阅读说明：本技术 拖把清洗脱水桶 (Mop cleaning and draining bucket ) 是由 蔡承洲 留振兴 于 2020-02-27 设计创作，主要内容包括：本发明提供一种拖把清洗脱水桶,包含水桶本体、拖把刷洗组件及旋转式支撑组件。水桶本体具有用以盛装清洁液体的容置空间,且所盛装的清洁液体具有液面水平高度。拖把刷洗组件固设于容置空间,并具有位于第一水平高度位置的第一刷洗组件。旋转式支撑组件包含支撑组件以及旋转组件。支撑组件链接于水桶本体,并至少局部伸入容置空间。旋转组件可旋转地设置于支撑组件,并位于第二水平高度位置,第二水平高度位置高于第一水平高度位置与液面水平高度,以使旋转式拖把利用旋转组件旋转时,将清洁液体甩出并流入容置空间。因此,本发明提供的拖把清洗脱水桶,除了可以提供旋转式拖把进行旋转脱水的功能,尚可提供拖把布刷洗的功能。(The invention provides a mop cleaning and washing water barrel which comprises a water barrel body, a mop scrubbing assembly and a rotary supporting assembly. The bucket body is provided with an accommodating space for accommodating cleaning liquid, and the accommodated cleaning liquid has a liquid level height. The mop scrubbing assembly is fixedly arranged in the accommodating space and is provided with a first scrubbing assembly located at a first horizontal height position. The rotary support assembly comprises a support assembly and a rotating assembly. The support component is linked with the water barrel body and at least partially extends into the accommodating space. The rotating component is rotatably arranged on the supporting component and is positioned at a second horizontal height position, and the second horizontal height position is higher than the first horizontal height position and the liquid level height, so that when the rotating component is used for rotating the rotary mop, the cleaning liquid is thrown out and flows into the accommodating space. Therefore, the mop cleaning and washing water barrel provided by the invention can provide the function of rotary dewatering of the rotary mop and the function of scrubbing mop cloth.)

1. A mop cleaning and draining water bucket for cleaning and draining a rotary mop, said mop cleaning and draining water bucket comprising:

the water bucket comprises a water bucket body and a water bucket body, wherein the water bucket body is provided with an accommodating space which is used for accommodating cleaning liquid, and the cleaning liquid has a liquid level height;

the mop scrubbing component is fixedly arranged in the accommodating space, is provided with a first scrubbing component positioned at a first horizontal height position and is used for scrubbing the rotary mop wetted by the cleaning liquid; and

a rotary support assembly, comprising:

the supporting component is linked with the water barrel body and at least partially extends into the accommodating space; and

the rotating assembly is rotatably arranged on the supporting assembly and is positioned at a second horizontal height position, the second horizontal height position is higher than the first horizontal height position and the liquid level height, and the rotating assembly is used for supporting the brushed rotary mop so as to enable the rotary mop to throw the cleaning liquid out and flow into the accommodating space when rotating.

2. The mop cleaning and draining bucket of claim 1, wherein said mop brush assembly comprises:

a brush rack, comprising:

the base is fixedly arranged at the bottom of the water bucket body and is positioned in the accommodating space; and

the first side bracket is integrally connected with the base and extends to the first horizontal height position, and the first brushing assembly is fixedly connected with the first side bracket at the first horizontal height position.

3. The mop cleaning and draining bucket according to claim 2, wherein said brush rack further includes a second side bracket extending to said first level and spaced from said first side bracket to define a brush space, and said mop brush assembly further includes a second brush assembly secured to said second side bracket at said first level.

4. The mop cleaning and draining bucket according to claim 1, wherein said rotary support assembly further comprises a bearing disposed between said support assembly and said rotating assembly.

5. The mop cleaning and draining bucket of claim 1, wherein said rotating assembly further has a fulcrum location structure for locating a rotating drive shaft of said rotary mop.

6. The mop cleaning and draining bucket according to claim 5, wherein said fulcrum locating structure is a groove.

7. The mop cleaning and draining bucket according to claim 5, wherein said fulcrum location structure is a bump.

8. The mop cleaning and draining bucket according to claim 1, further comprising a water blocking cover fixed to said bucket body and having an opening, the center of said opening being coaxial with the axis of said rotating assembly.

9. The mop cleaning and draining bucket of claim 1, wherein said rotating assembly is a spin basket.

10. The mop cleaning and draining water bucket according to claim 9, wherein the rotary support assembly further comprises a transmission shaft rotatably disposed on the support assembly, and the rotary assembly is fixedly sleeved on the transmission shaft.

