CN210582409U - Vertical dehydration mop bucket of flat mop - Google Patents

Abstract

The utility model discloses a vertical dehydration mop bucket of dull and stereotyped mop, dull and stereotyped mop (9) have rotatory mop pole, still include mop bucket (1), the mop bucket has the confession abluent washing district of dull and stereotyped mop (11) and confession dehydration district (12) of dull and stereotyped mop dehydration, be equipped with in the dehydration district and dewater frame (2), dehydration frame rotate connect in the mop bucket, it can be rotatory around its longitudinal axis to dewater the frame, and is equipped with the locking mechanism that can restrict its rotation. The utility model discloses a locking mechanism is erected in the dehydration, and locking mechanism opens when dull and stereotyped mop inserts, and dull and stereotyped mop drive dehydration frame dewaters through rotating, and the dehydration frame is extracted to dull and stereotyped mop, locking mechanism locking, and the dehydration frame is fixed to be so that dull and stereotyped mop inserts the dehydration once more.

Description

Vertical dehydration mop bucket of flat mop

Technical Field

The utility model belongs to the technical field of daily cleaning products, especially, relate to a mop bucket.

Background

The flat mop is a cleaning tool for scrubbing the floor, which is very popular in recent years, and is widely used in households, small offices, commercial places and the like. Dull and stereotyped mop comprises mop pole, bottom plate and mop, and the bottom plate adopts dull and stereotyped design, and its advantage that has: (1) the stress area between the flat bottom plate and the ground is large, the stress is uniform, hairs and fine dust on the ground can be stuck, and the cleanliness of the mopping floor is improved; (2) compared with a circular bottom plate, the flat bottom plate can increase the mopping area and improve the mopping efficiency.

At present, the cleaning and dewatering modes of the flat mop mainly comprise: the rotary centrifugal cleaning and dewatering mode comprises a mode of vertically drying a mop head, for example, a Chinese utility model patent with the publication number of CN108606752A discloses a flat mop cleaning tool beneficial to drying operation, which comprises a mop barrel and a flat mop head rotationally connected to the lower end of a mop rod, and the flat mop head is provided with a wiping material; a spin-drying area is arranged in the mop barrel, and a first supporting part which is used for supporting the flat mop head and can rotate is arranged in the spin-drying area; the method is characterized in that: the first supporting part is arranged at the bottom of the drying area through a connecting structure, and the connecting structure can enable the rotating axis of the first supporting part to move in a plane and also enable the rotating axis to swing by taking the bottom of the rotating axis as a fulcrum;

the water squeezing mode is that the flat mop head and the opening smoothing squeezing mechanism are moved and squeezed to squeeze the wiping materials, so that the water on the wiping materials cannot be squeezed completely, and the wiping materials on the mop are easy to damage;

the centrifugal type dewatering device is rotated, a plugging port is formed in the opening of the mop barrel, the flat mop can be pulled out only by aligning the flat mop with the plugging port after being dewatered, and the flat mop can be inserted and dried only by aligning the dewatering frame of the mop barrel with the plugging port when being inserted and used again; in addition, the flat mop has a longer mop head, so that the flat mop can easily shake when being dried vertically, and the water squeezing effect is affected.

SUMMERY OF THE UTILITY MODEL

The utility model discloses the main technical problem who solves provides a vertical dehydration mop bucket of dull and stereotyped mop, and its dehydration is erect and is equipped with locking mechanism, and locking mechanism opens when dull and stereotyped mop inserts, and dull and stereotyped mop drive dehydration frame dewaters through rotating, and the dehydration frame is extracted to dull and stereotyped mop, locking mechanism locking, and the dehydration frame is fixed motionless to dull and stereotyped mop inserts the dehydration once more.

In order to solve the technical problem, the utility model discloses a technical scheme be: a flat mop vertical dehydration mop bucket is provided with a rotary mop rod and further comprises a mop bucket, wherein the mop bucket is provided with a cleaning area for cleaning the flat mop and a dehydration area for dehydrating the flat mop, a dehydration frame is arranged in the dehydration area, the dehydration frame is rotationally connected to the mop bucket, can rotate around the longitudinal axis of the dehydration frame, and is provided with a locking mechanism capable of limiting the rotation of the dehydration frame;

when the flat mop is dehydrated, the flat mop is turned to be in a vertical state and is inserted into the dehydration frame, and the locking mechanism is opened through the inserted flat mop, so that the flat mop and the dehydration frame can be rotated together for dehydration; when the flat mop is pulled out or partially pulled out of the dewatering frame after dewatering, the locking mechanism is closed through the separation of the flat mop from the dewatering frame, and the dewatering frame is locked and cannot rotate.

