CN216854622U - Cleaning bucket with sewage pump and cleaning tool - Google Patents

Abstract

The utility model discloses a cleaning bucket with a sewage pump and a cleaning tool, wherein the cleaning bucket with the sewage pump comprises a cleaning bucket and at least one sewage pump, wherein the cleaning barrel comprises a barrel body and a dirt scraping device, a water inlet channel of the barrel body is allowed to be communicated with a clean water cavity and a cleaning cavity, wherein the dirt scraping device is held above the cleaning barrel in a manner that a water filling port, a cleaning port and a sewage port respectively correspond to the clean water chamber, the cleaning chamber and the sewage chamber, wherein the sewage pump has a sewage suction port and a sewage discharge port that can be communicated with the sewage suction port, wherein the sewage pump is arranged in the cleaning barrel in a way that the sewage suction port and the sewage discharge port are respectively communicated with the cleaning cavity and the sewage cavity so as to pump the residual sewage in the cleaning cavity into the sewage cavity.

Description

Cleaning bucket with sewage pump and cleaning tool

Technical Field

The present invention relates to a cleaning implement, and more particularly to a cleaning bucket with a sump pump and a cleaning implement.

Background

The flat mop becomes one of the necessary cleaning tools at home, has light weight and large cleaning surface, can clean the ground and is also suitable for cleaning glass windows. The flat mop is convenient to clean, and can be placed into a special cleaning barrel to move up and down repeatedly, so that dirt and impurities adsorbed on the cleaning surface of the flat mop can be scraped, manual cleaning is not needed, and the flat mop is humanized. The cleaning bucket specially used for cleaning the flat mop in the market has a plurality of problems in the using process.

Particularly, clean bucket includes a splendid attire device and one scrapes dirty lid, wherein the splendid attire device has a washing chamber and a dehydration chamber, wherein wash the chamber with dehydration chamber is independent each other, scrape dirty lid and have one at mutual interval scrape dirty mouthful and a dehydration mouth, wherein scrape dirty lid with scrape dirty mouthful with the dehydration mouth respectively communicate in wash the chamber with the mode in dehydration chamber is installed in splendid attire device's top. Before the flat mop is cleaned, a proper amount of clear water is contained in the cleaning cavity of the cleaning barrel, the flat mop is inserted into the cleaning cavity from the dirt scraping port, and the flat mop is repeatedly pulled, so that the flat mop is opposite to the dirt scraping cover in a manner of being squeezed by the dirt scraping cover to move up and down, and the dirt scraping cover can scrape dirt attached to the flat mop into the cleaning cavity. And after the cleaned flat mop is taken out from the dirt scraping port, the flat mop is inserted into the dewatering cavity from the dewatering port, the dirt scraping cover extrudes the mop, and the sewage on the mop is extruded to the dewatering cavity, so that the cleaning and dewatering of the mop are completed. When the dirty flat mop is inserted into the cleaning cavity again for cleaning, the water in the cleaning cavity is polluted when the flat mop is cleaned for the first time, if the water in the cleaning cavity needs to be replaced once every time the mop is cleaned, the workload of a user can be increased by frequently adding clean water and pouring sewage. However, if the water in the cleaning cavity is not replaced, the flat mop can only be cleaned by sewage when being cleaned again, which is not beneficial to ensuring the cleaning effect of the flat mop.

SUMMERY OF THE UTILITY MODEL

An object of the present invention is to provide a cleaning bucket with a sewage pump and a cleaning tool, in which the cleaning bucket with the sewage pump can pump sewage after a mop is cleaned from a cleaning chamber into a sewage chamber in time, so as to prevent the mixing of the sewage and the clean water from affecting the cleaning effect of the mop.

It is another object of the present invention to provide a cleaning bucket with a sewage pump and a cleaning implement, wherein the cleaning bucket with the sewage pump provides a sewage pump, wherein the sewage pump can pump the sewage in the cleaning chamber into the sewage chamber in time after the mop leaves the cleaning chamber. In this way, each time the water used to clean the mop is clean.

Another object of the present invention is to provide a cleaning tub and a cleaning implement with a sewage pump, in which the sewage pump is installed at a lower portion of a tub body of the cleaning tub with the sewage pump in such a manner that a sewage suction port and a sewage discharge port are communicated with the wash chamber and the sewage chamber, respectively, and a pumping stroke of the sewage pump is short, which is advantageous in saving energy consumption of the sewage pump.

Another object of the present invention is to provide a cleaning bucket and a cleaning tool with a sewage pump, in which the sewage pump is mounted on the upper portion of the bucket body in such a manner that the sewage suction port and the sewage discharge port are communicated with the cleaning chamber and the sewage chamber, respectively, so as to prevent the sewage pump from being soaked in water, which is advantageous for improving the service life of the sewage pump.

Another object of the present invention is to provide a cleaning bucket and a cleaning implement with a sewage pump, in which the sewage pump is detachably mounted to the bucket body, and the sewage pump can be maintained or replaced by attaching or detaching the sewage pump, which is convenient to operate.

It is another object of the present invention to provide a cleaning bucket with a sewage pump and a cleaning tool, in which the sewage pump is mounted to a sewage scraping apparatus of the cleaning bucket with the sewage pump, reducing the probability of the sewage pump directly contacting with a water current, and preventing the sewage pump from being corroded.

In accordance with one aspect of the present invention, there is provided a cleaning bucket with a sewage pump, including:

a cleaning bucket, wherein the cleaning bucket comprises a bucket body and a dirt scraping device, wherein the bucket body is provided with a clean water cavity, a cleaning cavity, a dirty water cavity and a water inlet channel, wherein the dirt scraping device is provided with a water filling opening, a cleaning opening and a dirty water opening, wherein the water inlet channel is allowed to be communicated with the clean water cavity and the cleaning cavity, and wherein the dirt scraping device is kept above the cleaning bucket in a manner that the water filling opening, the cleaning opening and the dirty water opening respectively correspond to the clean water cavity, the cleaning cavity and the dirty water cavity; and

and the sewage pump is provided with a sewage suction port and a sewage discharge port which can be communicated with the sewage suction port, and the sewage pump is arranged in the cleaning barrel in a mode that the sewage suction port and the sewage discharge port are respectively communicated with the cleaning cavity and the sewage cavity.

According to an embodiment of the present invention, the container includes a container body, a water inlet partition and a sewage partition, wherein the container body has a container space, wherein the water inlet partition and the sewage partition are spaced apart from each other in the container space of the container body, and the clean water chamber is formed between the container body and the water inlet partition, the clean water chamber is formed between the water inlet partition and the sewage partition, and the sewage chamber is formed between the container body and the sewage partition.

