CN212591994U - Automatic mop cleaning mechanism and mop bucket - Google Patents

Abstract

The utility model provides a mop self-cleaning mechanism belongs to daily cleaning products field. Solves the problems that the prior mop bucket needs manual cleaning and mop squeezing. This mop automatic cleaning mechanism is including scraping and washing, removing seat, track and motor, scrapes and washes the setting in removing the seat to make through motor drive transmission structure and remove the seat along track reciprocating motion, thereby scrape washing and crowded water operation to mop wiper is automatic. The utility model has the advantages of automatic mop cleaning, more convenient use, higher cleaning efficiency and higher cleanliness.

Description

Automatic mop cleaning mechanism and mop bucket

Technical Field

The utility model belongs to daily cleaning products field relates to a mop self-cleaning mechanism and mop bucket.

Background

The hand-free mop has the advantages that the use is flexible, the hands of a user do not contact with a wiping object when the mop is cleaned, the hand-free mop is deeply loved by consumers, most of the hand-free mops on the market are provided with handles and water squeezing frames, the mop head is moved and deformed in the water squeezing frames through the handles on the mop pulling rod to realize cleaning and water squeezing, the mop is heavy, the cleaning in a toilet is needed, and sewage can drip on the ground to cause secondary pollution when the user goes to the toilet.

In order to clean the mop conveniently, a mop barrel matched with the mop for use is available on the market, a cleaning barrel and a water squeezing barrel are arranged on the mop barrel, a cleaning/water squeezing device is arranged at a barrel opening, the mop is cleaned in the cleaning barrel, water is squeezed in the water squeezing barrel, the water squeezing device is not arranged on the mop, and the mop is lighter. However, the mop bucket has the following problems: the mop can be cleaned and squeezed by repeatedly moving the mop up and down and squeezing the mop, and the problems of labor waste, inconvenient operation and poor cleaning and squeezing effects exist for users with small strength

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a mop self-cleaning mechanism who solves above-mentioned problem.

In order to achieve the above object, the present invention provides a method for manufacturing a semiconductor device, comprising: a mop press plate comprising:

in order to achieve the above object, the present invention provides a method for manufacturing a semiconductor device, comprising: an automatic mop cleaning mechanism comprising: the scraping and washing piece is contacted with or pressed against one side of the mop, on which the wiping objects are arranged; a movable seat adapted to mount the squeegee so that the squeegee is reciprocally movable in a first direction and/or a direction opposite thereto with respect to the wipe to squeegee, wring, or wash the wipe; the movable seat can move along the rail under the driving of the transmission structure; the motor is arranged in the moving seat and moves along with the moving seat, and the motor is in transmission connection with the transmission structure; the water pump is arranged in the movable seat and moves along with the motor, and is suitable for pumping water and spraying the pumped water flow onto the wiper, so that the wiper can absorb clean water as a whole.

Preferably, the motor comprises an output shaft, the direction of the output shaft is perpendicular to or intersected with the first direction, the water pump and the motor move synchronously along with the moving seat, in a traditional electric cleaning mechanism, the motor usually adopts screw rod transmission, the output shaft of the motor is parallel to the screw rod and the moving direction of the moving seat, and the motor is usually arranged beside the cleaning mechanism along the moving direction of the moving seat, so that the whole electric cleaning mechanism has a longer length and is not simple enough, and when the electric cleaning mechanism is installed in some small mop buckets, the electric cleaning mechanism cannot be installed due to the limitation of the whole length of the bucket body.

Preferably, the transmission structure is gear transmission, and includes the gear assembly, the mounting plane of gear assembly is perpendicular with the mop pole, the transmission structure still including locate on the track, and with the tooth of gear assembly meshing, the removal seat passes through tooth and the transmission of gear assembly is followed the track removes, gear transmission is more stable to the cost is lower.

