CN211633153U - Mop with synchronously folding mop plate - Google Patents

Abstract

The utility model provides a mop with synchronous folding of a drag plate, comprising a grip and a mop head. The mop head comprises a grip connecting piece, a movable kit, a rotating connecting piece, a first drag plate assembly, a second drag plate assembly and a synchronous linkage assembly. The grip connecting piece is connected to the grip. The movable kit is rotatably connected to the grip connecting piece and has a sleeve structure. The rotating connecting piece is rotatably inserted into the sleeve structure and has a first pivot part, a second pivot part and a sliding restriction structure located between the first pivot part and the second pivot part. The first drag plate assembly and the second drag plate assembly are respectively pivoted to the first pivot part and the second pivot part. A slider of the synchronous linkage assembly is restrictedly inserted into the sliding restriction structure and synchronously driven and connected to the first drag plate assembly and the second drag plate assembly. Thereby, a linkage is generated through the synchronous linkage assembly, so that the first drag plate assembly and the second drag plate assembly are synchronously folded and rotated, so as to increase the convenience of use.

Description

Pallet Synchronized Folding Mop

technical field

The utility model relates to a synchronous folding mop with a sliding board, in particular to a synchronous folding mop with a sliding board which utilizes a synchronous linkage component to move two sliding board components to fold synchronously.

Background technique

Generally speaking, the existing foldable flat mop is mainly composed of a mop handle and a flat mop head, and the structure of the flat mop head is mostly composed of two flat mop components connected to a central pivot structure. Therefore, the user can fold and fold the two flat mop assemblies toward the mopping handle bar to reduce the volume occupied by the entire folding flat mop, which can not only reduce the transportation cost due to the reduced volume, but also facilitate the user to carry out storage.

As mentioned above, during the cleaning process of the existing foldable flat mop, when the foldable flat mop is placed in the mop bucket, the foldable flat mop is transformed by pushing against the wall of the mop bucket. It is in a folded state, but since most of the two flat pallet assemblies of the foldable flat mop are individually pivoted to the center pivot structure, when the mop bucket is used to fold the flat pallet assembly, it is easy to be Because the pallet assemblies are not synchronized, the user must push the flat pallet assemblies individually, and when the user cleans the flat pallet assemblies, the flat pallet assemblies must be spread out individually, which is very inconvenient for the user to use.

Utility model content

In view of the fact that in the prior art, the existing flip-up flat plate is because the two flat-panel slide assemblies are individually pivoted to the central pivot structure, so the user must push against the flat-panel slide assemblies individually to make the mop head turn over. The folded state or the unfolded state makes it very inconvenient for the user to use; therefore, the main purpose of the present utility model is to provide a mop synchronously folded with a drag board, which can make a flat drag board through a simple synchronous linkage structure. The components are synchronized and linked, thereby increasing the convenience of use.

In order to solve the problems of the prior art, the necessary technical means adopted by the utility model is to provide a mop with a synchronously folded extension plate, which comprises a handle bar and a mop head. The handle bar extends along an extension direction. The mop head includes a handle link, a movable set, a rotation link, a first carriage assembly, a second carriage assembly and a synchronous linkage assembly.

The handle link is connected to the handle and has a pivot end. The movable set is rotatably connected to the pivot end with a first rotation axis perpendicular to the extending direction, and has a socket structure. The rotating connecting piece is rotatably threaded through the sleeve structure with a second rotating axis perpendicular to the first rotating axis and the extending direction, and has a first pivot portion and a second pivot portion oppositely arranged , and the rotating link further includes a sliding restricting structure, the sliding restricting structure is located between the first pivot portion and the second pivot portion.

The first carriage assembly is pivotally connected to the first pivoting portion. The second carriage assembly is pivotally connected to the second pivoting portion. The synchronous linkage assembly includes a sliding block, the sliding block is constrained to be reciprocatingly inserted in the sliding restricting structure along the extending direction, and the sliding block is more synchronously connected to the first carriage assembly and the second carriage assembly.

Wherein, when at least one of the first carriage assembly and the second carriage assembly rotates relative to the corresponding at least one of the first pivot portion and the second pivot portion, the synchronizing linkage assembly causes the first The carriage assembly rotates synchronously with the second carriage assembly.

