CN112089367A - Floor cleaning system and electric mop cleaning method - Google Patents

Abstract

The invention provides a floor cleaning system, which comprises an electric mop and a cleaning base, wherein the electric mop comprises a mop rotating disc and a mop, the mop is attached to the mop rotating disc, and the floor cleaning system is characterized in that: the cleaning base comprises a cleaning groove, the cleaning groove comprises a bottom wall and a side wall which enclose an accommodating space, the mop rotating disc and the mop are accommodated in the accommodating space of the cleaning groove, the bottom wall comprises a first surface and a second surface, the first surface and the second surface form a step, the mop rotating disc drives the mop to rotate, the mop is cleaned by cleaning water, and the step separates the cleaning water and the sewage. Compared with the prior art, the floor cleaning system provided by the invention has a good cleaning effect. Meanwhile, the invention also provides a cleaning method of the electric mop.

Description

Floor cleaning system and electric mop cleaning method

Technical Field

The present invention relates to floor cleaning systems, and more particularly to a floor cleaning system and method for a power mop.

Background

The electric mops in the prior art are very few, although the electric mops have a lot of patents, the electric mops are not ideal in the aspects of actual implementation and popularization effects, and still mainly use manual mops in the market, the reason for this is that the existing electric mops are complicated in cleaning process, garbage cannot be automatically cleaned, and dewatering is very inconvenient, the labor intensity in the floor mopping process is not reduced by the troublesome operation, the electric mops are high in cost, parts are difficult to repair, and the electric mops cannot be widely popularized and used directly.

Therefore, there is a great need to provide a new floor cleaning system that improves the cleaning effect of the mop.

Disclosure of Invention

The invention aims to provide a floor cleaning system with good cleaning effect.

Meanwhile, a method for cleaning the electric mop by adopting the floor cleaning system is also provided.

The utility model provides a ground cleaning system, includes electronic mop and clean base, electronic mop includes mop carousel and mop, the mop subsides are located the mop carousel, clean base is including cleaning groove, cleaning groove is including enclosing diapire and the lateral wall that becomes accommodating space, the mop carousel with the mop accept in the accommodating space of cleaning groove, the diapire includes first surface and second surface, first surface with the second surface forms the step, the mop carousel drives the mop is rotatory, the clean mop of cleaning water, step separation cleaning water and sewage.

Further, the mop cloth is fixed to the mop rotary disc through a magic tape.

The cleaning water inlet module comprises a water inlet, a body and a shunting hole, and cleaning water enters the body from the water inlet and is shunted by the shunting hole to form multiple branches to flow into the cleaning tank.

Further, the first surface is higher than the second surface, and the first surface is arranged close to the diversion hole.

Further, the bottom wall surface is provided with a plurality of concave-convex structures, and the concave-convex structures at least comprise one of brushes and salient points.

Further, the bottom wall surface is provided with a plurality of concave-convex structures, and the concave-convex structures at least comprise one of brushes and salient points.

Further, the filtering holes are formed in the second surface.

Further, the cleaning device further comprises a cache groove and a sewage groove, the cleaning groove, the cache groove and the sewage groove are nested from top to bottom, the cleaning groove and the cache groove are communicated with each other through the filtering hole, and the cache groove and the sewage groove are communicated with each other through the conducting hole.

The sewage outlet module comprises a control switch and a water outlet hole, the control switch correspondingly controls whether the through hole is communicated or not, and the water outlet hole is communicated with the sewage tank.

Furthermore, the cleaning tank also comprises a water level control hole which is arranged on the side wall

The utility model provides a clean method of electronic mop of clean system in ground, clean system in ground includes electronic mop and clean base, electronic mop includes mop carousel and mop, the mop along with the mop carousel rotates in step, clean base includes cleaning water intake module, cleaning groove, buffer memory groove, bilge sump and sewage play water module, adopts clean base is clean when electronic mop, includes following step: accommodating the electric mop in the cleaning groove; providing cleaning water to enter the cleaning tank from the cleaning water inlet module; the cleaning trough comprises a bottom wall, the bottom wall comprises a first surface and a second surface which form a step, and cleaning water flows to the second surface from the first surface in a single direction after cleaning the mop; the surface of the bottom wall is provided with a concave-convex structure, and the mop rotates and rubs with the concave-convex structure to clean the mop; the cleaned sewage is converged into the cache tank from the cleaning tank; starting a control switch, opening a via hole for communicating the cache tank with the sewage tank, and introducing sewage into the sewage tank; and the sewage is discharged from the sewage tank through the water outlet.

