CN108245103B - Circulation dewatering type double-sided barrel - Google Patents

Abstract

The invention discloses a circulating dewatering type double-sided barrel which comprises a barrel body, wherein the barrel body is provided with two cleaning chambers, and a water pumping mechanism is respectively arranged in each cleaning chamber; the barrel mouth of the barrel body is provided with two squeezing mechanisms and a filter tank in a disassembling and assembling mode, the filter tank is arranged at a position between the two squeezing mechanisms, the two squeezing mechanisms are arranged in one-to-one correspondence with the two pumping mechanisms, and the mop head downwards enters the cleaning cavity through the squeezing mechanisms, so that the pumping mechanisms can be driven to pump water in one cleaning cavity to the filter tank and filter the water in the other cleaning cavity through the filter tank. When the double-sided bucket is used, the dirty water obtained after the mop is cleaned can be pumped to the filter tank by the water pumping mechanism for filtering, and clear water for cleaning the mop again can be obtained by filtering, so that the recycling of the water in the double-sided bucket with the circulating dehydration function is realized, and compared with the prior art, the double-sided bucket with the circulating dehydration function has the functions of water conservation and environmental protection.

Description

Circulation dewatering type double-sided barrel

Technical Field

The invention belongs to the technical field related to articles for daily use, and particularly relates to a circulating dehydration type double-sided barrel applied to flat mop cleaning and dehydration.

Background

It will be appreciated that flat mops are used frequently in people's daily lives, and flat mops are used, and mops particularly used for mopping floor are usually of a detachable structure relative to flat mops, and after the mop is soiled, the mop is generally required to be detached from the flat mop and cleaned by hand, and then the mop is cleaned and dewatered, and the cleaning and dewatering of the mop are generally completed in a bucket of a cleaning bucket of the matched flat mop.

However, the water in the bucket of the cleaning bucket for matching with the flat mop in the prior art is not provided with a structure for recycling the water in the bucket, that is, the water in the bucket in the cleaning bucket is mostly cleaned at one time when the mop is cleaned, that is, the water in the cleaning bucket needs to be poured out after the mop is cleaned, and then the clean water is reintroduced, so that the waste of water resources is caused.

Disclosure of Invention

Based on this, it is necessary to provide a circulation dewatering type double-sided bucket for cleaning mop in view of the technical problems existing in the prior art.

The circulating dehydration type double-sided barrel comprises a barrel body, wherein the barrel body is provided with two cleaning chambers, and a water pumping mechanism is respectively arranged in each cleaning chamber; the barrel mouth of the barrel body is provided with two squeezing mechanisms and a filter tank in a disassembling and assembling mode, the filter tank is arranged at a position between the two squeezing mechanisms, the two squeezing mechanisms are arranged in one-to-one correspondence with the two pumping mechanisms, and the mop head downwards enters the cleaning cavity through the squeezing mechanisms, so that the pumping mechanisms can be driven to pump water in one cleaning cavity to the filter tank and filter the water in the other cleaning cavity through the filter tank.

As a preferable scheme of the invention, the water pumping mechanism comprises a shell, a water suction pipe, a water outlet pipe and a piston, wherein the water suction pipe, the water outlet pipe and the piston are arranged on the shell, a one-way valve is respectively arranged on a channel connected with the shell, a pressure spring is arranged in the shell, the piston part extends into the shell and is propped against the pressure spring, and a transmission plate is outwards connected with the part of the piston extending out of the shell.

As a preferable scheme of the invention, the transmission plate comprises a straight plate part, and a connecting plate part and a flat plate part which are arranged at two ends of the straight plate part, wherein the connecting plate part and the flat plate part are arranged at two opposite sides of the straight plate part and are vertically arranged relative to the straight plate part, the connecting plate part is fixedly connected with the piston at one side far away from the straight plate part, and the flat plate part is arranged opposite to a channel on the wringing mechanism.

As a preferable scheme of the invention, the filter tank comprises a tank body, wherein the tank bottom of the tank body is inwards sunken and is provided with a boss so as to divide a cavity area of the tank body into two filter cavities, the side walls of the boss facing the two filter cavities are respectively provided with a water outlet interface, and the two water outlet interfaces are respectively used for connecting water outlet pipes on the two water pumping mechanisms.

As a preferable scheme of the invention, the bottoms of the two filtering chambers are respectively provided with a plurality of filtering holes, and a melon cloth, a non-woven fabric or a filter screen is arranged above the filtering holes.