Technical Field

The invention relates to a mop cleaning and dewatering bucket, in particular to a mop cleaning and dewatering bucket capable of cleaning and dewatering a rotary mop.

Background

In recent years, in the technical field of mops, more and more mops are designed to be driven to rotate by utilizing the vertical movement of a holding rod of the mop to drive a rotary transmission shaft rod connected with a mop head, so that the mop head rotates along with the rotary transmission shaft rod, and mop cloth arranged on the mop head can throw away moisture attached to the mop cloth due to rotation, thereby effectively controlling the moisture content of the mop cloth.

As described above, in the prior art, more and more mops are provided, in which the holding rod moves up and down to drive the rotation transmission shaft to rotate, but the cleaning operation of the rotary mops before dewatering is performed is to extend the mop head into the water in the bucket, and to separate the dirt adhered to the mop cloth by shaking the mop head in the water and then fall into the water, so that when the dirt (such as hair) adhered to the mop cloth is too entangled with the fibers of the mop cloth to be easily separated by shaking the mop head in the water, the dirt is continuously adhered to the mop cloth, and even the mop cloth is still left on the mop cloth after being dewatered by rotation, so that the mop cloth cannot be effectively adhered with other dirt in the next cleaning operation.

Disclosure of Invention

In view of the prior art, the conventional rotary mop usually only extends the mop head into the water in the water tub during cleaning and separates the dirt by shaking in the water, so that when the dirt and the fibers of the mop cloth are excessively entangled and cannot be easily shaken and separated in the water, the mop cloth cannot effectively adhere other dirt in the next cleaning operation; accordingly, the present invention is directed to a mop cleaning and draining water bucket that can provide a rotary mop with a spin-drying function and a mop cloth brushing function.

The invention aims to solve the problems of the prior art, and provides a mop cleaning and dewatering bucket which is used for cleaning and dewatering a rotary mop.

The bucket body is provided with an accommodating space for accommodating cleaning liquid, and the cleaning liquid has a liquid level height. The mop scrubbing component is fixedly arranged in the accommodating space and is provided with a first scrubbing component positioned at a first horizontal height position and used for scrubbing the rotary mop wetted by the cleaning liquid.

The rotary support assembly comprises a support assembly and a rotating assembly. The support component is linked with the water barrel body and at least partially extends into the accommodating space. The rotating assembly is rotatably arranged on the supporting assembly and is positioned at a second horizontal height position, the second horizontal height position is higher than the first horizontal height position and the liquid level height, and the rotating assembly is used for supporting the brushed rotary mop, so that the cleaning liquid is thrown out of the rotary mop and flows into the accommodating space when the rotary mop rotates.

In one embodiment derived from the above-described need, the mop brush assembly includes a brush rack, the brush rack including a base and a first side frame. The base is fixedly arranged at the bottom of the bucket body and is positioned in the accommodating space. The first side bracket is integrally connected with the base and extends to a first horizontal height position, and the first brushing assembly is fixedly connected with the first side bracket at the first horizontal height position. Preferably, the brush rack further comprises a second side support extending to the first horizontal position and spaced from the first side support to form a brush space, and the mop brush assembly further comprises a second brush assembly fixedly connected to the second side support at the first horizontal position.

In an auxiliary technical means derived from the above-mentioned essential technical means, the rotary supporting component further comprises a bearing disposed between the supporting component and the rotary component.

In an auxiliary technical means derived from the above-mentioned necessary technical means, the rotating assembly further has a supporting point positioning structure for positioning a rotating transmission shaft of the rotating mop. Preferably, the fulcrum positioning structure is a groove or a bump.

In an auxiliary technical means derived from the above-mentioned necessary technical means, the mop cleaning and washing water barrel further comprises a water blocking cover fixed on the water barrel body and having an opening, and the center of the opening is coaxial with the axis of the rotating component.

In a subsidiary aspect derived from the above-described essential aspect, the rotating assembly is a spin basket. Preferably, the rotary supporting assembly further comprises a transmission shaft rotatably disposed on the supporting assembly, and the rotating assembly is fixedly sleeved on the transmission shaft.

As described above, since the mop cleaning and draining water tub of the present invention has the mop cleaning assembly and the rotary support assembly disposed in the accommodating space of the water tub body, a user can clean the mop cloth by using the mop cleaning assembly and perform a draining operation by using the rotary support assembly.