Preferably, the gear assembly comprises a gear which is respectively connected with an output shaft of the motor and the teeth on the track in a transmission way;

preferably, the gear assembly comprises two gears, a driving gear is connected with an output shaft of the motor, and a driven gear is in transmission connection with the driving gear and the teeth on the track respectively;

preferably, the gear assembly comprises three gears and a guide rod, the driving gear is connected with an output shaft of the motor, the driven gear is in transmission connection with the driving gear and the teeth on the track respectively, the driven gear is further connected with a second driven gear through the guide rod, the driven gear and the second driven gear rotate around the same axis, the area of a single gear can be reduced due to the design of the gears, and space is saved.

Preferably, the transmission structure further comprises teeth arranged on the track and meshed with the gear assembly, and the movable seat moves along the track through transmission of the teeth and the gear assembly.

Preferably, the movable seat comprises a fixing portion used for installing the motor and the water pump, a waterproof cover is arranged in the movable seat, the motor is fixed above the water pump, the motor is prevented from contacting with water, and the failure rate is reduced.

Preferably, the movable seat comprises a fixed part for installing the motor, and the fixed part is sealed with the outside so that the motor is not contacted with the cleaning water; or the motor is arranged in a sealed motor outer cover, the motor outer cover is arranged in the fixing part, the motor is not contacted with the cleaning water, and the failure rate is reduced.

A mop bucket comprises a bucket body, wherein the bucket body comprises an integrated area suitable for scraping, squeezing or cleaning, an insertion hole allowing a mop to enter in the length direction is formed in the integrated area, and the automatic mop cleaning mechanism is further installed in the integrated area.

Preferably, a support structure is further formed or disposed in the tub to support the movable base, thereby providing cleaning stability.

Preferably, the rail is fixedly installed in the tub, and the support structure includes: a first roller movably connected with the movable seat and a first groove arranged at the bottom of the barrel body and used for the first roller to move,

preferably, the supporting structure comprises a second roller movably connected with the moving seat and a second groove arranged on the track and used for the second roller to move,

preferably, the supporting structure comprises a third roller movably connected with the moving seat and a third groove arranged on the rail and used for the third roller to move, friction of the roller is reduced, and the moving seat moves more smoothly.

Preferably, a positioning part suitable for positioning the mop is formed or installed in the barrel body, so that the wiping matters on the mop are kept at the scraping, squeezing or cleaning position, and the shaking of the mop during cleaning is reduced.

Preferably, the barrel body is further provided with a clean water area, clean water in the clean water area is directly extracted by the water pump, or clean water in the clean water area flows into the integrated area through the overflow valve and then is extracted by the water pump and sprayed onto the wiper, and the wiper is cleaned by the clean water each time, so that the cleaning effect is improved.

Preferably, an overflow groove is arranged between the clean water area and the integrated area, or in the cleaning area, or in the integrated area, an overflow valve is arranged on the overflow groove, water in the clean water area flows into the integrated area through the overflow valve, and the water pump pumps water from the lower part when moving in the integrated area, so that the length of the water inlet pipe can be shortened, and the situation that the water inlet pipe is too long and is easy to knot or clamp is avoided.

Preferably, the barrel body is further provided with a sewage area, the sewage area is communicated with the integrated area, water squeezed out by the scraping and washing piece on the wiper can flow into the sewage area, the wiper is not contacted with sewage after being cleaned, and the cleaning effect is improved.

Preferably, the integral area and the sewage area are separated by a partition, and a water flow channel which can communicate the sewage area and the integral area is formed between the two partitions;

preferably, the integrated area and the sewage area are separated by a partition, the upper end of the partition is provided with a groove to form a water flow channel which can communicate the sewage area and the integrated area, and sewage which is convenient to clean and extrude flows into the sewage area

The beneficial effects of the utility model include:

firstly, the automatic mop cleaning mechanism provided by the utility model adopts the water pump to suck and spray water, so that the cleaning is more thorough;

secondly, the utility model adopts gear transmission, compared with the traditional screw transmission, the structure is simpler and the manufacturing cost is lower;

thirdly, the mop bucket provided by the utility model is reasonable in partition arrangement, and clean water and sewage are separated and cleaned;

fourthly, the utility model provides a mop bucket degree of automation is high, convenient to use.