According to an embodiment of the present invention, the sewage barrier has a fitting opening, and the sewage pump is sealingly mounted to the fitting opening in such a manner that the sewage suction opening and the sewage discharge opening are communicated with the cleaning chamber and the sewage port, respectively.

According to an embodiment of the present invention, the sewage pump includes a pump body and a sealing member, wherein the fitting opening of the sewage barrier is formed at a bottom of the sewage barrier, the fitting opening communicates the clean water chamber and the sewage chamber, and the sealing member is held between the pump body and the sewage barrier in a deformation manner.

According to an embodiment of the present invention, the sewage pump includes a pump main body, a sewage suction pipe and a sewage discharge pipe, wherein the sewage suction pipe and the sewage discharge pipe are respectively communicated with both ends of the pump main body, the sewage suction port and the sewage discharge port are respectively formed in the sewage suction pipe and the sewage discharge pipe, the fitting port is formed in an upper portion of the sewage barrier, and the sewage suction pipe and the sewage discharge pipe are respectively located in the cleaning chamber and the sewage chamber and are held in the upper portion of the sewage barrier.

According to one embodiment of the present invention, the installation position of the sewage pump is selected from: the sewage baffle, the water inlet baffle, the containing main body and the dirt scraping device.

According to an embodiment of the present invention, the sewage pump includes a pump main body, a sewage suction pipe and a sewage discharge pipe, wherein the sewage suction pipe and the sewage discharge pipe are respectively communicated with both ends of the pump main body, the sewage suction port and the sewage discharge port are respectively formed in the sewage suction pipe and the sewage discharge pipe, the pump main body is held at an upper portion of the cleaning tub in such a manner that the sewage suction pipe and the sewage discharge pipe are respectively located in the cleaning chamber and the sewage chamber, and the sewage suction pipe extends from the pump main body to a bottom of the cleaning chamber.

According to an embodiment of the present invention, the sewage pump further includes a quick release mechanism, wherein the quick release mechanism includes a first quick release member and a second quick release member, wherein the first quick release member and the second quick release member are respectively provided at an upper portion of the cleaning bucket and the pump body, and the first quick release member is detachably mounted to the second quick release member, so that the sewage pump is detachably mounted to the cleaning bucket.

According to one embodiment of the utility model, the first quick release member is mounted at a position selected from the group consisting of the sewage partition, the water inlet partition, the container body, and the dirt scraping device.

According to an embodiment of the present invention, the first quick release member has a magnetic attraction surface, the second quick release member has a magnetic surface, the first quick release member is disposed on the cleaning barrel with the magnetic attraction surface facing outward, the second quick release member is disposed on the pump body with the magnetic surface facing outward, and the pump body is mounted on the first quick release member with the magnetic surface of the second quick release member magnetically attracted to the first quick release member.

According to one embodiment of the utility model, the second quick release member is detachably mounted to the first quick release member in a manner to be suspended from the first quick release member.

According to an embodiment of the present invention, the sewage pump further includes a clamping member, wherein the clamping member includes two clamping arms extending downward from a lower surface of the pump body and forming a clamping space between the two clamping arms and the pump body, and the sewage barrier is allowed to be held in the clamping space.

According to an embodiment of the present invention, the tub body further includes a receiving body, wherein the receiving body has a receiving chamber, the receiving body has a first fitting hole and a second fitting hole, wherein the first fitting hole and the second fitting hole are formed at a bottom of the receiving body, the receiving body is disposed at the bottom of the receiving body, and the first fitting hole and the second fitting hole are communicated with the washing chamber and the sewage chamber, respectively, and the first fitting hole and the second fitting hole are communicated with the receiving chamber of the receiving body, the pump body is mounted to the receiving body, and the sewage suction pipe and the sewage discharge pipe are disposed at the first fitting hole and the second fitting hole, respectively.

According to another aspect of the present invention, there is provided a cleaning tool comprising:

a mop; and

a cleaning tank with a sewage pump comprising a cleaning tank and at least one sewage pump, wherein the cleaning tank comprises a tank body and a sewage scraping device, wherein the tank body has a clean water chamber, a cleaning chamber, a sewage chamber and a water inlet channel, wherein the sewage scraping device has a water inlet, a cleaning port, a sewage port, wherein the water inlet channel allows to be communicated with the clean water chamber and the cleaning chamber, wherein the sewage scraping device is held above the cleaning tank in such a way that the water inlet, the cleaning port and the sewage port correspond to the clean water chamber, the cleaning chamber and the sewage chamber, respectively, wherein the sewage pump has a sewage suction port and a sewage discharge port which can be communicated with the sewage suction port, wherein the sewage pump is arranged in the cleaning tank in such a way that the sewage suction port and the sewage discharge port communicate with the cleaning chamber and the sewage chamber, respectively, the mop can enter the cleaning cavity of the cleaning barrel from the please interface of the dirt scraping device.

Drawings

Fig. 1 is a schematic view illustrating a structure of a cleaning tub with a sewage pump according to a preferred embodiment of the present invention.

Fig. 2 is an exploded view of the tub with the sewage pump according to a preferred embodiment of the present invention.

Fig. 3 is a schematic view illustrating the use of the cleaning tank with the sewage pump according to the above preferred embodiment of the present invention.

Fig. 4 is an exploded view schematically illustrating the cleaning bucket with the sewage pump according to another preferred embodiment of the present invention.

Fig. 5 is an exploded view schematically illustrating the cleaning bucket with the sewage pump according to another preferred embodiment of the present invention.

Fig. 6 is an exploded view schematically illustrating the cleaning bucket with the sewage pump according to another preferred embodiment of the present invention.

Fig. 7 is an exploded view schematically illustrating the cleaning bucket with the sewage pump according to another preferred embodiment of the present invention.

Fig. 8 is an exploded view schematically illustrating the cleaning bucket with the sewage pump according to another preferred embodiment of the present invention.

Detailed Description

The following description is presented to disclose the utility model so as to enable any person skilled in the art to practice the utility model. 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 utility model, 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 utility model.

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 constructed and operated in a particular orientation and thus are not to be considered limiting.