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

Drawings

FIG. 1 is a perspective view showing a mop cleaning and draining water bucket according to a first preferred embodiment of the present invention;

FIG. 2 is a schematic sectional view taken along line A-A of FIG. 1;

FIG. 3 is a schematic sectional view showing a mop cleaning solution tank containing a cleaning solution according to a first preferred embodiment of the present invention;

FIG. 4 is a cross-sectional view schematically illustrating a mop cleaning solution tank for a rotary mop according to a first preferred embodiment of the present invention;

FIG. 5 is a sectional view schematically illustrating a mop spin-drying operation of the spin-type mop provided by the first preferred embodiment of the present invention;

FIG. 6 is a cross-sectional view schematically illustrating a mop cleaning solution tank for a rotary mop according to a second preferred embodiment of the present invention;

FIG. 7 is a sectional view schematically illustrating a mop spin-drying operation of the spin-type mop provided by a second preferred embodiment of the present invention;

FIG. 8 is a perspective view of a mop cleaning and draining water barrel according to a third preferred embodiment of the present invention;

FIG. 9 is a schematic sectional view taken along line B-B of FIG. 8; and

fig. 10 is a schematic cross-sectional view of fig. 8 taken along line C-C.

Description of the reference numerals

100 mop cleaning and dewatering barrel

1 bucket body

11 barrel bottom

12 barrel wall

121 port

13 water retaining cover

131 open pores

14 space for accommodating

15 opening

2 mop scrubbing component

21 scrubbing frame

211 base

212 first side support

213 second side support

22 first brush assembly

23 second brush assembly

3 Rotary support assembly

31 support assembly

311 locating slot

32 bearing

33 rotating assembly

331 fulcrum positioning structure

200 rotary mop

201 rotating transmission shaft lever

202. 203 folding flat plate

204. 205 mop cloth

2011 axle rod end

100a mop cleaning and dewatering bucket

33a rotating assembly

331a fulcrum location structure

100b mop cleaning and dewatering bucket

1b bucket body

11b bucket bottom

12b bucket wall

121b port

122b, 123b clamping structure

13b water blocking cover

131b open pores

14b accommodating space

15b opening

16b handle

2b mop scrubbing assembly

21b first brushing Assembly

211b vector

212b bristles

22b second brushing Assembly

3b rotary support assembly

31b support assembly

311b accommodating groove

32b bearing

33b drive shaft

34b limiting component

35b rotating assembly

351b socket joint structure

352b fulcrum positioning structure

200a rotary mop

201a rotary transmission shaft lever

202a cloth disc

2021a alignment groove

203a mop cloth

Perpendicular direction of D1

HP1 first level position

HP2 second level position

CLH liquid level

CL cleaning liquid

CS brushing space

CX axle center

Detailed Description

The following describes in more detail embodiments of the present invention with reference to the schematic drawings. Advantages and features of the present invention will become apparent from the following description and claims. It is to be noted that the drawings are in a very simplified form and are not to precise scale, which is merely for the purpose of facilitating and distinctly claiming the embodiments of the present invention.

Referring to fig. 1 and 2, fig. 1 is a perspective view illustrating a mop cleaning and draining water barrel according to a first preferred embodiment of the present invention; fig. 2 is a schematic sectional view taken along line a-a of fig. 1. As shown in the figure, a mop cleaning and washing water barrel 100 comprises a water barrel body 1, a mop brushing assembly 2 and a rotary supporting assembly 3.

The water barrel body 1 comprises a barrel bottom 11, a barrel wall 12 and a water blocking cover 13. The barrel wall 12 is integrally connected to the barrel bottom 11, and the water-retaining cover 13 is detachably fixed to the port 121 of the barrel wall 12 and has an opening 131; the tub wall 12 and the tub bottom 11 enclose an accommodating space 14, and the water blocking cover 13 further partially covers the accommodating space 14, so as to form an opening 15 communicating with the accommodating space 14 with the port 121.

The mop brush assembly 2 includes a brush rack 21, a first brush assembly 22, and a second brush assembly 23. The brush holder 21 includes a base 211, a first side bracket 212, and a second side bracket 213. The base 211 is fixedly disposed at the bottom 11 of the bucket body 1 and located in the accommodating space 14. The first side bracket 212 and the second side bracket 213 are integrally connected to the base 211 and extend along a vertical direction D1 (shown in fig. 3) to a first horizontal height position HP1, and the first side bracket 212 and the second side bracket 213 further enclose a brushing space CS. The first brush assembly 22 is secured to the first side frame 212 at a first height position HP1, and the second brush assembly 23 is secured to the second side frame 213 at a first height position HP 1. In addition, mop brush assembly 2 is correspondingly positioned below opening 15.