Drawings

Fig. 1 is the overall schematic view of the barrel body of the present invention.

FIG. 2 is the explosion diagram of the barrel body of the present invention

Fig. 3 is a schematic view of the cleaning mechanism of the present invention.

Fig. 4 is a schematic sectional view of the cleaning mechanism of the present invention.

Fig. 5 is a schematic view of the movable seat and the scraping and washing member of the present invention.

Fig. 6 is a schematic sectional view of the movable seat of the present invention.

Fig. 7 is a schematic view of the positioning part of the mop of the present invention.

Fig. 8 is a schematic view of the mop bucket in different areas.

Detailed Description

The invention will be further explained by the embodiments with reference to the drawings.

Example 1

Referring to fig. 1-8, a mop automatic cleaning mechanism, includes staving 1, bung 2, motor 33, track 11, removes seat 30 and sets up scraping and washing 31 on removing seat 30, is equipped with washing and crowded water integrative district in the staving 1, and bung 2 sets up in staving 1 opening part and only sets up an inserted hole 21 that can hold mop 3 and get into above washing and crowded water integrative district with staving 1 sealed, as preferred, inserted hole 21 length and width direction respectively with mop 3's length and thickness adaptation, the height of staving 1 is a little more than mop 3's width.

The positioning part 4 is arranged on one side of the insertion hole 21 of the barrel body 1, the positioning part 4 comprises a positioning groove 41 matched with the mop 3 and an avoiding groove 42 matched with a mop rod, the moving seat 30 is arranged on the other side of the barrel body 1 opposite to the insertion hole 21, the mop 3 enters the barrel body 1 from the insertion hole 21, the mop 3 is embedded into the positioning groove 41, the mop rod is embedded into the avoiding groove 42, the mop 3 is supported and held by the bottom surface of the positioning groove 41 and used for limiting the insertion depth of the mop 3, the side surface of the positioning groove 42 is used for supporting the back surface or the side surface of the mop 3, so that the mop 3 can be stably stressed when being scraped and squeezed under the clamping action of the positioning groove 42 and the moving seat 30, the width of the positioning groove 41 is matched with the length or the width of the mop 3, the length is matched with the length or the width of. Preferably, the width of the positioning groove 41 is matched with the width of the mop 3, the mop 3 is positioned between the barrel wall and the moving seat 30 through the positioning groove 41, the mop 3 is transversely arranged and is wholly in a nearly vertical state, the back surface or two end surfaces of the mop 3 are abutted against the side surfaces of the positioning groove 41, the depth of the positioning groove 41 is larger than the width of the mop 3, and water splashing during scraping and wringing is avoided.

The movable base 30 is connected with the barrel body 1 through a transmission structure, the transmission structure comprises a driving gear 341 and a driven gear 342, and teeth 110 arranged on the guide rail 11 of the barrel body 1, an output shaft of the motor 33 is coaxially fixed with the driving gear 341, and the motor 33 rotates to drive the driving gear 341 to rotate and drive the driven gear 342 to rotate. The driving gear 341 and the driven gear 342 are in meshed transmission. The driven gear 342 is disposed outside the movable seat 30 or within the movable seat 30 and at least partially outside the contour of the movable seat 30, preferably, the driven gear 342 is disposed on the upper end surface or the lower end surface of the movable seat 30, one side wall of the guide rail 11 is fixed to the tub wall, and the other opposite side wall is provided with the teeth 110 adapted to the driven gear 342, preferably, the guide rail 11 is approximately horizontal, and the movable seat 30 moves horizontally under the transmission action of the gear 34 and the guide rail 11, so as to improve the flexibility and stability of the movement of the movable seat 30.

