CN115363493A

CN115363493A - Cleaning barrel and cleaning assembly

Info

Publication number: CN115363493A
Application number: CN202110550669.8A
Authority: CN
Inventors: 姚贺鸿
Original assignee: Ningbo Yaxiang Cleaning Products Co ltd
Current assignee: Ningbo Yaxiang Cleaning Products Co ltd
Priority date: 2021-05-17
Filing date: 2021-05-17
Publication date: 2022-11-22

Abstract

The invention provides a cleaning barrel and a cleaning component, wherein the cleaning barrel is suitable for providing fluid to clean a cleaning tool, the cleaning barrel comprises a barrel body, a cleaning device, a drainage device and a control device, the barrel body is provided with a clean water area, a cleaning and dirt mixing area and a dirt area, the barrel body can form a transmission channel, the transmission channel is suitable for being communicated with the clean water area and the cleaning and dirt mixing area to allow the fluid in the clean water area to be transferred to the cleaning and dirt mixing area, the drainage device is arranged on the barrel body and is used for transferring the fluid attached to the cleaning tool to the dirt area when the cleaning tool moves back and forth in the clean water mixing area, the control device comprises a control component and a movable component, and the movable component is movably controlled on the control component to control the closing and opening of the transmission channel.

Description

Cleaning barrel and cleaning assembly

Technical Field

The invention relates to the field of cleaning, in particular to a cleaning barrel and a cleaning assembly.

Background

A cleaning tool such as a mop needs to be cleaned after being used for a certain period of time, and the cleaning tub can provide the cleaning tool with necessary cleaning space and washing and brushing means so that the cleaning tool can be reused.

A general washing tub is mainly divided into two regions, one region is a fresh water region and the other region is a sewage region, and a soiled washing implement is placed in the fresh water region to be washed, and then sewage squeezed during movement of the washing implement can flow to the sewage region. In this manner, after the cleaning tool is placed in the clean water area, the clean water area has become contaminated. When the cleaning tool is cleaned in the fresh water area for a second time, a cleaner cleaning environment than the previous time cannot be obtained. That is, the clean water area is more dirty and dirty over time unless the user replaces the water.

In order to ensure the cleanliness of water in the clean water zone inside the washing tub, users need to frequently change water. It is very inconvenient in practical use. In response to the above problems, some manufacturers have developed a new cleaning bucket, wherein the cleaning bucket includes three regions, one is a clean water region, one is a clean water mixing region, and the other is a dirty water region. The clear water area is used for containing real clear water, the cleaning and mixing area is used for cleaning tools, and the sewage area is used for containing sewage. When the clean water in the sewage mixing area is polluted, the sewage can be discharged to the sewage area, and the clean water in the clean water area can be supplemented to the sewage mixing area, so that the cleaning tool can be cleaned in a clean environment. However, the problem is how to transfer the clean water in the clean water area to the dirty water mixing area efficiently, and if the clean water area is only used as a clean water storage area, the user needs to transfer the water in the clean water area by means of a third transfer tool, such as a spoon, etc., which complicates the whole cleaning barrel.

Disclosure of Invention

It is an object of the present invention to provide a washing tub and a washing assembly, wherein the washing tub provides three zones, a clean water zone, a clean water mixing zone and a dirty water zone, wherein the clean water zone and the clean water mixing zone can be communicated such that clean water within the clean water zone is transferred to the clean water mixing zone.

It is another object of the present invention to provide a cleaning tub and cleaning assembly, wherein the clean water zone and the clean water mixing zone of the cleaning tub can form a transfer passage, the opening and closing of which can be controlled by an operator to be operated at an appropriate timing to allow the clean water zone to supply water to the clean water mixing zone.

Another object of the present invention is to provide a washing tub and a washing assembly, in which the opening and closing operations of the transfer passage of the washing tub are simple and convenient.

Another object of the present invention is to provide a cleaning tub and a cleaning assembly, wherein during the process of transferring the water in the clean water zone of the cleaning tub to the cleaning mixing zone, the possibility of impurities in the cleaning mixing zone entering the clean water zone can be reduced as much as possible.

According to an aspect of the present invention, there is provided a washing tub adapted to supply a fluid to clean a washing tool, wherein the washing tub comprises:

a tub formed with a clean water zone, a trash mixing zone, and a dirty water zone and capable of forming a transfer channel adapted to communicate with the clean water zone and the trash mixing zone to allow fluid within the clean water zone to be transferred to the trash mixing zone;

a cleaning device arranged in the clean water mixing area and used for squeezing and removing dirt and the fluid adhered to the cleaning tool;

a drain device disposed on the tub and by which the fluid adhered to the cleaning tool is transferred to the sewage zone while the cleaning tool moves back and forth in the clean water mixing zone; and

a control device, said control device including a control element and a movable member, wherein said movable member is movably controlled on said control element to control the closing and opening of said transfer passage.

According to an embodiment of the present invention, the barrel body includes an outer wall and at least one partition wall, the outer wall forms a receiving chamber around the outer wall, the partition wall is located in the receiving chamber and separates the clean water area and the cleaning mixing area, the partition wall forms a through hole to communicate the clean water area and the cleaning mixing area, the movable member is movable to expose the through hole, the transmission passage is communicated and allows the fluid in the clean water area to be guided to the cleaning mixing area.

According to an embodiment of the present invention, the moveable member has a fluid passage therethrough, the barrel body includes an outer wall and at least one partition wall, the outer wall surrounds and forms a receiving chamber, the partition wall is located in the receiving chamber and separates the clean water area and the dirt-removing mixing area, the partition wall forms a through hole, the moveable member moves to the position where the fluid passage is aligned with the through hole, the transfer passage is formed, and the fluid in the clean water area is allowed to be guided to the dirt-removing mixing area.

According to an embodiment of the present invention, the barrel is provided with a fixed seat and the fixed seat has a receiving chamber and two through holes oppositely arranged, the receiving chamber and the through holes are communicated with each other and one through hole is suitable for being communicated with the clean water area and the dirt mixing area, wherein the movable member is movably received in the fixed seat, and when the movable member moves to expose the through hole, the transmission channel is communicated and allows to guide the fluid in the clean water area to the dirt mixing area.

According to an embodiment of the present invention, the movable member has a fluid passage therethrough, the barrel is provided with a fixed seat and the fixed seat has a receiving cavity and two through holes oppositely arranged, the receiving cavity communicates the clean water area and the clean water mixing area, the movable member is movably received in the fixed seat, the movable member moves until the fluid passage is aligned with the through holes to form the transfer passage and allow the fluid in the clean water area to be guided to the dirt mixing area.

According to an embodiment of the present invention, the control assembly includes an operation member and at least one control transmission member, the movable member and the operation member are connected by the control transmission member, and the operation member is disposed on a top of the barrel body.

According to one embodiment of the invention, the control is a button or a knob.

According to an embodiment of the present invention, the control assembly includes an operation member and at least one control transmission member, the movable member and the operation member are connected by the control transmission member, and the operation member is disposed at a bottom of the barrel.

According to one embodiment of the invention, the control is a foot pedal or a button.

