembly 24 and the second mop plate assembly 25 borne by the first pivot portion 232 and the second pivot portion 233 is effectively dispersed when the mop head 2 rotates.

With continuing reference to fig. 9 and 10, fig. 9 is a schematic perspective view showing a dewatering basket of a mop cleaning barrel for placing a mop head of a mop synchronously folded mop provided by a preferred embodiment of the present invention; fig. 10 is a perspective view showing that after the mop head of the mop with the mop plate synchronously folded according to the preferred embodiment of the present invention is taken out from the dewatering barrel for dewatering by rotation, the mop plate assembly is thrown away by centrifugal force, and then the mop plate assembly is returned to the use state from the folded state.

As shown in fig. 8 and 9, after the mops 242 and 252 have finished cleaning, the user can take the mop head 2 out of the cleaning tank 201 and put the mop head 2 into the dewatering basket 202 for dewatering; in this embodiment, since the grip 1 is a rotary grip, when the user reciprocates the operating rod 13 along the extending direction D1, the spiral structure 113 in the rotating rod 11 is driven by the driving component 133 in the operating rod 13, so that the rotating rod 11 drives the mop head 2 and the spin basket 202 to rotate, and the moisture remaining in the mops 242 and 252 is effectively thrown out due to the centrifugal force. In addition, although the mop head 2 is rotated by the driving component 133 of the holding rod 1 and the spiral structure 113 in this embodiment, but not limited thereto, in other embodiments, the holding rod 1 may only have the fixing rod 12 and the rotating rod 11 without components that can convert linear motion into rotational motion, such as the driving component 133 and the spiral structure 113, and then cooperate with the spin basket 202 to be a pedal type mop bucket that rotates by a pedal mechanism to achieve the function of rotating and spinning the mop head 2.

As described above, as shown in fig. 9 and 10, when the mop head 2 is in the spin basket 202 and the spin basket 202 is in a rotating state, when the user takes out the mop head 2 from the spin basket 202 through the holding rod 1, the rotational inertia force remaining on the mop head 2 and the rotating rod 11 will make the mop head 2 and the rotating rod 11 continuously rotate, and at this time, the first mop plate assembly 24 and the second mop plate assembly 25 will swing out due to the centrifugal force generated by the rotation, so that the mop head 2 is returned from the folded state to the use state.

To sum up, compare in prior art's folding flat board because two plane planker subassemblies are individualized pin joint in central pin joint structure, and then lead to the not convenience of user in the use, because the utility model discloses a synchronous folding mop of planker utilizes synchronous interlock subassembly to link first planker subassembly and second planker subassembly in step, consequently when at least one rotates for at least one of the first pin joint portion that corresponds in first planker subassembly and the second planker subassembly, can produce the interlock through the slider of synchronous interlock subassembly, and then makes first planker subassembly and second planker subassembly turn over a rotation in step, increases the convenience in the use effectively.

The foregoing detailed description of the preferred embodiments is intended to more clearly illustrate the features and spirit of the present invention, and is not intended to limit the scope of the invention by the preferred embodiments disclosed above. On the contrary, it is intended to cover various modifications and equivalent arrangements included within the scope of the appended claims.

Claims (8)

1. A mop plate synchronous turnover type mop is characterized by comprising:

a grip extending in an extension direction; and

a mop head, comprising:

a holding rod connecting piece which is connected with the holding rod and is provided with a pin joint end part;

the movable sleeve is rotatably connected to the pivoting end part by a first rotating shaft center perpendicular to the extending direction and is provided with a sleeving structure;

the rotating connecting piece is rotatably arranged in the sleeving structure in a penetrating way by a second rotating axis which is perpendicular to the first rotating axis and the extending direction, and is provided with a first pivoting part and a second pivoting part which are oppositely arranged;

the first pulling plate component is pivoted to the first pivoting part;

the second carriage assembly is pivoted to the second pivoting part; and

the synchronous linkage assembly comprises a sliding block, the sliding block is arranged in the sliding limiting structure in a penetrating manner in a limited manner along the extending direction in a reciprocating manner, and the sliding block is connected with the first carriage assembly and the second carriage assembly in a synchronous transmission manner;

when at least one of the first carriage assembly and the second carriage assembly rotates relative to at least one of the corresponding first pivoting part and the second pivoting part, the first carriage assembly and the second carriage assembly synchronously rotate through the synchronous linkage assembly.

2. The mop plate of claim 1, wherein the rotation connecting member further comprises a body, the first pivot portion and the second pivot portion are integrally formed and extend from two ends of the body, the sliding restricting structure is integrally formed and extends from the body along a sliding direction, the sliding restricting structure further comprises a through hole extending along the sliding direction and penetrating through the body, and the sliding block is restricted by the through hole and reciprocally movably inserted in the sliding restricting structure along the sliding direction.

3. The mop plate synchronous folding mop according to claim 2, wherein the sliding limiting structure further comprises a first side stroke limiting channel and a second side stroke limiting channel, which are oppositely disposed, the first side stroke limiting channel and the second side stroke limiting channel are respectively communicated with the through hole and extend along the sliding direction, and the synchronous linkage assembly further comprises:

the first linkage piece is movably arranged in the first side stroke limiting channel in a penetrating mode and is respectively pivoted with the first pulling plate component and the sliding block; and

and the second linkage piece movably penetrates through the second side stroke limiting channel and is respectively pivoted with the second carriage assembly and the sliding block.

4. The mop plate of claim 3, wherein the first and second linkage members are pivotally connected to the slide block in an overlapping manner.

5. The mop plate of claim 3, further comprising a first connecting portion, wherein the first connecting portion defines at least a first pivot hole and at least a first offset linkage hole, the at least a first pivot hole is pivotally connected to the first pivot portion, and the at least a first offset linkage hole is located around the first pivot hole and pivotally connected to the first linkage member adjacent to the movable sleeve.

6. The mopping plate synchronous folding mop as claimed in claim 2, wherein the movable sleeve further comprises a sleeve body, the sleeve body is rotatably connected to the pivot end along the first rotation axis, and the sleeve structure comprises two sleeves, the two sleeves are respectively integrally connected to the sleeve body and rotatably sleeved on the body, and the two sleeves are located at two sides of the sliding limiting structure.

7. The mop plate of claim 6, wherein the two sleeve rings are notched in the opposite direction of the extension direction.

8. The mop plate of claim 6, wherein the first mop plate assembly has a first limiting groove, the second mop plate assembly has a second limiting groove, and the sleeve member further has two limiting ends, wherein the two limiting ends are respectively engaged with the first limiting groove and the second limiting groove when the first mop plate assembly and the second mop plate assembly are respectively folded toward the holding rod.

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