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 8, a cleaning tub 100 with a sump pump according to some preferred embodiments of the present invention will be described in the following description, wherein the cleaning tub 100 with a sump pump includes a cleaning tub 10 and at least one sump pump 50, wherein the cleaning tub 10 has a clean water chamber 101, a clean chamber 102 and a sump chamber 103 spaced apart from each other, wherein the clean chamber 102 is located between the clean water chamber 101 and the sump chamber 103. The clean water cavity 101 is used for containing clean water, the clean water in the clean water cavity 101 can be added into the cleaning cavity 102 to clean a mop 200, and the sewage cavity 103 is used for containing sewage generated by cleaning the mop 200. The sewage pump 50 is installed in the cleaning bucket 10, and after the mop 200 is cleaned, the sewage pump 50 can pump the residual sewage in the cleaning chamber 102 into the sewage chamber 103, so that the clean water fed into the cleaning chamber 102 from the clean water chamber 101 is prevented from being polluted by the residual sewage. In this way, the cleanliness of the water used to clean the mop 200 can be ensured, thereby improving the cleaning efficiency of the mop 200.

The mop 200 includes a mop body 210 and a holding bar 220, wherein the mop body 210 includes a mop plate 211 and a cleaning element 212, wherein the cleaning element 212 has a cleaning surface 2120. The cleaning element 212 is mounted on the carriage 211 with the cleaning surface 2120 facing outward. The mop plate 211 of the mop body 210 is mounted on the bottom of the grip lever 220, and the mop 200 cleans a working area such as a floor or window glass by attaching the cleaning surface 2120 to the working area. The mop 200 is washed in such a manner that the mop body 210 is inserted into the cleaning chamber 102 of the cleaning bucket 10.

The cleaning barrel 10 comprises a barrel body 11 and a dirt scraping device 12, wherein the clean water chamber 101, the clean chamber 102 and the dirty water chamber 103 are respectively formed in the barrel body 11, the dirt scraping device 12 has a water filling opening 1201, a dirt scraping opening 1202 and a dirty water opening 1203 which are spaced from each other, and the dirt scraping opening 1202 is located between the water filling opening 1201 and the dirty water opening 1203. The dirt scraping device 12 is installed above the tub body 11 such that the filler 1201, the dirt scraping port 1202, and the dirt discharge port 1203 correspond to the clean water chamber 101, the wash chamber 102, and the dirt discharge chamber 103 of the tub body 11, respectively. The dimensions of the cleaning cavity 102 and the scraping opening 1202 of the cleaning bucket 10 are matched with the dimensions of the mop body 210 of the mop 200, so that the mop 200 can be conveniently and smoothly drawn up and down.

Further, the sewage pump 50 has a sewage suction port 501 and a sewage discharge port 502 which are communicable with each other, and the sewage pump 50 is provided to the cleaning bucket 10 in such a manner that the sewage suction port 501 and the sewage discharge port 502 are communicated with the cleaning chamber 102 and the sewage chamber 103, respectively. The sewage pump 50 pumps the sewage in the cleaning chamber 102 in through the sewage suction port 501 and pumps the sewage out of the sewage discharge port 502 into the sewage chamber 103.

In a specific embodiment of the present invention, the sewage pump 50 is installed at the lower portion of the tub body 11, the distance between the sewage suction port 501 and the sewage discharge port 502 of the sewage pump 50 is short, and the sewage pumping stroke is short, which is beneficial to reducing the energy consumption of the sewage pump 50.

Specifically, the barrel body 11 includes a container body 111, a water inlet partition 112 and a sewage partition 113, wherein the container body 111 has a container space 1101, the water inlet partition 112 and the sewage partition 113 are spaced apart from each other in the container space 1101 of the container body 111, the clean water chamber 101 is formed between the inner wall of the container body 111 and the water inlet partition 112, the cleaning chamber 102 is formed between the inner wall of the container body 111, the water inlet partition 112 and the sewage partition 113, and the sewage chamber 103 is formed between the inner wall of the container body 111 and the sewage partition 113. The dirt scraper 12 is attached to the upper side of the container main body 111 such that the filler 1201, the dirt scraping port 1202, and the dirt discharge port 1203 correspond to the clean water chamber 101, the cleaning chamber 102, and the dirt discharge chamber 103, respectively.

Referring to fig. 1 to 3, the sewage barrier 113 has at least one fitting hole 11301, the fitting hole 11301 is formed at the bottom of the sewage barrier 113, and the sewage pump 50 includes a pump body 51 and a sealing member 55, wherein the sealing member 55 is sleeved on the pump body 51. The soil suction opening 501 and the soil discharge opening 502 are formed at opposite ends of the pump main body 51, respectively, the pump main body 51 is installed at the fitting opening 11301 of the sewage partition 113 in such a manner that the sealing member 55 is held between the pump main body 51 and the sewage partition 11, and the soil suction opening 501 and the soil discharge opening 502 of the pump main body 51 communicate with the cleaning chamber 102 and the sewage chamber 103, respectively. Preferably, the sealing member 55 has elasticity, and the sealing member 55 is held between the sewage barrier 113 and the pump body 51 in a deformed manner to prevent a gap from being generated between the sewage barrier 113 and the pump body 51, thereby preventing the sewage in the sewage chamber 103 from flowing to the clean chamber 102.

After the mop 200 is cleaned in the cleaning cavity 102, the mop 200 leaves the cleaning cavity 102, the sewage pump 50 is turned on, and the sewage in the cleaning cavity 102 enters the pump body 51 from the sewage suction port 501 and is pumped into the sewage cavity 103 by the pump body 51.

In some embodiments of the present invention, the sewage pump 50 is installed at the upper portion of the cleaning bucket 10, so that the sewage pump 50 is prevented from directly contacting with the water flow, thereby preventing the sewage pump 50 from being corroded and prolonging the service life of the sewage pump 50.

Specifically, the sewage pump 50 further includes a sewage suction pipe 52 and a sewage discharge pipe 53, wherein the sewage suction pipe 52 and the sewage discharge pipe 53 are respectively communicated with both ends of the pump main body 51, and the sewage suction port 501 and the sewage discharge port 502 are respectively formed in the sewage suction pipe 52 and the sewage discharge pipe 53. The pump body 51 is disposed in the cleaning barrel 10 in such a manner that the sewage suction pipe 52 and the sewage discharge pipe 53 are respectively disposed in the cleaning chamber 102 and the sewage chamber 103, and the sewage suction pipe 52 extends from the pump body 51 to the bottom of the cleaning chamber 102, so as to ensure that the sewage at the bottom of the cleaning chamber 102 can be drained.

Preferably, the fitting opening 11301 is formed at an upper portion of the sewage barrier 113, and the sewage pump 51 is disposed at the upper portion of the sewage barrier 113 of the cleaning tub 10 in such a manner that the sewage suction pipe 52 and the sewage discharge pipe 53 are respectively located at the wash chamber 102 and the sewage chamber 103.

