CN218128439U - Mop cleaning barrel - Google Patents

Abstract

The utility model provides a mop cleaning barrel belongs to burnisher technical field, has solved the not good problem of prior art washing mop effect. The utility model discloses a staving is equipped with clean chamber in, the staving be equipped with pump water mechanism in, the top of pump water mechanism has rotary joint, rotary joint and pump water mechanism between be equipped with clutching mechanism, clutching mechanism can make rotary joint and pump water mechanism circumference link firmly or separate, the staving lateral part still be equipped with the water conservancy diversion structure, the fluid water conservancy diversion that the water conservancy diversion structure can drive when rotating the mop head is to along staving radial direction inward flow. The utility model can guide the fluid thrown out from the mop head and the fluid accumulated on the supporting seat by arranging the flow guide structure on the barrel body, and the guided fluid can be washed to the side part and the top part of the mop head, thereby improving the cleaning effect; the rotary joint is circumferentially and fixedly connected with the water pumping mechanism through the clutch mechanism, and the rotary joint is circumferentially and fixedly connected with the water pumping mechanism to enable the water pumping mechanism to work.

Description

Mop cleaning barrel

Technical Field

The utility model belongs to the technical field of cleaning tools, particularly, relate to a mop cleaning barrel.

Background

The mop is the most common cleaning tool for cleaning floors, the mop which is used for cleaning wet floors is the most environment-friendly and convenient floor cleaning mode, the floor is usually cleaned by water after the mop is used, and in the prior art, a mop bucket for cleaning the mop is invented for more conveniently cleaning the mop.

The mop bucket in the prior art has the defect that the mop head is only cleaned from the bottom, but the top and the side parts of the mop head are difficult to clean, so that cleaning dead corners exist, and the cleaning effect is poor.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a mop cleaning barrel with good cleaning effect aiming at the problems in the prior art.

The purpose of the utility model can be realized by the following technical proposal: the utility model provides a clean bucket of mop, includes the staving, the staving in be equipped with clean chamber, clean intracavity be equipped with pump water mechanism, the top of pump water mechanism rotary joint has, rotary joint and pump water mechanism between be equipped with clutching mechanism, clutching mechanism can make rotary joint and pump water mechanism circumference link firmly or separate, the staving lateral part still be equipped with the water conservancy diversion structure, the water conservancy diversion structure can drive when rotating the mop head fluid water conservancy diversion extremely along staving radial direction inward flow.

The fluid thrown out of the mop head and the fluid accumulated on the supporting seat can be guided by arranging the flow guide structure on the barrel body, and the guided fluid can be washed to the side and the top of the mop head, so that the cleaning effect is improved; in the cleaning process, make rotary joint and pump water mechanism circumference link firmly through clutching mechanism, the mop is electronic rotatory or manual rotatory, and link firmly through rotary joint and pump water mechanism circumference and make pump water mechanism work, the water inlet of pump water mechanism is located the bottom in clean chamber and is located under the water level line, thereby the work of pump water mechanism can upwards spout water and spray and carry out the washing to the mop on the mop, the impurity that washes down can be stayed in the aquatic and can not washed to the mop along with rivers once more, increase abluent efficiency.

In foretell mop cleaning barrel, water conservancy diversion structure include the direction cambered surface of staving lateral part, direction cambered surface one end be located the staving inner wall, the other end inwards extends along the staving radial direction, including setting up in the high lift seat of staving inner wall, the tip and the direction cambered surface of high lift seat be connected, the height that highly promotes that the seat is close to direction cambered surface one end highly be higher than the height of keeping away from direction cambered surface one end, high lift seat be inclined plane or cambered surface.

The side part of the barrel body is provided with the guide cambered surface to guide the fluid to a position close to the mop head, and the mop head is flushed by the inertia of the flowing fluid; the fluid position can be gradually increased by arranging the height lifting seat, so that the mop head can be conveniently flushed by fluid.

In foretell mop cleaning barrel, water conservancy diversion structure still including set up in the water conservancy diversion baffle of high promotion seat top, water conservancy diversion baffle one side and staving inner wall connection, the opposite side is equipped with and is curved guide part, the width that arc guide part is close to direction cambered surface one side is greater than the width of keeping away from direction cambered surface one side.

The guide baffle is used for limiting the sputtering of the fluid in the height direction after the fluid collides with the guide cambered surface, and ensuring that the fluid is only guided inwards in the radial direction of the barrel body and lifted in the height direction of the barrel body after being guided; the arc-shaped guide part is used for preventing the mop cloth from directly interfering with the flow guide baffle when the mop head rotates, and even if the interference is formed at one end with the largest width, the guide can be formed at one end with the small width.

In the mop cleaning bucket, the clutch mechanism comprises gear rings which are respectively arranged between the rotating shaft of the water pumping mechanism and the rotating joint and can be meshed with each other.

