CN213282784U - Clean dirty separation mop bucket - Google Patents

Abstract

The utility model discloses a clean dirty separation mop bucket, this clean dirty separation mop bucket include staving, bung, coupling mechanism, acceleration mechanism and the mechanism that draws water. The staving is formed with the water purification groove and encircles the effluent water sump that the water purification groove set up, and the notch of effluent water sump is higher than the notch of water purification groove. The barrel cover is arranged in the barrel body and can seal the notch of the water purifying tank. The connecting mechanism penetrates through the barrel cover, and one end of the connecting mechanism can be connected with the mop in a position-adjustable mode along the vertical direction. The speed increasing mechanism is arranged in the water purifying tank, and one end of the speed increasing mechanism is connected with the connecting mechanism. The water pumping mechanism is arranged in the water purifying tank and provided with a water outlet, the water outlet is positioned above the barrel cover, the driving end of the water pumping mechanism is connected with the speed increasing mechanism, the speed increasing mechanism can enhance the power applied to the water pumping mechanism by the connecting mechanism, and the speed increasing mechanism can drive the water pumping mechanism to move and spray out water in the water purifying tank from the water outlet. This clean dirty separation mop bucket can improve the clean intensity of mop, improves the clean efficiency of mop.

Description

Clean dirty separation mop bucket

Technical Field

The utility model relates to a cleaning products technical field especially relates to a clean dirty separation mop bucket.

Background

The flat plate type rotary mop has wide application because the mop surface is lighter and thinner, can be more easily attached to the floor, and can be more easily rotated, cleaned and dried in the mop barrel in a labor-saving way. The mop bucket can generally pump up clean water in the mop bucket to a certain height and clean the bottom surface of the mop, and the bottom surface of the mop can be cleaned under the impact of water or by soaking in water, and the following two methods are provided. Firstly, a mop is put into a mop bucket, the bottom surface of the mop is meshed with a water pump rotating shaft arranged in the mop bucket, when a mop rod is pressed down, power can be input into the water pump to spray water, when the water pump sprays water, the bottom surface of the mop receives purified water at a certain height away from the water surface, and simultaneously the bottom surface of the mop pushes against a cleaning structure to carry out rotary cleaning, the implementation method has partial defects, for example, when the mop is cleaned and drained, operators need to apply the same force to the mop, so that the operation is laborious, meanwhile, the introduction of the clean water in a water pump chamber needs to be controlled through a valve and a switch assembly, or the rotation output of a water pump impeller rotating shaft is controlled through the meshing of a clutch, the water spraying control structure is too complex, in addition, in order to reduce the force applied by the operators, the mop bucket uses two large and small gears with different axes to play a speed, therefore, the water pumping efficiency of the water pump is improved, the floor area of the bucket body is increased, and the water storage space is seriously compressed. Secondly, soak the mop and accomplish the washing of mop in aqueous, this method has other different defects, if the water of soaking can't accomplish water purification and sewage separation, leads to can only reuse dirty water and mop the floor, and the solid foul on the mop piles up easily simultaneously to be infected with the mop once more, reduce the cleaning efficiency of mop, the pumping efficiency of water pump is not high in addition, and the washing of every turn all need press rotatory mop pole and just can pump up sufficient water many times, just can soak the washing to the mop face.

Therefore, there is a need for a mop bucket with dirt and dust separation function, which can improve the cleaning strength of the mop by water and improve the cleaning efficiency of the mop.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a clean dirty separation mop bucket can improve the clean intensity of water to the mop, improves the clean efficiency of mop.

In order to realize the technical effects, the utility model discloses a clean dirty separation mop bucket's technical scheme as follows:

a dirt and dust separating mop bucket comprising: the water purifying device comprises a barrel body, a water purifying tank and a sewage tank, wherein the barrel body is provided with the water purifying tank and the sewage tank arranged around the water purifying tank, and the notch of the sewage tank is higher than that of the water purifying tank; the barrel cover is arranged in the barrel body and can seal the notch of the water purifying tank; the connecting mechanism penetrates through the barrel cover, and one end of the connecting mechanism can be connected with the mop in a position-adjustable manner along the vertical direction; the speed increasing mechanism is arranged in the water purifying tank, is positioned below the connecting mechanism and is connected with one end of the speed increasing mechanism; the water pumping mechanism is arranged in the water purification tank, the water pumping mechanism is positioned below the speed increasing mechanism, the water pumping mechanism is provided with a water outlet, the water outlet is positioned above the barrel cover, the driving end of the water pumping mechanism is connected with the speed increasing mechanism, the speed increasing mechanism can enhance the power applied to the water pumping mechanism by the connecting mechanism, and the speed increasing mechanism can drive the water pumping mechanism to move and spray the water in the water purification tank out of the water outlet; the connecting mechanism is provided with a driving position and a self-rotating position, when the connecting mechanism is located at the driving position, the mop can rotate and drive the connecting mechanism to rotate, and when the connecting mechanism is located at the self-rotating position, the mop stops driving the connecting mechanism to rotate when rotating.

Further, the connection mechanism includes: the mounting seat is connected with the speed increasing mechanism, a mounting hole is formed in the mounting seat, and a matching part is arranged at one end, far away from the speed increasing mechanism, of the mounting seat and can be matched with the mop; the connecting piece is arranged in the mounting hole in a penetrating mode along the vertical direction in a position-adjustable mode, and one end, far away from the mounting seat, of the connecting piece can be matched with the mop; wherein: when the connecting mechanism is located at the rotation position, the connecting piece is matched with the mop, the matching part is arranged at an interval with the mop, and when the connecting mechanism is located at the driving position, the connecting piece is matched with the mop, and the matching part is matched with the mop.

Further, the connector includes: the connecting section is arranged in the mounting hole in a penetrating manner along the vertical direction in a position-adjustable manner; the cooperation section, the cooperation section is rotationally the joint is in keeping away from of linkage segment one of mount pad is served, the inner wall of cooperation section with the clearance has between the outer wall of linkage segment.

Further, coupling mechanism still includes the retaining member, the retaining member is rotationally established in the mounting hole, be formed with closed loop groove on the lateral wall of connecting member, the one end of retaining member is equipped with the cooperation and is in pothook in the closed loop groove, closed loop groove has first depressed section, second depressed section, first protruding section and the protruding section of second, first protruding section the protruding section of second first depressed section with the height of second depressed section reduces in proper order, works as the pothook is located during first protruding section, coupling mechanism is located actuating position, works as the pothook is located during the protruding section of second, coupling mechanism is located the rotation position.

Further, the speed increasing mechanism includes: one end of the speed-increasing cylinder is connected with the connecting mechanism, a matching groove is formed at the other end of the speed-increasing cylinder, and an inner gear ring is arranged on the inner wall of the matching groove; a plurality of planet gears which are meshed with the inner gear ring; the sun gear is arranged among the plurality of planetary gears and meshed with the plurality of planetary gears, and the sun gear is connected with the driving end of the water pumping mechanism.

Further, the pumping mechanism includes: one end of the impeller is rotatably arranged on the bottom wall of the water purifying tank, and the other end of the impeller is connected with the speed increasing mechanism; the water outlet piece is arranged at one end of the water outlet piece adjacent to the impeller, the other end of the water outlet piece penetrates through the barrel cover and is provided with a plurality of water outlets, and the water outlets are arranged at intervals along the direction of the central axis far away from the barrel body.

Further, the pumping mechanism further comprises: the base is provided with a water cavity which is communicated with the water purifying tank, and one end of the water outlet piece is arranged in the base in a penetrating way; the pivot, the pivot is two, two the pivot joint respectively is in the both ends of the relative setting of impeller, two the pivot all with impeller clearance fit, one the pivot is worn to establish among the acceleration mechanism, another the pivot is worn to establish in the base.