As a preferable scheme of the invention, a supporting plate is arranged between the two cleaning chambers of the barrel body, the supporting plate extends upwards into a concave cavity formed by a boss on the filter tank, and grooves for embedding an upper water outlet pipe of the water pumping mechanism are respectively formed on the end surfaces of two sides of the supporting plate.

As a preferable scheme of the invention, the wringing mechanism comprises a shell, at least one wringing roller arranged in the shell, guide wheel groups arranged in one-to-one correspondence with the wringing rollers, and a cleaning brush, wherein the shell is provided with a channel which is communicated downwards relative to the barrel, and the wringing rollers and the guide wheel groups are respectively arranged on two opposite sides of the channel.

As a preferable scheme of the invention, the wringing mechanism comprises two wringing rollers which are respectively defined as a movable wringing roller and a fixed wringing roller, wherein the movable wringing roller is arranged above the fixed wringing roller, and the cleaning brush is arranged between the movable wringing roller and the fixed wringing roller and extends outwards into a channel of the shell relative to the movable wringing roller and the fixed wringing roller.

As a preferable scheme of the invention, the shell is provided with the waist-shaped hole, the waist-shaped hole is obliquely arranged upwards relative to the channel of the shell, and the rotating shaft part of the movable wringing roller is arranged on the waist-shaped hole of the shell and is rotationally connected relative to the waist-shaped hole.

As a preferable scheme of the invention, the shell of the wringing mechanism and the tank body of the filter tank are respectively provided with a bending plate which is used for matching with the edge of the barrel opening of the barrel body, and the wringing mechanism and/or the barrel opening of the barrel body can be assembled through the bending plates.

Due to the application of the technical scheme, compared with the prior art, the invention has the following advantages:

the circulating dewatering type double-sided barrel provided by the invention has a simple structure, can pump dirty water obtained after cleaning the mop to the filter tank for filtering by using the water pumping mechanism, and filters the dirty water to obtain clean water for cleaning the mop again, so that the circulating use of the water in the circulating dewatering type double-sided barrel is realized, and compared with the prior art, the circulating dewatering type double-sided barrel has the functions of water conservation and environmental protection; meanwhile, the whole work of the circulating dewatering type double-sided barrel is realized by driving the mop head extending into the circulating dewatering type double-sided barrel, and the operation and the use are convenient.

Drawings

Fig. 1 is a perspective view of a circulation dewatering type double-sided barrel provided by the invention.

Fig. 2 is a schematic structural view of the water pump mechanism in the present invention.

Fig. 3 is a cross-sectional view of a wringing mechanism in the present invention.

FIG. 4 is a schematic diagram of a filter tank according to the present invention.

Fig. 5 to 8 are views showing the use states of the circulation dewatering type double-sided barrel provided by the invention.

Wherein, 100, the barrel body; 101. cleaning the chamber; 110. a support plate; 200. a water pumping mechanism; 210. a housing; 220. a water suction pipe; 221. a water inlet valve; 230. a water outlet pipe; 231. a water outlet valve; 240. a piston; 250. a pressure spring; 260. a drive plate; 261. a straight plate portion; 262. a connecting plate part; 263. a flat plate portion; 300. a wringing mechanism; 310. a housing; 311. a waist-shaped hole; 320. a movable wringing roller; 330. fixing a squeezing roller; 340. a guide wheel set; 350. cleaning a hairbrush; 360. a channel; 400. a filter tank; 410. a tank body; 420. a boss; 421. a water outlet interface; 430. a filtration chamber; 431. a filter hole; 3400. a bending plate.

Detailed Description

When the circulating dewatering type double-sided barrel disclosed by the invention is used, the cleaning and dewatering of mops on a mop head are realized, the repeated recycling of water in the barrel is realized, and the circulating dewatering type double-sided barrel has the functions of saving and protecting the environment.

Referring to fig. 1, the circulating dewatering type double-sided barrel of the present embodiment includes a barrel body 100, two water pumping mechanisms 200 disposed in the barrel body 100, two squeezing mechanisms 300 disposed on the barrel mouth of the barrel body 100, and a filtering tank 400, wherein the two squeezing mechanisms 300 are disposed in one-to-one correspondence with the two water pumping mechanisms 200, so that the mop head extends into the barrel of the barrel body 10 downwards through the squeezing mechanisms 300, and can realize driving of the water pumping mechanisms 200, so as to pump dirty water to the filtering tank 400 and filter by the water pumping mechanisms 200.