The circumferential fixing of the rotary joint and the water pumping mechanism is carried out in a way that the gear ring arranged on the rotating shaft of the water pumping mechanism is meshed with the gear ring arranged on the rotary joint.

In the mop cleaning bucket, a guiding and positioning structure which can enable the rotary joint and the water pumping mechanism to be circumferentially fixedly connected and separated is further arranged between the cleaning cavity and the rotary joint, the guiding and positioning structure comprises a first positioning part and a second positioning part, a track area is arranged between the first positioning part and the second positioning part, a sliding block which slides in the track area is arranged on the rotary joint, the sliding block is positioned at the first positioning part and can enable the rotary joint and the water pumping mechanism to be separated, and the sliding block is positioned at the second positioning part and can enable the rotary joint and the water pumping mechanism to be circumferentially fixedly connected.

The guide positioning structure has the functions of realizing the switching between the circumferential fixedly connected state and the separated state of the rotary joint and the water pumping mechanism, and also has the positioning function, and the guide positioning structure can enable the rotary joint and the water pumping mechanism to be always in the circumferential fixedly connected state or in the separated state, so that the mop can be stably in a cleaning state or a spin-drying state; when the mop is in a cleaning state, the sliding block slides to the second positioning part, and the rotary joint and the water pumping mechanism are in a circumferentially fixedly connected state through two circles of gear rings and perform cleaning work on the mop; when the cleaning state is switched to the spin-drying state, the sliding block is separated from the second positioning part and slides in the track area, the sliding block slides along the track area and slides to the first positioning part, the sliding block and the rotary joint synchronously move, and the rotary joint and the water pumping mechanism are separated at the moment, so that the mop rotates to be in the spin-drying state. In the same way, when the mop spin-drying state is switched to the cleaning state, the sliding block is also moved from the first positioning part to the second positioning part.

In the mop cleaning barrel, the first positioning part is located at the upper end of the track area, the second positioning part is located at the lower end of the track area, the rotary joint moves downwards to enable the rotary joint to be clamped with the water pumping mechanism through the clutch mechanism, the rotary joint moves upwards to enable the rotary joint to be disconnected with the water pumping mechanism, the first positioning part and the second positioning part respectively comprise two clamping surfaces which are connected with each other, an acute angle is formed between the two clamping surfaces which are connected with each other, and the sliding block can abut against the two clamping surfaces which are connected with each other.

When the mop is switched to a spin-drying state, the mop is lifted upwards, so that the sliding block is driven to slide upwards on the track area, and the sliding block is moved to the first positioning part from the second positioning part; when the mop is switched to a cleaning state, the mop is moved downwards, the sliding block is moved from the first positioning part to the second positioning part, and therefore the rotary joint and the water pumping mechanism are circumferentially and fixedly connected. In addition, no matter the mop rotates in a cleaning state or in a spin-drying state, the sliding block is clamped at the second positioning part or the first positioning part, the rotating state of the mop stably runs, and the rotating joint and the water pumping mechanism are stably in a fixed connection or separation state. In addition, the upper side of the mop shows that the rotary joint is separated from the water pumping mechanism, and the lower side of the mop shows that the rotary joint is fixedly connected with the water pumping mechanism, so that the cleaning or spin-drying state of the mop can be visually displayed.

The mop is vertically downward due to the gravity of the mop, and the mop is moved in the vertical direction to realize the switching of the cleaning or drying state of the mop. One of the two mutually connected clamping surfaces is a transverse surface, the other clamping surface is a vertical surface, when the mop is in a cleaning or spin-drying state, the sliding block is propped against the corresponding transverse surface, and in a rotating state, the sliding block always rotates towards the direction of the corresponding vertical surface, so that the sliding block is propped against the vertical surface and supported on the transverse surface all the time, the stable operation of the rotating state of the mop is realized, and the rotating joint and the water pumping mechanism are in a fixed connection or separation state and are stable.

In the mop cleaning barrel, the guiding and positioning structure further comprises a plurality of track areas, the track areas are in an annular array shape along the outer surface of the water pumping mechanism, the track areas are sequentially connected end to form a closed circulation channel, the rotary joint is provided with a hollow rotary drum, the water pumping mechanism is in sliding connection with the rotary drum, the rotary drum extends into the water pumping mechanism, the track areas are arranged on the outer ring of the water pumping mechanism, and the sliding block is arranged on the rotary drum.

When the cleaning or spin-drying state of the mop is switched, the mop is rotated in the opposite direction during working, so that the sliding block and the first positioning part or the second positioning part slide to the other second positioning part or the first positioning part in the track area. The plurality of track areas form a closed circulation channel, and the mop can switch the cleaning or drying state of the mop in one direction along the track areas in a cycle; the rotary drum is used for connecting the rotary joint with the sliding block, and the rotary drum is sleeved in the water pumping mechanism and is in sliding connection with the inner wall of the outer ring of the water pumping mechanism.