Further, the water outlet member includes: one end of the water guide pipe is arranged adjacent to the impeller, and the other end of the water guide pipe is arranged below the barrel cover; the water outlet part penetrates through the barrel cover, the water outlet part is arranged above the barrel cover, the water outlet part is arranged below the barrel cover, a communicating horn mouth is formed below the barrel cover, and the water guide pipe can be abutted to the inner wall of the communicating horn mouth.

Further, the dirt-cleaning separation mop bucket further comprises a cleaning mechanism, the cleaning mechanism is arranged on the bucket cover, and the cleaning mechanism is arranged adjacent to the water outlet.

Further, clean dirty separation mop bucket still includes the piece that foams, the piece that foams is established in the sewage tank, the piece that foams has a bubble outlet, the piece that foams can pass through the clean foam of bubble outlet blowout, the bubble outlet is located bung top and orientation the central axis of staving sets up, be equipped with the plummer on the bung, the plummer is used for bearing clean foam.

The utility model has the advantages that: when coupling mechanism is located the drive position, operating personnel can drive the mop and rotate, the mop can drive coupling mechanism when rotating and rotate, coupling mechanism can drive acceleration mechanism and rotate, acceleration mechanism can strengthen coupling mechanism and to the power that the mechanism of drawing water applyed, the mechanism of drawing water can improve under the effect of stronger drive power with water from the water purification groove extraction and from delivery port spun intensity, can improve water towards mop spun impact force and water from delivery port spun height, thereby make the mop can wash more totally under the effect of the powerful jet force of water, also can reduce the required power degree of applying to the mop when operating personnel drive mop rotates, the clean mop of operating personnel of being convenient for, and improve the clean efficiency of mop. When the connecting mechanism is located at the rotation position, the mop can rotate freely and stop driving the connecting mechanism to rotate, when the connecting mechanism is located at the rotation position, the distance between the mop and the barrel cover is larger than the distance between the mop and the barrel cover when the connecting mechanism is located at the driving position, at the moment, an operator can rotate the mop to spin the mop, and because the mop does not drive the connecting mechanism to rotate any more, the resistance received when the operator rotates the mop can be reduced, and therefore the spin-drying efficiency of the mop is improved. In addition, because coupling mechanism, speed increasing mechanism and the mechanism that draws water distribute along vertical direction, can show when improving water from delivery port spun intensity and reduce the area of clean dirty separation mop bucket to practice thrift clean dirty separation mop bucket's usable floor area and storage area, improve user's use and experience. Simultaneously, the water of delivery port is after having cleaned the mop, and most sewage gets rid of the bilge tank under the centrifugal force effect, and remaining sewage can flow into the peripheral bilge tank of clean water tank from the bung, because the height that highly is higher than the notch of clean water tank of the notch of bilge tank, can avoid having cleaned the sewage of mop to splash to the staving outside under the rotation of mop to the cleanliness factor that the mop washed has been improved.

Additional aspects and advantages of the invention will be set forth in part in the description which follows and, in part, will be obvious from the description, or may be learned by practice of the invention.

Drawings

FIG. 1 is a schematic structural view of a mop bucket for separating and purifying dirt provided in embodiment 1 of the present invention;

FIG. 2 is a schematic structural view of a bucket body and a handle mechanism provided in embodiment 2 of the present invention;

FIG. 3 is a schematic view of the internal structure of a mop bucket for separating and purifying dirt provided in embodiment 1 of the present invention;

FIG. 4 is a schematic view of a partial internal structure of a mop bucket with dirt separation and cleaning functions when the connecting mechanism is at the driving position according to embodiment 1 of the present invention;

FIG. 5 is a schematic view of a partial internal structure of a mop bucket with dirt separation and purification functions when the connection mechanism is at the rotation position according to embodiment 1 of the present invention;

FIG. 6 is a schematic top view of a mop bucket with dirt and dust cleaning and separating functions provided in example 1 of the present invention;

fig. 7 is a schematic structural view of a barrel cover, a water outlet member and a cleaning mechanism provided in embodiment 1 of the present invention;

fig. 8 is a schematic partial structural view of a connection mechanism, a speed increasing mechanism and a water pumping mechanism provided in embodiment 1 of the present invention;

fig. 9 is an exploded schematic view of a connection mechanism, a speed increasing mechanism and a water pumping mechanism provided in embodiment 1 of the present invention;

fig. 10 is an exploded view of a speed increasing mechanism and a water pumping mechanism according to embodiment 1 of the present invention;

fig. 11 is a schematic structural view of a speed increasing tube provided in embodiment 1 of the present invention;

FIG. 12 is a schematic structural view of a connecting member, a mounting seat and a locking member according to embodiment 1 of the present invention;

fig. 13 is a schematic view of the internal structure of the connecting member and the mounting seat provided in embodiment 1 of the present invention;

fig. 14 is a schematic structural view of a closed-loop groove provided in embodiment 1 of the present invention;

fig. 15 is a schematic view of an internal structure of a base according to embodiment 1 of the present invention;

fig. 16 is a schematic structural view of an impeller, a rotating shaft, and a sun gear according to embodiment 1 of the present invention.

Reference numerals

1. A barrel body; 11. a water purifying tank; 111. mounting grooves; 12. a sewage tank; 13. a sewage bucket; 131. a positioning ring; 1311. clamping the sliding chute; 14. a purified water bucket; 141. clamping the bulges; 15. positioning a groove; 16. a foaming frame; 2. a barrel cover; 21. a bearing table; 22. connecting grooves; 23. a positioning part; 3. a connecting mechanism; 31. a mounting seat; 311. a fitting portion; 312. mounting holes; 32. a connecting member; 321. a connecting section; 3211. an annular groove; 322. a mating segment; 3221. an annular projection; 3222. a connecting projection; 323. a closed loop recess; 3231. a first recessed section; 3232. a second recessed section; 3233. a first convex section; 3234. a second convex section; 33. a locking member; 331. a hook; 34. a containment vessel; 4. a speed increasing mechanism; 41. a speed increasing cylinder; 411. an inner gear ring; 412. a mating groove; 42. a planetary gear; 43. a sun gear; 5. a water pumping mechanism; 51. an impeller; 52. a water outlet member; 521. a water conduit; 522. a water outlet part; 5221. a porous spray pipe; 5222. a horn interface; 523. sealing the rubber gasket; 53. a base; 531. the rotating shaft is clamped in the groove; 54. a rotating shaft; 55. a support frame; 6. a cleaning mechanism; 7. a blister member; 8. a handle mechanism; 81. a first handle; 82. a second handle; 100. a mop.

Detailed Description

In order to make the technical problem solved by the present invention, the technical solution adopted by the present invention and the technical effect achieved by the present invention clearer, the technical solution of the present invention will be further explained by combining the drawings and by means of the specific implementation manner.

In the description of the present invention, unless expressly stated or limited otherwise, the terms "connected," "connected," and "fixed" are to be construed broadly, e.g., as meaning permanently connected, detachably connected, or integral to one another; can be mechanically or electrically connected; either directly or indirectly through intervening media, either internally or in any other relationship. The specific meaning of the above terms in the present invention can be understood in specific cases to those skilled in the art.

In the present disclosure, unless expressly stated or limited otherwise, the first feature "on" or "under" the second feature may comprise direct contact between the first and second features, or may comprise contact between the first and second features not directly. Also, the first feature being "on," "above" and "over" the second feature includes the first feature being directly on and obliquely above the second feature, or merely indicating that the first feature is at a higher level than the second feature. A first feature being "under," "below," and "beneath" a second feature includes the first feature being directly under and obliquely below the second feature, or simply meaning that the first feature is at a lesser elevation than the second feature.

It will be understood that the terms "central," "longitudinal," "transverse," "length," "width," "thickness," "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," "clockwise," "counterclockwise," "axial," "radial," "circumferential," and the like are used in an orientation or positional relationship indicated in the drawings for convenience in describing and simplifying the invention, and do not indicate or imply that the device or element so referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus should not be considered as limiting the invention. In the description of the present invention, "a plurality" means two or more unless otherwise specified. Furthermore, the terms "first" and "second" are used only for descriptive purposes and are not intended to have a special meaning.