According to one embodiment of the invention, the control transmission member is a control rod and the movable member is a piston.

According to one embodiment of the present invention, the movable member is linearly movably connected to the operation member.

According to one embodiment of the invention, the movable member is pivotally connected to the control member.

According to an embodiment of the present invention, the outer wall of the tub body includes a side wall and a bottom wall, the side wall extending upward from a periphery of the bottom wall, wherein the through hole is provided close to the bottom wall and at the partition wall.

According to one embodiment of the invention, the control transfer member is provided to the dirt mixing area and the movable member.

According to an embodiment of the present invention, the outer wall of the tub includes a side wall and a bottom wall, the side wall is configured to extend upward from a periphery of the bottom wall, and the fluid passage of the movable member is configured to be higher than the bottom wall portion of the tub corresponding to the dirt-removing mixing area.

According to an embodiment of the present invention, the control device further includes a reset element, the reset element is disposed on the movable element or the control element, and the movable element leaving an initial position automatically returns to the initial position by the reset element, wherein in the initial position, the movable element closes the through hole.

According to an embodiment of the invention, the washing tub further comprises a filter member, which is arranged at the position of the through hole.

According to an embodiment of the invention, the control assembly comprises an operating member and at least one control transmission member, the operating member and the operating member are connected by the control transmission member, the operating member is arranged at a top of the barrel body, wherein the outer wall of the barrel body comprises a side wall and a bottom wall, the side wall is arranged to extend upwards from the periphery of the bottom wall, the through hole is arranged close to the bottom wall and is positioned at the partition wall, the movable member is embodied as a piston, the control transmission member is a control rod and extends downwards from the operating member to the piston, the operating member is rotatably arranged at the barrel body and drives the piston to rotate so that the piston is away from the through hole when the operating member rotates, and the control device comprises a reset member, the reset member is a spring and is arranged at the control transmission member to automatically rotate back to an initial position after the operating member is operated to rotate, and at the initial position, the piston closes the through hole.

According to an embodiment of the present invention, the control member includes an operation member and at least one control transmission member, the operation member is disposed at a top of the barrel body, wherein the outer wall of the barrel body includes a side wall and a bottom wall, the side wall is disposed to extend upward from a periphery of the bottom wall, the through hole is disposed adjacent to the bottom wall and located at the partition wall, the control transmission member is a control rod and extends downward from the operation member to the movable member, the operation member is rotatably disposed at the barrel body and rotates the movable member when the operation member rotates to communicate the fluid passage of the movable member with the through hole, wherein the control device includes a reset member which is a spring and is disposed at the control transmission member to automatically rotate back to an initial position after the operation member is operated to rotate, and in the initial position, the movable member closes the through hole.

According to an embodiment of the present invention, the control member includes an operation member and at least one control transmission member, the operation member is disposed at a top of the tub, wherein the outer wall of the tub includes a side wall and a bottom wall, the side wall is disposed to extend upward from a periphery of the bottom wall, the through hole is disposed adjacent to the bottom wall and is located at the partition wall, the control transmission member is a control rod and extends downward from the operation member to the movable member, the operation member is disposed to be movable up and down in the tub, and the movable member is moved upward by the operation member so that the fluid passage of the movable member communicates with the through hole, wherein the control device includes a reset member, which is a spring and is disposed at the control transmission member to automatically move down to an initial position after the operation member is operated to move upward, the movable member closes the through hole, wherein the reset member is disposed between the bottom wall and the movable member.

According to an embodiment of the invention, the control assembly comprises a control member and at least one control transmission member, the control member and the control member being connected by the control transmission member, the control member being disposed at a bottom of the tub, wherein the outer wall of the tub comprises a side wall and a bottom wall, the side wall being arranged to extend upwardly from a periphery of the bottom wall, the through hole being disposed adjacent to the bottom wall and being located at the partition wall, the control transmission member being a control rod and extending downwardly from the control member to the movable member, the control member being disposed movably up and down in the tub and being movable upon actuation of the control member to move the movable member upwardly so that the fluid passage of the movable member communicates with the through hole, wherein the control device comprises a return member, the return member being a spring and being disposed at the control transmission member to automatically move down to an initial position after the control member is actuated to move upwardly, the movable member closing the through hole, wherein the return member is disposed between the bottom wall and the bottom wall, wherein the number of the control transmission members is set independently of the installation chamber and the side portion is disposed at the bottom of the waste water mixing chamber and the waste water area.

Drawings

FIG. 1 is a schematic view of a cleaning assembly according to a preferred embodiment of the present invention.

FIG. 2 is an exploded view of a cleaning tank according to a preferred embodiment of the present invention.

Fig. 3 is a schematic view illustrating an application process of the washing tub according to the above preferred embodiment of the present invention.

Fig. 4 is a schematic view of the washing tub according to another preferred embodiment of the present invention.

Fig. 5 is a schematic view illustrating an application process of the washing tub according to the above preferred embodiment of the present invention.

Fig. 6 is a schematic view of the washing tub according to another preferred embodiment of the present invention.

Fig. 7 is a schematic view illustrating an application process of the washing tub according to the above preferred embodiment of the present invention.

Fig. 8 is a schematic view of the washing tub according to another preferred embodiment of the present invention.

Fig. 9 is a schematic view illustrating an application process of the washing tub according to the above preferred embodiment of the present invention.

FIG. 10 is a schematic view of the cleaning assembly according to another preferred embodiment of the present invention.

Fig. 11 is an exploded view of the washing tub according to another preferred embodiment of the present invention.

Fig. 12 is a schematic view illustrating an application process of the washing tub according to the above preferred embodiment of the present invention.

Fig. 13 is a schematic view of the washing tub according to another preferred embodiment of the present invention.

Fig. 14 is a schematic view of the washing tub according to another preferred embodiment of the present invention.

Detailed Description

The following description is presented to disclose the invention so as to enable any person skilled in the art to practice the invention. The preferred embodiments in the following description are given by way of example only, and other obvious variations will occur to those skilled in the art. The basic principles of the invention, as defined in the following description, may be applied to other embodiments, variations, modifications, equivalents, and other technical solutions without departing from the spirit and scope of the invention.

It will be understood by those skilled in the art that in the present disclosure, the terms "longitudinal," "lateral," "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," and the like are used in an orientation or positional relationship indicated in the drawings for ease of description and simplicity of description, and do not indicate or imply that the referenced devices or components must be in a particular orientation, constructed and operated in a particular orientation, and thus the above terms are not to be construed as limiting the present invention.

It is understood that the terms "a" and "an" should be interpreted as meaning that a number of one element or element is one in one embodiment, while a number of other elements is one in another embodiment, and the terms "a" and "an" should not be interpreted as limiting the number.

Referring to fig. 1 to 3, a washing tub 1 and a washing assembly according to a preferred embodiment of the present invention are illustrated.

The cleaning assembly comprises the cleaning bucket 1 and a cleaning tool 2, wherein the cleaning tool 2 is implemented as a mop and is a flat mop. It will be appreciated that the cleaning tool 2 is not limited in scope to a mop, and may be a window wiper or a door wiper, for example, and that the user may place the cleaning tool 2 in the cleaning tank 1 for cleaning as desired. The examples in this embodiment are not meant to limit the scope of application of the washing tub 1.