In an auxiliary technical means derived from the above-mentioned necessary technical means, the rotating connecting member further comprises a main body portion, the first pivoting portion and the second pivoting portion are respectively integrally formed and extend from both ends of the main body portion, and the sliding restricting structure It is integrally formed and extends from the main body along a sliding direction, and the sliding restricting structure is further provided with a through hole extending along the sliding direction and penetrating the main body. in the structure.

Preferably, the sliding restricting structure is further provided with a first side travel restricting channel and a second side travel restricting channel arranged oppositely, and the first side travel restricting channel and the second side travel restricting channel are respectively communicated with each other. The hole is extended along the sliding direction, and the synchronous linkage assembly further includes a first linkage member and a second linkage member. The first linking piece can be movably passed through the first side travel limiting channel, and is pivotally connected to the first carriage assembly and the slider respectively; the second linking piece can be movably passed through the second side travel limiting channel The channel is pivotally connected to the second carriage assembly and the sliding block, respectively. Wherein, the first link member and the second link member are pivotally connected to the slider so as to overlap each other.

In addition, the first carriage assembly further has a first connecting portion, the first connecting portion is provided with at least one first pivot hole and at least one first offset link hole, and the first pivot hole is pivotally connected to the first pivot In the connecting portion, the first offset linking hole is located around the first pivoting hole, and is pivotally connected to the first linking member adjacent to the movable set.

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 along the first rotation axis, and the sleeve connection structure includes two sets of rings, two The collars are respectively integrally formed and connected to the body of the kit, and are rotatably sleeved on the body portion, and the two collars are located on both sides of the sliding restricting structure.

Preferably, the two sets of rings are respectively provided with a gap in the opposite direction of the extending direction. In addition, the first pallet assembly has a first limit slot, the second pallet assembly has a second limit slot, and the kit body further has two limit ends, when the first pallet assembly and the second pallet When the components are folded toward the handle respectively, the two limiting ends are respectively clamped against the first limiting groove and the second limiting groove.

As mentioned above, because the slide synchronous folding mop provided by the present invention uses the slider of the synchronous linkage assembly to drive and link the first slide assembly and the second slide assembly, so when the first slide assembly is connected to the When any one of the second carriage assemblies is pushed and folded, the other can be effectively driven to fold synchronously by the linkage of the sliders.

The specific embodiments adopted by the present utility model will be further described through the following embodiments and accompanying drawings.

Description of drawings

1 is a perspective exploded schematic view showing a synchronously foldable mop provided by a preferred embodiment of the present utility model;

2 is a perspective view showing a mop head provided by a preferred embodiment of the present invention;

3 is a schematic exploded perspective view showing the mop head provided by the preferred embodiment of the present invention;

4 is a perspective exploded schematic view showing another perspective of the mop head provided by the preferred embodiment of the present invention;

Fig. 5 is the A-A sectional schematic diagram of Fig. 2;

6 is a perspective exploded schematic view showing the synchronous folding mop and the mop cleaning bucket provided by the preferred embodiment of the present utility model;

7 is a perspective exploded schematic view showing that the mop head of the mop synchronously foldable mop provided by the preferred embodiment of the present invention is placed in the cleaning tank of the mop cleaning bucket;

Fig. 8 is the B-B sectional schematic diagram of Fig. 7;

9 is a perspective view showing that the mop head of the mop synchronously foldable mop provided by the preferred embodiment of the present invention is placed in the dehydration basket of the mop cleaning bucket; and

Figure 10 shows that after the mop head of the mop synchronously folded-over mop provided by the preferred embodiment of the present invention is taken out from the dewatering bucket for rotating dehydration, the carriage assembly is thrown away under the action of centrifugal force, and then it is restored from the folded state A three-dimensional schematic diagram of the in-use state.