In foretell clean bucket of mop, still including rotating the clean gyro wheel that sets up in clean intracavity, clean intracavity be equipped with the gyro wheel support, clean gyro wheel and gyro wheel support between be equipped with the elasticity piece that resets, rotary joint on still be equipped with a plurality of sprinkler bead, a plurality of sprinkler bead all communicates with the delivery port of pump water mechanism.

Under the washing state, the mop supports on clean gyro wheel, and extrudees clean gyro wheel and makes elasticity reset the piece and warp, and the reaction force that elasticity reset the piece makes clean gyro wheel support on the mop, washs the mop along with spraying of pumping mechanism. Water sprayed by the water pumping mechanism is sprayed out of the plurality of spraying ports, the plurality of spraying ports can be arranged in an annular array, and the sprayed water can be uniformly sprayed on the mop.

In foretell mop cleaning barrel, as another kind of scheme, the staving in still be equipped with and be used for supporting mop head pivoted supporting seat, staving inside wall articulated have the first brush body that can scrub mop head top, the supporting seat on be equipped with the second brush body that can scrub mop head bottom and be used for the round brush of roll scrubbing mop head, the supporting seat on lie in the both sides of second brush body and be equipped with first mouth of a river, the supporting seat on lie in the both sides of round brush and be equipped with the second mouth of a river.

The top and the bottom of mop are scrubbed through first brush body, second brush body respectively, and the round brush rotates and washs the mop head to set up first mouth of a river and second mouth of a river and let in sewage bottom the staving.

In the mop cleaning barrel, the barrel body is internally provided with the blocking object, the blocking object blocks the barrel body into the clear water area and the cleaning area, the water inlet end of the water pumping mechanism is communicated with the clear water area, the water outlet end of the water pumping mechanism is communicated with the cleaning area, the blocking object comprises a cover plate arranged on the barrel body, the cover plate divides the barrel body into the clear water area and the cleaning area, the blocking object also comprises a partition plate arranged at the bottom of the barrel body, the cover plate, the partition plate and the barrel body form the clear water area, and the cover plate is provided with a water injection hole for injecting clear water into the clear water area.

The clear water area and the cleaning area are horizontally separated from the water storage space in the barrel body by arranging the separating objects, so that the clear water area and the cleaning area are integrally designed, the barrel body can independently store clear water and sewage by only one barrel, disassembly and assembly are not needed, and the cost and the disassembly and assembly labor force when two barrels are needed are reduced; the cover plate is arranged to seal the top of the clean water area, so that dirty water in the cleaning area can be effectively prevented from being splashed into the clean water area from the top in the cleaning process of the mop cloth, and clean water in the clean water area is polluted; this bucket is at the cleaning process, and pump water mechanism makes the clear water in the clear water district constantly reduce from the bottom of clear water district suction to the mop with the clear water, and the setting up of water injection hole can make the staff continuously inject the clear water from the water injection hole in to the clear water district.

Compared with the prior art, the utility model can guide the fluid thrown from the mop head and the fluid accumulated on the supporting seat by arranging the flow guide structure on the barrel body, and the guided fluid can be washed to the side part and the top part of the mop head, thereby improving the cleaning effect; in the cleaning process, the rotating joint is circumferentially and fixedly connected with the water pumping mechanism through the clutch mechanism, the mop is electrically rotated or manually rotated, the water pumping mechanism works through the circumferential and fixedly connected of the rotating joint and the water pumping mechanism, the water inlet of the water pumping mechanism is positioned at the bottom of the cleaning cavity and below the water level line, water can be upwards sprayed out and sprayed onto the mop through the work of the water pumping mechanism, so that the mop is cleaned, and the washed impurities can be left in the water and cannot be washed onto the mop along with the water flow again, so that the cleaning efficiency is improved; the side part of the barrel body is provided with the guide cambered surface to guide the fluid to a position close to the mop head, the mop head is flushed by the inertia of the flowing fluid, and the position of the fluid can be gradually increased by using the height lifting seat, so that the mop head can be flushed by the fluid; the circumferential fixing of the rotary joint and the water pumping mechanism is carried out in a way that the gear ring arranged on the rotating shaft of the water pumping mechanism is meshed with the gear ring arranged on the rotary joint.