The cleaning barrel 1 is formed with a clear water area S1, a cleaning and mixing area S2 and a sewage area S3, wherein the clear water area S1 is used for placing clear water, the cleaning and mixing area S2 is used for placing the cleaning tool 2, and the sewage area S3 is used for placing sewage. The clean water zone S1, the mixed clean water zone S2 and the sewage zone S3 are independent of each other and water in the clean water zone S1 can be transferred to the mixed clean water zone S2 and water in the mixed clean water zone S2 can be transferred to the sewage zone S3.

Compared with the traditional mop bucket, the mop bucket has only two areas, one is used for placing clean water, and the other is used for placing sewage, so once the clean water area is polluted, the clean water area needs to be changed. In this embodiment, the washing tub 1 forms three regions, and the clear water region S1 can temporarily store clear water to provide clean water for the decontamination mixing region S2, so that the user does not need to change water in a short time. But may discharge the water in the mixed region S2 to the sewage region S3 after the water in the mixed region S2 is contaminated by the cleaning tool 2, and may also supplement clean water from the clean water region S1, so that the user may obtain relatively pure water when cleaning the cleaning tool 2.

In the present embodiment, the washing tub 1 is formed with the clean water zone S1, the dirty mixing zone S2, and the dirty water zone S3 from left to right, that is, the dirty mixing zone S2 is located between the clean water zone S1 and the dirty water zone S3. When the cleaning means 2 moves back and forth in the dirt mixing area S2, the sewage adhered to the cleaning means 2 is moved to the sewage area S3. When the water in the clean water zone S1 is contaminated, the water in the clean water zone S2 may be transferred to the clean water zone S2 so that the clean water in the clean water zone S2 can be replenished. It is understood that the arrangement of the clean water zone S1, the mixed clean water zone S2 and the dirty water zone S3 is not limited thereto, and the dirty water zone S3 may be arranged between the clean water zone S1 and the mixed clean water zone S2 or the clean water zone S1 may be arranged between the dirty water zone S3 and the mixed clean water zone S2 according to the requirement. Here, the clean water zone S1, the mixed clean water zone S2, and the dirty water zone S3 are arranged in this order as an example.

In detail, the cleaning barrel 1 includes a barrel 10, a cleaning device 20 and a control device 30, wherein the cleaning device 20 is disposed on the barrel 10 to clean the cleaning tool 2 entering into the barrel 10, and the control device 30 is disposed on the barrel 10 to control the on/off of a transmission channel 1000 formed in the clean water area S1 and the cleaning and mixing area S2, wherein the transmission channel 1000 is adapted to communicate with the clean water area S1 and the cleaning and mixing area S2 to transmit the liquid in the clean water area S1 to the cleaning and mixing area S2. It is understood that the liquid in the clean water zone S1 may be water or other detergent, which is exemplified below, and the type of liquid contained in the washing tub 1 is not meant to be limited thereto.

The barrel 10 has a receiving chamber 100 and the barrel 10 has a clean water chamber 101, a clean water mixing chamber 102 and a dirty water chamber 103, wherein the clean water chamber 101 can communicate with the clean water mixing chamber 102 to allow water in the clean water chamber 101 to be transferred to the clean water mixing chamber 102, and the clean water chamber 101 communicates with the clean water mixing chamber 102 through the transfer passage 1000. At least a part of the accommodating chamber 100 is the clean water chamber 101, at least another part is the clean water mixing chamber 102, and at least another part is the sewage chamber 103.

Staving 10 has a clear water accent 1010, a mixed accent 1020 of decontaminating and a sewage accent 1030, wherein clear water accent 1010 communicate in clear water chamber 101, by clear water accent 1010 user can face clear water chamber 101 water injection, wherein mixed accent 1020 of decontaminating communicate in mixed accent 1020 of decontaminating, by mixed accent 1020 of decontaminating can face mixed chamber 102 water injection of decontaminating, wherein sewage accent 1030 communicates in sewage chamber 103, by sewage accent 1030 user can with the water in sewage chamber 103 discharges outwards.

In more detail, the tub 10 includes an outer wall 11 and at least two partition walls 12, the outer wall 11 surrounds and forms one accommodating chamber 100, and the partition walls 12 are disposed in the accommodating chamber 100 to divide the accommodating chamber 100 into the clean water chamber 101, the clean water mixing chamber 102 and the dirty water chamber 103. The clean water chamber 101 may be formed by surrounding one of the partition walls 12 and at least a part of the outer wall 11, the clean water mixing chamber 102 may be formed by surrounding two of the partition walls 12 and at least another part of the outer wall 11, and the clean water chamber 103 may be formed by surrounding another one of the partition walls 12 and at least another part of the outer wall 11. It is understood that the clear water chamber 101, the clear water mixing chamber 102 and the waste water chamber 103 can be formed in various ways, and even formed independently of the outer wall 11, and herein for illustration, a person skilled in the art can arrange them according to requirements.

In this embodiment, the clean water zone S1 and the dirty-and-clean mixing zone S2 are separated by one of the partition walls 12, and the dirty-and-clean mixing zone S2 and the dirty water zone S3 are separated by the other partition wall 12. At least part of the transfer passage 1000 forms the partition wall 12 that partitions the clean water zone S1 and the dirty-water mixing zone S2.

The control device 30 includes a control element 31 and a movable element 32, wherein the movable element 32 is controllably connected to the control element 31, the control element 31 includes a control element 311 and at least one control transmission element 312, wherein the control transmission element 312 is controllably connected to the control element 311, and wherein the control element 311 is configured to be operated by a user. The user can control the control element 311 by hand or foot, so that the clean water area S1 and the clean water mixing area S2, which are independent from each other, are communicated, and the sewage in the clean water area S1 is allowed to be transferred to the clean water mixing area S2 through the transfer passage 1000. It should be noted that in the present embodiment, in a normal use environment of the cleaning barrel 1, the water in the clean water area S1 can be maintained higher than the water in the clean water mixing area S2, so that the water in the clean water area S1 can be automatically transferred to the clean water mixing area S2 after the transfer passage 1000 is opened.

In detail, the washing tub 1 further includes a drainage device 40, wherein the drainage device 40 is disposed on the tub body 10 and is adapted to communicate with the clean water mixing zone S2 and the dirty water zone S3 to drain the water in the clean water mixing zone S2 to the dirty water zone S3.

The cleaning device 20 is disposed in the dirt-removing mixing area S2 and adapted to press or scrape the cleaning tool 2 to remove dirt and moisture attached to the surface of the cleaning tool 2. The drainage device 40 is configured to cooperate with the washing device 20 to transfer the sewage squeezed by the washing device 20 under the action of the drainage device 40 to the sewage area S3.

The drainage device 40 can form at least one drainage hole 400, and the drainage hole 400 is communicated with the cleaning and mixing chamber 102 and the sewage chamber 103.