Description of reference numerals

100: Slider Synchronized Folding Mop

1: Grip

11: Turn the lever

111: Mop head link

112: Drive Link Department

113: Spiral Structure

12: Fixed rod

121: Fixed rod body

1211: Socket end

1212: Link End

122: Limit components

13: Operation lever

131: joystick body

1311: Socket

132: Limit tube

133: Drive Components

2: mop head

21: Grip link

211: Pivot end

22: Activity Kit

221: Kit body

2211, 2212: Limit end

222: Socket structure

2221, 2222: Collar

22211, 22221: Notch

23: Rotary link

231: body part

232: The first pivot part

233: Second pivot part

234: Sliding Limiting Structure

2341: Through hole

2342: 1st side travel limit channel

2343: Second side travel limit channel

24: The first carriage assembly

241: The first carriage body

2411: First Link

24111: The first pivot hole

24112: The first offset linkage hole

2412: The first positioning part

24121: The first limit slot

2413: Mop Link

242: Mop

25: Second carriage assembly

251: Second carriage body

2511: Second Link

25111: The second pivot hole

25112: Second offset linkage hole

2512: Second positioning part

25121: The second limit slot

2513: Mop Link

252: Mop

26: Synchronous linkage components

261: Slider

2611: Limit pivot slot

262: The first linkage

2621: Linkage

263: Second linkage

2631: Linkage

200: Mop Bucket

201: Cleaning tank

2011, 2012: Side bristles

202: Dehydration Basket

D1: extension direction

D2: sliding direction

X1: The first rotation axis

X2: The second rotation axis

Detailed ways

Please refer to FIG. 1 to FIG. 5. FIG. 1 is an exploded perspective view showing the synchronous folding mop of the pallet provided by the preferred embodiment of the present invention; FIG. 2 is the mop head provided by the preferred embodiment of the present invention. 3 is an exploded perspective view showing the mop head provided by the preferred embodiment of the present utility model; FIG. 4 is an exploded perspective view showing the mop head provided by the preferred embodiment of the present utility model. 5 is a schematic cross-sectional view taken along the line A-A of FIG. 2 .

As shown in FIG. 1 to FIG. 4 , a mop 100 , which is synchronously folded with a mop, includes a handle 1 and a mop head 2 . In this embodiment, the handle 1 is a rotary handle, and the handle 1 extends along an extension direction D1 , and includes a rotating rod 11 , a fixing rod 12 and an operating rod 13 . The rotating rod 11 has a mop head link portion 111 and a drive link portion 112 , and the mop head link portion 111 integrally extends to the drive link 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 is integrally formed from the socket end portion 1211 along the extending direction D1 to a connecting end portion 1212 , and the socket end portion 1211 is sleeved on the driving link portion 112 . The operating rod 13 includes an operating rod body 131 , a limiting tube 132 and a driving component 133 (marked in FIG. 8 ). The operating rod body 131 is movably sleeved on the fixing rod body 121 along the extending direction D1, and has a socket end 1311, the limiting tube 132 is fixed to the socket end 1311 of the operating rod body 131, and the driving component 133 is It is fixed in the operating rod body 131 , and passes through the fixing rod body 121 to drive and connect to the rotating rod 11 . Among them, since the rotary grip is already in the prior art, it will not be repeated here.

The mop head 2 includes a handle link 21 , a movable assembly 22 , a rotation link 23 , a first carriage assembly 24 , a second carriage assembly 25 and a synchronous linkage assembly 26 .

The grip link 21 is fixedly connected to the rotating rod 11 of the grip 1 and has a pivot end 211 . The movable kit 22 includes a kit body 221 and a socket structure 222 . The kit body 221 is rotatably connected to the pivot end portion 211 along a first rotation axis X1 perpendicular to the extending direction D1 , and the kit body 221 further has two oppositely disposed limiting end portions 2211 and 2212 . The socket structure 222 of the kit body 221 includes two collars 2221 and 2222 , and the two collars 2221 and 2222 are respectively integrally connected to the kit body 221 . In this embodiment, the collars 2221 and 2222 are both C-shaped collars, and the collar 2221 defines a gap 22211 opposite to the extending direction D1, and the collar 2222 defines a gap 22221 opposite to the extending direction D1.

The rotating link 23 includes a body portion 231 , a first pivot portion 232 , a second pivot portion 233 and a sliding restriction structure 234 . The body portion 231 rotatably passes through the two collars 2221 and 2222 of the socket structure 222 with a second rotation axis X2 perpendicular to the first rotation axis X1 and the extending direction D1 . The first pivoting portion 232 and the second pivoting portion 233 are respectively integrally formed and extend from two ends of the body portion 231 oppositely.

The sliding restricting structure 234 is integrally formed and extends from the body portion 231 along a sliding direction D2 and is located between the first pivoting portion 232 and the second pivoting portion 233 , and the sliding restricting structure 234 further defines a sliding portion extending along the sliding direction D2 and extending along the sliding direction D2. The through hole 2341 penetrates through the body portion 231 . The movable sleeve 22 is rotatably sleeved on the body portion 231 , and the two rings 2221 and 2222 are located on both sides of the sliding restriction structure 234 .