Drawings

Fig. 1 is a schematic perspective view of the present invention;

FIG. 2 is a schematic view of the present invention after hiding a part of the structure;

FIG. 3 is a schematic cross-sectional view of FIG. 1;

FIG. 4 is a schematic perspective view of the mop cleaning device of the present invention;

FIG. 5 is a partial schematic structural view I of the present invention;

FIG. 6 is a schematic view of a part of the structure of the present invention;

FIG. 7 is a third schematic view of a part of the structure of the present invention;

fig. 8 is a schematic view of a part of the structure of the present invention;

fig. 9 is a partial schematic structural view of the present invention;

fig. 10 is a schematic view of a part of the structure of the present invention;

fig. 11 is a schematic perspective view of the second embodiment of the present invention;

FIG. 12 is a schematic cross-sectional view of FIG. 11;

in the figure, 1, a barrel body; 2. a supporting seat; 3. a water pumping mechanism; 4. a flow guide structure; 41. a guiding cambered surface; 42. A height lifting seat; 43. a flow guide baffle; 431. a guide portion; 5. a first brush body; 6. cleaning the cavity; 7. a second brush body; 8. a first lower nozzle; 9. rolling and brushing; 10. a second drain port; 11. a mop head; 12. a spiral water taking plate; 13. a screw joint; 14. a clutch mechanism; 15. a guiding and positioning mechanism; 16. a first positioning portion; 17. a second positioning portion; 18. a track area; 19. a sliding block; 20. clamping the surface; 21. a rotating drum; 22. cleaning the roller; 23. a roller bracket; 24. a spray opening; 25. a barrier; 251. a cover plate; 252. a partition plate; 253. A water injection hole; 26. a clear water zone; 27. and (4) a sewage area.

Detailed Description

The following are specific embodiments of the present invention and the accompanying drawings are used to further describe the technical solution of the present invention, but the present invention is not limited to these embodiments.

Example 1

As shown in fig. 1-10, this embodiment includes a barrel body 1, a cleaning chamber 6 is provided in the barrel body 1, a water pumping mechanism 3 is provided in the cleaning chamber 6, a rotary joint is provided above the water pumping mechanism 3, a clutch mechanism 14 is provided between the rotary joint and the water pumping mechanism 3, the clutch mechanism 14 can make the rotary joint and the water pumping mechanism 3 circumferentially fixedly connected or separated, a flow guide structure 4 is further provided at a side portion of the barrel body 1, and the flow guide structure 4 can guide a fluid driven by the rotation of the mop head 11 to flow inward along a radial direction of the barrel body 1.

The flow guide structure 4 is arranged on the barrel body 1, so that the flow guide can be carried out on the fluid thrown out of the mop head 11 and the fluid accumulated on the supporting seat 2, the guided fluid can be washed to the side and the top of the mop head 11, and the cleaning effect is improved; in the cleaning process, make swivel joint and 3 circumference of pump water mechanism link firmly through clutching mechanism 14, the mop is electronic rotatory or manual rotatory, and link firmly through swivel joint and 3 circumferences of pump water mechanism and make the work of pump water mechanism 3, the water inlet of pump water mechanism 3 is located the bottom in clean chamber 6 and is located the water level line below, thereby the work of pump water mechanism 3 can upwards spout water and spray and carry out the washing to the mop on the mop, the impurity that washes down can be stayed in the aquatic and can not washed to the mop along with rivers once more, increase abluent efficiency.

The water conservancy diversion structure 4 include the direction cambered surface 41 of 1 lateral part of staving, direction cambered surface 41 one end be located 1 inner wall of staving, the other end is along 1 radial direction internal extensions of staving, including setting up in the high lift seat 42 of 1 inner wall of staving, the tip and the direction cambered surface 41 of high lift seat 42 be connected, high lift seat 42 be close to the height that highly is higher than keeping away from direction cambered surface 41 one end of direction cambered surface 41, high lift seat 42 be inclined plane or cambered surface.

The side part of the barrel body 1 is provided with the guide cambered surface 41 to guide the fluid to a position close to the mop head 11, and the mop head 11 is flushed by the inertia of the fluid; the fluid position can be raised incrementally by providing a height lift 42 to facilitate fluid flushing of the mop head 11.

The diversion structure 4 still including setting up in the water conservancy diversion baffle 43 of high lift seat 42 top, water conservancy diversion baffle 43 one side and 1 inner wall connection of staving, the opposite side is equipped with and is curved guide part 431, the width that arc guide part 431 is close to direction cambered surface 41 one side is greater than the width of keeping away from direction cambered surface 41 one side.

The flow guide baffle 43 is used for limiting the sputtering of the fluid in the height direction after the fluid collides with the guide cambered surface 41, and ensuring that the fluid is only guided radially inwards along the barrel body 1 and lifted in the height direction of the barrel body 1 after being guided; the curved guide 431 has the effect that the mop does not directly interfere with the deflector 43 when the mop head 11 is rotated, and even if interference occurs at the end with the largest width, it can guide the mop at the end with the smaller width.