Preferably, the sewage pump 50 is detachably mounted to the cleaning tub 10, and the sewage pump can be cleaned, maintained or replaced by disassembling and assembling the sewage pump, which is convenient to operate.

Specifically, the sewage pump 50 further includes a quick release mechanism 54, wherein the quick release mechanism 54 includes a first quick release member 541 and a second quick release member 542, wherein the first quick release member 541 and the second quick release member 542 are respectively disposed on the cleaning bucket 10 and the pump body 51, and the second quick release member 542 is detachably mounted to the first quick release member 541, so that the sewage pump 50 is detachably mounted to the cleaning bucket 10. For example, but not limited to, the first and second quick- release members 541 and 542 are respectively mounted to the cleaning tub 10 and the pump body 51 by gluing, screwing, welding or other means, or the first and second quick- release members 541 and 542 integrally extend outward from the surfaces of the cleaning tub 10 and the pump body 51, respectively.

Preferably, the first quick release member 541 of the quick release mechanism 54 is disposed at an upper portion of the sewage barrier 113, and the pump body 51 may be held at the upper portion of the sewage barrier 113. Preferably, the first quick release member 541 of the quick release mechanism 54 is disposed on the dirt scraping device 12, so that the pump body 51 can be installed on the dirt scraping device 12 away from the water contained in the container body 11 to avoid corrosion due to long-term contact with water flow. Alternatively, the specific position of the first quick release member 541 of the quick release mechanism 54 can be selected from the inner wall of the container body 111 or the clean water partition 112. It should be understood by those skilled in the art that the specific installation positions of the first quick release member 541 of the quick release structure 54 and the sewage pump 50 are only examples and should not be construed as limiting the content and scope of the cleaning bucket with sewage pump 100 of the present invention.

Referring to fig. 4, in an embodiment of the present invention, the second quick-release member 542 is detachably mounted to the first quick-release member 541 by a magnetic attraction. Specifically, the first quick-release member 541 has a magnetic attraction surface 5410, the second quick-release member 542 has a magnetic surface 5420, wherein the first quick-release member 541 is disposed on a side surface of the sewage partition 113 of the cleaning bucket 10 with the magnetic attraction surface 5410 exposed, and the second quick-release member 542 is disposed on the pump main body 51 with the magnetic surface 5420 exposed. The pump body 51 is detachably mounted to a side surface of the sewage barrier 113 of the cleaning tub 10 in such a manner that the magnetic surface 5420 of the second quick-release member 542 corresponds to the magnetic attracting surface 5410 of the first quick-release member 541.

Referring to fig. 5 and 6, in an exemplary embodiment of the present invention, the second quick release member 542 is detachably mounted to the first quick release member 541 to be suspended from the first quick release member 541. Specifically, referring to fig. 5, the first quick-release member 541 includes a fixing portion 5411, an extending portion 5412 and a limiting portion 5413, wherein the extending portion 5412 extends outward from the fixing portion 5411, the limiting portion 5413 extends upward from the extending portion 5412, a hanging space 5410 is formed among the fixing portion 5411, the extending portion 5412 and the limiting portion 5413, and the fixing portion 5411 of the first quick-release member 541 is fixed to a side surface of the sewage partition 113 of the cleaning bucket 10. The second quick release member 542 includes an extension arm 5421 and a hanging arm 5422, the extension arm 5421 extends outward from the pump body 51 of the cleaning bucket 10, the hanging arm 5422 extends downward from the extension arm 5421, and a limit space 5420 is formed between the hanging arm 5422, the extension arm 5421 and the pump body 51, and the second quick release member 542 is hung from the first quick release member 541 in such a manner that the hanging arm 5422 is held in the hanging space 5410, so that the pump body 51 is hung on the side of the sewage partition 113.

Referring to fig. 6, in an embodiment of the present invention, the first quick-release member 541 has a holding space 54101, a side opening 54102 and a lower opening 54103, wherein the holding space 54101, the side opening 54102 and the lower opening 54103 are communicated with each other. The first quick release member 541 is provided on the inner surface of the dirt scraping means 12 such that the lower opening 54103 faces downward. The second quick release member 542 includes a connecting portion 5423 and a retaining portion 5424, wherein the connecting portion 5423 extends upward from the pump body 51, and the retaining portion 5424 extends perpendicularly outward from the connecting portion 5423 and forms a "T" shaped structure. The holding part 5424 and the connecting part 5423 of the second quick release member 542 enter the holding space 54101 and the lower opening 54103 from the side opening 54102 of the first quick release member 541, and the first quick release member 541 restricts the second quick release member 542 to the holding space 54101, so that the sewage pump 50 is mounted to the sewage scraping apparatus 12. After the dirt scraping device 12 is mounted to the tub body 11, the dirt suction pipe 52 and the dirt discharge pipe 53 provided to the pump main body 51 are held in the cleaning chamber 102 and the dirt discharge chamber 103, respectively.

Referring to fig. 7, in an exemplary embodiment of the present invention, the sewage pump 50 is detachably mounted to the cleaning tub 10 by being clamped to the sewage barrier 113. Specifically, the sewage pump 50 further includes a clamp 55, wherein the clamp 55 includes two clamp arms 551, the two clamp arms 551 extend downward from the lower surface of the pump body 51, and a clamp space 5501 is formed between the two clamp arms 551 and the pump body 51. The clamp arm 551 has elasticity, and the two clamp arms 551 can clamp the sewage barrier in a deformed manner, the sewage barrier 113 is held in the clamp space 5501, and the pump body 51 is held at the top of the sewage barrier 113.

Referring to fig. 8, in an embodiment of the present invention, the sewage pump 50 is hidden under the loading body 111. Specifically, the tub body 11 further includes a receiving body 114, wherein the receiving body 114 has a receiving cavity, and the container body 111 has a first assembling hole 11101 and a second assembling hole 11102, wherein the first assembling hole 11101 and the second assembling hole 11102 are formed at the bottom of the container body 111. The accommodating body 114 is disposed at the bottom of the accommodating body 111, the first and second assembling holes 11101 and 11102 are respectively communicated with the cleaning chamber 102 and the sewage chamber 103, and the first and second assembling holes 11101 and 11102 are communicated with the accommodating chamber of the accommodating body 114. The pump body 51 is installed in the accommodating body 114, the soil suction pipe 52 and the soil discharge pipe 53 are respectively provided to the first assembly hole 11101 and the second assembly hole 11102, and the soil suction port 501 of the soil suction pipe 52 and the soil discharge port 502 of the soil discharge pipe 53 are respectively communicated with the cleaning chamber 102 and the sewage chamber 103. The sewage pump 50 is hidden in the receiving body 114, and does not affect the overall beauty of the tub 100 with the sewage pump.