Furthermore, a plugging port for inserting the flat mop is arranged above the dewatering frame, and the plugging port is connected to the mop bucket.

Further, the mop bucket is provided with a bucket cover, the plugging port is formed in the bucket cover, and the bucket cover is detachably connected to the mop bucket or integrally formed with the mop bucket.

Furthermore, a holder is arranged on the mop rod of the flat mop, the inserting and pulling opening is provided with a holding seat matched with the holder, and when the flat mop is inserted into the holder for dehydration, the holder falls into the holding seat, so that the radial movement of the mop rod of the flat mop is limited.

Further, the structure of the retainer and the retainer seat is one of the following structures:

(1) the holder is fixedly connected with the mop rod, and can rotate along with the flat mop after falling into the holder seat;

(2) the holder is rotatably connected with the mop rod, the holder is clamped with the holder to be relatively static after falling into the holder, and the mop rod rotates.

Further, when the holder is rotatably connected to the mop rod, the holder is engaged with the holder seat by one of the following structures:

(1) the retainer is a revolving body, and the retainer seat have mutually matched occlusion structures;

(2) the retainer is a non-rotating body, and the retaining seat is a retaining seat matched with the shape of the retainer.

Further, the dehydration frame comprises a rotary tray, the rotary tray is rotatably connected to the mop bucket, and the upper surface of the rotary tray is provided with a slot for inserting the flat mop.

Further, the dewatering frame comprises an upper end positioning disc, a limiting ring for limiting the radial movement of the upper end positioning disc is arranged in the mop bucket, the upper end positioning disc is provided with a through hole for the flat mop to pass through, the upper end positioning disc is positioned above the rotating tray, and the upper end positioning disc is fixedly connected with the rotating tray or integrally formed.

Further, the flat mop is a single-side flat mop or a double-side flat mop.

Further, the structure that the dewatering frame is rotatably connected with the mop bucket is as follows: the bottom of the mop barrel is provided with a rotating shaft, and the dewatering frame is provided with a rotating hole matched with the rotating shaft;

or the bottom of the dewatering frame is provided with a rotating shaft, and the bottom of the mop bucket is provided with a rotating hole.

Further, the rotating shaft is provided with a bearing, and the dewatering frame is rotatably connected to the mop bucket through the bearing.

Furthermore, the locking mechanism comprises a lock catch arranged on the rotating tray and a clamping piece arranged on the mop bucket;

in a normal state, the lock catch is clamped with the clamping piece, so that the dehydration frame is locked; when the flat mop is inserted into the dewatering frame and pressed down, the flat mop can be abutted against and pushed by the lock catch to be separated from the clamping piece, so that locking is released, and the dewatering frame can rotate.

Further, the locking mechanism is provided with a reset piece, the reset piece is an elastic component, one end of the reset piece is connected with the rotating tray, the other end of the reset piece is connected with the lock catch, and the reset piece acts on the lock catch to enable the lock catch to be clamped with the clamping piece.

Furthermore, the dewatering frame can move along the axial direction and is provided with a high position and a low position, and the locking mechanism comprises a clamping structure which is arranged on the upper end positioning disc and the mop bucket and matched with each other;

in a normal state, the dewatering frame is located at a high position, and the upper positioning disc is clamped with the mop bucket, so that the dewatering frame is locked; when the flat mop is inserted into the dehydration frame and pressed downwards, the dehydration frame is located at a low position, the clamping structure is separated, so that locking is released, and the dehydration frame can rotate.

Further, including locating dehydration frame with reset between the mop bucket, reset the piece and be elastomeric element, reset the piece drive dehydration frame towards high-order removal.

Furthermore, the locking mechanism comprises a swinging lock catch arranged on the upper end positioning disc and a positioning groove arranged on the limiting ring 15;

in a normal state, two ends of the swing lock catch respectively extend into the positioning groove and the through hole, and the dehydration frame is locked by the swing lock catch extending into the positioning groove; when the flat mop is inserted into the dewatering frame, the swinging lock catch is pushed to be separated from the positioning groove, so that locking is released, and the dewatering frame can rotate.