The movable base 30 includes a fixing portion 301 for fixing the motor 33, and the fixing portion 301 is opened with a hole, and an output shaft of the motor 33 or an electric wire can be extended from the fixing portion 301. The moving seat 30 is also provided with a waterproof cover which can prevent the motor 33 from contacting with water and reduce the failure rate. One side wall of the fixing part 33 is also detachably provided with a cover plate 303 which can be used for installing or overhauling the motor 33. The motor 33 is fixed in the fixing portion 301, an output shaft of the motor 33 is connected to the gear in a transmission manner, and the motor 33 is driven by the transmission structure to drive the moving seat 30 to horizontally move along the guide rail 11.

The barrel body 1 is further provided with a control device, the control device is electrically connected with the motor 33, and the electric wire penetrates through the threading hole in the top of the moving seat 30 and then is connected with the motor 33, so that the electric wire can be prevented from contacting cleaning water. Preferably, an electrical connection plug is provided at a corresponding position of the movable seat 30 or the bottom of the tub cover 2, and the electrical connection plug is disconnected or connected when the movable seat 30 is removed or installed.

The control means controls the motor 33 to rotate for a preset time or a preset rotation stroke. For example, first, the driving motor rotates forward for a preset time or a preset rotation stroke to drive the transmission structure such that the movable base 30 moves in a first direction to scrape, squeeze or clean the wiper, and then, the driving motor 33 rotates backward for a preset time or a preset rotation stroke to drive the transmission structure such that the movable base 30 moves in a direction opposite to the first direction to scrape, squeeze or clean the wiper. Preferably, the preset time may be set to 2s, or the preset stroke may be set to be smaller than the length of the inner tub of the mop bucket, etc.

To maintain the smoothness of the movable base 30 during movement, it is preferable to further include a support structure.

In this embodiment, the supporting structure includes a first roller 304 movably connected to the movable base 30 and a first groove 111 at the bottom of the barrel 1 for the first roller 304 to move. The supporting structure further includes a second roller 112 movably connected to the movable base 30 and a second groove 111 on the rail 11 for allowing the second roller 112 to move. By means of the symmetry in the top and bottom and the additional roller support on the side remote from the wiper, the mobile seat 30 is prevented from being too unstable or toppling over during the wiping process. The supporting structure is located on the guide rail 11, the supporting structure fixes the movable seat 30 at a corresponding height to scrape and squeeze the mop wiper 36, and the roller 112 can reduce the friction force when the movable seat 30 moves to make the movable seat 30 move more smoothly.

In other embodiments, the support structure may be in other forms, and only need to ensure the support without affecting the smooth sliding of the movable base 30. For example, the support structure may be formed using only the first roller 304 and the first groove 111, or only the second roller 112 and the second groove 111. Or, the supporting structure may further include a third roller movably connected to the movable base 30 and a third groove for the third roller to move on the lower rail 12.

The movable seat 30 further comprises a mounting part 302 for mounting the scraping and washing part 31, the mounting part 302 is opened at one side close to the mop wiping material 36, the scraping and washing part 31 is arranged at the opening, the scraping and washing part 31 is positioned between the mop 3 and the mounting part 302, and the scraping and washing part 31 can be any one or any combination of a scraping plate, a scraping blade, brush teeth and a water squeezing roller.

In this embodiment, the scraping and washing members 31 are two wringing rollers rotatably connected to the mounting portion 302 on the same plane, and the rotatable connection enables the wringing rollers to scrape and wring the mop wiper 36 when the movable base 30 reciprocates along the guide rail 11, and the rotation direction of the wringing rollers is perpendicular to the moving direction of the movable base 30, so that water scraped by the mop wiper 36 can flow downward, thereby improving the scraping and wringing effects. The water squeezing stick is in a cylinder shape, and comprises a fan-shaped area 311 and a hollow-out area 312 adjacent to the fan-shaped area 311; the fan-shaped area 311 comprises two edges, and in the self-rotating process of the water squeezing stick, the fan-shaped area 311 is movably abutted against the mop wiping material 36; when the virtual outer contour of the hollow-out area 312 is staggered with the mop wipe 36, the outer edge of the mop wipe 3 will cross the virtual outer contour of the hollow-out area 312 to extend into the hollow-out area 312; when the contact end of the water squeezing stick and the mop wiper 36 rotates from the hollow area 312 to the sector area 311, the outer edge of the mop wiper 36 extending into the hollow area 312 is blocked by the sector area 311 to form scraping and washing, and meanwhile, the washing and squeezing sewage can flow downwards from the hollow area.