The following describes a specific structure of a mop bucket with dirt and dust separation according to an embodiment of the present invention with reference to fig. 1 to 16.

As shown in fig. 1-16, fig. 1 discloses a mop bucket with dirt cleaning and separating functions, which comprises a bucket body 1, a bucket cover 2, a connecting mechanism 3, a speed increasing mechanism 4 and a water pumping mechanism 5. The tub body 1 is formed with a purified water tank 11 and a foul water tank 12 provided around the purified water tank 11, and a notch of the foul water tank 12 is higher than that of the purified water tank 11. The barrel cover 2 is arranged in the barrel body 1, and the barrel cover 2 can seal the notch of the water purifying tank 11. The connecting mechanism 3 is arranged in the barrel cover 2 in a penetrating way, and one end of the connecting mechanism 3 can be connected with the mop 100 along the vertical direction in a position-adjustable way. The speed increasing mechanism 4 is arranged in the water purifying tank 11, one end of the speed increasing mechanism 4 is connected with the connecting mechanism 3, and the speed increasing mechanism 4 is positioned below the connecting mechanism 3. The water pumping mechanism 5 is arranged in the water purifying tank 11, the water pumping mechanism 5 is located below the speed increasing mechanism 4, the water pumping mechanism 5 is provided with a water outlet, the water outlet is located above the barrel cover 2, the driving end of the water pumping mechanism 5 is connected with the speed increasing mechanism 4, the speed increasing mechanism 4 can enhance the power applied to the water pumping mechanism 5 by the connecting mechanism 3, and the speed increasing mechanism 4 can drive the water pumping mechanism 5 to move and spray water in the water purifying tank 11 out of the water outlet. Wherein, coupling mechanism 3 has actuating position and rotation position, and when coupling mechanism 3 was located actuating position, mop 100 can rotate and drive coupling mechanism 3 and rotate, when coupling mechanism 3 was located the rotation position, and mop 100 stopped when rotating and drives coupling mechanism 3 and rotate.

It can be understood that, as shown in fig. 4, when the connecting mechanism 3 is located at the driving position, the operator can drive the mop 100 to rotate, when the mop 100 rotates, the connecting mechanism 3 can be driven to rotate, the connecting mechanism 3 can drive the speed increasing mechanism 4 to rotate, the speed increasing mechanism 4 can enhance the power applied to the water pumping mechanism 5 by the connecting mechanism 3, the water pumping mechanism 5 can improve the intensity of extracting water from the water purifying tank 11 and spraying water from the water outlet under the action of a strong driving force, the impact force of the water towards the mop 100 and the height of the water sprayed from the water outlet can be improved, so that the mop 100 can be washed more cleanly under the action of the strong spraying force of the water, the force required to be applied to the mop 100 when the operator drives the mop 100 to rotate can also be reduced, the operator can clean the mop 100 conveniently, and the cleaning efficiency of the mop. As shown in fig. 5, when the connecting mechanism 3 is located at the rotation position, the mop 100 can rotate freely and stops driving the connecting mechanism 3 to rotate, when the connecting mechanism 3 is located at the rotation position, the distance between the mop 100 and the barrel cover 2 is greater than the distance between the mop 100 and the barrel cover 2 when the connecting mechanism 3 is located at the driving position, that is, when the connecting mechanism 3 is located at the rotation position, the height of the mop 100 is greater than the height of the mop 100 when the connecting mechanism 3 is located at the driving position, at this time, an operator can rotate the mop 100 to spin the mop 100, and since the mop 100 does not drive the connecting mechanism 3 to rotate any more, the resistance applied when the operator rotates the mop 100 can be reduced, so that the spin-drying efficiency of the mop. In addition, because coupling mechanism 3, speed increasing mechanism 4 and 5 along vertical direction distributions of mechanism of drawing water, can show the area that reduces clean dirty separation mop bucket when improving water from delivery port spun intensity to practice thrift clean dirty separation mop bucket's usable floor area and storage area, improve user's use and experience. Meanwhile, after the mop 100 is cleaned, most of sewage is thrown into the sewage tank 12 under the action of centrifugal force, and the rest of residual sewage can flow into the sewage tank 12 at the periphery of the purified water tank 11 from the bucket cover 2. because the height of the notch of the sewage tank 12 is higher than that of the notch of the purified water tank 11, the sewage after the mop 100 is cleaned can be prevented from splashing to the outer side of the bucket body 1 under the rotation of the mop 100, and the cleaning degree of the mop 100 is improved.

In some alternative embodiments, as shown in fig. 2, the tub body 1 includes a slop tub 13 and a clear water tub 14. The slop pail 13 is formed with a first reservoir tank. The clean water tank 14 is provided in the first storage tank, the clean water tank 14 is formed with a second storage tank, and the height of the clean water tank 14 is smaller than that of the foul water tank 13. One of the slop pail 13 and the clean water pail 14 is provided with a latch sliding groove 1311, and the other is provided with a latch protrusion 141 fitted in the latch sliding groove 1311.

It can be understood that the bilge tank 12 can be formed between the first water storage tank and the purified water bucket 14, the purified water tank 11 can be formed by the second water storage tank, and the cleaning of the bucket body 1 can be facilitated by detachably arranging the bilge bucket 13 and the purified water bucket 14, so that the use experience of a user is improved.

Exemplarily, a positioning ring 131 is arranged on the bottom wall of the first water storage tank, a clamping sliding groove 1311 is arranged on the positioning ring 131, the clamping sliding groove 1311 is L-shaped, a clamping protrusion 141 is arranged on the outer wall of the purified water bucket 14, the clamping protrusion 141 on the purified water bucket 14 can be inserted into the clamping sliding groove 1311 along the vertical section of the clamping sliding groove 1311, the purified water bucket 14 can be rotated to clamp the clamping protrusion 141 at the tail end of the horizontal section of the clamping sliding groove 1311, and therefore the purified water bucket 14 can be stably installed in the slop pail 13.

Of course, in other embodiments of the present invention, the purified water bucket 14 and the slop pail 13 can be configured as an integrated part, and the specific structure and shape of the purified water bucket 14 and the slop pail 13 can be determined according to actual requirements, and are not limited to the other embodiments of the present invention.

It should be added to say that no matter staving 1 sets up to integrated into one piece, or staving 1 is formed by connecting clear water bucket 14 and slop pail 13, and the horizontal cross-section of clear water tank 11 and slop pail 12 in staving 1 can set up to circular or oval, also can set up to the polygon, and the vertical cross-section of clear water tank 11 and slop pail 12 can set up to trapezoidal, also can set up to the arc, and the concrete shape of clear water tank 11 and slop pail 12 can be confirmed according to the actual demand, and is not used for the restriction the utility model discloses.

In some optional embodiments, as shown in fig. 1 and 2, the mop bucket for separating and purifying dirt further comprises a handle mechanism 8, two ends of the handle mechanism 8 are respectively and rotatably connected with the bucket body 1, and the handle mechanism 8 is arranged to facilitate an operator to move and use the mop bucket for separating and purifying dirt.

Illustratively, the handle mechanism 8 includes a first handle 81 and a second handle 82, the first handle 81 being disposed on the fresh water bucket 14 and the second handle 82 being disposed on the slop pail 13 to facilitate removal and placement of the fresh water bucket 14 from the slop pail 13.

In some embodiments, as shown in fig. 3, the bottom of the clean water tank 11 is provided with a mounting groove 111, and the mounting groove 111 is used for mounting the pumping mechanism 5. It can be understood that the installation groove 111 can facilitate the installation of the water pumping mechanism 5, and avoid the shaking of the water pumping mechanism 5 in the water purifying tank 11, so that the water pumping mechanism 5 can be more stably arranged in the water purifying tank 11.