Alternatively, the sewage pump 50 may be fixed to the cleaning bucket 10 by gluing, welding, or the like, so as to prevent the sewage pump 50 and the cleaning bucket 10 from being separated.

As can be seen from the above embodiments, the cleaning bucket with a sewage pump 100 of the present invention includes a preset installation position for installing the sewage pump 50, wherein the preset installation position can be implemented as the assembly opening 11301 formed on the sewage partition 113, the first quick release member 541 of the quick release mechanism 54, or the sewage partition 113 allowing clamping, the accommodating body 114 accommodating the sewage pump 50, or the like, allowing fixing of the position of the sewage pump 50. It is understood that the cleaning bucket with the sewage pump 100 may be installed with the sewage pump 50 before the factory shipment, or the preset installation position for installing the sewage pump may be preset on the cleaning bucket 10, and a user may purchase and install the sewage pump 50 at the preset installation position according to the use requirement.

It should be understood by those skilled in the art that the specific installation of the sewage pump 50 and the cleaning bucket 10 shown in the text and drawings of the present specification, the specific installation location and number of the sewage pumps 50 are only examples, and should not be construed as limiting the content and scope of the cleaning bucket with a sewage pump 100 according to the present invention. The sewage pump 50 may also be implemented in two, three or more numbers.

In this embodiment of the present invention, the pump-sewage cleaning bucket 100 has a water inlet passage 104 communicating the clean water chamber 101 and the cleaning chamber 102, and the water inlet passage 104 is formed at the lower portion of the water inlet partition 112. Dirty formula of pump is cleaned bucket 100 and is further included a water control mechanism 20, wherein water control mechanism 20 is set up in clean bucket 10, water control mechanism 20 allows clean bucket 10 can switch between a circulation state and a closed condition, and is in the circulation state clean bucket 10 inhalant canal 104 is opened, inhalant canal 104 intercommunication clear water chamber 101 with wash chamber 102, the clear water in the clear water chamber 101 flows into automatically in the sewage chamber 103. The water inlet channel 104 of the cleaning barrel 10 in the closed state is closed, the clean water chamber 101 and the cleaning chamber 102 are blocked, and the clean water in the clean water chamber 101 cannot flow into the cleaning chamber 102. The sewage pump 50 is operated to pump the sewage in the cleaning chamber 102 in the closed state into the sewage chamber 103, and then the water inlet control mechanism 20 is operated to switch the cleaning bucket 10 from the closed state to the circulation state. In this way, the clean water entering the cleaning chamber 102 can be prevented from being polluted by the residual sewage.

In some embodiments of the present invention, the water inlet control mechanism 20 of the pump-type cleaning barrel 100 controls the amount of water entering the clean water chamber 102 from the clean water chamber 101 by manual operation.

Specifically, the inlet control mechanism 20 includes an operating member 201 and a limiting member 202, wherein the operating member 201 has a flow passage 20131, and the limiting member 202 has a longitudinal assembling chamber 2021 and a transverse flow passage 2022 communicating with the longitudinal assembling chamber 2021. The control member 201 is movably installed in the longitudinal assembling cavity 2021 of the retaining member 202, and when the flow channel 20131 of the control member 201 corresponds to the transverse flow channel 2022 of the retaining member 202, the flow channel 20131 of the control member 201, the transverse flow channel 2022 of the retaining member 202, the water inlet channel 104, the clean water cavity 101 and the cleaning cavity 102 are communicated with each other. The clean water in the clean water chamber 101 sequentially flows into the cleaning chamber 102 through the water inlet passage 104, the flow passage 20131 of the control member 201, and the transverse flow passage 2022 of the limiting member 202.

In an embodiment of the present invention, the manipulating member 201 includes an operating element 2011, an extension rod 2012 and a movable valve 2013, the operating element 2011 and the movable valve 2013 are respectively disposed at an upper end and a lower end of the extension rod 2012, and the flow channel 20131 is formed in the movable valve 2013. The cleaning portion 122 of the dirt scraper 12 has a holding hole 12201, and the operating member 2011 is held above the dirt scraper 12 in such a manner that the extension bar 2012 is rotatably mounted to the holding hole 12201 of the dirt scraper 12. The retaining member 202 is disposed on the water inlet partition 112 in such a manner that the transverse flow passage 2022 can be communicated with the water inlet passage 104, and the movable valve 2013 is rotatably mounted on the longitudinal assembling cavity 2021 of the retaining member 202. The movable valve 2013 is rotatably retained in the longitudinal cavity 2021 of the retaining member 202 in such a manner that the outer surface of the movable valve fits against the inner surface of the retaining member 202. When the operating element 2011 is rotated by hand, the movable valve 2013 is rotated to the position where the flow channel 20131 corresponds to the transverse flow channel 2022 of the limiting member 202, the cleaning bucket 10 is in the flow state, and the water in the clean water chamber 101 automatically flows into the cleaning chamber 102.

Alternatively, the operating member 2011 is held above the dirty scraper 12 so that the extension bar 2012 is vertically movably attached to the holding hole 12201 of the dirty scraper 12. The movable valve 2013 is vertically movably held in the longitudinal assembling cavity 2021 of the limiting member 202 in such a manner that an outer surface of the movable valve fits to an inner surface of the limiting member 202. A spring is disposed below the movable valve 2013, and the cleaning bucket 10 can be switched between the flow-through state and the closed state by pressing the operating element 2011.

It should be noted that the embodiment of the water inlet control mechanism 20 is only an example, and the water inlet control mechanism 20 can be implemented as a pedal drive, an electric control drive, etc. to switch the cleaning bucket 10 between the circulation state and the closing device. It should be understood by those skilled in the art that the specific embodiment of the water inlet control mechanism 20 is only an example and should not be construed as limiting the content and scope of the suzuo pump dirt cleaning bucket 100 of the present invention.

In this embodiment of the present invention, the dirt scraping device 12 includes a water feeding portion 121, a cleaning portion 122 and a water discharging portion 123, wherein the water feeding portion 121, the cleaning portion 122 and the water discharging portion 123 are integrally formed. The water inlet 1201, the dirty liquid scraping port 1202, and the dirty liquid port 1203 are formed in the water inlet 121, the cleaning unit 122, and the water draining unit 123, respectively.