Furthermore, the swing lock catch is rotatably connected to the upper end positioning disc, one end of the swing lock catch can penetrate into the positioning groove, the other end of the swing lock catch can extend out of the through hole, and when the flat mop is inserted, the swing lock catch in the through hole is stirred to be separated from the positioning groove.

Furthermore, the swing lock catch is provided with a reset piece, the reset piece is an elastic component, one end of the elastic component is connected with the swing lock catch, the other end of the elastic component is connected with the upper end positioning disc, and one end of the swing lock catch is driven to extend into the positioning groove.

Further, the cleaning area is provided with a cleaning piece for cleaning the wiping materials of the flat mop.

Further, the cleaning member is at least one of a cleaning brush, a cleaning scraper bar, a scraper and a cleaning roller.

The utility model has the advantages that:

firstly, a locking mechanism is arranged on a dewatering frame, the locking mechanism is opened when the flat mop is inserted, the flat mop drives the dewatering frame to dewater through rotation, the flat mop is pulled out of the dewatering frame, the locking mechanism is locked, and the dewatering frame is fixed so as to facilitate the flat mop to be inserted again for dewatering; the mop bucket is provided with the bucket cover, so that water in the bucket can be prevented from being thrown out to pollute the ground when the mop bucket is used;

when the mop bucket is provided with the plugging port (or the plugging port is arranged for using the retainer), the locking dehydration frame is used for aligning and fixing the through port or the slot of the dehydration frame with the plugging port (the bucket port is overlooked), so that the flat mop can be conveniently inserted for dehydration operation next time;

thirdly, the mop bucket has an upper end positioning function, so that the transverse movement of the mop can be limited, the flat mop can be prevented from shaking during rotary dehydration, and the dehydration quality is improved;

the upper end positioning function can be realized by two mechanisms, one is that the mop comprises a retainer arranged on a mop rod and a retaining seat arranged on a mop bucket and matched with the retainer for use, and when the flat mop is inserted into a dehydration tank, the retainer falls into the retaining seat;

and the second one is that the upper end positioning disc is arranged on the dewatering frame, the limiting ring matched with the upper end positioning disc is arranged in the mop barrel, the transverse movement of the upper end of the dewatering frame is limited by the limiting ring, the slot for inserting the flat mop is arranged on the rotary tray at the lower end of the dewatering frame, and the two ends of the flat mop are respectively limited by the limiting ring and the slot, so that the flat mop can be prevented from shaking during dewatering.

Fourthly, the dewatering frame is rotatably connected with the mop barrel through the rotating shaft, the structure is simplified, the rotation is stable, when the bearing is arranged, the rotating connection has higher smoothness, and the action of pressing the mop rod to rotate is more labor-saving (the friction is reduced).

Drawings

FIG. 1 is a schematic view of the overall structure of the mop bucket of the present invention;

FIG. 2 is an exploded view of the mop bucket of the present invention;

FIG. 3 is a cross-sectional view of the mop bucket of the present invention;

FIG. 4 is a schematic structural view of the dewatering frame (rotating tray) of the present invention;

fig. 5 is a schematic structural view of the lock mechanism in embodiment 1 of the present invention;

FIG. 6 is an enlarged view of portion A of FIG. 5;

fig. 7 is a schematic structural view of a lock catch according to embodiment 1 of the present invention;

FIG. 8 is a view from the direction B of FIG. 5;

FIG. 9 is a schematic structural view of the dewatering frame of the present invention (with an upper positioning plate);

FIG. 10 is a schematic view of the structure of the mop rod (holder) of the present invention;

fig. 11 is a schematic structural view of the retainer and the retainer seat of the present invention;

fig. 12 is a schematic structural view (another structure) of the retainer and the retainer seat of the present invention;

fig. 13 is a cross-sectional view of a mop bucket of embodiment 2 of the present invention;

fig. 14 is a schematic structural view of a lock mechanism according to embodiment 2 of the present invention;

FIG. 15 is a view in the direction C of FIG. 14;

fig. 16 is a schematic structural view of a dewatering stand according to embodiment 2 of the present invention;

figure 17 is a cross-sectional view of a mop bucket of embodiment 3 of the present invention;

fig. 18 is a schematic structural view (sectional view) of a dewatering stand according to embodiment 3 of the present invention;