In this example, the cleaning device 20 is installed in the clean water mixing area and forms a pressing opening 200, and when the cleaning device 20 is inserted into the dirt mixing chamber 102 and moves up and down, the pressing opening 200 is required to pass through. The size of the extrusion port 200 is set to be smaller than the cross section of the cleaning tool 2 to extrude the cleaning tool 2 out of water. The extrusion port 200 may be disposed at a higher position so that the cleaning tool 2 is moved upward by a predetermined distance to squeeze water out at the position of the extrusion port 200, and when the cleaning tool 2 is at a lower position, it may be sufficiently contacted with the water in the dirt mixing area S2 for cleaning. The drainage device 40 is disposed adjacent to the pressing port 200 of the washing device 20 to guide the water pressed at the position of the pressing port 200 to be transferred to the sewage zone S3.

In detail, the cleaning device 20 includes a pressing frame 21 and a scraping member 22, wherein the pressing frame 21 forms the pressing opening 200 and the pressing frame 21 can be installed at the position of the cleaning mixing chamber opening 1020 of the cleaning mixing area S2. The scraping member 22 is provided to the pressing frame 21 and is disposed toward the pressing port 200, and the scraping member 22 can scrape off a portion of the dirt attached to the cleaning tool 2 when the cleaning tool 2 moves up and down in the dirt-removing mixing chamber 102 with respect to the pressing frame 21. The scraping elements 22 may be formed with protrusions or cleaning structures such as bristles to effectively scrape off dirt attached to the surface of the cleaning tool 2. In the present embodiment, the drainage device 40 is integrally formed with the washing device 20, and the drainage hole 400 of the drainage device 40 is disposed below the scraper 22 of the washing device 20 and is disposed toward the pressing port 200 of the pressing frame 21.

When the cleaning tool 2 is moved up and down to perform cleaning at the position of the cleaning device 20, the sewage, which is pressed and scraped at the position of the scraping member 22, is directly discharged through the drain hole 400 of the drain device 40 below. It is noted that the drain 40 may also be arranged above the cleaning device 20 to assist in draining water when the cleaning tool 2 is pressed downwards.

By the above-mentioned combination of squeezing and draining, the cleaning barrel 1 can automatically discharge the water in the cleaning mixing area S2 to the sewage area S3 during the process of the cleaning tool 2 moving back. Of course, it will be understood by those skilled in the art that the manner of discharging the water in the waste water mixing zone S2 to the waste water zone S3 is illustrated here as an example and can be adjusted according to the requirements.

The cleaning tool 2 moves back and forth in the dirt mixing area S2, the clean water in the dirt mixing area S2 is contaminated, and the contaminated water is continuously transferred to the dirt area S3, resulting in less water in the dirt mixing area S2, which needs to be replenished with clean water from the cleaning area by means of the transfer channel 1000.

In the present embodiment, the transfer passage 1000 is provided to the partition wall 12 that partitions the clean water zone S1 and the dirty-liquid mixing zone S2. The partition wall 12 is formed with a through hole 120, and the through hole 120 is the transfer passage 1000, and the control of the communication and the division of the clean water zone S1 and the purge mixing zone S2 can be achieved by controlling the blockage and the opening of the through hole 120. The control transmission member 312 comprises at least one control rod, wherein the control rod is used for connecting the control member 311 and the piston, wherein the piston is movably arranged and is adapted to block the transmission channel 1000.

In detail, the tub 10 further includes a mounting case 13, by which the mounting case 13 is provided to the outer wall 11 or the partition wall 12, and by which the cleaning device 20 is mounted to the tub 10 by the mounting case 13. The control member 311 and the control transmission member 312 of the control device 30 are mounted to the tub 10 by the mounting case 13.

The volumes of the clean water chamber 101 and the dirty water chamber 103 can be designed as large as possible, so that the cleaning tank 1 can provide a clean water accommodating space and a dirty water accommodating space, while for the dirty mixing chamber 102, the volume of the dirty mixing chamber 102 can be designed to be small relative to the clean water chamber 101 and the dirty water chamber 103, and it is sufficient for the cleaning tool 2 to accommodate a certain amount of water. In this embodiment, the cleaning mixture is located at the middle position of the barrel 10, and the sewage area S3 and the clean water area S1 are located at two sides, respectively.

In more detail, in the present embodiment, the cross-section of the cleaning and mixing area S2 is configured as a "convex" structure to match the structure when the cleaning tool 2 is a flat mop. As much space as possible is left for the fresh water zone S1 and the dirty water zone S3 while providing sufficient space for the cleaning tool 2.

Generally, a flat mop includes a flat plate-shaped cleaning portion adapted to be rotatably coupled to a mop pole, and the mop pole. When the flat mop is to be placed in the washing tub 1 for washing, the flat mop is moved to be approximately parallel to the mop pole, thereby forming a structure similar to a "convex" cross section. The cleaning and mixing area S2 with a cross section of a convex structure and the extrusion frame 21 of the cleaning device 20 with a cross section of a convex structure can be matched with the outer profile cross section of the cleaning tool 2, so that when the cleaning tool 2 passes through the extrusion frame 21 of the cleaning device 20 and is accommodated in the cleaning and mixing area S2 to move up and down, the cleaning part of the cleaning tool 2 can be scraped and cleaned by being attached to the extrusion frame 21 of the cleaning device 20.

Further, the tub body 10 includes a clean water part 14, a cleaning and mixing part 15 and a clean water part 16, the clean water part 14 is formed with the clean water chamber 101, the cleaning and mixing part 15 is formed with the cleaning and mixing chamber 102, and the clean water part 16 is formed with the clean water chamber 103. The purge mixing portion 15 includes a purge mixing portion forming wall 151, wherein the purge mixing portion forming wall 151 is formed to have a convex cross-section, the purge mixing portion forming wall 151 may be disposed at an intermediate position of the receiving chamber 100 of the tub 10, the partition wall 12 may be independent of the purge mixing portion forming wall 151, or may be integrally formed with the partition wall 12 to form the purge chamber 101 and the purge chamber 103 with the outer wall 11. In this embodiment, the clean water chamber 101 is located at two adjacent sides of the cleaning and mixing chamber 102, and the sewage chamber 103 is located at the other two adjacent sides of the cleaning and mixing chamber 102. The clean water chamber 101 and the dirty water chamber 103 surround the clean water mixing chamber 102 to form a structure similar to a 'loop'. In this way, the clean water mixing chamber 102 can be designed to be small, and the clean water chamber 101 and the dirty water chamber 103 can be designed to be large as much as possible.

The clear water chamber 101 is in fact divided into two parts, between which a corner can be formed. The sewage chamber 103 is actually divided into two parts, and a corner can be formed between the two parts. The mounting housing 13 can be arranged between the two partition walls 12 and cover at least part of the fresh water chamber 101 and the sewage chamber 103.

The control member 311 of the control device 30 is disposed on the mounting housing 13, the control rod extends outwards from the control member 311 to the piston, at least a portion of the control rod is received in the receiving cavity 100 of the barrel 10 and the piston is movably mounted at the position of the through hole 120 of the partition wall 12 formed in the cleaning and mixing area S2. The user can control the piston to block the through hole 120 or open the through hole 120 by the control rod to control the communication between the clean water mixing area S1 and the clean water mixing area S2.