In some alternative embodiments, the volume of the sump 12 is greater than that of the fresh water tank 11, so that the sump 12 has enough space to accommodate the dirty water drawn out of the fresh water tank 11 and used for cleaning the mop 100, thereby preventing the dirty water of the sump 12 from flowing backward into the fresh water tank 11 and ensuring the cleanliness of the water in the fresh water tank 11.

In some embodiments, as shown in fig. 3, the connection mechanism 3 includes a mount 31 and a connector 32. Mounting base 31 is connected with speed increasing mechanism 4, mounting base 31 is formed with mounting hole 312, and mating portion 311 that is equipped with is kept away from speed increasing mechanism 4 to one end of mounting base 31, and mating portion 311 can cooperate with mop 100. The connecting member 32 is vertically and adjustably inserted into the mounting hole 312, and one end of the connecting member 32 away from the mounting seat 31 can be engaged with the mop 100. When the connecting mechanism 3 is located at the rotation position, the connecting member 32 is engaged with the mop 100, the engaging portion 311 is spaced apart from the mop 100, and when the connecting mechanism 3 is located at the driving position, the connecting member 32 is engaged with the mop 100, and the engaging portion 311 is engaged with the mop 100.

It can be understood that when the connecting mechanism 3 is located at the rotation position, the mop 100 is matched with the connecting piece 32, and since the mop 100 has a gap with the connecting piece 32 and has no matching relation with the matching part 311, the mop 100 does not drive the connecting piece 32 to rotate in the rotating process, thereby being convenient for an operator to rotate the mop 100 and carry out the spin-drying operation; when the connecting mechanism 3 is located at the driving position, the mop 100 is matched with the connecting piece 32 and matched with the matching portion 311, at the moment, the operator drives the mop 100 to rotate, the mop 100 can drive the mounting seat 31 to rotate through the matching portion 311, the mounting seat 31 further drives the mounting seat to rotate with the speed increasing mechanism 4 and the water pumping mechanism 5, so that the water pumping mechanism 5 sprays water from the water outlet, and the cleaning of the mop 100 is completed.

In some embodiments, as shown in fig. 8, 9, 12, and 13, the connector 32 includes a connecting segment 321 and a mating segment 322. The connecting section 321 is vertically and adjustably inserted into the mounting hole 312. The fitting section 322 is rotatably clamped on an end of the connecting section 321 far away from the mounting seat 31, and a gap is formed between an inner wall of the fitting section 322 and an outer wall of the connecting section 321.

It can be understood that, by the arrangement of the matching section 322, when the connecting mechanism 3 is located at the rotation position, the mop 100 can rotate freely without driving the connecting section 321 to rotate when being connected with the matching end, so that an operator can spin the mop 100 conveniently, and the spin-drying efficiency of the mop 100 is improved.

Exemplarily, as shown in fig. 13, an annular groove 3211 is disposed on an outer wall of the connecting section 321, an annular protrusion 3221 clamped in the annular groove 3211 is disposed on an inner wall of the matching section 322, and a connecting protrusion 3222 capable of being matched with the mop 100 is disposed on an outer wall of the matching section 322, so that the matching section 322 is detachably connected with the mop 100. In addition, the height of the annular groove 3211 is greater than the height of the annular protrusion 3221, so that the resistance of the matching section 322 during rotation on the connecting section 321 can be reduced.

In some embodiments, as shown in fig. 12 to 14, the connection mechanism 3 further includes a locking member 33, the locking member 33 is rotatably disposed in the mounting hole 312, a closed-loop groove 323 is formed on a side wall of the connection member 32, one end of the locking member 33 is provided with a hook 331 fitted in the closed-loop groove 323, the closed-loop groove 323 has a first concave section 3231, a second concave section 3232, a first convex section 3233 and a second convex section 3234, heights of the first convex section 3233, the second convex section 3234, the first concave section 3231 and the second concave section 3232 are sequentially reduced, the connection mechanism 3 is located at the driving position when the hook 331 is located at the first convex section 3233, and the connection mechanism 3 is located at the rotation position when the hook 331 is located at the second convex section 3234.

It can be understood that, when the hook 331 is located in the first concave section 3231 and the second concave section 3232, the hook 331 is clamped at the lowest point of the first concave section 3231 and the second concave section 3232, and at this time, when the connecting piece 32 moves upwards, the hook 331 will have a limiting effect on the movement of the connecting piece 32, so that the connecting piece 32 cannot move upwards under the limitation of the hook 331, and at this time, the operator can only drive the connecting piece 32 to move downwards, and because the locking rod is rotatably located in the mounting hole 312, the hook 331 can move towards the first convex section 3233 or the second convex section 3234; when the hook 331 is located at the first protruding section 3233 and the second protruding section 3234, the hook 331 is clamped at the highest point of the first protruding section 3233 and the second protruding section 3234, and at this time, when the connecting element 32 moves downward, the hook 331 has a limiting effect on the movement of the connecting element 32, so that the connecting element 32 cannot move downward under the limitation of the hook 331, and meanwhile, an operator can drive the connecting element 32 to move upward and make the hook 331 move toward the first recessed section 3231 or the second recessed section 3232. Meanwhile, since the connecting member 32 cannot move downward when the hook 331 is located at the first convex section 3233 and the second convex section 3234, so that the first convex section 3233 and the second convex section 3234 of the connecting member 32 are located in a non-depressible state when being respectively matched with the hook 331, an operator can lock the mop 100 on the connecting mechanism 3 by pressing the mop 100 and pressing the connecting member 32, the operator can rotate the mop 100 conveniently, the possibility of vertical relative displacement between the mop 100 and the barrel 1 during rotation is reduced, and the height of the first convex section 3233 is higher than that of the second convex section 3234, the driving position of the connecting mechanism 3 is set when the hook 331 is located at the first convex section 3233, the rotation position is set when the hook 331 is located on the second convex section 3234, which is convenient for the operator to complete the cleaning and drying of the mop 100, thereby improving the use experience of the operator.

In some specific embodiments, as shown in fig. 12, the connecting member 32 can be configured as a polygonal rod, the mounting hole 312 can be configured as a polygonal hole, at least two side walls of the connecting member 32 are respectively provided with a closed-loop groove 323, and at least two inner walls of the square hole are respectively provided with a locking member 33 corresponding to the closed-loop groove 323, so that the stability, compression resistance and tensile resistance of the rod of the connecting mechanism 3 during the movement along the vertical direction can be further improved, and the locking effect of the connecting mechanism 3 at the rotation position and the driving position can be improved.

Illustratively, the inner wall of the polygonal hole comprises a detachable closing shell 34, the closing shell 34 is arranged to facilitate the installation of the locking member 33 and the hook 331 is matched on the closed-loop groove 323, thereby improving the installation efficiency of the dirt and water separating mop bucket.

In some embodiments, as shown in fig. 10, the speed increasing mechanism 4 includes a speed increasing cylinder 41, a planetary gear 42, and a sun gear 43. One end of the speed increasing tube 41 is connected with the connecting mechanism 3, the other end is formed with a matching groove 412, and the inner wall of the matching groove 412 is provided with an inner gear ring 411. The number of the planetary gears 42 is plural, and the plurality of planetary gears 42 are each meshed with the ring gear 411. The sun gear 43 is provided between the plurality of planetary gears 42, the sun gear 43 meshes with the plurality of planetary gears 42, and the sun gear 43 is connected to the drive end of the pumping mechanism 5.

It can be understood that, an operator drives the mop 100 to rotate, the mop 100 drives the connecting mechanism 3 to rotate, the connecting mechanism 3 can drive the speed-increasing cylinder 41 to rotate, the speed-increasing cylinder 41 can drive the inner gear ring 411 to rotate when rotating, the inner gear ring 411 can drive the plurality of planetary gears 42 to rotate, the planetary gears 42 can drive the sun gears 43 to rotate, the sun gears 43 further drive the driving end of the water pumping mechanism 5 to rotate, and the arrangement of the inner gear ring 411, the planetary gears 42 and the sun gears 43 can enable the transmission ratio between the inner gear ring 411 and the sun gears 43 to be smaller than 1, so that the rotating speed of the sun gears 43 is increased, the speed-increasing effect is realized, the intensity of water sprayed out of the water outlet of the water pumping mechanism 5 can be increased, and.