FIG. 19 is a view from direction D of FIG. 17;

the parts in the drawings are marked as follows:

the mop bucket comprises a mop bucket 1, a cleaning area 11, a dewatering area 12, a plugging port 13, a retaining seat 131, a bucket cover 14, a limiting ring 15 and a rotating shaft 16;

the dewatering frame 2, the rotary tray 21, the slot 211, the upper end positioning disc 22, the through hole 221, the connecting column 222, the rotary hole 23 and the bearing 24;

the locking mechanism 3, the lock 311, the support portion 3111, the engaging portion 3112, the engaging member 312, the engaging groove 3121, the reset member 313, the engaging member 312, the protrusion 321, the groove 322, the swing lock 331, one end 3311, the other end 3312 of the swing lock, the positioning groove 332, and the extension rod 33111;

flat mop 9, mop rod 91, holder 92 and snap teeth 921.

Detailed Description

The following detailed description of the preferred embodiments of the present invention will be provided in conjunction with the accompanying drawings, so as to enable those skilled in the art to more easily understand the advantages and features of the present invention, and thereby define the scope of the invention more clearly and clearly.

Example 1: a vertical dehydration mop bucket of a flat mop, wherein the flat mop 9 is provided with a rotating mop rod, and the mop head of the flat mop can be driven to rotate by pressing down the mop rod, as shown in figures 1 to 3: the mop bucket comprises a mop bucket 1, wherein the mop bucket is provided with a cleaning area 11 for cleaning the flat mop and a dewatering area 12 for dewatering the flat mop, a dewatering frame 2 is arranged in the dewatering area, the dewatering frame is rotationally connected to the mop bucket, can rotate around the longitudinal axis of the dewatering frame, and is provided with a locking mechanism 3 capable of limiting the rotation of the dewatering frame;

the cleaning zone is provided with a cleaning piece for cleaning the wiping material of the flat mop, the cleaning piece is at least one of a cleaning brush, a cleaning scraping strip (a water scraping strip), a cleaning scraper and a cleaning roller, and the cleaning roller comprises a rotatable cleaning piece and a non-rotatable cleaning piece.

When the flat mop is dehydrated, the flat mop is turned to be in a vertical state and is inserted into the dehydration frame, and the locking mechanism is opened through the inserted flat mop, so that the flat mop and the dehydration frame can be rotated together for dehydration; when the flat mop is pulled out or partially pulled out of the dewatering frame after dewatering, the locking mechanism is closed through the separation of the flat mop from the dewatering frame, and the dewatering frame is locked and cannot rotate.

In this embodiment, the mop bucket is provided with a bucket cover 14, and the bucket cover is detachably connected to the mop bucket or integrally formed with the mop bucket;

the top of dehydration frame is equipped with the confession the plug mouth 13 that the flat mop inserted, this embodiment the plug mouth locate the bung and with dehydration district intercommunication, the washing mouth locate the bung and with washing district intercommunication, but not limited to this.

As shown in fig. 4: the dewatering frame comprises a rotating tray 21, the rotating tray is rotatably connected to the mop bucket, an inserting groove 211 for the flat mop to be inserted into is formed in the upper surface of the rotating tray, the flat mop is inserted into the inserting groove, and the rotating tray is driven to rotate through the rotation of the flat mop, so that the flat mop is dewatered;

as shown in fig. 5 and 6: in this embodiment, the structure that the dehydration frame is rotationally connected to the mop bucket is: the bottom of the mop bucket is provided with a rotating shaft 16, and the dewatering frame is provided with a rotating hole 23 matched with the rotating shaft; or the bottom of the dewatering frame is provided with a rotating shaft, and the bottom of the mop bucket is provided with a rotating hole.

The bearing 24 is arranged on the revolving shaft, and the dewatering frame is rotatably connected with the mop bucket through the bearing.

As shown in fig. 5 to 8: the locking mechanism comprises a lock catch 311 arranged on the rotary tray, the lock catch is positioned on the side wall or the bottom surface of the rotary tray, the lock catch can move axially along the rotary tray, the lock catch is provided with a supporting part 3111 and a clamping part 3112, the flat mop can be propped against the supporting part when being inserted into the rotary tray and pushes the supporting part along with the downward pressing (the mop is rotated and needs to be driven downward), the mop barrel is provided with a clamping piece 312, the clamping piece is provided with a clamping groove 3121 which the clamping part can fall into, the clamping piece is fixedly connected with the mop barrel or integrally formed with the mop barrel, the clamping part can fall into or separate from the clamping groove through the axial movement of the lock catch, the locking mechanism is further provided with a reset piece 313, and the reset piece is an elastic part (such as various springs: a compression spring, an extension spring, a compression spring and an extension spring), A leaf spring, a torsion spring and the like), one end of the reset piece is connected with the rotary tray, the other end of the reset piece is connected with the lock catch, and the reset piece acts on the lock catch to enable the lock catch to fall into the clamping groove (in an initial non-working state, the locking mechanism is locked);