The water filling opening 1201 is communicated with the clean water cavity 101, so that a user can replenish clean water from the water filling opening 1201 to the clean water cavity 101 without detaching the dirt scraping device 12, and the operation is convenient. The dirt scraping opening 1202 is communicated with the cleaning chamber 102, and the mop 200 moves from the top to the bottom in such a manner that the cleaning surface 2120 of the mop body 210 faces the dirt discharge opening 1203, enters the cleaning chamber 102 from the dirt scraping opening 1202, soaks in the cleaning chamber 102, and removes dirt. The sewage port 1203 is communicated with the sewage chamber 103, the soaked mop 200 moves from top to bottom after moving from bottom to top, and water absorbed by the mop 200 flows into the sewage chamber 103 from the sewage port 1203 under the action of the sewage scraping device 12.

The cleaning portion 122 includes a holding portion 1221 and a scraping portion 1222 opposite to the holding portion 1221, wherein the scraping portion 1222 and the holding portion 1221 are integrally formed, and the scraping portion 1222 connects the holding portion 1221 and the dewatering portion 123. The wiping lip 1202 is formed between the holding portion 1221 and the wiping portion 1222, and the mop 200 can enter the cleaning chamber 102 from the wiping lip 1202 by the cleaning surface 2120 of the mop body 210 toward the wiping portion 1222. And, in the process that the mop 200 enters the cleaning cavity 102, the dirt scraping part 1222 of the cleaning part 122 presses the mop 200, and the dirt scraping part 1222 can scrape off the dirt attached to the cleaning surface 2120 of the mop 200.

Preferably, the dirt scraping opening 1202 of the cleaning portion 122 is shaped like a "letter" to guide a user to insert the mop 200 into the cleaning chamber 102 with the cleaning surface 2120 facing the dirt scraping portion 1222. Specifically, the holder 1221 includes two carriage holders 12211 and a rod holder 12212, the rod holder 12212 is located between the two carriage holders 12211, the two holder 12211 extends outward from the rod holder 12212, and the dirt scraping opening 1202 is formed in a shape of a letter "convex" between the two carriage holders, the rod holder 12212, and the dirt scraping portion 1222.

Further, the dirt scraping portion 1222 is located between the dirt scraping opening 1202 and the dirt discharge opening 1203. The dewatering part 123 includes a drainage part 1231 and a maintenance part 1232, wherein the drainage part 1231 and the maintenance part 1232 are integrally formed, and the sewage port 1203 is formed between the drainage part 1231 and the maintenance part 1232. The drainage portion 1231 is located between the scraping portion 1222 and the maintaining portion 1232 of the cleaning portion 122, and the drainage portion 1231 extends from the scraping portion 1222 to the maintaining portion 1232.

Further, the upper surface of the dewatering part 123 is an inclined downward slope, and the inclined upper surface of the dewatering part 123 extends from the scraping part 1222 of the cleaning part 122 to the edge of the sewage port 1203. After the dirt and the dirty water on the mop 200 are scraped off by the dirt scraping portion 1222 of the cleaning portion 122, the scraped off dirty water and dirt are guided to flow from the inclined surface of the dewatering portion 123 to the sewage port 1203 of the dewatering portion 123, and enter the sewage chamber 103 of the cleaning tub 10 from the sewage port 1203. Preferably, the upper surface of the dewatering part 123 is a plane inclined downward. Optionally, the upper surface of the dewatering part 123 is a curved surface inclined downward.

Specifically, when the mop 200 enters the cleaning chamber 102 from the dirt scraping opening 1202 from the top to the bottom for the first time, the holding portion 1221 and the dirt scraping portion 1222 of the cleaning portion 122 press against the mop 200 and scrape off dirt and sewage on the mop 200, and the scraped-off sewage and dirt flow to the sewage chamber 103 along the inclined surface of the dewatering portion 123. The sewage cavity 103 and the cleaning cavity 102 are independent from each other, so that the dirt and sewage of the mop main body 210 of the mop 200 are scraped once before the mop main body 210 is contacted with the clean water in the cleaning cavity 102 for the first time, the cleaning efficiency is improved, the pollution degree of the clean water is reduced, and the water is saved.

Further, after the mop body 210 of the mop 200 enters the cleaning cavity 102, the water in the cleaning cavity 102 is absorbed, and the mop 200 in the cleaning cavity 102 is moved from bottom to top to the bottom of the mop body 210 of the mop 200 close to the scraping opening 1202. Then, the mop 200 is moved from the top to the bottom, the holding part 1221 of the cleaning part 122 and the dirt scraping part 1222 press the mop body 210 of the mop 200 again, and the dirt scraping part 1222 scrapes off the water and the dirt adsorbed to the mop body 210 while the mop body 210 moves downward, and the scraped water and the dirt flow to the water removing opening 123 along the inclined surface of the water removing part 123 and are accumulated in the dirt chamber 103.

Preferably, the cleaning bucket 10 further comprises a dirt filtering device 13, wherein the dirt filtering device 13 has a dirt inlet 1301, a dirt containing space 1302 and a filtering opening 1303, wherein the dirt containing space 1302 communicates with the dirt inlet 1301 and the filtering opening 1303, and the dirt filtering device 13 is held below the dirt scraping portion 1222 of the cleaning portion 122 of the dirt scraping device 12. The dirt inlet 1301 and the filter opening 1303 of the dirt filter 13 are respectively communicated with the cleaning chamber 102 and the sewage chamber 103. In the process that the mop main body 210 of the mop 200 enters the cleaning cavity 102, the dirt filtering device 13 presses and scrapes the cleaning surface 2120 of the mop 200, the sewage and the impurities adsorbed by the cleaning surface 2120 are scraped off by the dirt filtering device 13 and enter the object containing space 1302 through the dirt inlet 1301, the sewage enters the sewage cavity 103 through the filtering opening 1303, and the impurities are retained in the object containing space 1302 after being blocked.

Specifically, the dirt filtering device 13 includes a dirt rubbing plate 131, a dirt accommodating box 132, and a filter 133, wherein the dirt rubbing plate 131 and the filter 133 are respectively disposed on the dirt accommodating box 132, the filter 133 is retained in the filtering opening 1303, and the dirt inlet 1301 and the dirt accommodating space 1302 are formed between the dirt rubbing plate 131 and the dirt accommodating box 132. The dirt scraping plate 131 is held below the dirt scraping portion 1222 of the cleaning portion 122 in a forward protruding manner at an interval such that the dirt inlet 1301 is communicated with the dirt scraping opening 1202, and the dirt filtering device 13 is held above the dirt partition 113. Preferably, the dirt scraping plate is obliquely disposed to the dirt accommodating case 132.