The fixing portion 301 is further provided with a water pump 32, the water pump 32 is respectively connected with a water inlet pipe and a water outlet pipe, the water inlet pipe is communicated with the barrel body 1, the water outlet pipe faces the opening of the mounting portion 302, and the end of the water outlet pipe is provided with a water spraying port 321 or is provided with the water spraying port 321 on the movable seat 30. In other embodiments, the water inlet pipe or the water outlet pipe can form a water channel by using a partition plate or a partition wall or a drainage groove or a drainage surface so as to pump water or spray water.

The water jets 321 may be in the form of nozzles or perforated nozzles to direct the extracted water evenly onto the wipe. Preferably, the water spraying port 321 is disposed below the movable seat 30 and near the water pump to save the water path stroke. In other embodiments, the water jet 321 can be located above the movable base 30 to guide the water to uniformly wet the wipes by utilizing the gravity flow of the water. The water spraying force is adjusted according to the shape of the water spraying opening and the arrangement position adaptability of the water spraying opening, so that the water spraying effect is ensured while the water splashing is prevented.

The water pump 32 is electrically connected with the control device, and can automatically control the water pump 32 to pump water or stop pumping water, so that the scraping and washing piece 31 can automatically switch between the water spraying and scraping state and the non-water spraying and squeezing state, and the convenience of cleaning and squeezing the mop wiping objects 36 is improved.

The function and advantages of the respective components will be further described by illustrating a process of cleaning the mop 3 using the tub 1. The mop 3 is inserted into the bucket 1 from the top down along the insertion opening 21, and the mop 3 is positioned on the bucket 1 by the positioning part as required in the above state, i.e., the mop wiper 36 abuts or presses against the wiper 31. Clean water is contained in the barrel body 1, the power supply is started, and the control device firstly controls the water pump 32 and the motor 33 to operate to wash the mop wiping objects 36. Specifically, the water pump 32 causes water to be ejected from the water jet 321 and onto the mop wipe 36, the water wets the mop wipe 36 and the water stream can wash away some of the dirt. The motor 33 drives the moving seat 30 to horizontally reciprocate along the guide rail 11; during which the scraper 31 scrapes over the mop wipe 36, the scraper 31 removes contaminants from the mop wipe 36, and squeezes out the contaminated water in the mop wipe 36; the water flow takes away impurities and sewage.

After the flushing is completed, the control device controls the water pump 32 to stop running and controls the motor 33 to continue running. Specifically, the motor 33 continues to drive the movable base 30 to horizontally reciprocate along the guide rail 11, and in the process, the scraper 31 scrapes the mop wiper 36, and the scraper 31 pushes out the accumulated water in the mop wiper 36.

The control device controls the motor 33 to stop running, and the scraping and washing part 31 is positioned in the middle of the mop barrel 1, so that the scraping and washing part 31 has an auxiliary guiding function, the mop 3 can be embedded into the positioning groove 41 more easily, the positioning accuracy is improved, and the balance weight of the mop barrel 1 can be balanced.

Example 2

The structure and principle of this embodiment are basically the same as those of embodiment 1, except that: and the transmission structure is simplified.

The gear 34 is directly connected with the output shaft of the motor 33 in a transmission way, and the gear 34 is simultaneously connected with the teeth 110 on the guide rail 11 in a transmission way. The guide rod 350 is not arranged to transmit up and down simultaneously, and the number of transmission gears is simplified. In other embodiments, the increase or decrease in compliance may be accomplished to accommodate stability, or transmission cost requirements.

Example 3

The structure and principle of this embodiment are basically the same as those of embodiment 1, except that: the control means are controlled in different ways.