The clutch mechanism 14 comprises gear rings which are respectively arranged between the rotating shaft and the rotating joint of the water pumping mechanism 3 and can be meshed with each other. The circumferential fixing of the rotary joint and the water pumping mechanism 3 is carried out in a manner that a gear ring arranged on a rotating shaft of the water pumping mechanism 3 is meshed with a gear ring arranged on the rotary joint.

Preferably, the water pumping mechanism 3 comprises a pump body, the pump body is internally provided with a spiral water taking plate 12, the rotation of the spiral water taking plate 12 enables water to be sprayed out, the spiral water taking plate 12 is arranged on a rotating shaft, the rotating shaft extends out of the pump body, and one ring of gear rings is arranged on the rotating shaft.

A guiding and positioning structure which can enable the rotary joint and the water pumping mechanism 3 to be circumferentially fixedly connected and separated is further arranged between the cleaning cavity 6 and the rotary joint, the guiding and positioning structure comprises a first positioning part 16 and a second positioning part 17, a track area 18 is arranged between the first positioning part 16 and the second positioning part 17, a sliding block 19 which slides in the track area 18 is arranged on the rotary joint, the sliding block 19 is positioned at the first positioning part 16 and can enable the rotary joint and the water pumping mechanism 3 to be separated, and the sliding block 19 is positioned at the second positioning part 17 and can enable the rotary joint and the water pumping mechanism 3 to be circumferentially fixedly connected.

The guiding and positioning structure is used for realizing the switching between the circumferentially fixed connection state and the circumferentially separated state of the rotary joint and the water pumping mechanism 3 and has a positioning function, and the guiding and positioning structure can enable the rotary joint and the water pumping mechanism 3 to be always in the circumferentially fixed connection state or in the separated state, so that the mop can be stably in a cleaning state or a drying state; when the mop is in a cleaning state, the sliding block 19 slides to the second positioning part 17, and at the moment, the rotary joint and the water pumping mechanism 3 are in a circumferentially fixed connection state through two rings of gear rings, and the mop is cleaned; when the washing state is switched to the spin-drying state, the sliding block 19 is separated from the second positioning portion 17 and slides in the track area 18, the sliding block 19 slides along the track area 18 and slides to the first positioning portion 16, the sliding block 19 and the rotary joint move synchronously, and the rotary joint and the water pumping mechanism 3 are in a separated state, so that the mop rotates in the spin-drying state. Similarly, when the mop spin-drying state is switched to the cleaning state, the slider 19 is also moved from the first positioning portion 16 to the second positioning portion 17.

The first positioning portion 16 is located at the upper end of the track area 18, the second positioning portion 17 is located at the lower end of the track area 18, the rotary joint moves downwards to enable the rotary joint to be clamped with the water pumping mechanism 3 through the clutch mechanism 14, the rotary joint moves upwards to enable the rotary joint to be disconnected with the water pumping mechanism 3, the first positioning portion 16 and the second positioning portion 17 respectively comprise two clamping surfaces 20 which are connected with each other, an acute angle is formed between the two clamping surfaces 20 which are connected with each other, and the sliding block 19 can abut against the two clamping surfaces 20 which are connected with each other.

When the mop is switched to the spin-drying state, the mop is lifted upwards, so that the sliding blocks 19 are driven to slide upwards on the track areas 18, and the sliding blocks 19 move from the second positioning parts 17 to the first positioning parts 16; when the mop is switched to the cleaning state, the mop is moved downward, and the slider 19 is moved from the first positioning portion 16 to the second positioning portion 17, whereby the rotary joint and the water pumping mechanism 3 are circumferentially fixedly connected. In addition, no matter the mop is rotated in a cleaning state or in a spin-drying state, the sliding block 19 is clamped at the second positioning portion 17 or at the first positioning portion 16, the rotation state of the mop is stably operated, and the rotary joint and the water pumping mechanism 3 are stably connected or separated. In addition, the separation of the rotary joint and the water pumping mechanism 3 is shown when the mop is positioned at the upper side, and the fixed connection of the rotary joint and the water pumping mechanism 3 is shown when the mop is positioned at the lower side, so that the cleaning or spin-drying state of the mop can be visually displayed; the gravity of the mop is downward vertically, and the mop moves in the vertical direction to realize the switching of the cleaning or drying state of the mop. One of the two mutually connected clamping surfaces 20 is a transverse surface, the other is a vertical surface, when the mop is in a cleaning or spin-drying state, the sliding block 19 is abutted against the corresponding transverse surface, and in a rotating state, the sliding block 19 always rotates towards the direction of the corresponding vertical surface, so that the sliding block 19 is always abutted against the vertical surface and supported on the transverse surface at the same time, thereby realizing the stable operation of the rotating state of the mop, and the rotating joint and the water pumping mechanism 3 are in a fixed connection or separation state and are stable.