When the mop main body 210 of the mop 200 enters the cleaning cavity 102 from the dirt scraping port 1202 from top to bottom, the dirt rubbing plate 131 can press the cleaning surface 2120 of the mop main body 210 and scrape off the sewage and the impurities adsorbed by the cleaning surface 2120, the scraped sewage and the impurities enter the containing space 1302 from the dirt inlet 1301, the filter element 133 filters the sewage and the impurities in the dirt containing box 132, the filtered sewage and the filtered impurities flow into the sewage cavity 103 from the filter port 1303, and the impurities with larger volume are left in the containing space 1302. For example, but not limiting of, the filter 133 is implemented as a filter net or the like.

Preferably, the dirt filtering device 13 is detachably mounted below the dirt scraping device 12, so that a user can conveniently remove the impurities in the accommodating space 1302 by detaching the dirt filtering device 13. In a specific embodiment of the present invention, the dirt filter 13 is mounted to the dirt scraper 12 in a removable manner. For example, the dirt scraping device 12 is provided with two slide rails, the dirt accommodating box 132 of the dirt filtering device 13 is provided with slide grooves corresponding to the slide rails, and the dirt accommodating box 132 is detachably mounted to the dirt scraping device 12 in such a manner that the slide grooves correspond to the slide rails. Alternatively, the dirt filter 13 is detachably mounted to the dirt scraping means 12 by means of a snap fit. Alternatively, the dirt filter 13 is detachably mounted to the dirt scraper 12 by means of a screw connection. Alternatively, the dirt filter 13 and the dirt scraper 12 are integrally formed. It should be understood by those skilled in the art that the specific embodiment of the dirt container 13 disposed on the dirt scraping means 12 is only an example and should not be construed as limiting the content and scope of the visual cleaning barrel 100 of the present invention.

The cleaning tub 10 further includes a holder 14, wherein the holder 14 is rotatably installed at an upper portion of the tub main body 11, and a user can move the visible cleaning tub 100 by holding the holder 14.

The cleaning bucket 10 further comprises a drainage valve 15, the bucket body 11 further has a drainage outlet 105, wherein the drainage outlet 105 is formed at the lower part of the container body 111, the drainage outlet 105 can be communicated with the sewage chamber 103, the drainage valve 15 is installed at the drainage outlet 105, and the drainage valve 15 can open the drainage outlet 105 or close the drainage outlet 105. When the drainage port 105 is opened, the sewage in the sewage chamber 103 can be automatically drained out of the barrel without the user pouring the sewage by dumping the cleaning barrel 10.

It will be appreciated by persons skilled in the art that the above embodiments are only examples, wherein features of different embodiments may be combined with each other to obtain embodiments which are easily conceivable in accordance with the disclosure of the utility model, but which are not explicitly indicated in the drawings.

It will be appreciated by persons skilled in the art that the embodiments of the utility model described above and shown in the drawings are given by way of example only and are not limiting of the utility model. The objects of the utility model 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 (26)

1. Cleaning bucket with sewage pump characterized in that includes:

a cleaning bucket, wherein the cleaning bucket comprises a bucket body and a dirt scraping device, wherein the bucket body is provided with a clean water cavity, a cleaning cavity, a dirty water cavity and a water inlet channel, wherein the dirt scraping device is provided with a water filling opening, a cleaning opening and a dirty water opening, wherein the water inlet channel is allowed to be communicated with the clean water cavity and the cleaning cavity, and wherein the dirt scraping device is kept above the cleaning bucket in a manner that the water filling opening, the cleaning opening and the dirty water opening respectively correspond to the clean water cavity, the cleaning cavity and the dirty water cavity; and

and the sewage pump is provided with a sewage suction port and a sewage discharge port which can be communicated with the sewage suction port, and the sewage pump is arranged in the cleaning barrel in a mode that the sewage suction port and the sewage discharge port are respectively communicated with the cleaning cavity and the sewage cavity.

2. The cleaning bucket with sewage pump of claim 1, wherein the container includes a container body, a water inlet partition and a sewage partition, wherein the container body has a container space, wherein the water inlet partition and the sewage partition are spaced apart from each other in the container space of the container body, and the clean water chamber is formed between the container body and the water inlet partition, the wash chamber is formed between the water inlet partition and the sewage partition, and the sewage chamber is formed between the container body and the sewage partition.

3. The cleaning bucket with the sewage pump as claimed in claim 2, wherein the sewage partition has a fitting opening, and the sewage pump is sealingly mounted to the fitting opening in such a manner that the sewage suction opening and the sewage discharge opening are communicated with the cleaning chamber and the sewage port, respectively.

4. The cleaning bucket with sewage pump of claim 3, wherein the sewage pump includes a pump body and a sealing member, wherein the fitting opening of the sewage partition is formed at the bottom of the sewage partition, the fitting opening communicates the clean water chamber and the sewage chamber, and the sealing member is held between the pump body and the sewage partition in a deformation manner.

5. The cleaning bucket with the sewage pump as claimed in claim 3, wherein the sewage pump includes a pump main body, a sewage suction pipe and a sewage discharge pipe, wherein the sewage suction pipe and the sewage discharge pipe are respectively communicated with both ends of the pump main body, a sewage suction port and the sewage discharge port are respectively formed at the sewage suction pipe and the sewage discharge pipe, the fitting port is formed at the upper portion of the sewage partition plate, and the sewage suction pipe and the sewage discharge pipe are respectively located at the cleaning chamber and the sewage chamber and are held at the upper portion of the sewage partition plate.

6. The cleaning tub with the sewage pump of claim 2, wherein the installation position of the sewage pump is selected from: the sewage baffle, the water inlet baffle, the containing main body and the dirt scraping device.

7. The cleaning bucket with the sewage pump as claimed in claim 2, wherein the sewage pump includes a pump main body, a sewage suction pipe and a sewage discharge pipe, wherein the sewage suction pipe and the sewage discharge pipe are respectively communicated with both ends of the pump main body, a sewage suction port and the sewage discharge port are respectively formed in the sewage suction pipe and the sewage discharge pipe, the pump main body is held at an upper portion of the cleaning bucket in such a manner that the sewage suction pipe and the sewage discharge pipe are respectively located in the washing chamber and the sewage chamber, and the sewage suction pipe extends from the pump main body to a bottom of the cleaning chamber.