The touch switch 12 is disposed in the moving range of the rail 11 or the moving base 30, and when the moving base 30 moves to a certain position and contacts the touch switch 12, the touch switch 12 transmits a signal to the motor 33, and the motor 33 rotates reversely, so that the moving base 30 moves in the opposite direction.

Example 4

The structure and principle of this embodiment are basically the same as those of embodiment 1, except that: the barrel body is provided with a clear water area and a sewage area.

Mop bucket, including staving 1 and bung 2, be equipped with clear water district 6, sewage district 5 and be used for wasing and crowded integrative district 10 of water in the staving 1, bung 2 is located clear water district 6 tops and is equipped with water filling port 60, is equipped with mop inserted hole 21 above integrative district, holds the clear water that is used for wasing wiper 36 in clear water district 6, and in this embodiment, water pump 32 directly extracts the clear water from clear water district 6 and washs wiper 36.

In other embodiments, the water pump 32 may be connected to the clean water area 6 in other ways, such as by providing an overflow between the clean water area 6 and the integrated area 10, or by providing an overflow in the clean water area 6, or by providing an overflow in the integrated area 10. Or, an overflow valve 62 can be arranged on the basis of the original overflow tank and is used for automatically controlling the clean water to flow from the clean water area 6 to the integrated area 10. Clear water flows to integrative district 10 from clear water district 6, and the inlet tube of water pump 32 naturally hangs down in water pump 32 below, and when water pump 32 moved along wiper 36, the inlet tube can be taken water from water pump 32 below all the time, has shortened the water pipe length that water pump 32 need take water from clear water district 6 greatly to behind the water level reduction in integrative district 10, clear water is automatic to be supplied to integrative district 10 from clear water district 6.

The integral body area 10 and the sewage area 5 are separated by the partition, in this embodiment, the upper end of the partition is slotted to form a water flow channel for communicating the sewage area 5 and the integral body area 10, water cleaned and extruded by the wiper 36 naturally flows downwards and flows into the sewage area 5 through the guidance of the water flow channel, so that the water cleaned and extruded by the wiper 36 is prevented from flowing into the bottom of the integral body area 10 to be mixed with clean water, and the cleaning efficiency and effect of the wiper 36 can be improved.

In other embodiments, the water flow channel can be divided by other means, such as a partition wall separating the integrated area 10 from the waste area 5, and a water flow channel connecting the waste area 5 and the integrated area 10 is formed between the two partition walls. Or on the basis of arranging the water flow channel on the partition board, a raised boss is arranged below the mop 3 in the integrated area 10, the boss is communicated with the water flow channel and is higher than clear water in the integrated area 10, and sewage cleaned and extruded by the wiper 36 naturally flows downwards onto the boss and then flows into the sewage area 5 through the water flow channel.

Example 5

As shown in fig. 7, the structure and principle of the present embodiment are basically the same as those of embodiment 1, except that: the improvement of the positioning state of the mop plate during scraping and washing.

The barrel cover 2 is provided with a positioning part 4 on one side of the insertion hole 21, the positioning part 4 comprises a positioning groove 41 matched with the mop 3 and an avoiding groove 42 matched with the mop rod, the positioning groove 41 is arranged on two sides of the insertion hole 21 and extends into the barrel body 1, the mop 3 enters the barrel body 1 from the insertion hole 21, the mop 3 is embedded into the positioning groove 41, the mop rod is embedded into the avoiding groove 42, the side surface of the positioning groove 42 is abutted by the back surface or two end parts of the mop 3, so that the mop 3 can stably bear force when being scraped and squeezed under the action of the positioning groove 42, the width of the positioning groove 41 is matched with the thickness of the mop 3, the mop 3 is positioned on one side of the moving seat 30 through the positioning groove 41, the mop 3 is transversely arranged and is integrally positioned in a nearly vertical state, the upper end part of the positioning groove 41 is higher than the width of the mop.