Of course, in other embodiments of the present invention, the speed increasing mechanism 4 may also use a speed changing device with other structures, and is not limited to the planetary gear 42 structure of the embodiment.

In some alternative embodiments, as shown in fig. 9, the speed increasing cylinder 41 is connected with the connecting mechanism 3 through a threaded structure, which can facilitate the installation and connection of the speed increasing mechanism 4 and the connecting mechanism 3.

In some embodiments, as shown in fig. 3, and 10, the water pumping mechanism 5 includes an impeller 51 and a water outlet 52. One end of the impeller 51 is rotatably arranged on the bottom wall of the purified water tank 11, and the other end is connected with the speed increasing mechanism 4. One end of the water outlet piece 52 is adjacent to the impeller 51, the other end of the water outlet piece 52 penetrates through the barrel cover 2 and is provided with a plurality of water outlets, and the plurality of water outlets are arranged at intervals along the direction of the central axis far away from the barrel body 1.

It can be understood that, the impeller 51 can input water into the water outlet member 52 during the rotation process, and the water is ejected from a plurality of water outlets through the water outlet member 52, and the impeller 51 has a higher rotation speed under the action of the speed increasing mechanism 4, so that the impeller 51 has a higher water pumping efficiency, and the strength of the water ejected from the water outlets is improved. In addition, a plurality of delivery ports are arranged at intervals along the direction of the central axis far away from the barrel body 1, so that water can be sprayed to a sector of the mop 100 from the plurality of delivery ports and sprayed to the whole bottom surface of the mop 100 in the rotating process of the mop 100, water can be saved, and the cleaning effect of the mop 100 can be ensured.

In some alternative embodiments, as shown in fig. 3, 8 and 9, the water pumping mechanism 5 further includes a support frame 55, the support frame 55 is disposed on the bottom wall of the clean water tank 11 and connected to the bottom wall of the clean water tank 11 through a structure such as a screw bolt, and other structures of the water pumping mechanism 5 such as the impeller 51 are rotatably disposed through the support frame 55, so that the support frame 55 can limit the position of the support frame 55, and through the arrangement of the support frame 55, other structures of the water pumping mechanism 5 can be stably mounted on the bottom wall of the clean water tank 11, thereby improving the mounting stability of the water pumping mechanism 5.

In some embodiments, as shown in fig. 3, 15 and 16, the pumping mechanism 5 further comprises a base 53 and a shaft 54. The base 53 is formed with a water chamber which communicates with the purified water tank 11, and one end of the water outlet member 52 is inserted into the base 53. The number of the rotating shafts 54 is two, the two rotating shafts 54 are respectively clamped at two opposite ends of the impeller 51, the two rotating shafts 54 are in clearance fit with the impeller 51, one rotating shaft 54 is arranged in the speed increasing mechanism 4 in a penetrating manner, and the other rotating shaft 54 is arranged in the base 53 in a penetrating manner.

It can be understood that the base 53 can provide a better support for the impeller 51 and the two shafts 54. Two pivot 54 joints are at the both ends of impeller 51's relative setting, can improve the connection steadiness between pivot 54 and the impeller 51, clearance fit enables to form free rotation's sliding bearing structure between pivot 54 and the impeller 51 simultaneously between pivot 54 and the impeller 51, through the above-mentioned structure setting, can make the one end that pivot 54 supported impeller 51 be connected with speed increasing mechanism 4, can also support the unsettled rotation of speed increasing mechanism 4, avoided the contact friction between speed increasing mechanism 4 and the mechanism 5 that draws water.

Furthermore, the connection between the rotating shaft 54 and the impeller 51 can enable the water pumping mechanism 5 to realize the rotation of the impeller 51 without using a structure such as a bearing, when the impeller 51 is connected with the speed increasing mechanism 4 through the structure such as the bearing, the bearing is soaked in the water purification tank 11 for a long time, the bearing is easy to damage and the connection part between the bearing and the impeller 51 is difficult to clean, and meanwhile, the bearing is difficult to be connected with the impeller 51 of a plastic piece for a long time, the structure of the double-shaft impeller 51 of the embodiment can not need to use the bearing, meanwhile, the impeller 51 can also use the plastic piece, the water pumping mechanism 5 is not required to be cleaned frequently, and the production cost of the water pumping mechanism 5 can also be.

In some specific embodiments, as shown in fig. 15, the base 53 includes a rotation shaft engaging groove 531, the rotation shaft engaging groove 531 is used for positioning the rotation shaft 54 inserted into the base 53, so as to reduce the possibility of the rotation shaft 54 shifting, the water chamber is communicated with the purified water tank 11 through the bottom of the base 53, and during the water pumping process of the water pumping mechanism 5, the purified water can flow into the water chamber through the bottom of the base 53 and be ejected from the water outlet of the water outlet 52 under the driving of the impeller 51.

In some embodiments, the two shafts 54 are coaxially disposed, so as to improve the water pumping effect of the impeller 51.

In some embodiments, as shown in fig. 3, the water outlet 52 includes a water conduit 521 and a water outlet portion 522. One end of the water guide pipe 521 is disposed adjacent to the impeller 51, and the other end is disposed below the tub cover 2. The water outlet portion 522 penetrates through the barrel cover 2, a water outlet is formed in the portion, located above the barrel cover 2, of the water outlet portion 522, a communication bell mouth is formed in the portion, located below the barrel cover 2, of the water outlet portion 522, and the water guide pipe 521 can abut against the inner wall of the communication bell mouth.

It can be understood that the water conduit 521 and the water outlet portion 522 are separately arranged to facilitate the detachment and the cleaning of the mop barrel with dirt-cleaning separation, and the communication bell mouth is arranged to facilitate the operator to rapidly communicate the water conduit 521 and the water outlet portion 522, so as to facilitate the improvement of the efficiency of cleaning the mop 100 with the mop barrel with dirt-cleaning separation.

In some alternative embodiments, as shown in fig. 7, the water outlet portion 522 includes a porous spray pipe 5221 and a trumpet port 5222, the porous spray pipe 5221 and the trumpet port 5222 are connected in a sealing manner by threads, the porous spray pipe 5221 is inserted into the barrel cover 2, the trumpet port 5222 is located below the barrel cover 2, one end of the trumpet port 5222 facing the water conduit 521 is provided with a communication trumpet port,

in some specific embodiments, the barrel cover 2 is provided with a connecting groove 22, the connecting groove 22 is used for installing a water outlet portion 522, a connecting hole is formed on a bottom wall of the connecting groove 22, the water outlet portion 522 is inserted into the connecting hole, and a sealing rubber gasket 523 is arranged between the water outlet portion 522 and the bottom wall of the connecting groove 22. It will be appreciated that the provision of the sealing rubber 523 prevents infiltration of sewage from the communication hole, thereby ensuring the cleanliness of water inside the water purification tank 11.

In some specific embodiments, as shown in fig. 6, a positioning groove 15 is provided on the barrel body 1, a positioning portion 23 is provided on the barrel cover 2, the positioning portion 23 can be clamped in the positioning groove 15, and when the positioning portion 23 is clamped in the positioning groove 15, the communication bell mouth is disposed towards the water conduit 521.

It can be understood that, through above-mentioned structure setting can be convenient for operating personnel to aim at aqueduct 521 with water outlet portion 522 fast, and operating personnel of being convenient for communicates water outlet portion 522 and aqueduct 521, reduces the calibration positioning work when operating personnel lays bung 2, has improved operating personnel and has used the convenience of clean dirty separation mop bucket.