In addition, the sliding limiting structure 234 further defines a first side travel limiting channel 2342 and a second side travel limiting channel 2343 which are oppositely disposed. The first side travel limiting channel 2342 and the second side travel limiting channel 2343 are respectively It communicates with the through hole 2341 and extends along the sliding direction D2.

The first carriage assembly 24 includes a first carriage body 241 and a mop cloth 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 offset connecting holes 24112 (Only one is indicated in the figure), the first pivot hole 24111 is pivotally connected to the first pivot portion 232 , and the first offset link 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 limiting groove 24121 . The mop connecting member 2413 is fixed on the inner side of the first mop body 241 (not shown in the figure), and the mop 242 is detachably connected to the mop connecting member 2413; in this embodiment, the mop connecting member 2413 is, for example, a The screw is fastened to the inner side of the first mop body 241 , and the mop cloth 242 is connected and fixed by means of a devil felt.

The second carriage assembly 25 includes a second carriage body 251 and a mopping cloth 252 . The second mopping board body 251 has a second connecting portion 2511 , a second positioning portion 2512 and a mopping cloth connecting member 2513 . The second connecting portion 2511 defines a second pivot hole 25111 and two second offset link holes 25112 (Only one is indicated in the figure), the second pivot hole 25111 is pivotally connected to the second pivot portion 233 , and the second offset link 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 limiting groove 25121 . The mop connecting member 2513 is fixed on the inner side surface of the second mop body 251 (not shown in the figure), and the mop 252 is detachably connected to the mop connecting member 2513; in this embodiment, the mop connecting member 2513 is, for example, a The screw is fastened to the inner side of the second mop body 251 , and the mop cloth 252 is connected and fixed by means of a devil felt.

The synchronous linkage assembly 26 includes a slider 261 , a first linkage member 262 and a second linkage member 263 . The slider 261 is reciprocatingly inserted through the through hole 2341 of the sliding restriction structure 234 along the sliding direction D2 . , thereby being restricted by the through hole 2341 and reciprocatingly inserted in the sliding restricting structure 234 along the sliding direction D2, and the slider 261 is provided with a limit pivot along the side direction (not shown) perpendicular to the sliding direction D2 Slot 2611.

The first linking member 262 is pivotally connected to the first pivoting hole 24111 of the first carriage assembly 24, and can be movably passed through the first side travel limiting channel 2342, and the first linking member 262 has a connecting The movable connecting portion 2621 is inserted into the limit pivoting groove 2611 of the slider 261 to be pivotally connected to the slider 261 . The second linking member 263 is pivotally connected to the second pivoting hole 25111 of the second carriage assembly 25, and can be movably passed through the second side travel limiting channel 2343, and the second linking member 263 has a connecting The moving connecting portion 2631, the connecting portion 2631 extends into the limit pivot groove 2611 of the slider 261 and is pivotally connected to the slider 261, and the connecting portions 2621 and 2631 are connected to each other in the limit pivot groove 2611 The sliding block 261 is pivotally connected to the sliding block 261 in an overlapping manner, whereby the first linking member 262 and the second linking member 263 are respectively driven and connected to the sliding block 261, so that the sliding block 261 is synchronously connected to the first carriage assembly 24 and the sliding block 261. The second carriage assembly 25 .

Please continue to refer to FIG. 6 to FIG. 8. FIG. 6 is an exploded perspective view showing the synchronous folding mop and the mop cleaning bucket provided by the preferred embodiment of the present invention; FIG. 7 is the preferred embodiment of the present invention. The provided three-dimensional exploded schematic diagram of the mop head of the mop synchronously foldable mop is placed in the cleaning tank of the mop cleaning bucket; FIG. 8 is a schematic cross-sectional view of FIG. 7 . As shown in FIGS. 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 dehydration basket 202. The cleaning tank 201 is provided with two sides Side bristles 2011 (only one is marked in the figure) and two side bristles 2012 (only one is marked in the figure)