the joint spare is fixed, the position in joint groove does: when the mop is in a locking state, the inserting slot of the rotating tray is aligned with the inserting and pulling of the mop bucket (when the mop is in a top view), and at the moment, the flat mop can be pulled out of the dewatering frame;

in this embodiment, the engaging member 312 and the rotating shaft 16 are integrally formed, and the integrally formed structure is fixedly installed in the mop bucket, but not limited thereto, for example, the engaging member and the rotating shaft are two parts, one or both of which are integrally formed with the mop bucket, etc.;

the working principle of the locking mechanism is as follows: in an initial state, the clamping part of the lock catch falls into the clamping groove, at the moment, the locking mechanism is in a locking state, the rotating tray cannot rotate, the flat mop is pushed against the supporting part when being inserted into the rotating tray and drives the supporting part along with the downward pressing, so that the lock catch is driven to slide, the clamping part on the lock catch is separated from the clamping groove, and at the moment, the rotating tray can rotate;

in this embodiment, locking and unlocking are realized by lock movement, and in fact, if locking is realized by the way that the rotating tray can move axially as a whole, the locking is also an equivalent embodiment of the mechanism described in this embodiment.

In this embodiment, as shown in fig. 9: the dewatering frame comprises an upper end positioning disc 22, a limiting ring 15 for limiting the radial movement of the upper end positioning disc is arranged in the mop bucket, the upper end positioning disc is provided with a through hole 221 for the flat mop to pass through, the upper end positioning disc is positioned above the rotating tray, the through hole is aligned with the slot 211 (in a plan view), and the upper end positioning disc and the rotating tray are fixedly connected or integrally formed;

in this embodiment, the limiting ring 15 is arranged on the barrel cover 14;

when the dehydration frame rotates, the lower part is supported by the rotating tray and is guaranteed to rotate, the upper part is kept to rotate by the upper end positioning disc and cannot shake, the rotation stability of the dehydration frame is guaranteed not to shake, and the dehydration effect can be effectively improved.

This embodiment is shown in fig. 10 to 12: the holder 92 is arranged on the mop rod 91 of the flat mop, the inserting and pulling port is provided with a holder 131 matched with the holder, and when the flat mop is inserted into the holder for dehydration, the holder falls into the holder, so that the radial movement of the mop rod of the flat mop is limited, and the flat mop cannot shake during rotary dehydration;

the structure of the retainer and the retainer seat is one of the following structures:

(1) the holder is fixedly connected with the mop rod, and can rotate along with the flat mop after falling into the holder seat;

(2) the holder is rotatably connected with the mop rod, the holder is clamped with the holder to be relatively static after falling into the holder, and the mop rod rotates.

When the retainer is rotationally connected with the mop rod, the clamping structure of the retainer and the retaining seat is one of the following structures:

(1) the retainer is a revolving body, the retainer and the retainer seat have mutually matched meshing structures, and the embodiment is shown in fig. 11: the binding surfaces of the retainer and the retaining base are provided with mutually matched occlusion teeth 921;

(2) the retainer is a non-rotating body, and the retainer seat is a retainer seat matched with the shape of the retainer, as shown in fig. 12: the retainer is a rectangular body.

In fact, it is also possible to use only one of the anti-shaking structures of the upper end positioning plate 22 and the limiting ring 15 and the anti-shaking structures of the retainer 92 and the retainer seat 131, and the embodiment is used as the preferable solution, so that the rotation stability of the dewatering frame is further improved.

The flat mop is a single-side flat mop or a double-side flat mop, the single-side flat mop is a flat mop with a mop head only provided with a wiping material on one side, and the double-side flat mop is a flat mop with a mop head provided with wiping materials on both sides.