The guiding and positioning structure further comprises a plurality of track areas 18, the track areas 18 are in an annular array shape along the outer surface of the water pumping mechanism 3, the track areas 18 are sequentially connected end to form a closed circulation channel, the rotary joint is provided with a hollow rotary drum 21, the water pumping mechanism 3 is in sliding connection with the rotary drum 21, the rotary drum 21 extends into the water pumping mechanism 3, the track areas 18 are arranged on the outer ring of the water pumping mechanism 3, and the sliding blocks 19 are arranged on the rotary drum 21.

When the washing or spin-drying state of the mop is switched, the mop is rotated in the opposite direction to that in operation, so that the sliding piece 19 and the first positioning portion 16 or the second positioning portion 17 slide to the other second positioning portion 17 or the first positioning portion 16 in the track region 18. The plurality of track areas 18 form a closed circulation channel, and the mop can switch the cleaning or drying state of the mop along one direction of the track areas 18 in a cycle; the rotary drum 21 is used for connecting rotary joint and sliding block 19, and rotary drum 21 cover in the mechanism of pumping 3 and with the outer lane inner wall sliding connection of the mechanism of pumping 3, the spiral board 12 of fetching water in the mechanism of pumping 3 is located in rotary drum 21, on the one hand, can stabilize the relation of connection of rotary joint and pump water structure, on the other hand, can prevent that the water in the pump water structure from diffusing all around and leading to not spraying to the mop.

Staving 1 in still be equipped with and be used for supporting mop head 11 pivoted supporting seat 2, 1 inside wall of staving articulated have the first brush body 5 that can scrub 11 tops of mop head, supporting seat 2 on be equipped with the second brush body 7 that can scrub 11 bottoms of mop head and be used for the round brush 9 of roll scrubbing mop head 11, supporting seat 2 on lie in the both sides of second brush body 7 and be equipped with first mouth of a river 8 of making a decoction, supporting seat 2 on lie in the both sides of round brush 9 and be equipped with second mouth of a river 10 of making a decoction.

The top and the bottom of the mop are respectively brushed by the first brush body 5 and the second brush body 7, the rolling brush 9 rotates to clean the mop head 11, and the first sewage outlet 8 and the second sewage outlet 10 are arranged to introduce sewage into the bottom of the barrel body 1.

The working principle of the embodiment is as follows: when the mop is switched to a spin-drying state, the mop is moved upwards to drive the sliding blocks 19 to slide in the track area 18 and enable the sliding blocks 19 to slide to the first positioning portions 16, the mop is put down, the sliding blocks 19 are abutted to the transverse surfaces of the clamping surfaces 20 on the first positioning portions 16, and in the spin-drying process, the sliding blocks 19 rotate towards the vertical surfaces of the clamping surfaces 20 on the first positioning portions 16, so that the sliding blocks 19 are always positioned on the first positioning portions 16, and the mop is stably in the spin-drying state and is subjected to spin-drying operation. During the operation of switching the mop from the spin-drying state to the cleaning state, the mop is rotated in the direction opposite to the operation rotation direction, so that the sliding block 19 is separated from the first positioning portion 16 and slides into the track area 18, then the mop is moved downwards, so that the sliding block 19 moves along the track area 18 to the second positioning portion 17, the sliding block 19 is positioned at the second positioning portion 17 according to the same principle as that of the first positioning portion 16, at this time, the rotary joint and the working shaft of the water pumping mechanism 3 are engaged in the circumferential direction by two circles of gear rings, and the mop is abutted against the supporting seat 2, at this time, the rotation of the mop drives the rotation of the working shaft of the water pumping mechanism 3, the water is sprayed upwards onto the mop by the operation of the water pumping mechanism 3, the rotating top and bottom of the rotating working shaft 11 can be respectively brushed by the first brush body 5 and the second brush body 7, at the same time, the roller brush 9 cleans the mop head 11, the water thrown out of the mop head 11 is thrown onto the height lifting seat 42, and the height of the height lifting seat 42 is gradually increased along the guide arc surface 41, so that the inertia position of the mop head 11 and the lower water gap 10 can be gradually flushed from the top of the lower water inlet 8 and the lower water outlet 8.

Example 2

As shown in fig. 5 and 6, the structure and principle of the present embodiment are substantially the same as those of embodiment 1, and the difference is that a cleaning roller 22 is hinged in the cleaning chamber 6, a roller support 23 is arranged in the cleaning chamber 6, an elastic reset member is arranged between the cleaning roller 22 and the roller support 23, a plurality of spray openings 24 are further arranged on the rotary joint, and the plurality of spray openings 24 are all communicated with the water outlet of the water pumping mechanism 3.