The rotary support assembly 3 includes a support assembly 31, a bearing 32 and a rotary assembly 33. The supporting component 31 is integrally connected to the bottom 11 of the water barrel body 1, and partially extends into the accommodating space 14 to be adjacent to a second horizontal height position HP2 higher than the first horizontal height position HP1, and the supporting component 31 is provided with a positioning groove 311. The bearing 32 is disposed in the positioning slot 311 of the supporting member 31. The rotating component 33 is disposed through a shaft hole (not labeled) of the bearing 32 and located at a second horizontal height position HP 2; the rotating element 33 is rotatably disposed on the supporting element 31 through the bearing 32, and the rotating element 33 has a supporting point positioning structure 331, and in the present embodiment, the supporting point positioning structure 331 is a groove. In addition, the rotating component 33 has a center CX, and the center of the opening 131 is coaxial with the center CX.

Referring to fig. 3, fig. 3 is a schematic cross-sectional view illustrating a mop cleaning solution tank containing a cleaning solution according to a first preferred embodiment of the present invention. As shown in the drawings, the mop cleaning and draining water bucket 100 of the present invention is used for cleaning and draining a rotary mop 200, and in the present embodiment, the rotary mop 200 includes a rotary transmission shaft 201, two folding plates 202 and 203, and two mop cloths 204 and 205, the rotary transmission shaft 201 has a shaft end 2011; the folding plates 202 and 203 are connected to the rotating shaft 201 in a relatively foldable manner, and the mop cloths 204 and 205 are fixed to the folding plates 202 and 203, respectively.

As mentioned above, the accommodating space 14 of the bucket body 1 is used for accommodating a cleaning liquid CL, and the cleaning liquid CL has a liquid level CLH in the accommodating space 14, and the second level position HP2 is higher than the first level position HP1 and the liquid level CLH; the liquid level CLH is an average height of the water surface. In addition, in the embodiment, the liquid level CLH is between the second level position HP2 and the first level position HP1, i.e. the liquid level CLH is greater than the first level position HP1, so that the cleaning liquid CL covers the first brush assembly 22 and the second brush assembly 23.

Referring to fig. 4, fig. 4 is a cross-sectional view illustrating a mop cleaning and draining water tank for a rotary mop according to a first preferred embodiment of the present invention. As shown, the rotary mop 200 can enter the accommodating space 14 through the opening 15 along the vertical direction D1 and enter the brushing space CS, and when the rotary mop 200 enters the brushing space CS along the vertical direction D1, the mop cloths 204 and 205 respectively contact the first brushing assembly 22 and the second brushing assembly 23, so that the dirt attached to the mop cloths 204 and 205 is brushed away; the first brushing assembly 22 and the second brushing assembly 23 are, for example, bristles. In practice, the rotary mop 200 may be repeatedly moved up and down to wet the mop cloths 204 and 205 by contacting the mop cloths 204 and 205 with the cleaning liquid CL, and the dirt brushed off by the first and second brushing assemblies 22 and 23 may be introduced into the cleaning liquid CL, thereby restoring the mop cloths 204 and 205 to a clean state. In addition, in other embodiments, even if the liquid level CLH of the cleaning liquid CL is lower than the first level position HP1, when the rotary mop 200 is deep into the brushing space CS, the mop cloths 204 and 205 can still be wetted by the cleaning liquid CL, but it is preferable that the liquid level CLH is higher than the first level position HP 1.

Referring to fig. 5, fig. 5 is a schematic cross-sectional view illustrating a mop cleaning and draining water tank for a rotary mop to perform a dewatering operation according to a first preferred embodiment of the present invention. As shown in the drawings, after the rotary mop 200 is brushed by the mop brushing assembly 2, the rotary mop 200 can enter the accommodating space 14 from the opening 131 of the water-blocking cover 13, and the shaft end 2011 of the rotary transmission shaft 201 is fittingly placed on the fulcrum positioning structure 331 of the rotating assembly 33; since the rotating assembly 33 is located at the second level position HP2 higher than the liquid level CLH, when the rotating shaft 201 rotates by being supported by the pivot positioning structure 331, the cleaning liquid CL attached to the mop cloths 204 and 205 is thrown away from the mop cloths 204 and 205 by the centrifugal force generated during the rotation.