In contrast to the prior art, the floor cleaning system of the present invention includes a power mop and a cleaning base. Firstly, a cleaning water inlet module is arranged in a cleaning base, a cleaning water source is provided to enter the cleaning groove, the contact area of the cleaning water and the mop is enlarged, and the cleaning degree is improved.

Secondly, arranging a first surface and a second surface with a height difference on the surface of the bottom wall of the cleaning groove, so that cleaning water flows from the first surface to the second surface in a one-way manner, and the cleaning water and the cleaned sewage are separated, so that the secondary pollution of the mop cloth by the sewage is avoided; on the other hand, based on the concave-convex structure arranged on the surface of the cleaning groove, the dirt on the surface of the mop cloth is effectively separated from the surface of the mop cloth, and the cleaning effect is further improved; simultaneously, set up and filter the hole and filter sewage, avoid large granule filth to flow in the buffer memory groove and block up the apopore.

Furthermore, will clean groove, buffer memory groove and bilge pit stack and establish and form nested three-layer structure of lining up each other, filter sewage by levels, wherein the effective clean mop of first layer, through the sewage part after cleaning buffer memory in the second floor buffer memory groove works as after the second floor is gathered and is filled up sewage, opens control switch, passes through the bilge pit the apopore is let out. The three-layer structure is flexible to use, the cleaning base is suitable for different cleaning environments, and when the cleaning base is cleaned in a small amount, sewage can be stored in the cache groove and is convenient to move; when the buffer tank 37 is full, the control switch can be turned on to discharge sewage in time.

And finally, a water level control hole is formed in the side wall of the cleaning tank, so that the water quantity in the cleaning tank is ensured to be within a set range, overflow is avoided, and the cleaning effect is improved.

Drawings

FIG. 1 is a perspective assembled view of a floor cleaning system according to the present invention;

FIG. 2 is an exploded perspective view of the floor cleaning system of FIG. 1;

FIG. 3 is a schematic perspective view of the clean water inlet module shown in FIG. 2;

FIG. 4 is a schematic perspective view of the cleaning tank of FIG. 2;

FIG. 5 is a perspective view of the cleaning base of FIG. 2 after assembly; and

fig. 6 is a side sectional view taken along line VI-VI of fig. 5.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Please refer to fig. 1, which is a schematic perspective assembly structure of a floor cleaning system according to the present invention. The floor cleaning system 10 includes a power mop 20 and a cleaning base 30. The floor cleaning system 10 is used to clean a floor surface in a home office environment. The electric mop 20 cleans the surface dirt and transfers the dirt remained on the surface to the mop cloth; the cleaning base 30 cleans the mop cloth of the electric mop 20, removes dirt remained in the mop cloth of the electric mop 20, ensures the cleanness of the mop cloth of the electric mop 20, and improves the cleaning effect of the floor cleaning system 10.

In the embodiment of the present invention, the cleaning base 30 is embodied as a cleaning bucket, but it is not limited to the cleaning bucket itself, and it may be other containers and supports for supporting the cleaning mop.

Please refer to fig. 2, which is an exploded perspective view of the floor cleaning system shown in fig. 1. The electric mop 20 comprises a mop rod 21, a mop main body 23, two mop rotating discs 25, magic tapes 27 and a mop cloth 29.

The mop rod 21 is an elongated rod body for holding by hand, and has one end pivotally fixed to the mop body 23 and the other end for holding by an operator.

The mop body 23 fixes one end of the mop rod 21 and supports and fixes the mop rotating disc 25. The two mop cloth rotating discs 25 are symmetrically arranged on one side surface of the mop main body 23. The mop turntable 25 rotates at a predetermined speed in a horizontal plane with respect to the mop body 23.

The mop 29 is attached and fixed to the surface of the mop rotating disc 25 through the magic tape 27, and when the mop rotating disc 25 rotates, the mop 29 is driven to rotate synchronously with the mop rotating disc 25. The mop 29 is driven by the rotation of the mop turntable 25 to rotate and rub against the ground, so that the ground is cleaned, specifically, the cleaning of garbage such as dirt, residual dirt, sewage, hair and the like is realized.

The cleaning base 30 is used to house and clean the electric mop 20. Specifically, when the electric mop 20 is not in operation or when the mop cloth needs to be cleaned during the floor cleaning process, the electric mop 20 is correspondingly received in the cleaning base 30. The cleaning base 30 comprises a cleaning water inlet module 31, a cleaning tank 33, a buffer tank 35, a sewage tank 37 and a sewage outlet module 39.