8. The cleaning bucket with a sump pump of claim 7, wherein the sump pump further includes a quick release mechanism, wherein the quick release mechanism includes a first quick release member and a second quick release member, wherein the first quick release member and the second quick release member are respectively disposed at an upper portion of the cleaning bucket and the pump body, and the first quick release member is detachably mounted to the second quick release member, so that the sump pump is detachably mounted to the cleaning bucket.

9. The cleaning bucket with a sump pump as claimed in claim 8, wherein the first quick-release member is installed at a position selected from the group consisting of the sewage partition, the water inlet partition, the containing body, and the dirt scraping means.

10. The cleaning bucket with sewage pump of claim 9, wherein the first quick release member has a magnetically attracting surface, wherein the second quick release member has a magnetically attracting surface, wherein the first quick release member is disposed on the cleaning bucket with the magnetically attracting surface facing outward, wherein the second quick release member is disposed on the pump body with the magnetically attracting surface facing outward, and wherein the pump body is mounted to the first quick release member with the magnetic surface of the second quick release member magnetically attracted to the first quick release member.

11. The cleaning bucket with a sump pump of claim 9, wherein the second quick release member is detachably mounted to the first quick release member to be hung from the first quick release member.

12. The cleaning bucket with the sewage pump of claim 7, wherein the sewage pump further comprises a clamping member, wherein the clamping member includes two clamping arms extending downward from a lower surface of the pump body and forming a clamping space between the two clamping arms and the pump body, the sewage partition allowing to be held in the clamping space.

13. The cleaning bucket with a sump pump as set forth in claim 7, wherein the bucket body further includes a receiving body, wherein the receiving body has a receiving chamber, the containing body has a first fitting hole and a second fitting hole, wherein the first fitting hole and the second fitting hole are formed in the bottom of the containing body, the receiving body is disposed in the bottom of the containing body, and the first fitting hole and the second fitting hole are respectively communicated with the washing chamber and the sump chamber, and the first fitting hole and the second fitting hole are respectively communicated with the receiving chamber of the receiving body, the pump body is mounted in the receiving body, and the soil suction pipe and the soil discharge pipe are respectively disposed in the first fitting hole and the second fitting hole.

14. A cleaning implement, comprising: a cleaning bucket according to claim 1 and a mop.

15. The cleaning implement of claim 14, wherein the containment device comprises a containment body, a water intake partition and a sewage partition, wherein the containment body has a containment space, wherein the water intake partition and the sewage partition are spaced apart from each other in the containment space of the containment body, and wherein the clean water chamber is formed between the containment body and the water intake partition, the clean water chamber is formed between the water intake partition and the sewage partition, and the sewage chamber is formed between the containment body and the sewage partition.

16. The cleaning tool of claim 15, wherein the sewage partition has a fitting, the sewage pump being sealingly mounted to the fitting in such a manner that the sewage suction port and the sewage discharge port are in communication with the cleaning chamber and the sewage port, respectively.

17. The cleaning implement of claim 16, wherein the sewage pump includes a pump body and a seal, wherein the mounting opening of the sewage partition is formed in a bottom portion of the sewage partition, the mounting opening communicating the clean water chamber and the sewage chamber, the seal being retained between the pump body and the sewage partition in a deforming manner.

18. The cleaning tool of claim 16, wherein the sewage pump includes a pump main body, a sewage suction pipe and a sewage discharge pipe, wherein the sewage suction pipe and the sewage discharge pipe are respectively communicated with both ends of the pump main body, a sewage suction port and the sewage discharge port are respectively formed at the sewage suction pipe and the sewage discharge pipe, the fitting port is formed at an upper portion of the sewage barrier, and the sewage suction pipe and the sewage discharge pipe are respectively located at the cleaning chamber and the sewage chamber and are maintained at the upper portion of the sewage barrier.

19. The cleaning implement of claim 15, wherein the sewage pump is mounted in a position selected from the group consisting of: the sewage baffle, the water inlet baffle, the containing main body and the dirt scraping device.

20. The cleaning tool of claim 15, wherein the sewage pump includes a pump main body, a sewage suction pipe and a sewage discharge pipe, wherein the sewage suction pipe and the sewage discharge pipe are respectively communicated with both ends of the pump main body, a sewage suction port and the sewage discharge port are respectively formed in the sewage suction pipe and the sewage discharge pipe, the pump main body is held at an upper portion of the cleaning tub in such a manner that the sewage suction pipe and the sewage discharge pipe are respectively located in the cleaning chamber and the sewage chamber, and the sewage suction pipe extends from the pump main body to a bottom of the cleaning chamber.

21. The cleaning tool of claim 20, wherein the sewage pump further comprises a quick release mechanism, wherein the quick release mechanism comprises a first quick release member and a second quick release member, wherein the first quick release member and the second quick release member are respectively disposed at the upper portion of the cleaning bucket and the pump body, and the first quick release member is detachably mounted to the second quick release member, such that the sewage pump is detachably mounted to the cleaning bucket.

22. The cleaning tool of claim 21, wherein the first quick disconnect is mounted in a position selected from the group consisting of the waste barrier, the intake barrier, the containment body, and the dirt scraping device.

23. The cleaning tool of claim 22, wherein the first quick release member has a magnetically attractive surface, wherein the second quick release member has a magnetically attractive surface, wherein the first quick release member is disposed on the cleaning bucket with the magnetically attractive surface facing outward, wherein the second quick release member is disposed on the pump body with the magnetically attractive surface facing outward, and wherein the pump body is mounted to the first quick release member with the magnetically attractive surface of the second quick release member to the first quick release member.

24. The cleaning tool of claim 22, wherein the second quick disconnect is removably mounted to the first quick disconnect in a manner that is suspended from the first quick disconnect.

25. The cleaning implement of claim 20, wherein the sewage pump further comprises a clamp, wherein the clamp comprises two clamp arms extending downward from a lower surface of the pump body and forming a clamp space between the two clamp arms and the pump body, the sewage barrier being allowed to be held in the clamp space.

26. The cleaning tool as claimed in claim 20, wherein the tub body further includes a receiving body, wherein the receiving body has a receiving chamber, the receiving body has a first fitting hole and a second fitting hole, wherein the first fitting hole and the second fitting hole are formed at a bottom of the receiving body, the receiving body is disposed at the bottom of the receiving body, and the first fitting hole and the second fitting hole are communicated with the washing chamber and the sewage chamber, respectively, and the first fitting hole and the second fitting hole are communicated with the receiving chamber of the receiving body, the pump body is mounted to the receiving body, and the soil suction pipe and the soil discharge pipe are disposed at the first fitting hole and the second fitting hole, respectively.

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