As mentioned above, in the present embodiment, the cleaning liquid CL thrown away from the mop cloths 204 and 205 is thrown toward the barrel wall 12 and flows back along the barrel wall 12 to the cleaning liquid CL in the accommodating space 14 for wetting when the rotary mop 200 is cleaned again. In addition, when the cleaning liquid CL attached to the mop cloths 204 and 205 is thrown upward due to an excessive centrifugal force, the cleaning liquid CL can be prevented from being thrown out of the tub body 1 by the shielding of the water blocking cover 13.

Referring to fig. 6 and 7, fig. 6 is a schematic sectional view showing a mop cleaning and draining water tank for a rotary mop according to a second preferred embodiment of the present invention; FIG. 7 is a sectional view schematically showing a mop spin-drying operation performed by the spin-type mop according to a second preferred embodiment of the present invention. As shown in the drawings, the present embodiment further provides a mop cleaning and draining water bucket 100a, the mop cleaning and draining water bucket 100a is similar to the mop cleaning and draining water bucket 100 of the first preferred embodiment, and the difference is that the mop cleaning and draining water bucket 100a replaces the rotating component 33 with a rotating component 33a, the rotating component 33a has a supporting point positioning structure 331a, and the supporting point positioning structure 331a is a bump.

As mentioned above, the mop cleaning and draining water bucket 100a of the present invention can be used for cleaning and draining another rotary mop 200a, and the rotary mop 200a includes a rotary transmission shaft 201a, a cloth disc 202a and a mop cloth 203a, wherein the cloth disc 202a is rotatably connected to the rotary transmission shaft 201a and has a positioning groove 2021 a. The mop cloth 203a is fixed on the cloth disc 202 a. The positioning groove 2021a of the rotary mop 200a is fittingly sleeved on the supporting point positioning structure 331a, so that the rotary mop 200a can rotate in the mop cleaning and draining water tub 100a relative to the supporting member 31, and the cleaning liquid (not shown, corresponding to the cleaning liquid CL) attached to the mop cloth 203a is thrown away from the mop cloth 203a by the centrifugal force generated during rotation.

In addition, in the present embodiment, the rotary mop 200a is, for example, a disc mop with spin drying function, but is not limited thereto, and in other embodiments, the rotary mop 200a may also be a flat mop with spin drying function, and although in the present embodiment, the mop brush assembly 2 includes the first brush assembly 22 and the second brush assembly 23, when the rotary mop 200a has only a single mop cloth 203a, the mop brush assembly 2 may also include only the first brush assembly 22 without the second brush assembly 23, and even when the mop brush assembly 2 includes only the first brush assembly 22 and does not include the second brush assembly 23, the rotary mop 200 may alternately brush the mop cloths 204 and 205 by changing edges.

Referring to fig. 8 to 10, fig. 8 is a perspective view illustrating a mop cleaning and draining water barrel according to a third preferred embodiment of the present invention; FIG. 9 is a schematic sectional view taken along line B-B of FIG. 8; fig. 10 is a schematic cross-sectional view of fig. 8 taken along line C-C. As shown in the figure, a mop cleaning and washing water barrel 100b comprises a water barrel body 1b, a mop brushing assembly 2b and a rotary supporting assembly 3 b.

The water bucket body 1b includes a bucket bottom 11b, a bucket wall 12b and a water blocking cover 13 b. The barrel wall 12b is integrally connected to the barrel bottom 11b and has a port 121b and four locking structures 122b (only one is labeled in the figure), and the water-blocking cover 13b is detachably fixed to the port 121b of the barrel wall 12b and has an opening 131 b; the tub wall 12b and the tub bottom 11b enclose an accommodating space 14b, and the water blocking cover 13b further partially covers the accommodating space 14b, so as to form an opening 15b communicating with the port 121b and the accommodating space 14 b. In addition, in the present embodiment, the water barrel body 1b further includes a handle 16b, and the handle 16b is rotatably connected to the barrel wall 12b and adjacent to the opening 15 b.