In some embodiments, as shown in fig. 3 and 7, the mop bucket further comprises a cleaning mechanism 6, the cleaning mechanism 6 is arranged on the bucket cover 2, and the cleaning mechanism 6 is arranged adjacent to the water outlet.

It can be understood that when the mop 100 rotates on the bucket cover 2 for cleaning, after the water impacts the mop 100, the mop 100 can be contacted with the cleaning mechanism 6 immediately in the rotating process, and the cleaning of the mop 100 is completed under the action of the cleaning mechanism 6, so that the phenomenon that the water-stained part of the mop 100 is thrown to the sewage tank 12 under the action of centrifugal force when the water-stained part of the mop 100 does not move to the cleaning mechanism 6 is avoided, the cleaning efficiency of the mop 100 can be improved, and the cleaning water can be saved.

Illustratively, the cleaning mechanism 6 includes brushes or scraping and squeezing comb teeth, both of which can clean the wipe on the bottom surface of the mop 100, thereby improving the cleaning effect of the cleaning mechanism 6. The dirt cleaned by the brushes or the scraping comb teeth can flow into the sewage tank 12 under the action of water flow, so that the service life of the cleaning mechanism 6 is prolonged.

In some embodiments, as shown in fig. 1, 3 and 7, the mop bucket further comprises a foaming member 7, the foaming member 7 is disposed in the waste water tank 12, the foaming member 7 has a foam outlet, the foaming member 7 can eject cleaning foam through the foam outlet, the foam outlet is located above the bucket cover 2 and is disposed toward the central axis of the bucket body 1, a bearing platform 21 is disposed on the bucket cover 2, and the bearing platform 21 is used for bearing the cleaning foam.

It can be understood that the foaming member 7 can spray diluted cleaning solvent and convert the cleaning solvent into cleaning foam with abundant foam, the cleaning foam can be supported on the bearing table 21, so that the cleaning foam can be adhered to the mop 100 during the rotation process, and the mop 100 with the cleaning foam can better complete the cleaning effect of the mop 100.

In some alternative embodiments, as shown in fig. 6, a foaming rack 16 is provided in the sump 12, the foaming rack 16 being disposed toward the carrying table 21, the foaming rack 16 being used to support the foaming members 7. It can be understood that the arrangement of the foaming frame 16 facilitates the operator to install the foaming member 7 quickly, and avoids the additional time spent by the operator in the process of using the mop bucket for separating clean dirt to adjust the relative position of the foaming member 7 and the bucket cover 2, thereby improving the cleaning efficiency of the mop 100.

In some embodiments, the cleansing foam comprises clear water, household cleanser essence, facial cleanser, or glycerin, wherein the ratio of clear water to household cleanser essence is 4:1-7:1, and a rich cleansing foam with fine and smooth properties and low tendency to collapse can be formed. According to the cleaning foam, when an operator continuously presses the foaming piece 7, the cleaning foam can be shot in a straight strip shape, four to eight times of pressing can be carried out, the cleaning foam with the length of about 10 centimeters and the height of the protrusion of 3 to 4 centimeters can be obtained, and the cleaning foam can be prevented from collapsing after 3 to 5 minutes.

Illustratively, the process of using the foaming member 7 to produce cleaning foam and complete the cleaning of the mop 100 is as follows: pouring water and a cleaning solvent with a preset proportion into the foaming piece 7, adding a small amount of face washing cream or glycerin, stirring and shaking uniformly, placing the foaming piece 7 into the sewage tank 12, and meanwhile, enabling a foam outlet of the foaming piece 7 to face the bearing table 21, when the foaming piece 7 is pressed and cleaning foam is accumulated to a preset height, such as 3-4 cm, the mop 100 can be placed above the barrel cover 2 for cleaning, the distance between the bearing table 21 and the mop 100 is 1 cm, the height of the cleaning foam is more than 3 cm, the mop 100 can be easily stained with the cleaning foam, and at the moment, the mop 100 can be cleaned. It is also possible to apply the cleaning foam to the mop 100 and then apply the foam directly to the floor, and then press out the foam after the floor is mopped to clean the mop 100.

According to the foaming member 7 and the cleaning foam of the embodiment, the cleaning effect of the mop 100 in a cleaning state with the cleaning agent can be achieved without putting the cleaning agent or other chemicals for assisting cleaning into the clean water in advance, so that the cleaning degree of the mop 100 after cleaning is greatly improved, the cleaning solvent does not remain on the surface of the mop 100, and meanwhile, the clean water is greatly saved and the step of cleaning the mop 100 and the floor is simplified.

In some embodiments, as shown in fig. 3-5, the height of the bearing platform 21 is higher than that of the water outlet, and by the arrangement, the sewage generated by the mop 100 in the cleaning process can not fall and collect in the water outlet and flow into the clean water bucket 14, so that the clean water bucket 14 is ensured, the cleaning times of the clean water bucket 14 can be reduced, and the cleaning effect of the mop 100 can be ensured.

Example 1:

referring now to fig. 1 and 3-16, a dirt and dust separating mop bucket according to an embodiment of the present invention will be described.

The mop bucket for purifying and separating dirt comprises a bucket body 1, a bucket cover 2, a connecting mechanism 3, a speed increasing mechanism 4, a water pumping mechanism 5, a cleaning mechanism 6 and a foaming piece 7.

The tub body 1 is formed with a purified water tank 11 and a foul water tank 12 provided around the purified water tank 11, and a notch of the foul water tank 12 is higher than that of the purified water tank 11.

The barrel cover 2 is arranged in the barrel body 1, and the barrel cover 2 can seal the notch of the water purifying tank 11.

The connecting mechanism 3 is arranged in the barrel cover 2 in a penetrating way, and one end of the connecting mechanism 3 can be connected with the mop 100 along the vertical direction in a position-adjustable way. The connection mechanism 3 includes a mount 31 and a connection member 32. Mounting base 31 is connected with speed increasing mechanism 4, mounting base 31 is formed with mounting hole 312, and mating portion 311 that is equipped with is kept away from speed increasing mechanism 4 to one end of mounting base 31, and mating portion 311 can cooperate with mop 100. The connecting member 32 is vertically and adjustably inserted into the mounting hole 312, and one end of the connecting member 32 away from the mounting seat 31 can be engaged with the mop 100. When the connecting mechanism 3 is located at the rotation position, the connecting member 32 is engaged with the mop 100, the engaging portion 311 is spaced apart from the mop 100, and when the connecting mechanism 3 is located at the driving position, the connecting member 32 is engaged with the mop 100, and the engaging portion 311 is engaged with the mop 100. The connector 32 includes a connecting section 321 and a mating section 322. The connecting section 321 is vertically and adjustably inserted into the mounting hole 312. The fitting section 322 is rotatably clamped on an end of the connecting section 321 far away from the mounting seat 31, and a gap is formed between an inner wall of the fitting section 322 and an outer wall of the connecting section 321. The connecting mechanism 3 further comprises a locking member 33, the locking member 33 is rotatably provided in the mounting hole 312, a closed-loop groove 323 is formed on the side wall of the connecting member 32, one end of the locking member 33 is provided with a hook 331 fitted in the closed-loop groove 323, the closed-loop groove 323 has a first concave section 3231, a second concave section 3232, a first convex section 3233 and a second convex section 3234, the heights of the first convex section 3233, the second convex section 3234, the first concave section 3231 and the second concave section 3232 are sequentially reduced, when the hook 331 is located at the first convex section 3233, the connection mechanism 3 is located at the driving position, and the distance between the connection mechanism 3 and the barrel cover is minimum under the driving of the operator, when the hook 331 is located at the second protrusion portion 3234, the connecting mechanism 3 is located at the rotation position, and the coupling mechanism 3 is now stretched by the operator while being locked by the second protruding section 3234.