Claims (13)

1. An automatic mop cleaning mechanism, comprising:

the scraping and washing piece is contacted with or pressed against one side of the mop, on which the wiping objects are arranged;

a movable seat adapted to mount the squeegee so that the squeegee is reciprocally movable in a first direction and/or a direction opposite thereto with respect to the wipe to squeegee, wring, or wash the wipe;

the movable seat can move along the rail under the driving of the transmission structure;

the motor is arranged in the moving seat and moves along with the moving seat, and the motor is in transmission connection with the transmission structure;

the water pump is arranged in the movable seat, moves along with the motor, and is suitable for pumping water and spraying pumped water flow onto the wiper.

2. The automatic mop cleaning mechanism as claimed in claim 1, wherein the motor includes an output shaft, the direction of the output shaft is perpendicular to or intersects with the first direction, and the water pump and the motor move synchronously with the movable base.

3. The automatic mop cleaning mechanism of claim 2, wherein the transmission structure is a gear transmission structure, the transmission structure comprises a gear assembly, a mounting plane of the gear assembly is perpendicular to the mop rod, the transmission structure further comprises teeth arranged on the track and meshed with the gear assembly, and the movable base moves along the track through the transmission of the teeth and the gear assembly.

4. The automatic mop cleaning mechanism of claim 3,

the gear assembly comprises a gear which is in transmission connection with an output shaft of the motor and the teeth on the track respectively;

and/or the gear assembly comprises two gears, a driving gear is connected with an output shaft of the motor, and a driven gear is in transmission connection with the driving gear and the teeth on the track respectively;

and/or the gear assembly comprises three gears and a guide rod, the driving gear is connected with an output shaft of the motor, the driven gear is respectively in transmission connection with the driving gear and the teeth on the track, the driven gear is further connected with a second driven gear through the guide rod, and the driven gear and the second driven gear rotate around the same axis.

5. The automatic mop cleaning mechanism of claim 4, wherein the movable base includes a fixing portion for mounting the motor and the water pump, a waterproof cover is disposed in the movable base, and the motor is fixed above the water pump.

6. A mop bucket, comprising a bucket body, wherein the bucket body comprises an integrated area suitable for scraping, squeezing or cleaning, an insertion opening for a mop to enter in the length direction is arranged on the integrated area, and an automatic mop cleaning mechanism as claimed in any one of claims 1 to 5 is further arranged in the integrated area.

7. A mop bucket according to claim 6, wherein a support structure is also formed or provided within the bucket body.

8. The mop bucket of claim 7, wherein the track is fixedly mounted within the bucket body, and the support structure comprises:

a first roller movably connected with the movable seat and a first groove arranged at the bottom of the barrel body and used for the first roller to move,

and/or the supporting structure comprises a second roller movably connected with the moving seat and a second groove arranged on the track and used for the second roller to move,

and/or the supporting structure comprises a third roller movably connected with the movable seat and a third groove arranged on the track and used for the third roller to move.

9. A mop bucket according to claim 8, in which a locating portion is formed in or mounted to the bucket body and is adapted to locate a mop such that a wipe thereon is held in a wiping, wringing or cleaning position.

10. A mop bucket as claimed in any one of claims 6 to 9, wherein the bucket body is further provided with a clean water zone, clean water in the clean water zone is directly pumped by the water pump, or clean water in the clean water zone is pumped by the water pump after flowing into an integral zone through an overflow valve and sprayed onto the wipes.

11. A mop bucket according to claim 10, wherein an overflow trough is provided between the clean water zone and the integral zone, or inside the clean water zone, or inside the integral zone, and provided with an overflow valve, and water in the clean water zone flows into the integral zone through the overflow valve.

12. The mop bucket of claim 10, wherein the bucket body further comprises a sump area, the sump area being in communication with the integral area, the water squeezed from the wipes by the wiper element being able to flow into the sump area.

13. The mop bucket of claim 12, wherein said integral body is separated from said waste region by a partition, said partition defining a water flow path therebetween for communicating said waste region with said integral body;

or the integrated area and the sewage area are separated by a partition plate, and the upper end of the partition plate is provided with a groove to form a water flow channel which can be communicated with the sewage area and the integrated area.

Images