Mop brush assembly 2b includes two first brush assemblies 21b (only one shown) and two second brush assemblies 22b (only one shown). The two first brushing assemblies 21b are detachably fastened to the fastening structure 122b, and the two second brushing assemblies 22b are detachably fastened to the fastening structure 123 b; taking the first brushing assembly 21b as an example, the first brushing assembly 21b includes a carrier 211b and a plurality of bristles 212b (only one is labeled in the figure), and the carrier 211b is a strip structure for disposing the bristles 212b, so that the bristles 212b are disposed in a row on the barrel wall 12b when the carrier 211b is fixed to the clamping structure 122 b. In the present embodiment, the two first brushing assemblies 21b each have a first horizontal height position (not shown), and the two second brushing assemblies 22b each have a first horizontal height position corresponding to the two first brushing assemblies 21 b. In addition, mop brush assembly 2b is correspondingly positioned below opening 15.

The rotary supporting component 3b includes a supporting component 31b, a bearing 32b, a transmission shaft 33b, a limiting component 34b and a rotating component 35 b. The supporting component 31b is integrally connected to the bottom 11b of the water barrel body 1b, and partially extends into the accommodating space 14b, and the supporting component 31b is provided with an accommodating groove 311 b. The bearing 32b is disposed in the receiving groove 311b of the supporting member 31 b.

One end of the transmission shaft 33b is inserted into a shaft hole (not shown) of the bearing 32 b; the transmission shaft 33b is rotatably disposed on the supporting member 31b through a bearing 32 b. The limiting component 34b is fixed at the top end of the supporting component 31b and sleeved on the transmission shaft 33b, so that the transmission shaft 33b passes through the limiting component 34b and extends out of the accommodating groove 311 b. The rotating component 35b has a socket structure 351b and a supporting point positioning structure 352 b. The sleeve structure 351b is fixedly sleeved on the end of the transmission shaft 33b extending out from the limiting component 34b, the rotating component 35b of the embodiment is a dewatering basket, and the pivot positioning structure 352b is a groove for supporting the shaft end 2011 (as shown in fig. 5) of the rotary mop 200. In addition, the rotating component 35b is located at a second level higher than the first level, and in practical use, the second level is higher than the liquid level of the cleaning liquid contained in the containing space 14 b.

Referring to fig. 1 to 10, as shown in the drawings, the first preferred embodiment mainly arranges the mop brushing assembly 2 and the rotary supporting assembly 3 in the water tub body 1, so that the rotary mop 200 can firstly use the mop brushing assembly 2 to brush and clean, and then use the rotary supporting assembly 3 to rotate and dewater, but since the rotary supporting assembly 3 of the first preferred embodiment correspondingly supports the shaft rod end 2011 of the rotary mop 200 through the supporting point positioning structure 331 (notch), when the rotary mop 200a with only the positioning notch 2021a is encountered, the supporting point positioning structure 331a (protrusion) provided by the second preferred embodiment is needed to correspondingly support the rotary mop 200 a; in addition, compared to the first and second preferred embodiments in which the first and second brushing assemblies 22 and 23 are disposed in the accommodating space through the brushing rack 21, the third preferred embodiment is to directly provide the latch structure 122b on the barrel wall 12b, so that the first and second brushing assemblies 21b and 22b can be directly fixed on the barrel wall 12b, thereby effectively simplifying the structure and reducing the manufacturing process, and in addition, the third preferred embodiment further provides the rotating assembly 35b (the spin basket) on the supporting assembly 31b through the transmission shaft 33b, thereby effectively fixing the folding plates 202 and 203 of the spin mop 200 through the spin basket when the spin mop 200 is folded into the spin basket for spin-drying, thereby effectively increasing the stability of the spin-drying of the spin mop 200.

In summary, since the conventional rotary mop only extends the mop head into the water in the bucket during cleaning and separates dirt by shaking in the water, the dirt and the fibers of the mop cloth are excessively wound, so that the dirt cannot be easily separated by shaking in the water, and the mop cloth cannot effectively adhere other dirt; compared with the prior art, the mop cleaning and washing water barrel is provided with the mop scrubbing component and the rotary supporting component in the accommodating space of the water barrel body, so that a user can clean mop cloth by using the mop scrubbing component and dehydrate the mop cloth by using the rotary supporting component, and cleaning liquid removed by the rotary mop by using the rotary supporting component can flow back to the accommodating space of the water barrel body, so that the mop cleaning and washing water barrel can effectively maintain the liquid level of the cleaning liquid in the accommodating space, relatively effectively reduce the frequency of supplementing or replacing the cleaning liquid, and further increase the cleaning efficiency of the rotary mop.

The foregoing detailed description of the preferred embodiments is intended to more clearly illustrate the features and spirit of the present invention, and not 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.