In this embodiment, the control member 311 is provided as a knob and is exposed to the outside for direct operation by the user. When the user rotates the control member 311, the control rod connected to the control member 311 is driven to rotate around the shaft. The piston connected to the control lever is moved to change the position of the piston, thereby controlling the opening and closing of the transfer passage 1000. The piston may be a plug with certain deformation capability, for example, a rubber plug or a silicone plug. It should be noted that, by the transmission of the control rod, the rotation direction of the control member 311 and the moving direction of the piston may be different.

The through hole 120 is disposed at a lower position of the partition wall 12 to allow the water in the clean water zone S1 to automatically flow to the clean water mixing zone S2 as much as possible by gravity. Further, the control device 30 may further include at least one reset member 33, wherein the reset member 33 may be disposed on the operation member 311, or the control rod, or the piston, so that when the force applied to the operation member 311 disappears or is weakened, the operation member 311, or the control rod, or the piston may be automatically reset. The number of the returning members 33 is two or more, and for example, the returning members are respectively provided to the operating member 311, the control rod, and the piston. The reset member 33 may be a spring or a resilient plate, the reset member 33 deforms when the operation member 311 is rotated by an applied force, and when the applied force applied to the operation member 311 is weakened or disappears, the reset member 33 automatically returns to the original state to return the piston to the original blocking position, and in addition, the operation member 311 may also return to the original position.

It is noted that the piston may be disposed in the cleaning and mixing area S2, and may also be disposed in the clean water area S1. In the present embodiment, the piston is disposed in the clean water zone S1, and the volume of the clean water zone S1 is designed to be larger than the dirty mixing zone S2 to make a margin space for the piston and the control rod. In addition, when the piston is disposed in the clean water zone S1, the cleaning tool 2 moves up and down in the cleaning mixing zone S2 without affecting the control assembly 31 located in the clean water zone S1.

Referring to fig. 4 and 5, the washing tub 1 according to another preferred embodiment of the present invention is illustrated. The washing tub 1 is formed with the clean water zone S1, the clear water mixing zone S2, and the sewage zone S3.

The washing tub 1 includes the tub body 10, the washing device 20, the control device 30, and the drain device 40. The present embodiment differs from the above embodiments mainly in the control device 30. The control device 30 includes a control element 31 and a movable element 32, wherein the movable element 32 is controllably connected to the control element 31, the control element 31 includes a control element 311 and at least one control transmission element 312, wherein the control transmission element 312 is controllably connected to the control element 311, and wherein the control element 311 is configured to be operated by a user. The control transmission member 312 is implemented as a control rod, wherein the operation control member 311 and the movable member 32 are respectively disposed at two ends of the control transmission member 312, and the movement of the movable member 32 is controlled by operating the operation control member 311.

In detail, the movable member 32 is formed with a fluid passage 320 therethrough, the fluid passage 320 is adapted to communicate with the dirt mixing chamber 102, and the partition wall 12 is formed with a through hole 120. When the movable member 32 moves until the fluid passage 320 is aligned with the through hole 120 of the partition wall 12, the transfer passage 1000 is formed and the fluid of the clean water area S1 can be transferred to the clean water mixing area S2.

The control element 311 is implemented as a rotatable knob. When the control member 311 is rotated, the control rod connected to the control member 311 is driven by the control member 311 to rotate along the same direction, and the movable member 32 at the other end of the control rod is also driven to rotate along the same direction. In this embodiment, the rotation axes of the operating member 311, the control lever, and the movable member 32 are the same. The fluid passages 320 of the movable member 32 may be penetratingly formed at opposite circumferential side surfaces of the movable member 32.

The barrel 10 may be formed with a fixed seat 50, wherein the movable member 32 is limitedly received in a fixed cavity 500 of the fixed seat 50 and allows the movable member 32 to be rotated. When the movable member 32 is rotated such that the fluid passage 320 is aligned with the through hole 120 of the partition wall 12 forming the fresh water chamber 101, the fluid passage 320 and the through hole 120 communicate with each other to form the transfer passage 1000 therethrough. When the movable member 32 is rotated until the through hole 120 is blocked, the fluid in the clean water chamber 101 cannot flow to the dirt mixing chamber 102. It is understood that the shape of the partition wall 12 defining the through hole 120 may be designed to match the movable member 32 such that the movable member 32 may block the through hole 120 of the partition wall 12 after the movable member 32 is rotated to a predetermined position.

In addition, in this embodiment, the fixing cavity 500 of the fixing base 50 is adapted to communicate with the clean water cavity 101. The fixing seat 50 is disposed in the dirt mixing chamber 102. Of course, it will be understood that the lever and the moveable member 32 may also be located in the clean water chamber 101.

Further, the movable member 32 may be provided with a filter element 60, wherein the filter element 60 is adapted to be disposed in the fluid passageway 320 to prevent the entry of impurities into the fluid passageway 320. The filter element 60 may be a screen or some other filtering structure.

It should be noted that in this embodiment, the movable member 32 is disposed at a higher position than the lowest position of the cleaning and mixing chamber 102, so that when the amount of water in the cleaning and mixing chamber 102 is larger than the smaller amount of water in the cleaning and mixing chamber 101, the water in the cleaning and mixing chamber 102 is not poured into the clean water region S1.

In more detail, the cleaning mixing portion forming wall 151 forming the cleaning mixing chamber 102 includes a cleaning mixing portion sidewall 1511 and a cleaning mixing portion bottom wall 1512, wherein the cleaning mixing portion sidewall 1511 is disposed to extend upward from the periphery of the cleaning mixing portion bottom wall 1512. The mixed portion bottom wall 1512 includes a first mixed portion bottom wall 15121, a second mixed portion bottom wall 15122 and a third mixed portion bottom wall 15123, the first mixed portion bottom wall 15121 is disposed close to the clean water region S1, and the third mixed portion bottom wall 15123 is disposed close to the dirty water region S3. The first partial-purge mixing portion bottom wall 15121 and the third partial-purge mixing portion bottom wall 15123 are respectively arranged on both sides of the second partial-purge mixing portion bottom wall 15122. With the second partial-purge mixing portion bottom wall 15122, there is a height difference between the first partial-purge mixing portion bottom wall 15121 and the third partial-purge mixing portion bottom wall 15123, and the first partial-purge mixing portion bottom wall 15121 is higher than the third partial-purge mixing portion bottom wall 15123.

The movable member 32 is disposed on the first partial mixed purge portion bottom wall 15121 of the mixed purge portion 15. Fresh water from the fresh water zone S1 passes through the movable member 32 and then flows into the dirt mixing chamber 102, sequentially passing through the first portion dirt mixing portion bottom wall 15121, the second portion dirt mixing portion bottom wall 15122 and the third portion dirt mixing portion bottom wall 15123. Due to the blocking action of the second partial trash mixing portion bottom wall 15122, the trash deposited under gravity at the position of the third partial trash mixing portion bottom wall 15123 at the lower position is difficult to flow over the second partial trash mixing portion bottom wall 15122 to the position of the first partial trash mixing portion bottom wall 15121, and thus difficult to flow backward to the estrus chamber through the movable piece 32.