In the cleaning state, the mop is abutted to the cleaning roller 22, the cleaning roller 22 is squeezed and the elastic restoring piece is deformed, the cleaning roller 22 is abutted to the mop by the reaction force of the elastic restoring piece, and the mop is cleaned along with the spraying of the water pumping mechanism 3. Water sprayed by the water pumping mechanism 3 is sprayed out from the plurality of spraying ports 24, the plurality of spraying ports 24 can be arranged in an annular array, and the sprayed water can be uniformly sprayed on the mop.

Example 3

As shown in fig. 11 and fig. 12, the present embodiment has the same structure and principle as those of the embodiment 2, and the difference is that a barrier 25 is disposed in the barrel body 1, the barrier 25 separates the barrel body 1 into a clean water area 26 and a cleaning area 27, the water inlet end of the water pumping mechanism 3 is communicated with the clean water area 26, the water outlet end of the water pumping mechanism 3 is communicated with the cleaning area 27, the barrier 25 includes a cover plate 251 disposed on the barrel body, the cover plate 251 divides the barrel body into the clean water area 26 and the cleaning area 27, the barrier 25 further includes a partition plate 252 disposed at the bottom of the barrel body 1, the cover plate 251 and the partition plate 252 form the clean water area 26 with the barrel body 1, and the cover plate 251 is provided with a water injection hole 253 for injecting clean water into the clean water area 26.

The clear water area 26 and the cleaning area 27 are horizontally separated from the water storage space in the barrel body 1 by arranging the separating object 25, so that the clear water area 26 and the cleaning area 27 are integrally designed, the barrel body 1 can independently store clear water and sewage by only one barrel without disassembly and assembly, and the cost and the disassembly and assembly labor force when two barrels are needed are reduced; the cover plate 251 is arranged to seal the top of the clean water area 26, so that dirty water in the cleaning area 27 can be effectively prevented from splashing into the clean water area 26 from the top in the cleaning process of the mop cloth, and clean water in the clean water area 26 is polluted; this bucket is at the cleaning process, and pump mechanism 3 makes the clear water in the clear water district 26 constantly reduce from the bottom of clear water district 26 suction to the mop with the clear water, and the setting up of water injection hole 253 can make the staff continuously inject the clear water into in the clear water district 26 from water injection hole 253.

The utility model can guide the fluid thrown out from the mop head 11 and the fluid accumulated on the supporting seat 2 by arranging the flow guide structure 4 on the barrel body 1, and the guided fluid can be washed to the side part and the top part of the mop head 11, thereby improving the cleaning effect; in the cleaning process, the rotating joint is circumferentially and fixedly connected with the water pumping mechanism 3 through the clutch mechanism 14, the mop is electrically rotated or manually rotated, the water pumping mechanism 3 works through the circumferential and fixedly connected rotating joint and the water pumping mechanism 3, the water inlet of the water pumping mechanism 3 is positioned at the bottom of the cleaning cavity 6 and below the water level line, water can be upwards sprayed out and sprayed onto the mop through the work of the water pumping mechanism 3, so that the mop is cleaned, and the washed impurities can be left in the water and cannot be washed onto the mop along with the water flow again, so that the cleaning efficiency is improved; the side part of the barrel body 1 is provided with the guide cambered surface 41 to guide the fluid to a position close to the mop head 11, the mop head 11 is flushed by the inertia of the fluid, and the fluid position can be gradually increased by using the height lifting seat 42, so that the mop head 11 is flushed by the fluid; the circumferential fixing of the rotary joint and the water pumping mechanism 3 is carried out in a manner that a gear ring arranged on a rotating shaft of the water pumping mechanism 3 is meshed with a gear ring arranged on the rotary joint.

The specific embodiments described herein are merely illustrative of the spirit of the invention. Various modifications, additions and substitutions may be made by those skilled in the art to the specific embodiments described without departing from the spirit of the invention or exceeding the scope of the invention as defined in the accompanying claims.

Claims (10)

1. The utility model provides a clean bucket of mop, includes staving (1), its characterized in that: staving (1) in be equipped with clean chamber (6), clean chamber (6) in be equipped with pump water mechanism (3), the top of pump water mechanism (3) rotary joint has, rotary joint and pump water mechanism (3) between be equipped with clutching mechanism (14), clutching mechanism (14) can make rotary joint and pump water mechanism (3) circumference link firmly or separate, staving (1) lateral part still be equipped with water conservancy diversion structure (4), water conservancy diversion structure (4) can be with the fluid water conservancy diversion that mop head (11) drove when rotating to along staving (1) radial direction inward flow.

2. The mop cleaning bucket of claim 1, wherein: flow guide structure (4) direction cambered surface (41) including staving (1) lateral part, direction cambered surface (41) one end be located staving (1) inner wall, the other end is along staving (1) radial direction inwards extending, including setting up in highly promoting seat (42) of staving (1) inner wall, the tip and the direction cambered surface (41) of highly promoting seat (42) be connected, highly promote the height that highly is higher than keeping away from direction cambered surface (41) one end that seat (42) are close to direction cambered surface (41) one end, highly promote seat (42) be inclined plane or cambered surface.