Example 2: the difference from the embodiment is that:

as shown in fig. 13 to 16: the mop comprises a mop barrel, a dewatering frame, a locking mechanism, a flat mop plate and a locking mechanism, wherein the dewatering frame is rotatably connected to the mop barrel and can move along the axial direction of the mop barrel, the locking mechanism comprises a protrusion 321 arranged on an upper end positioning disc 22 and a groove 322 arranged on the barrel cover, or the locking mechanism comprises a groove arranged on the upper end positioning disc and a protrusion arranged on the barrel cover, the dewatering frame can move along the axial direction of the dewatering frame and is provided with a high position and a low position, the high position is close to the barrel cover, the low position is close to the barrel bottom, the dewatering frame moves towards the barrel cover in an initial state (locking state), the groove and the protrusion are mutually meshed, so that the rotation of the dewatering frame is limited, the flat mop plate is inserted into the dewatering frame and is pressed downwards, the dewatering frame moves towards the low position, and the groove and the;

in this embodiment, the protrusions and the grooves are all a plurality of sharp teeth capable of being engaged with each other, and in fact, no matter what shape the protrusions and the grooves are, the protrusions and the grooves are in any shape capable of being engaged (engaged) with each other;

as shown in fig. 14: the locking mechanism further comprises a reset part 313 arranged between the dewatering frame and the mop bucket, the reset part is an elastic component (such as various springs: compression springs, extension springs, leaf springs, torsion springs and the like), and the reset part drives the dewatering frame to move towards the direction of the bucket cover;

the reset piece of this embodiment is a compression spring, the compression spring is sleeved on the outer wall of the rotating shaft or the rotating hole in a penetrating manner, one end of the compression spring is abutted against the mop bucket, and the other end of the compression spring is abutted against the dewatering basket.

The locking mechanism of this embodiment is provided on the upper end positioning plate, so that the positioning plate must be used in this embodiment, unlike the upper end positioning plate of embodiment 1, and accordingly, the holder provided on the mop rod may not be provided.

Example 3: the difference from example 1 is that:

as shown in fig. 17 to 19: the locking mechanism comprises a swinging lock 331 arranged on the upper end positioning disc 22, the middle part of the swinging lock is rotatably connected with the upper end positioning disc, the swinging lock is positioned at two sides of the through hole 221, one end 3311 of the swinging lock can extend out of the side wall of the upper end positioning disc, the other end 3312 of the swinging lock can extend out of the through hole, the side wall of the limit ring 15 is provided with a positioning groove 332 into which one end 3311 of the swinging lock can fall, one end 3311 of the swinging lock extends out of the upper end positioning disc and falls into the positioning groove 332, so that the upper end positioning disc is locked, and the rotation of the dewatering frame is limited;

the swing lock catch is provided with a reset part 313, the reset part is an elastic part (such as various springs: compression spring, extension spring, leaf spring, torsion spring, etc.), the reset part of the embodiment is a compression spring, one end of the compression spring abuts against the elastic part, the other end abuts against the upper end positioning disc, and one end 3311 of the swing lock catch is driven to extend into the positioning groove 332;

the locking mechanism is in a locking state in a normal state, namely, one end 3311 of the swing lock catch extends into the positioning groove 332, when the flat mop is dehydrated, the flat mop is inserted into the dehydration frame, and at the moment, the other end 3312 of the swing lock catch also extends to the through hole.

As shown in fig. 18 and 19: one end 3311 of the swing latch in this embodiment further has an extension bar 33111, which is disposed perpendicular to the long side of the swing latch, and the size of the swing latch can be reduced by the extension bar (the extension bar disposed perpendicularly is equivalent to the length of the swing arm added with the swing latch).

The working principle of the utility model is as follows:

when the flat mop is cleaned, the flat mop is turned to be in a vertical state, inserted into the cleaning area and moved up and down, and the cleaning piece is used for movably scrubbing the wiping material of the flat mop;

when the flat mop is dehydrated, the flat mop is turned to be in a vertical state, is inserted into the dehydration rack and is pressed downwards, and the locking mechanism is opened by pressing the dehydration rack downwards, so that the flat mop and the dehydration rack are rotated together for dehydration; when the flat mop is pulled out or partially pulled out of the dewatering frame after dewatering, the locking mechanism is closed through the separation of the flat mop from the dewatering frame, and the dewatering frame is locked and cannot rotate; when the mop bucket is provided with a plug-in opening (for using the retainer), the locking dehydration frame is used for aligning and fixing the through opening or the slot of the dehydration frame with the plug-in opening (overlooking the bucket opening), so that the flat mop can be conveniently inserted for dehydration next time;