Preferably, a bottom wall of a clean water portion 14 forming the clean water chamber 101 is disposed flush with or higher than the first partial cleaning-mixing portion bottom wall 15121 of the cleaning-mixing portion bottom wall 1512 forming the clean water chamber 101.

Referring to fig. 6 and 7, the washing tub 1 according to another preferred embodiment of the present invention is illustrated.

The washing tub 1 is formed with the clean water zone S1, the clear water mixing zone S2, and the sewage zone S3.

The washing tub 1 includes the tub 10, the washing device 20, the control device 30, and the drainage device 40. The present embodiment differs from the above embodiments mainly in the control device 30. The control device 30 includes a control element 31 and a movable element 32, wherein the movable element 32 is controllably connected to the control element 31, the control element 31 includes a control element 311 and at least one control transmission element 312, wherein the control transmission element 312 is controllably connected to the control element 311, and wherein the control element 311 is configured to be operated by a user. The control element 311 and the movable element 32 are respectively disposed at two ends of the control transmission element 312, and the movement of the movable element 32 is controlled by controlling the control element 311.

In the present embodiment, the movable member 32 is configured to be linearly movable, such as up-down movement or left-right movement, which is described as up-down movement.

The control rod is adapted to connect the control member 311 and the movable member 32, and the movable member 32 is connected to the control member 311 in a vertically movable manner. The movable member 32 is formed with a fluid passage 320 therethrough, and the tub 10 is formed with two through holes 120. When the movable member 32 moves to the fluid passage 320 and is aligned with two of the through holes 120, the through transmission passage 1000 is formed to guide the clean water in the clean water chamber 101 to the dirt mixing chamber 102.

The control lever is configured to be moved up and down by the operation member 311, thereby moving the movable member 32 up and down. When the movable element 32 is moved upwards, the through hole 120 communicating the clean water chamber 101 and the dirt-removing mixing chamber 102 is closed by the movable element 32, and the transmission passage 1000 is in a closed state. When the movable member 32 moves downward again to the original position, the transmission path 1000 is turned on again to be in the open state.

Further, the tub 10 may be formed with a fixed seat 50, wherein the movable member 32 is limitedly received in a fixed cavity 500 of the fixed seat 50 and allows the movable member 32 to be moved along a predetermined path, so that the movable member 32 can be maintained in alignment with the through hole 120 in repeated movements.

At least a part of an enclosing wall of the fixing base 50 may be formed by the partition wall 12 separating the clean water chamber 101 and the clean water mixing chamber 102, and the two through holes 120 may be disposed at opposite portions of the enclosing wall.

When the movable member 32 is moved such that the fluid passage 320 is aligned with the through hole 120 of the partition wall 12 forming the fresh water chamber 101, the fluid passage 320 and the through hole 120 communicate with each other to form the transfer passage 1000 therethrough. When the movable element 32 is moved to block the through hole 120, the fluid in the clean water chamber 101 cannot flow to the dirt-removing mixing chamber 102.

In addition, in this embodiment, the fixing cavity 500 of the fixing base 50 is adapted to communicate with the clean water cavity 101. The fixing seat 50 is disposed in the dirt mixing chamber 102. The lever and the moveable member 32 are also disposed in the dirt mixing chamber 102. The dirt mixing chamber 102 leaves sufficient space for the control device 30 so that the control device 30 does not interfere with the up and down movement of the cleaning tool 2 within the dirt mixing chamber 102.

Of course, it will be understood that the lever and the moveable member 32 may also be disposed in the clear water chamber 101.

The control device 30 may further include at least one reset member 33, wherein the reset member 33 is disposed on the movable member 32 and connected to the barrel 10, so that the movable member 32 can be automatically reset when the force applied to the operation control member 311 is removed or weakened.

In detail, one end of the reset member 33 is connected to the bottom wall 1512 of the dirt-removing mixing portion 15, and the other end is connected to the movable member 32. The movable member 32 has an initial state in which the movable member 32 is in the initial state and the transfer passage 1000 is cut off without applying an external force. When the movable member 32 is moved upward to be aligned with the through hole 120, the restoring member 33 is deformed by tension. After the external force applied to the operation control member 311 disappears, the movable member 32 loses the force for promoting the upward movement thereof, and moves downward to the initial state under the action of the reset member 33, and the transmission path 1000 is cut off again.

The number of the returning members 33 is two or more, and for example, the returning members are respectively provided to the operating member 311, the control rod, and the piston. The reset member 33 may be a spring or an elastic sheet, after the operation member 311 is rotated by the applied force, the reset member 33 is deformed, and when the applied force to the operation member 311 is weakened or disappeared, the reset member 33 automatically restores to its original state to return the piston to the original blocking position, and in addition, the operation member 311 may also return to the original position.

It is understood that the control member 311 is limitedly disposed to control the control range thereof. The control element 311 may be configured to move upward by a preset displacement, so that the movable element 32 is moved upward to form the through transmission channel 1000, and then the control element 311 may automatically reset under the action of the resetting element 33. It is understood that the movement steps of the control member 311 and the movable member 32 are not the same, and in this embodiment, the control member 311 is configured to move up and down, and the movable member 32 is configured to move up and down. It should be understood by those skilled in the art that the control member 311 is rotatably disposed, and the movable member 32 can also maintain the moving manner of moving up and down, via some switching elements.

Referring to fig. 8 and 9, the washing tub 1 according to another preferred embodiment of the present invention is illustrated.

The present embodiment differs from the above embodiments mainly in the control device 30. The control device 30 includes a control element 31 and a movable element 32, wherein the movable element 32 is controllably connected to the control element 31, the control element 31 includes a control element 311 and at least one control transmission element 312, wherein the control transmission element 312 is controllably connected to the control element 311, and wherein the control element 311 is configured to be operated by a user.

In the present embodiment, the movable member 32 is configured to be movable left and right, and the operation control member 311 is configured as a switch that is movable left and right.

The tub 10 is formed with at least one through hole 120, wherein the through hole 120 is adapted to communicate with the clean water chamber 101. The movable member 32 is disposed near the location of the through hole 120 and covers the through hole 120. The movable member 32 is formed with a fluid passage 320, and the tub 10 is provided with a fixing base 50. The movable member 32 is adapted to be movable side-to-side and is captively mounted to a stationary chamber 500 of the stationary base 50. When the movable member 32 moves to the position where the fluid passage 320 is aligned with the through hole 120, the transfer passage 1000 is formed and conducted.

Referring to fig. 10 to 12, the cleaning assembly according to another preferred embodiment of the present invention is illustrated.

The cleaning assembly comprises the cleaning barrel 1 and the cleaning tool 2, and the cleaning barrel 1 is formed with the clean water area S1, the cleaning and mixing area S2 and the sewage area S3.

The washing tub 1 includes the tub body 10, the washing device 20, the control device 30, and the drain device 40. The present embodiment differs from the above embodiments mainly in the control device 30. The control device 30 includes a control element 31 and a movable element 32, wherein the movable element 32 is controllably connected to the control element 31, the control element 31 includes a control element 311 and at least one control transmission element 312, wherein the control transmission element 312 is controllably connected to the control element 311, and wherein the control element 311 is configured to be operated by a user.