The tub 100 has two washing chambers 101. That is, when the tub 100 of the present embodiment is used, the two cleaning chambers 101 of the tub 100 may be used together with the mop head, respectively, to clean the mop on the mop head.

The two water pumping mechanisms 200 of this embodiment are correspondingly disposed in the two cleaning chambers 101 of the tub 100, and are configured to pump water in the corresponding cleaning chambers 101 into the filtering tank 400, so as to filter dirty water obtained after the mop on the mop head is cleaned in the cleaning chambers 101, thereby realizing the recycling of the water in the tub 100.

Referring to fig. 2, the pump mechanism 200 includes a housing 210, a suction tube 220, a discharge tube 230 and a piston 240 disposed on the housing 210, and a compression spring 250 disposed in the housing 210. The piston 240 partially extends into the housing 210 and is used for pressing against the pressure spring 250 in the housing 210, and the portion of the piston 240 extending out of the housing 210 is externally connected with a transmission plate 260, so that the transmission plate 260 drives the piston 240 to compress the pressure spring 250 downwards, and the water absorption or drainage of the water pumping mechanism 200 is realized through the pressure difference between the air pressure of the closed chamber in the housing 210 and the external air pressure.

Further, at least one sealing ring (not shown) is embedded in the portion of the piston 240 extending into the housing 210 and being attached to the inner wall of the housing 210, so as to improve the tightness of the sealed chamber in the housing 210, and further ensure the water absorbing and draining performance of the water pumping mechanism 200.

Wherein the suction pipe 220 extends downward with respect to the housing 210 and reaches the bottom of the cleaning chamber 101 in the tub 100, and the drain pipe 230 extends upward with respect to the housing 210 and cooperates with the filter tank 400 provided at the tub mouth of the tub 100. When the water pumping mechanism 200 works, water is absorbed from the cleaning chamber 101 of the barrel body 100, and then the absorbed water is discharged into the filter tank 400 and filtered, so that the cleaning water of the cleaning chamber 101 in the barrel can be recycled.

A water inlet valve 221 is disposed on the channel of the water suction pipe 220 connected to the housing 210, and a water outlet valve 231 is disposed on the channel of the water outlet pipe 230 connected to the housing 210. It will be appreciated that the inlet valve 221 and the outlet valve 231 of this embodiment are each provided as one-way valves to control the flow of the suction pipe 220 and the outlet pipe 230, respectively. That is, in operation of the pump mechanism 200 of the present embodiment, the suction pipe 220 can only suck water from the cleaning chamber 101 of the tub 100, but not drain water, and the water in the housing 210 can only drain out through the outlet pipe 230. Of course, the one-way valve structures of the water inlet valve 221 and the water outlet valve 231 may be specifically configured by a combination of a structure of a return and a check head spring, so as to realize a one-way conduction function.

In this embodiment, the driving plate 260 specifically includes a straight plate 261, and a connecting plate 262 and a plate 263 disposed at two ends of the straight plate 261, where the connecting plate 262 and the plate 263 are disposed on two opposite sides of the straight plate 261 and are perpendicular to the straight plate 261, and the connecting plate 262 is fixedly connected to the piston 250 on a side far from the straight plate 261. Further, the straight plate portion 261 is disposed in parallel at the outer periphery of the housing 210 and protrudes downward with respect to the housing 210, thereby ensuring that the up-and-down movement of the driving plate 260 does not affect the housing 210.

The wringing mechanism 300 is used in this embodiment to clean and squeeze the mops on the mop head.

Referring to fig. 3, the wringing mechanism 300 includes a housing 310, at least one wringing roller disposed in the housing 310, guide wheel sets 340 disposed in one-to-one correspondence with the wringing rollers, and a cleaning brush 350. So that the wringing mechanism 300 can clean the mop on the mop head by the cleaning brush 350 when in operation, and the wringing roller and the guiding wheel set 340 are matched with each other to realize the wringing of the mop, in particular to realize the wringing of the mop in a wringing mode.

The housing 310 is provided with an inlet and an outlet, wherein the inlet and the outlet are opposite to each other, and form a channel 360, and the channel 360 is specifically matched with the mop head, is disposed in downward communication with the tub 100, and is opposite to the flat plate 263 of the driving plate 260 on the water pump 200, so that the mop head can drive the water pump 200 downward through the wringer mechanism 300.

The wringing rollers and the guiding wheel sets 340 are specifically located at two opposite sides of the channel 360 to dewater the mop head passing through the channel 360, specifically, the wringing rollers are used to squeeze and dewater the mop head, in this process, the guiding wheel sets 340 play a role of pressing the mop head and guiding the mop head downward.