in the locking mechanism of embodiment 1, in an initial state, the engaging portion of the lock catch falls into the engaging groove, and at this time, the locking mechanism is in a locking state, the rotating tray cannot rotate, and the flat mop is inserted into the rotating tray, abuts against the supporting portion, and drives the supporting portion along with downward pressing, so that the lock catch is driven to slide, the engaging portion on the lock catch is disengaged from the engaging groove, and at this time, the rotating tray can rotate;

the locking mechanism of embodiment 2, wherein the dehydration frame is capable of moving in an axial direction thereof and is formed with a high position and a low position, the high position is close to the barrel cover, the low position is close to the barrel bottom, in an initial state (locked state), the dehydration frame moves toward the barrel cover, the groove and the protrusion are engaged with each other, so as to limit rotation of the dehydration frame, the flat mop is inserted into the dehydration frame and pressed downward, so that the dehydration frame moves to the low position, and the groove and the protrusion are disengaged, so that the dehydration frame can rotate;

in the locking mechanism of embodiment 3, in a normal state, both ends of the swing latch respectively extend into the positioning groove and the through hole, and the dehydration frame is locked by extending into the positioning groove and the swing latch; when the flat mop is inserted into the dewatering frame, the swinging lock catch is pushed to be separated from the positioning groove, so that locking is released, and the dewatering frame can rotate.

The above only is the embodiment of the present invention, not limiting the scope of the present invention, all the equivalent structure changes made in the specification and the attached drawings or directly or indirectly applied to other related technical fields are included in the same principle as the present invention.

Claims (20)

1. The utility model provides a vertical dehydration mop bucket of dull and stereotyped mop, dull and stereotyped mop (9) have rotatory mop pole, its characterized in that: the mop bucket comprises a mop bucket (1), wherein the mop bucket is provided with a cleaning area (11) for cleaning the flat mop and a dewatering area (12) for dewatering the flat mop, a dewatering frame (2) is arranged in the dewatering area, the dewatering frame is rotationally connected to the mop bucket, can rotate around the longitudinal axis of the dewatering frame, and is provided with a locking mechanism capable of limiting the rotation of the dewatering frame;

when the flat mop is dehydrated, the flat mop is turned to be in a vertical state and is inserted into the dehydration frame, and the locking mechanism is opened through the inserted flat mop, so that the flat mop and the dehydration frame can be rotated together for dehydration; when the flat mop is pulled out or partially pulled out of the dewatering frame after dewatering, the locking mechanism is closed through the separation of the flat mop from the dewatering frame, and the dewatering frame is locked and cannot rotate.

2. The vertical dewatering mop bucket of claim 1, wherein: a plug-in opening (13) for inserting the flat mop is arranged above the dewatering frame and is communicated with the mop bucket.

3. The vertical dewatering mop bucket of claim 2, wherein: the mop bucket is provided with a bucket cover (14), the plugging port is arranged on the bucket cover, and the bucket cover can be detachably connected with the mop bucket or integrally formed with the mop bucket.

4. The vertical dewatering mop bucket of claim 2, wherein: the flat mop is characterized in that a holder (92) is arranged on a mop rod (91) of the flat mop, the inserting and extracting opening is provided with a holder (131) matched with the holder, and when the flat mop is inserted into the holder for dehydration, the holder falls into the holder, so that the radial movement of the mop rod of the flat mop is limited.

5. The vertical dewatering mop bucket of claim 4, wherein: the structure of the retainer and the retainer seat is one of the following structures:

the holder is fixedly connected with the mop rod, and can rotate along with the flat mop after falling into the holder seat;

and (II) the retainer is rotationally connected with the mop rod, the retainer is clamped with the retaining seat to be relatively static after falling into the retaining seat, and the mop rod rotates.

6. The vertical dewatering mop bucket of claim 5, wherein: when the retainer is rotationally connected with the mop rod, the retainer is clamped with the retaining seat by one of the following structures:

the retainer is a revolving body, and the retainer seat have mutually matched occlusion structures;

and (II) the retainer is a non-rotating body, and the retaining seat is a retaining seat matched with the shape of the retainer.

7. The vertical dewatering mop bucket of claim 1, wherein: the dehydration frame comprises a rotary tray (21), the rotary tray is rotatably connected to the mop bucket, and the upper surface of the rotary tray is provided with a slot (211) for inserting the flat mop.