The control member 311 is implemented as a foot pedal, and the user can directly complete the control of the control member 311 with the foot without bending. In addition, the manipulating member 311 is disposed at a lower position of one of the tubs 10 to facilitate a user's manipulation.

In order not to affect the sealing of the tub 10 forming the clean water chamber 101 and the trash mixing chamber 102, the lever is provided to be extended as far as possible at a position not to damage the tub 10. In the present embodiment, the number of the control levers is implemented as at least four, respectively, a first control lever 3121, a second control lever 3122, a third control lever 3123, and a fourth control lever 3124, the first control lever 3121 is directly connected to the movable piece 32 in a vertical direction, the second control lever 3122 is connected to the first control lever 3121 and the third control lever 3123, respectively, the first control lever 3121 and the third control lever 3123 are both located in a vertical direction, and the second control lever 3122 is located in a horizontal direction. The fourth control lever 3124 is adapted to be connected to the third control lever 3123 and the manipulating part 311, and both the fourth control lever 3124 and the second control lever 3122 are located in a horizontal direction. In this way, the direction of the force applied by the operating member 311 can be changed to make the movable member 32 move linearly in the other direction. Each of the control levers is pivotally connected therebetween. Of course, it will be understood by those skilled in the art that the connection between the control member 311 and the movable member 32 may be achieved by other means, and is not limited to the control rod.

Further, the tub 10 forms a mounting chamber 104, wherein the mounting chamber 104 is formed at the side of the clean water zone S1 and the bottom of the clean water zone S1 of the tub 10 and extends to the dirty water zone S3 through the dirty mixing zone S2. The control rod extends upwards from the cleaning mixing chamber 102 and transversely crosses the cleaning mixing chamber 102 to extend to the mounting chamber 104 at the side of the clean water chamber 101, extends from a higher position to a lower position of the barrel 10, and then extends reversely to the external operating control 311 across the clean water chamber 101, the cleaning mixing chamber 102 and the clean water chamber 103. The fourth lever 3124 is designed to be long across the clean water chamber 101, the clean water mixing chamber 102, and the dirty water chamber 103. One position of the fourth lever 3124 is provided with a fulcrum so that when the end of the fourth lever 3124 connected to the manipulation part 311 is moved downward, the other end is moved upward to cause the end of the third lever 3123 connected to the fourth lever 3124 to be moved upward, the end of the third lever 3123 connected to the second lever 3122 is moved downward, so that the first lever 3121 connected to the second lever 3122 is moved downward and the movable member 32 is moved downward.

Further, the tub 10 is provided with a fixed seat 50 in which the movable member 32 is limitedly received in a fixed cavity 500 of the fixed seat 50 and allows the movable member 32 to be moved along a predetermined path so that the movable member 32 can be maintained in alignment with the through-hole 120 in repeated movements.

At least a portion of an enclosure wall of the holder 50 may be formed by the partition wall 12 separating the clean water chamber 101 and the dirty mixing chamber 102, and the two through holes 120 may be disposed at opposite portions of the enclosure wall.

When the movable member 32 is moved such that the fluid passage 320 is aligned with the through hole 120 of the partition wall 12 forming the fresh water chamber 101, the fluid passage 320 and the through hole 120 communicate with each other to form the transfer passage 1000 therethrough. When the movable member 32 is moved to the position where the through hole 120 is blocked, the fluid in the clean water chamber 101 cannot flow to the dirt mixing chamber 102.

In addition, in this embodiment, the fixing cavity 500 of the fixing base 50 is adapted to communicate with the clean water cavity 101. The fixed seat 50 is disposed in the dirt-removing mixing chamber 102. The lever and the moveable member 32 are also disposed in the dirt mixing chamber 102. The dirt mixing chamber 102 leaves sufficient space for the control device 30 so that the control device 30 does not interfere with the up and down movement of the cleaning tool 2 within the dirt mixing chamber 102.

The movable member 32 has an initial state in which the movable member 32 closes the through hole 120 communicating the clean water chamber 101 and the dirty mixing chamber 102. When the operation member 311 is stepped to move downward, the movable member 32 is pressed downward such that the fluid passage 320 of the movable member 32 is aligned with the through hole 120 to form the transmission passage 1000 therethrough, whereby the clean water chamber 101 and the clean water mixing chamber 102 are communicated. During this process, the return member 33 is compressed and has a tendency to expand outwardly.

Once the force applied to the operating member 311 is weakened or lost, the movable member 32 moves upward again under the action of the reset member 33 to close the through hole 120 again, so that the water in the clean water chamber 101 cannot flow to the clean water mixing chamber 102.

Further, in this embodiment, the number of the reset members 33 is two, one of the reset members 33 is disposed between the movable member 32 and the tub 10 to support the movable member 32 on the tub 10, and the other reset member 33 is disposed on the lever, for example, the third lever 3123, so that after the user releases the operation member 311, the second lever 3122, the fourth lever 3124 and the related components can be reset in an interlocking manner with the assistance of the reset member 33 disposed on the third lever 3123.

Referring to fig. 13, the washing tub 1 according to another preferred embodiment of the present invention is illustrated.

The cleaning bucket 1 is formed with the clean water zone S1, the cleaning mixing zone S2, and the sewage zone S3.

The control member 311 is implemented as a foot pedal, and the user can directly complete the control of the control member 311 with the foot without bending.

In detail, the movable member 32 is rotatably and controllably connected to the operation member 311, and by means of the control rod, when the movable member 32 is moved from an initial position, the movable member 32 exposes a through hole 120 formed in the partition wall 12 that separates the clean water chamber 101 and the cleaning and mixing chamber 102, so that the clean water chamber 101 is conducted to the cleaning and mixing chamber 102.

Referring to fig. 14, the washing tub 1 according to another preferred embodiment of the present invention is illustrated.

The washing tub 1 includes the tub 10, the washing device 20, the control device 30, and the drainage device 40. The present embodiment differs from the above embodiments mainly in the control device 30. The control device 30 includes a control component 31 and a movable component 32, wherein the movable component 32 is controllably connected to the control component 31, the control component 31 includes an operation control component 311 and at least one control transmission component 312, wherein the control transmission component 312 is controllably connected to the operation control component 311, wherein the operation control component 311 is configured to be operated by a user.

In the present embodiment, the control member 311 is implemented as a button and is disposed at a lower position so that the user can operate it by foot.

It will be appreciated by persons skilled in the art that the embodiments of the invention described above and shown in the drawings are given by way of example only and are not limiting of the invention. The objects of the invention have been fully and effectively accomplished. The functional and structural principles of the present invention have been shown and described in the examples, and any variations or modifications of the embodiments of the present invention may be made without departing from the principles.

Claims

1. A cleaning tank adapted to provide fluid to clean a cleaning implement, comprising:

a tub formed with a fresh water zone, a purge mixing zone, and a dirty water zone and capable of forming a transfer channel adapted to communicate with the fresh water zone and the purge mixing zone to allow fluid within the fresh water zone to be transferred to the purge mixing zone;

a cleaning device arranged in the clean water mixing zone and used for squeezing and removing dirt and the fluid attached to the cleaning tool;

a control device, said control device including a control component and a movable member, wherein said movable member is movably controlled on said control component to control the closing and opening of said transfer passage.