The speed increasing mechanism 4 is arranged in the water purifying tank 11, one end of the speed increasing mechanism 4 is connected with the connecting mechanism 3, the speed increasing mechanism 4 is positioned below the connecting mechanism 3, and the rotating amplitude of the connecting mechanism 3 can be enhanced by the speed increasing mechanism 4. The speed increasing mechanism 4 includes a speed increasing cylinder 41, a planetary gear 42, and a sun gear 43. One end of the speed increasing tube 41 is connected with the connecting mechanism 3, the other end is formed with a matching groove 412, and the inner wall of the matching groove 412 is provided with an inner gear ring 411. The number of the planetary gears 42 is plural, and the plurality of planetary gears 42 are each meshed with the ring gear 411. The sun gear 43 is provided between the plurality of planetary gears 42, the sun gear 43 meshes with the plurality of planetary gears 42, and the sun gear 43 is connected to the drive end of the pumping mechanism 5.

The water pumping mechanism 5 is arranged in the water purifying tank 11, the water pumping mechanism 5 is positioned below the speed increasing mechanism 4, the water pumping mechanism 5 is provided with a water outlet, the water outlet is positioned above the barrel cover 2, the driving end of the water pumping mechanism 5 is connected with the speed increasing mechanism 4, and the speed increasing mechanism 4 can drive the water pumping mechanism 5 to move and spray water in the water purifying tank 11 out of the water outlet. Wherein, coupling mechanism 3 has actuating position and rotation position, and when coupling mechanism 3 was located actuating position, mop 100 can rotate and drive coupling mechanism 3 and rotate, when coupling mechanism 3 was located the rotation position, and mop 100 stopped when rotating and drives coupling mechanism 3 and rotate. The pumping mechanism 5 includes an impeller 51 and a water outlet member 52. One end of the impeller 51 is rotatably arranged on the bottom wall of the purified water tank 11, and the other end is connected with the speed increasing mechanism 4. One end of the water outlet piece 52 is adjacent to the impeller 51, the other end of the water outlet piece 52 penetrates through the barrel cover 2 and is provided with a plurality of water outlets, and the plurality of water outlets are arranged at intervals along the direction of the central axis far away from the barrel body 1. The pumping mechanism 5 further includes a base 53 and a shaft 54. The base 53 is formed with a water chamber which communicates with the purified water tank 11, and one end of the water outlet member 52 is inserted into the base 53. The number of the rotating shafts 54 is two, the two rotating shafts 54 are respectively clamped at two opposite ends of the impeller 51, the two rotating shafts 54 are in clearance fit with the impeller 51, one rotating shaft 54 is arranged in the speed increasing mechanism 4 in a penetrating manner, and the other rotating shaft 54 is arranged in the base 53 in a penetrating manner. The water outlet member 52 includes a water guide pipe 521 and a water outlet portion 522. One end of the water guide pipe 521 is disposed adjacent to the impeller 51, and the other end is disposed below the tub cover 2. The water outlet portion 522 penetrates through the barrel cover 2, a water outlet is formed in the portion, located above the barrel cover 2, of the water outlet portion 522, a communication bell mouth is formed in the portion, located below the barrel cover 2, of the water outlet portion 522, and the water guide pipe 521 can abut against the inner wall of the communication bell mouth.

The cleaning mechanism 6 is arranged on the barrel cover 2, and the cleaning mechanism 6 is arranged adjacent to the water outlet.

The foaming piece 7 is arranged in the sewage tank 12, the foaming piece 7 is provided with a foam outlet, the foaming piece 7 can spray cleaning foam through the foam outlet, the foam outlet is positioned above the barrel cover 2 and arranged towards the central axis of the barrel body 1, the barrel cover 2 is provided with a bearing table 21, and the bearing table 21 is used for bearing the cleaning foam.

It should be added that, in the present embodiment, the sun gear 43 can be provided as an integral molding with the impeller 51, and the sun gear 43 can also be sleeved on the impeller 51 to connect the speed increasing mechanism 4 and the water pumping mechanism 5. When the sun gear 43 and the impeller 51 are integrally formed, the processing difficulty of the connection between the sun gear 43 and the impeller 51 through the shaft can be reduced, so that the processing of the connection part of the speed increasing mechanism 4 and the water pumping mechanism 5 is facilitated, and the processing cost of the dirt-purifying separation mop bucket is improved.

The clean and dirty separation mop bucket according to the present embodiment is used in the following processes of cleaning the mop 100 and spin-drying the mop 100:

when cleaning the mop 100, the mop 100 is connected with the connecting piece 32, an operator presses the mop 100 down to make the hook 331 of the locking piece 33 clamped on the first convex section 3233, at this time, the mop 100 is connected with the matching part 311, the operator rotates the mop 100 to drive the matching part 311 to rotate, the matching part 311 further drives the mounting seat 31 to rotate, the mounting seat 31 can drive the speed-increasing cylinder 41 in threaded connection with the mounting seat 31 to rotate, the annular gear 411 of the speed-increasing cylinder 41 is meshed with the plurality of planetary gears 42 and drives the plurality of planetary gears 42 to rotate, the plurality of planetary gears 42 drive the sun gear 43 to rotate, the sun gear 43 drives the impeller 51 of the water pumping mechanism 5 to rotate, the impeller 51 rotates at high speed in the water purification cylinder 14 and inputs the water into the water conduit 521, the water is sprayed into the communicating bell mouth from the water conduit 521 and enters the water outlet part 522, the water entering the water outlet part 522 is sprayed out from the plurality of water outlets, because mop 100 keeps rotating, the water that spouts from a plurality of delivery ports can wet the whole bottom surface of mop 100, and the impact of water also can play clean effect to mop 100 simultaneously, plays better clean effect to mop 100 under the effect of clean mechanism 6. Before rotating mop 100, an operator can also press foaming piece 7 to set preset cleaning foam on bearing table 21, so that the cleaning effect of mop 100 is further improved. Most of the sewage in the cleaning process of the mop 100 is thrown into the sewage tank 12 by centrifugal force, and the rest of the residual sewage flows into the sewage tank 12 around the clean water tank 11 from the tub cover 2, thereby completing the cleaning process of the mop 100.

When the mop 100 is dried, the mop 100 is connected with the connecting piece 32, an operator firstly lifts the mop 100 to enable the hook 331 to be separated from the limit position of the first protruding section 3233, then presses down the mop 100 to enable the hook 331 of the locking piece 33 to be clamped in the second protruding section 3234, at the moment, the mop 100 is disconnected with the matching part 311, the operator can easily rotate the mop 100, water on the mop 100 can be thrown into the sewage groove 12 on the periphery of the water purifying groove 11 under the action of centrifugal force, and therefore the drying of the mop 100 is completed.

According to the mop bucket with the dirt-cleaning separation function, the bucket cover 2 and the bucket body 1 are matched to effectively separate clean water from sewage, the water pumping strength of the water pumping mechanism 5 is improved through the speed increasing mechanism 4, and strong water flow sprayed out of the water outlet can form first strong spraying on the mop 100; before mop 100 is cleaned, more cleaning foam is arranged on bearing table 21 by using foaming piece 7 in advance, mop 100 can be stained with the cleaning foam in the rotating process, and a second cleaning effect can be formed on mop 100; the cleaning mechanism 6 can scrape and squeeze the bottom surface of the mop 100, so that a third scraping and squeezing cleaning effect on the mop 100 is realized. According to the dirt-cleaning separation mop bucket provided by the embodiment, the cleaning agent is not required to be added into clean water in advance, or other auxiliary cleaning chemical substances are not required to be added, and the foam containing the cleaning agent can be added to the bottom surface of the mop 100 at any time according to requirements, so that the cleaning degree of the mop 100 after cleaning is greatly improved, meanwhile, the clean water is greatly saved, and the step of cleaning the floor is simplified.

Example 2:

referring to fig. 2, a mop bucket with dirt and dust separation according to an embodiment of the present invention will be described.

The structure of the mop bucket for cleaning and separating dirt in this embodiment is substantially the same as that of embodiment 1, the two are different structures of the bucket body 1, only the difference between the two is described here, and the structure of this embodiment that is the same as that of embodiment 1 is not described here again.