In this embodiment, the wringing mechanism 300 includes two wringing rollers defined for the movable wringing roller 320 and the fixed wringing roller 330, respectively, wherein the movable wringing roller 320 is disposed above the fixed wringing roller 330, and the cleaning brush 350 is disposed between the movable wringing roller 320 and the fixed wringing roller 330 and extends partially outwardly into the channel 360 of the housing 310 relative to the movable wringing roller 320 and the fixed wringing roller 330 to clean the mop on the mop head when passing through the channel 360. Of course, it should be noted that the number of the wringing rollers in the wringing mechanism 300 may be more than 2, 3, 4 or more, and the specific arrangement may refer to the arrangement of 2 wringing rollers, which will not be described herein.

The movable wringing roller 320 is applied to the wringing mechanism 300 and can move relative to the housing 310, so as to adjust the distance between the movable wringing roller 320 and the corresponding guiding wheel set 340, thereby further improving the wringing effect of the movable wringing roller 320 on the mop.

Specifically, the housing 310 is provided with a waist-shaped hole 311, and the waist-shaped hole 311 is disposed obliquely with respect to the channel 360 on the housing 310, preferably disposed obliquely upward with respect to the channel 360 on the housing 310. The rotating shaft of the movable wringing roller 320 is disposed on the waist-shaped hole 311 of the housing 310, and is rotatably connected with respect to the waist-shaped hole 311. When the movable wringing roller 320 is used on the wringing mechanism 300, the movable wringing roller 320 can be driven to move on the waist-shaped hole 311 according to the direction of the contact force between the mop and the movable wringing roller 320.

Further, the outer circumferential surfaces of the movable wringing roller 320 and/or the fixed wringing roller 330 of the present embodiment are provided with a saw-tooth structure, so as to improve the squeezing effect of the movable wringing roller 320 and/or the fixed wringing roller 330 on the mop when contacting with the mop.

The guiding wheel set 340 of the present embodiment specifically includes two guiding wheels disposed opposite to each other, where each guiding wheel is disposed in the housing 310 and is rotatably connected with respect to the housing 310. Further, the gap between the two guide wheels of the guide wheel set 340 communicates with the channel 360 of the housing 310 to act as a mop rod along with the mop head to pass through and move downward from the channel 360 of the housing 310.

As can be seen from the above, the guiding wheel set 340 is disposed in one-to-one correspondence with the movable wringing roller 320 and the fixed wringing roller 330, so that the movable wringing roller 320 and the fixed wringing roller 330 on the water pumping mechanism 20 of this embodiment respectively correspond to 2 guiding wheels, and each guiding wheel is respectively disposed with the movable wringing roller 320 or the fixed wringing roller 330, that is, the movable wringing roller 320 and the fixed wringing roller 330 of this embodiment are specifically disposed in a long tubular structure, which meets the requirement of the mop for full coverage when the mop contacts with each other.

Referring to fig. 4, the filter tank 400 is applied in the present embodiment, specifically, is disposed at a position between two wringing mechanisms 300, and is used for filtering dirty water extracted from the cleaning chamber 101 in the barrel by the water pumping mechanism 200 and obtaining clean water, so as to realize the repeated recycling of water in the barrel body 100 in the present embodiment, and further achieve the effects of environmental protection and saving.

The filter tank 400 of this embodiment includes a tank body 410, the tank bottom of the tank body 410 is recessed inwards and is formed with a boss 420 to divide the chamber of the tank body 410 into two filter chambers 430, in this embodiment, the two filter chambers 430 on the filter tank 400 are separated into two cleaning chambers 101 of the tank body 100, so that when the circulating dewatering double-sided tank is used, the pumping mechanism 200 pumps dirty water from one of the cleaning chambers 101 and filters the dirty water from the filter tank 400 into the other cleaning chamber 101, thereby realizing the circulating use of water in the tank body 100. Wherein, the side walls of the boss 420 facing the two filter chambers 430 are respectively provided with a water outlet 421 for communicating with the water outlet pipe 230 of the water pump 200.

Wherein, the bottoms of the two filtering chambers 430 on the filtering tank 400 are respectively provided with a plurality of filtering holes 431, and a melon cloth, a non-woven fabric or a filter screen is arranged above the filtering holes 431, and the dirty water pumped by the water pumping mechanism 200 is filtered by utilizing the structural characteristics of the melon cloth, the non-woven fabric or the filter screen, and clean water is obtained.