As mentioned above, when the user wants to clean the mop 242 of the first carriage assembly 24 and the mop 252 of the second carriage assembly 25 , the user can push the first carriage assembly 24 and the second carriage assembly 25 to drive the The rotating link 23 connecting the first carriage assembly 24 and the second carriage assembly 25 rotates along the second rotational axis X2, and drives the movable sleeve 22 to rotate along the first rotational axis X1, thereby enabling the connection of the rotating link 23 to rotate. The sliding direction D2 extended by the hole 2341 is parallel to the extending direction D1 of the handle 1. At this time, the first linking member 262 and the second linking member 263 correspond to the gap 22211 of the collar 2221 and the gap 22221 of the collar 2222 respectively. , whereby the user can align the mop head 2 with the cleaning tank 201 , and extend the mop head 2 into the cleaning tank 201 along the opposite direction of 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 pivoting portion 232 and the second pivoting portion 233, it will pass the synchronization Driven by the linkage assembly 26, the first carriage assembly 24 and the second carriage assembly 25 are rotated and folded synchronously; therefore, in practice, when the mop head 2 extends into the cleaning tank 201, no matter the first carriage assembly 24 or the second carriage assembly 25 comes into contact with the barrel wall of the mop bucket 200, which will cause the first carriage assembly 24 and the second carriage assembly 25 to rotate synchronously and fold over, so that the mop head 2 extends into the folded state. In the cleaning tank 201, the mop cloths 242 and 252 are brought into contact with the side bristles 2011 and 2012, respectively, so that the mop 100 can be moved back and forth along the extension direction D1 synchronously by the mop plate, so that the mop cloth 242 and the mop 242 can be effectively removed. 252 dirt is removed.

In addition, when the first carriage assembly 24 and the second carriage assembly 25 are in the folded state, the limiting end portions 2211 and 2212 of the kit body 221 are locked against the first limiting groove 24121 and the second limiting groove respectively 25121, so as to effectively disperse the rotational inertia force of the first carriage assembly 24 and the second carriage assembly 25 borne by the first pivot portion 232 and the second pivot portion 233 when the mop head 2 rotates.

Please continue to refer to FIG. 9 and FIG. 10. FIG. 9 is a perspective view showing that the mop head of the mop synchronously folded mop provided by the preferred embodiment of the present invention is placed in the dehydration basket of the mop cleaning bucket; After the mop head of the synchronously foldable mop provided by the preferred embodiment of the utility model is taken out from the dehydration bucket for rotating dehydration, the carriage assembly is thrown away under the action of centrifugal force, and then the folded state is restored to the three-dimensional state of use. Schematic.

As shown in FIG. 8 and FIG. 9 , after the mop cloths 242 and 252 complete the cleaning action, the user can take out the mop head 2 from the cleaning tank 201 and put the mop head 2 into the dehydration basket 202 for dehydration; in this embodiment In the example, since the handle 1 is a rotary handle, when the user moves the operating rod 13 back and forth along the extending direction D1, the helical structure 113 in the rotating rod 11 will be driven by the driving component 133 in the operating rod 13, and further The rotating rod 11 drives the mop head 2 and the dehydration basket 202 to rotate, effectively making the water remaining in the mop cloths 242 and 252 thrown out due to the centrifugal force. In addition, although in this embodiment, the mop head 2 is rotated through the cooperation between the driving component 133 of the handle 1 and the helical structure 113, it is not limited to this, and in other embodiments, the handle 1 may only have a fixed The rod 12 and the rotating rod 11 do not have components such as the driving component 133 and the helical structure 113 that can be converted into rotary motion through linear motion, and then cooperate with the dehydration basket 202 to be a pedal mop bucket that rotates through a pedal mechanism to achieve the mop head 2 . Turn on the dehydration function.

Continuing from the above, as shown in FIG. 9 and FIG. 10 , when the mop head 2 rotates in the dehydration basket 202 together with the dehydration basket 202 , when the user takes the mop head 2 out of the dehydration basket 202 by using the handle 1 When the mop head 2 and the rotating rod 11 are rotated, the inertial power of the mop head 2 and the rotating rod 11 will make the mop head 2 and the rotating rod 11 continue to rotate. The mop head 2 can be restored from the folded state to the use state by swinging it out flat.