3. A mop cleaning bucket according to claim 2, wherein: the water conservancy diversion structure (4) still including setting up in water conservancy diversion baffle (43) of high lift seat (42) top, water conservancy diversion baffle (43) one side and staving (1) inner wall connection, the opposite side is equipped with and is curved guide part (431), the width that arc guide part (431) are close to direction cambered surface (41) one side is greater than the width of keeping away from direction cambered surface (41) one side.

4. A mop cleaning bucket according to claim 1, 2 or 3, characterised in that: the clutch mechanism (14) comprises gear rings which are respectively arranged between the rotating shaft and the rotating joint of the water pumping mechanism (3) and can be meshed with each other.

5. The mop cleaning bucket of claim 4, wherein: the cleaning device is characterized in that a guide positioning structure capable of enabling the rotary joint and the water pumping mechanism (3) to be fixedly connected in the circumferential direction and switched in a separation state is further arranged between the cleaning cavity (6) and the rotary joint, the guide positioning structure comprises a first positioning portion (16) and a second positioning portion (17), a track area (18) is arranged between the first positioning portion (16) and the second positioning portion (17), a sliding block (19) sliding in the track area (18) is arranged on the rotary joint, the sliding block (19) is located on the first positioning portion (16) and enables the rotary joint and the water pumping mechanism (3) to be separated, and the sliding block (19) is located on the second positioning portion (17) and enables the rotary joint and the water pumping mechanism (3) to be fixedly connected in the circumferential direction.

6. The mop cleaning bucket of claim 5, wherein: the first positioning part (16) is located at the upper end of the track area (18), the second positioning part (17) is located at the lower end of the track area (18), the rotary joint moves downwards to enable the rotary joint to be clamped with the water pumping mechanism (3) through the clutch mechanism (14), the rotary joint moves upwards to enable the rotary joint to be disconnected from the water pumping mechanism (3), the first positioning part (16) and the second positioning part (17) respectively comprise two clamping surfaces (20) which are connected with each other, an acute angle is formed between the two clamping surfaces (20) which are connected with each other, and the sliding block (19) can abut against the two clamping surfaces (20) which are connected with each other.

7. The mop cleaning bucket of claim 6, wherein: the guiding and positioning structure further comprises a plurality of track areas (18), the track areas (18) are in an annular array shape along the outer surface of the water pumping mechanism (3), the track areas (18) are sequentially connected end to form a closed circulation channel, a hollow rotary drum (21) is arranged on the rotary joint, the water pumping mechanism (3) is in sliding connection with the rotary drum (21), the rotary drum (21) extends into the water pumping mechanism (3), the track areas (18) are arranged on the outer ring of the water pumping mechanism (3), and the sliding block (19) is arranged on the rotary drum (21).

8. A mop cleaning bucket according to claim 1, 2 or 3, wherein: still including rotating clean gyro wheel (22) of setting in clean chamber (6), clean chamber (6) in be equipped with gyro wheel support (23), clean gyro wheel (22) and gyro wheel support (23) between be equipped with the elasticity piece that resets, rotary joint on still be equipped with a plurality of spray nozzle (24), a plurality of spray nozzle (24) all communicate with the delivery port of pump water mechanism (3).

9. A mop cleaning bucket according to claim 1, 2 or 3, characterised in that: staving (1) in still be equipped with and be used for supporting mop head (11) pivoted supporting seat (2), staving (1) inside wall articulated have first brush body (5) that can scrub mop head (11) top, supporting seat (2) on be equipped with second brush body (7) that can scrub mop head (11) bottom and round brush (9) that are used for rolling and scrub mop head (11), supporting seat (2) on lie in the both sides of second brush body (7) and be equipped with first mouth of a river (8) down, supporting seat (2) on lie in the both sides of round brush (9) and be equipped with second mouth of a river (10) down.

10. A mop cleaning bucket according to claim 1, 2 or 3, characterised in that: the cleaning barrel is characterized in that a blocking object (25) is arranged in the barrel body (1), the blocking object (25) blocks the barrel body (1) into a clean water area (26) and a cleaning area (27), the water inlet end of the water pumping mechanism (3) is communicated with the clean water area (26), the water outlet end of the water pumping mechanism is communicated with the cleaning area (27), the blocking object (25) comprises a cover plate (251) arranged on the barrel body, the cover plate (251) divides the barrel body into the clean water area (26) and the cleaning area (27), the blocking object (25) further comprises a partition plate (252) arranged at the bottom of the barrel body (1), the cover plate (251), the partition plate (252) and the barrel body (1) form the clean water area (26), and the cover plate (251) is provided with a water injection hole (253) for injecting clean water into the clean water area (26).

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