As shown in fig. 2, the tub body 1 includes a slop tub 13 and a clean water tub 14. The slop pail 13 is formed with a first reservoir tank. The clean water tank 14 is provided in the first storage tank, the clean water tank 14 is formed with a second storage tank, and the height of the clean water tank 14 is smaller than that of the foul water tank 13. One of the slop pail 13 and the clean water pail 14 is provided with a latch sliding groove 1311, and the other is provided with a latch protrusion 141 fitted in the latch sliding groove 1311.

In the description herein, references to the description of "some embodiments," "other embodiments," etc., mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the invention. In this specification, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

The above description is only for the preferred embodiment of the present invention, and for those skilled in the art, there are variations on the detailed description and the application scope according to the idea of the present invention, and the content of the description should not be construed as a limitation to the present invention.

Claims (10)

1. The utility model provides a clean dirty separation mop bucket which characterized in that includes:

the water purifying device comprises a barrel body (1), wherein a purified water tank (11) and a sewage tank (12) arranged around the purified water tank (11) are formed in the barrel body (1), and the notch of the sewage tank (12) is higher than that of the purified water tank (11);

the barrel cover (2) is arranged in the barrel body (1), and the barrel cover (2) can seal the notch of the water purifying groove (11);

the connecting mechanism (3) is arranged in the barrel cover (2) in a penetrating mode, and one end of the connecting mechanism (3) can be connected with the mop (100) in a position-adjustable mode along the vertical direction;

the speed increasing mechanism (4) is arranged in the water purifying tank (11), the speed increasing mechanism (4) is positioned below the connecting mechanism (3), and one end of the speed increasing mechanism (4) is connected with the connecting mechanism (3);

the water pumping mechanism (5) is arranged in the water purification tank (11), the water pumping mechanism (5) is located below the speed increasing mechanism (4), the water pumping mechanism (5) is provided with a water outlet, the water outlet is located above the barrel cover (2), the driving end of the water pumping mechanism (5) is connected with the speed increasing mechanism (4), the speed increasing mechanism (4) can enhance the power applied to the water pumping mechanism (5) by the connecting mechanism (3), and the speed increasing mechanism (4) can drive the water pumping mechanism (5) to move and spray out water in the water purification tank (11) from the water outlet; wherein:

the connecting mechanism (3) is provided with a driving position and a self-rotating position, when the connecting mechanism (3) is located at the driving position, the mop (100) can rotate and drive the connecting mechanism (3) to rotate, and when the connecting mechanism (3) is located at the self-rotating position, the mop (100) stops driving the connecting mechanism (3) to rotate when rotating.

2. The dirt and dust separation mop bucket according to claim 1, wherein the connecting mechanism (3) comprises:

the mounting seat (31) is connected with the speed increasing mechanism (4), a mounting hole (312) is formed in the mounting seat (31), a matching part (311) is arranged at one end, far away from the speed increasing mechanism (4), of the mounting seat (31), and the matching part (311) can be matched with the mop (100);

the connecting piece (32) is arranged in the mounting hole (312) in a penetrating mode in a position-adjustable mode along the vertical direction, one end, far away from the mounting seat (31), of the connecting piece (32) can be matched with the mop (100) and has a gap with the mop (100); wherein:

when the connecting mechanism (3) is located at the rotation position, the connecting piece (32) is matched with the mop (100), the matching part (311) and the mop (100) are arranged at intervals, when the connecting mechanism (3) is located at the driving position, the connecting piece (32) is matched with the mop (100), and the matching part (311) is matched with the mop (100).

3. The dirt separation mop bucket of claim 2, wherein the connector (32) includes:

the connecting section (321) is arranged in the mounting hole (312) in a penetrating mode in a position-adjustable mode along the vertical direction, and the connecting section (321) penetrates through the mounting hole (312) in a position-adjustable mode;

cooperation section (322), cooperation section (322) rotationally the joint is in keeping away from of linkage segment (321) one end of mount pad (31) is last, the inner wall of cooperation section (322) with have the clearance between the outer wall of linkage segment (321).

4. The dirt and dust separating mop bucket according to claim 3, wherein the connecting mechanism (3) further comprises a locking member (33), the locking member (33) is rotatably provided in the mounting hole (312), a closed-loop groove (323) is formed on a side wall of the connecting member (32), one end of the locking member (33) is provided with a hook (331) fitted in the closed-loop groove (323), the closed-loop groove (323) has a first concave section (3231), a second concave section (3232), a first convex section (3233) and a second convex section (3234), the heights of the first convex section (3233), the second convex section (3234), the first concave section (3231) and the second concave section (3232) are sequentially reduced, and when the hook (331) is located at the first convex section (3233), the connecting mechanism (3) is located at the driving position, when the hook (331) is located at the second protruding section (3234), the connecting mechanism (3) is located at the rotation position.

5. The mop bucket of claim 1, wherein the speed increasing mechanism (4) comprises:

one end of the speed-increasing barrel (41) is connected with the connecting mechanism (3), the other end of the speed-increasing barrel (41) is provided with a matching groove (412), and an inner gear ring (411) is arranged on the inner wall of the matching groove (412);

a plurality of planetary gears (42), wherein the planetary gears (42) are all meshed with the inner gear ring (411);

the sun gear (43) is arranged between the plurality of planetary gears (42), the sun gear (43) is meshed with the plurality of planetary gears (42), and the sun gear (43) is connected with the driving end of the water pumping mechanism (5).

6. The dirt and water separation mop bucket of claim 1, wherein said water pumping mechanism (5) comprises:

one end of the impeller (51) is rotatably arranged on the bottom wall of the water purifying tank (11), and the other end of the impeller (51) is connected with the speed increasing mechanism (4);

the water outlet part (52), one end of the water outlet part (52) is adjacent to the impeller (51), the other end of the water outlet part (52) penetrates through the barrel cover (2) and is provided with a plurality of water outlets, and the water outlets are arranged at intervals along the direction of the central axis far away from the barrel body (1).

7. The dirt and water separation mop bucket of claim 6, wherein said water pumping mechanism (5) further comprises:

the base (53) is provided with a water cavity, the water cavity is communicated with the water purifying tank (11), and one end of the water outlet piece (52) is arranged in the base (53) in a penetrating way;

the rotating shafts (54) are two, the two rotating shafts (54) are respectively connected to two ends of the impeller (51) which are oppositely arranged in a clamped mode, the two rotating shafts (54) are in clearance fit with the impeller (51), one rotating shaft (54) penetrates through the speed increasing mechanism (4), and the other rotating shaft (54) penetrates through the base (53).

8. The dirt separation mop bucket of claim 7, wherein the drain member (52) includes:

one end of the water guide pipe (521) is arranged adjacent to the impeller (51), and the other end of the water guide pipe (521) is arranged below the barrel cover (2);

go out water portion (522), it wears to establish to go out water portion (522) in bung (2), it is located to go out water portion (522) being equipped with of bung (2) top the delivery port, the position of going out water portion (522) the below of bung (2) is formed with the intercommunication horn mouth, just aqueduct (521) can the butt be in on the inner wall of intercommunication horn mouth.

9. The mop bucket according to any one of claims 1 to 8, further comprising a cleaning mechanism (6), wherein the cleaning mechanism (6) is arranged on the bucket cover (2), and the cleaning mechanism (6) is arranged adjacent to the water outlet.

10. The mop bucket according to any one of claims 1 to 8, further comprising a foaming member (7), wherein the foaming member (7) is disposed in the wastewater tank (12), the foaming member (7) has a foam outlet, the foaming member (7) can eject cleaning foam through the foam outlet, the foam outlet is located above the bucket cover (2) and disposed toward the central axis of the bucket body (1), the bucket cover (2) is provided with a bearing platform (21), and the bearing platform (21) is used for bearing the cleaning foam.

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