8. The vertical dewatering mop bucket of claim 7, wherein: the dewatering frame comprises an upper end positioning disc (22), a limiting ring (15) for limiting the radial movement of the upper end positioning disc is arranged in the mop bucket, the upper end positioning disc is provided with a through hole (221) for the flat mop to pass through, the upper end positioning disc is positioned above the rotating tray, and the upper end positioning disc is fixedly connected with the rotating tray or integrally formed.

9. The vertical dehydration mop bucket of flat mop according to any of claims 1-8, wherein: the flat mop is a single-side flat mop or a double-side flat mop.

10. The vertical dehydration mop bucket of flat mop according to any of claims 1-8, wherein: the dewatering frame is rotationally connected with the mop bucket, and the structure of the dewatering frame is as follows: the bottom of the mop bucket is provided with a rotating shaft (16), and the dewatering frame is provided with a rotating hole (23) matched with the rotating shaft;

or the bottom of the dewatering frame is provided with a rotating shaft, and the bottom of the mop bucket is provided with a rotating hole.

11. The vertical dehydration mop bucket of flat mop of claim 10, wherein: the bearing (24) is installed on the revolving shaft, and the dewatering frame is rotatably connected with the mop bucket through the bearing.

12. The vertical dewatering mop bucket of claim 7, wherein: the locking mechanism comprises a lock catch (311) arranged on the rotary tray and a clamping piece (312) arranged on the mop bucket;

in a normal state, the lock catch is clamped with the clamping piece, so that the dehydration frame is locked; when the flat mop is inserted into the dewatering frame and pressed down, the flat mop can be abutted against and pushed by the lock catch to be separated from the clamping piece, so that locking is released, and the dewatering frame can rotate.

13. The vertical dehydration mop bucket of flat mop according to claim 12, wherein: locking mechanism is equipped with piece (313) that resets, the piece that resets is elastomeric element, the one end that resets is connected rotatory tray, and the other end is connected the hasp, the piece that resets acts on the hasp, make the hasp with joint spare block.

14. The vertical dewatering mop bucket of claim 8, wherein: the dewatering frame can move along the axial direction of the dewatering frame and is provided with a high position and a low position, and the locking mechanism comprises a clamping structure which is arranged on the upper end positioning disc and the mop bucket and matched with each other;

in a normal state, the dewatering frame is located at a high position, and the upper end positioning disc is clamped with the mop bucket, so that the dewatering frame is locked; when the flat mop is inserted into the dehydration frame and pressed downwards, the dehydration frame is located at a low position, the clamping structure is separated, so that locking is released, and the dehydration frame can rotate.

15. The vertical dehydration mop bucket of flat mop according to claim 14, wherein: including locating dehydration frame with reset piece (313) between the mop bucket, reset the piece and be elastomeric element, reset the piece drive dehydration frame towards high-order removal.

16. The vertical dewatering mop bucket of claim 8, wherein: the locking mechanism comprises a swinging lock catch (331) arranged on the upper end positioning disc and a positioning groove (332) arranged on the limiting ring (15);

in a normal state, two ends (3311, 3312) of the swing lock catch respectively extend into the positioning groove and the through hole, and the dehydration frame is locked by the swing lock catch extending into the positioning groove; when the flat mop is inserted into the dewatering frame, the swinging lock catch is pushed to be separated from the positioning groove, so that locking is released, and the dewatering frame can rotate.

17. The vertical dehydration mop bucket of flat mop of claim 16, wherein: the swing lock catch is rotatably connected to the upper end positioning disc, one end (3311) of the swing lock catch can penetrate into the positioning groove, the other end (3312) of the swing lock catch can extend out of the through hole, and when the flat mop is inserted, the swing lock catch in the through hole is stirred to be separated from the positioning groove.

18. The vertical dehydration mop bucket of flat mop according to claim 16 or 17, wherein: the swing hasp is equipped with piece (313) that resets, the piece that resets is elastomeric element, elastomeric element's one end is connected the swing hasp, and the other end is connected the upper end positioning disk, the drive one end (3311) of swing hasp stretches into the constant head tank.

19. The vertical dewatering mop bucket of claim 1, wherein: the cleaning area is provided with a cleaning piece for cleaning the wiping material of the flat mop.

20. The vertical dehydration mop bucket of flat mop of claim 19, wherein: the cleaning piece is at least one of a cleaning brush, a cleaning scraper bar, a scraper and a cleaning roller.

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