In this embodiment, a supporting plate 110 is disposed at a position between the two cleaning chambers 101 of the tub 100, the supporting plate 110 extends upward into a cavity formed by the boss 420 on the filtering tank 400, and grooves (not shown) for inserting the water outlet pipe 230 on the water pumping mechanism 200 are respectively formed on two side end surfaces of the supporting plate 110. Therefore, when the water pumping mechanism 200 of the present embodiment is installed in the barrel body 100, the water outlet pipe 230 of the water pumping mechanism 200 can be specifically embedded into the groove of the supporting plate 110, and then the concave cavity of the boss 420 of the filtering tank 400 is placed corresponding to the supporting plate 110, so that the communication between the water outlet pipe 230 of the water pumping mechanism 200 and the water outlet port 421 of the boss 420 of the filtering tank 400 is ensured, and the assembly is convenient.

In this embodiment, the two wringing mechanisms 300 and the one filtering tank 400 are specifically assembled on the opening of the barrel body 100 in a disassembling and assembling manner, so that the whole disassembling and assembling of the circulating dewatering type double-sided barrel is realized, that is, the circulating dewatering type double-sided barrel of this embodiment can realize modularized production and assembly during production and preparation, and has the effect of reducing production cost.

Specifically, the casing 310 of the wringing mechanism 300 and the tank body 410 of the filter tank 400 are respectively provided with a bending plate 3400, which is used for matching with the edge of the bung hole of the barrel body 100, and the wringing mechanism 300 and/or the filter tank 400 can be assembled at the bung hole of the barrel body 100 through the bending plate 3400. That is, the assembly of the wringing mechanism 300, the filter tank 400 and the barrel body 100 in this embodiment is realized by placing and clamping the bending plate 3400 on the wringing mechanism 300 and the filter tank 400 down along the edge of the barrel opening of the barrel body 100, so that the assembly and disassembly of the wringing mechanism 300, the filter tank 400 and the barrel body 100 are facilitated, and the use requirements of people are further satisfied.

Referring to fig. 5-8, before the circulation dewatering type double-sided barrel of the present embodiment is used, one of the cleaning chambers 101 in the barrel body 100 can be irrigated to a position of a designated water line, and then the mop on the mop head is driven downwards from the channel 360 of the wringing mechanism 300 towards the movable wringing roller 320 of the wringing mechanism 300, because the two ends of the rotating shaft portion of the movable wringing roller 320 are arranged at the waist-shaped hole 311 of the housing 310, the interval between the movable wringing roller 320 and the corresponding guiding wheel set 340 is widened in the downward wringing process of the mop head, thus playing a role of facilitating the leading-in of the mop head; when the mop is moved down again, the mop cloth interacts with the cleaning brush 350, and the hair and dirt adsorbed on the mop cloth are cleaned by the cleaning brush 350, so that the cleaning function of the mop cloth is realized, and then the mop head is positioned in the cleaning chamber 101 in the barrel body 100 along the fixed wringer roller 330, and the driving of the water pumping mechanism 200 is realized. As the mop moves downward, the front part of the mop will press against the flat plate 263 of the driving plate 260 on the water pump 200, and when the mop moves downward, the driving plate 260 compresses the compression spring 250 in the casing 210 of the water pump 200, after the mop is pressed to the bottom of the bucket, the compression spring 250 in the water pump 200 will recover elastic deformation to rebound the mop to the original position, and then the water pump 200 is pressed down again, until the dirty water in the cleaning chamber 101 is pumped out and filtered into the other cleaning chamber 101 of the bucket 100 by the filter tank 400, and at the same time, the cleaning function of the mop is realized. Finally, the mop head is lifted up, the cleaning brush 350 in the wringing mechanism 300 cleans the mop again, and when the mop head is lifted up again, the movable wringing roller 320 is acted on by the mop upwards, so that the distance between the movable wringing roller 320 and the corresponding guide wheel group 340 is narrowed along with the movable track of the waist-shaped hole 311 on the shell 310, and further the mop is dehydrated again.

It can be appreciated that when the circulating dewatering type double-sided barrel of the embodiment is used, the mop head can alternately enter the two cleaning chambers 101 of the barrel body 100, so that the mop on the mop head is cleaned and dewatered, and meanwhile, the circulating use of the water in the barrel body 100 is realized, and compared with the prior art, the circulating dewatering type double-sided barrel has the advantages of saving and protecting the environment.