To sum up, compared with the foldable flat panel in the prior art, because the two plane pallet assemblies are individually pivoted to the center pivot structure, which leads to inconvenience for users in use, due to the The pallet synchronous folding mop uses a synchronous linkage component to synchronously link the first pallet assembly and the second pallet assembly, so when at least one of the first pallet assembly and the second pallet assembly is relative to the corresponding When at least one of the first pivot part and the second pivot part rotates, the linkage can be generated by the slider of the synchronous linkage assembly, so that the first carriage assembly and the second carriage assembly can be folded and rotated synchronously , effectively increase the convenience of use.

Through the detailed description of the preferred embodiments above, it is hoped that the features and spirit of the present invention can be described more clearly, rather than limiting the scope of the present invention by the preferred embodiments disclosed above. On the contrary, the intention is to cover various modifications and equivalent arrangements within the scope of the appended claims.

Claims (8)

1. a drag board synchronous folding mop, is characterized in that, comprises: a grip, extending in the direction of extension; and Mop head, containing: a grip link, which is connected to the grip and has a pivoted end; a movable set, which is rotatably connected to the pivot end with a first rotation axis perpendicular to the extending direction, and has a socket structure; The rotating connecting piece is rotatably penetrated through the sleeve structure with a second rotating axis perpendicular to the first rotating axis and the extending direction, and has a first pivot portion and a second oppositely disposed a pivoting part, and the rotating link further includes a sliding restricting structure, the sliding restricting structure is located between the first pivoting part and the second pivoting part; a first carriage assembly, pivotally connected to the first pivoting portion; a second carriage assembly pivotally connected to the second pivoting portion; and A synchronous linkage assembly includes a sliding block, the sliding block is constrained to be reciprocatingly inserted in the sliding restricting structure along the extending direction, and the sliding block is more synchronously connected to the first sliding block. a board assembly and the second carriage assembly; Wherein, when at least one of the first carriage assembly and the second carriage assembly rotates relative to the corresponding at least one of the first pivot portion and the second pivot portion, The first carriage assembly and the second carriage assembly are rotated synchronously through the synchronous linkage assembly. 2 . The synchronously foldable mop according to claim 1 , wherein the rotating link further comprises a body portion, and the first pivot portion and the second pivot portion are respectively integrally formed. 3 . extending from both ends of the main body part, the sliding restricting structure is integrally formed and extending from the main body part along the sliding direction, and the sliding restricting structure further defines an extension extending along the sliding direction and passing through the main body The sliding block is restricted by the through hole and penetrates through the sliding restricting structure so as to be reciprocating along the sliding direction. 3 . The synchronously foldable mop according to claim 2 , wherein the sliding restricting structure is further provided with a first side travel restricting channel and a second side travel restricting channel, which are arranged oppositely. 4 . The first side travel limiting channel and the second side travel limiting channel are respectively communicated with the through holes and extend along the sliding direction. The synchronous linkage assembly further includes: a first linking member, movably penetrated through the first side stroke limiting channel, and pivotally connected to the first carriage assembly and the sliding block, respectively; and The second linking member is movably penetrated through the second side travel limiting channel, and is pivotally connected to the second carriage assembly and the sliding block, respectively. 4 . The mop of claim 3 , wherein the first link member and the second link member are pivotally connected to the slider so as to overlap each other. 5 . 5 . The pallet synchronously foldable mop according to claim 3 , wherein the first pallet assembly further has a first connecting portion, and the first connecting portion defines at least one first pivot hole. 6 . and at least one first offset linkage hole, the at least one first pivot hole is pivotally connected to the first pivot portion, and the at least one first offset linkage hole is located in the first pivot hole around and adjacent to the movable set and pivotally connected to the first linking member. 6 . The pallet synchronously foldable mop according to claim 2 , wherein the movable set further comprises a set body, and the set body is rotatably connected to the pivot along the first rotation axis. 7 . and the sleeve connection structure includes two sleeve rings, the two sleeve rings are respectively integrally connected to the sleeve body, and are rotatably sleeved on the main body part, and the two sleeve rings are located at both sides of the sliding restriction structure. 7 . The synchronously foldable mop according to claim 6 , wherein the two sets of rings are respectively provided with notches in the opposite direction of the extending direction. 8 . 8 . The synchronously foldable mop according to claim 6 , wherein the first carriage assembly has a first limiting groove, the second carriage assembly has a second limiting groove, and 8 . The kit body further has two limit ends. When the first carriage assembly and the second carriage assembly are respectively folded toward the handle, the two limit ends are respectively stuck against the two position limits. The first limiting slot and the second limiting slot.

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