2. The cleaning bucket of claim 1, wherein the bucket body includes an outer wall and at least one dividing wall, the outer wall surrounding a receiving chamber, the dividing wall being located in the receiving chamber and dividing the clean water area and the dirt mixing area, the dividing wall forming a through hole to communicate the clean water area and the dirt mixing area, the transfer passage being opened when the movable member is moved to expose the through hole and allowing the fluid in the clean water area to be directed to the dirt mixing area.

3. The cleaning bucket of claim 1 wherein said movable member has a fluid passageway therethrough, said bucket body including an outer wall surrounding a receptacle and at least one dividing wall in said receptacle and dividing said clean water area and said dirty mixing area, said dividing wall defining a through-hole, said movable member being movable to said position where said fluid passageway is aligned with said through-hole to define said transfer passageway and to permit the flow of clean water from said clean water area to said dirty mixing area.

4. A cleaning bucket as claimed in claim 1 wherein said bucket body is provided with a receptacle and said receptacle has an opposed through-bore and a receptacle, said receptacle and said through-bore being in communication and one said through-bore being adapted to communicate with said clean water zone and said waste mixing zone, and wherein said movable member is movably received in said receptacle and said transfer passage is opened to allow the flow of said clean water zone to said waste mixing zone when said movable member is moved to expose said through-bore.

5. A cleaning bucket as claimed in claim 1 wherein said movable member has a fluid passageway therethrough, said bucket body is provided with a fixed seat and said fixed seat has a receiving chamber and two oppositely disposed through holes, said receiving chamber communicating said clear water region and said clear water mixing region, said movable member is movably received in said fixed seat and moves until said fluid passageway is aligned with said through holes to form said transfer passage and permit the flow of fluid from said clear water region to said waste mixing region.

6. The cleaning tank as claimed in any one of claims 1 to 5, wherein the control unit includes a control member and at least one control transmission member, the control member being connected to the movable member and the control member by the control transmission member, the control member being disposed at a top of the tank body.

7. A washing tub as claimed in claim 6, wherein the operating control is a push button or a knob.

8. The cleaning barrel according to any one of claims 1 to 5 wherein the control assembly includes a control member and at least one control transmission member, the control member connecting the movable member and the control member, the control member being disposed in advance of a bottom of the barrel.

9. The washing tub as claimed in claim 6, wherein the manipulation member is a foot pedal or a button.

10. A washing tub as claimed in claim 6, wherein the control transmission is a control lever and the movable member is a piston.

11. The washing tub as claimed in claim 6, wherein the movable member is connected to the operation member to be linearly movable.

12. The washing tub of claim 6, wherein the movable member is rotatably connected to the operation member.

13. The washing tub as claimed in any one of claims 2 to 5, wherein the outer wall of the tub body includes a side wall and a bottom wall, the side wall extending upward from a periphery of the bottom wall, wherein the through hole is provided adjacent to the bottom wall and is located in the partition wall.

14. The washing tub of claim 13, wherein the control transfer member is provided to the trash mixing area and the movable member.

15. The washing tub as claimed in claim 3 or 5, wherein the outer wall of the tub body includes a side wall and a bottom wall, the side wall is configured such that a peripheral edge of the bottom wall extends upward, and the fluid passage of the movable member is configured to be higher than the bottom wall portion of the tub body corresponding to the dirt mixing area.

16. The washing tub as claimed in any one of claims 2 to 5, wherein the control device further includes a reset member provided to the movable member or the control element, by which the movable member, which is out of an initial position, automatically returns to the initial position, in which the movable member closes the through hole.

17. The cleaning bucket according to any one of claims 2 to 5, further comprising a filter member disposed at the location of the through hole.

18. A washing tub as claimed in claim 2, wherein the control assembly comprises a control member and at least one control transmission member by means of which the movable member and the control member are connected, the control member being arranged at a top of the tub, wherein the outer wall of the tub comprises a side wall and a bottom wall, the side wall being arranged to extend upwards from the periphery of the bottom wall, the through-hole being arranged adjacent to the bottom wall and at the dividing wall, the movable member being embodied as a piston, the control transmission member being a control rod and extending downwards from the control member to the piston, the control member being rotatably arranged at the tub and driving the piston to rotate upon rotation of the control member so that the piston leaves the through-hole, wherein the control device comprises a reset member which is a spring and is arranged at the control transmission member to automatically return to an initial position after the control member is operated to rotate, in which the piston closes the through-hole.

19. A washing tub as claimed in claim 3, wherein the control member comprises an operating member and at least one control transmission member by which the movable member and the operating member are connected, the operating member being disposed at a top of the tub, wherein the outer wall of the tub includes a side wall and a bottom wall, the side wall being disposed to extend upward from a periphery of the bottom wall, the through hole being disposed adjacent to the bottom wall and being located at the partition wall, the control transmission member being a lever and extending downward from the operating member to the movable member, the operating member being rotatably disposed at the tub and rotating the movable member upon rotation of the operating member to cause the fluid passage of the movable member to communicate with the through hole, wherein the control means comprises a reset member which is a spring and is disposed at the control transmission member to automatically return to an initial position in which the movable member closes the through hole upon operation of the operating member to rotate.

20. A washing tub as claimed in claim 4, wherein the control unit comprises a control member by which the movable member and the control member are connected, and at least one control transmission member provided at a top of the tub, wherein the outer wall of the tub includes a side wall and a bottom wall, the side wall being arranged to extend upward from a periphery of the bottom wall, the through hole being provided adjacent to the bottom wall and being located at the partition wall, the control transmission member being a control rod and extending downward from the control member to the movable member, the control member being provided movably up and down in the tub and driving the movable member to move upward when the control member moves upward so that the fluid passage of the movable member communicates with the through hole, wherein the control means comprises a reset member which is a spring and is provided at the control transmission member to automatically move down to an initial position at which the movable member closes the through hole, wherein the reset member is provided between the bottom wall and the movable member.

21. A washing bucket according to claim 5, wherein said control assembly includes a control member by which said movable member and said control member are connected, said control member being disposed at a bottom of said bucket body, wherein said outer wall of said bucket body includes a side wall and a bottom wall, said side wall being disposed to extend upwardly from a periphery of said bottom wall, said through hole being disposed adjacent to said bottom wall and being located in said dividing wall, and at least one control transmission member which is a control rod and extends downwardly from said control member to said movable member, said control member being disposed to move upwardly in said bucket body and being movable to move said movable member upwardly to communicate said fluid passageway of said movable member with said through hole upon manipulation of said control member, wherein said control device includes a reset member which is a spring and is disposed in said control transmission member to automatically move downwardly to an initial position in which said reset member closes said through hole, wherein said reset member is disposed between said bottom wall and said movable member, wherein the number of said control transmission members is set independently of the number of said movable members disposed from said bottom and said mounting region to said waste water mixing region, and said waste water mixing region disposed in said waste water mixing region.