The technical features of the above-described embodiments may be arbitrarily combined, and all possible combinations of the technical features in the above-described embodiments are not described for brevity of description, however, as long as there is no contradiction between the combinations of the technical features, they should be considered as the scope of the description.

The above examples illustrate only a few embodiments of the invention, which are described in detail and are not to be construed as limiting the scope of the invention. It should be noted that it will be apparent to those skilled in the art that several variations and modifications can be made without departing from the spirit of the invention, which are all within the scope of the invention. Accordingly, the scope of protection of the present invention is to be determined by the appended claims.

Claims (7)

1. The utility model provides a two-sided bucket of circulation dehydration formula which characterized in that: the water pump comprises a barrel body, wherein the barrel body is provided with two cleaning chambers, and each cleaning chamber is internally provided with a water pumping mechanism; the water pump is characterized in that a barrel opening of the barrel body is provided with two squeezing mechanisms and a filter tank, the filter tank is arranged at a position between the two squeezing mechanisms, the two squeezing mechanisms are arranged in one-to-one correspondence with the two pumping mechanisms, and the mop head downwards enters into the cleaning cavity through the squeezing mechanisms, so that the pumping mechanisms can be driven to pump water in one cleaning cavity to the filter tank and filter the water in the other cleaning cavity through the filter tank;

the water pumping mechanism comprises a shell, a water suction pipe, a water outlet pipe and a piston, wherein the water suction pipe, the water outlet pipe and the piston are arranged on the shell, a one-way valve is respectively arranged on a channel, which is connected with the shell, of the water suction pipe and the water outlet pipe, a pressure spring is arranged in the shell, the piston part extends into the shell and is propped against the pressure spring, and a transmission plate is outwards connected with the part, which extends out of the shell, of the piston;

the transmission plate comprises a straight plate part, and a connecting plate part and a flat plate part which are arranged at two ends of the straight plate part, wherein the connecting plate part and the flat plate part are arranged at two opposite sides of the straight plate part and are vertically arranged relative to the straight plate part, the connecting plate part is fixedly connected with the piston at one side far away from the straight plate part, and the flat plate part is opposite to a channel on the wringing mechanism;

the filter tank comprises a tank body, wherein the tank bottom of the tank body is inwards sunken and is provided with a boss so as to divide a chamber area of the tank body into two filter chambers, the side walls of the boss facing the two filter chambers are respectively provided with a water outlet interface, and the two water outlet interfaces are respectively used for connecting water outlet pipes on the two water pumping mechanisms.

2. The circulating dewatering type double-sided bucket according to claim 1, wherein: the bottoms of the two filtering chambers are respectively provided with a plurality of filtering holes, and a melon cloth, a non-woven fabric or a filter screen is arranged above the filtering holes.

3. The circulation dewatering double-sided drum as claimed in claim 2, wherein: the barrel body is provided with a backup pad between two washing cavities, the backup pad upwards stretches into in the cavity that boss formed on the filter vat, just the recess that is used for inlaying the last outlet pipe of water pumping mechanism is seted up respectively to the both sides terminal surface of backup pad.

4. The circulating dewatering type double-sided bucket according to claim 1, wherein: the wringing mechanism comprises a shell, at least one wringing roller arranged in the shell, guide wheel groups arranged in one-to-one correspondence with the wringing rollers, and a cleaning brush, wherein the shell is provided with a channel which is communicated downwards relative to the barrel, and the wringing rollers and the guide wheel groups are respectively arranged on two opposite sides of the channel.

5. The circulating dewatering type double-sided bucket according to claim 4, wherein: the wringing mechanism comprises two wringing rollers which are respectively defined as a movable wringing roller and a fixed wringing roller, wherein the movable wringing roller is arranged above the fixed wringing roller, and the cleaning brush is arranged between the movable wringing roller and the fixed wringing roller and extends outwards into a channel of the shell relative to the movable wringing roller and the fixed wringing roller.

6. The circulating dewatering type double-sided bucket according to claim 5, wherein: the shell is provided with a waist-shaped hole, the waist-shaped hole is obliquely arranged upwards relative to a channel of the shell, and a rotating shaft part of the movable wringing roller is arranged on the waist-shaped hole of the shell and is rotationally connected relative to the waist-shaped hole.

7. The circulating dewatering type double-sided bucket according to claim 1, wherein: the shell of the wringing mechanism and the tank body of the filter tank are respectively provided with a bending plate which is used for being matched with the edge of the barrel opening of the barrel body, and the wringing mechanism and/or the filter tank can be assembled at the barrel opening of the barrel body through the bending plates.