Please refer to fig. 3, which is a schematic perspective view of the clean water inlet module shown in fig. 2. The cleaning water intake module 31 is used to introduce a source of cleaning water for cleaning the mop 29 to be cleaned. The cleaning water inlet module 31 includes a body 311, a water inlet 313 and a diversion hole 315. The body 311 is a rectangular casing with an overall hollow structure, and is embedded on the side wall of the cleaning groove 33. The water inlet 313 is disposed on a side surface of the body 311, and is communicated with the hollow structure of the body 311. The diversion hole 315 is disposed on the other side surface of the body 311, and the diversion hole 315 and the water inlet 311 are respectively disposed on two adjacent side surfaces of the body 311. The water inlet 313 is connected with an external clean water source, and external clean water enters the hollow structure of the clean water inlet module 31 from the water inlet 313 and then is discharged through the diversion holes 315. The number of the flow distribution holes 315 is plural, and the cleaning water is simultaneously distributed and collected from the plural flow distribution holes 315.

Please refer to fig. 4, which is a schematic perspective view of the cleaning tank shown in fig. 2. The cleaning tank 33 includes a bottom wall 331, a side wall 333, a brush 335, a protrusion 337, a water level control hole 338, and a filter hole 339. The bottom wall 331 and the sidewall 333 are combined to form an open-ended storage space for storing the mop cloth 29 and the mop rotating disc 25 of the electric mop 20.

Referring to fig. 2 and 4 again, the bottom wall 331 includes a first surface 3311 and a second surface 3313 disposed in a connecting manner, wherein a height difference exists between the first surface 3311 and the second surface 3313, so as to form a step 3312. In this embodiment, the first surface 3311 is disposed near the side of the diversion hole 313 and is higher than the second surface 3313. The step 3312 facilitates the automatic flow of the cleaning water from the first surface 3311 to the second surface 3313.

The side wall 333 is disposed on one side of the bottom wall 331, perpendicular to the bottom wall 331, and cooperates with the bottom wall 331 to form an accommodating space. The water level control hole 338 is formed in the sidewall 333, and when the water level in the cleaning tank 33 is higher than the height of the water level control hole 338, the water level control hole 338 discharges the cleaning water.

The brush 335 and the protruding point 337 are respectively disposed on the side surface of the bottom wall 331 adjacent to the receiving space. The brush 335 is comprised of a plurality of filaments that effectively filter fine soils, such as hair, etc., from the surface of the mop swab 29. The raised points 337 filter large particles of dirt from the surface of the mop cloth 29. The brush 335 and the salient points 337 form a concave-convex structure on the surface of the bottom wall 331, and when the mop turntable 25 drives the mop 29 to rotate, the brush and the mop 29 rub against each other to clean the mop.

The filtering holes 339 are formed on the second surface 3313, penetrate the second surface 3313, and guide the contaminated water after cleaning the mop 29 to flow from the cleaning slot 33 to the buffer slot 35. At the same time, the filtering holes 339 filter larger particles, preventing them from flowing into the buffer tank 35.

The buffer groove 35 is also a groove-like structure, and includes a bottom wall 351, a side wall 353 and a through hole 355. The bottom wall 351 and the side wall 353 are combined to form a hollow cavity with an opening. The cleaning groove 33 is sleeved at the opening of the buffer groove 35, and the bottom wall 331 of the cleaning groove 33 and the bottom wall 351 of the buffer groove 35 are arranged at intervals along the vertical direction. The side wall 353 of the buffer groove 35 nests and accommodates the side wall 333 of the cleaning groove 33, so that the buffer groove 35 and the cleaning groove 33 are assembled with each other to form a nested and accommodated layered structure. The through hole 355 penetrates the bottom wall 353 to guide the sewage from the buffer tank 35 to the sewage tank 37.

The outer contour of the sewage tank 37 is approximately consistent with that of the buffer tank 35, and the sewage tank 37 is an open accommodating space surrounded by the housing. The buffer groove 35 is correspondingly embedded and accommodated in the opening of the sewage tank 37. The bottom surface of the sewage tank 37 and the bottom wall 351 of the buffer tank 35 are spaced, and enclose a closed cavity to contain sewage. The housing space of the sewage tank 37 and the housing space of the buffer tank 35 are penetrated through the through hole 355.

Please refer to fig. 5 and fig. 6, wherein fig. 5 is a schematic structural diagram of an assembled cleaning base, and fig. 6 is a partial side sectional view of the cleaning base shown in fig. 5. Thus, the cleaning groove 33, the buffer groove 35 and the sewage groove 37 are nested with each other to form a three-layer structure from top to bottom, wherein the cleaning groove 33 receives the electric mop 20 to clean the mop cloth 29 of the electric mop 20; the buffer storage groove 35 and the cleaning groove 33 are communicated with each other through the filtering hole 339, and sewage after cleaning the mop 29 is filtered through the filtering hole 339 and then flows into the buffer storage groove 35; the sewage tank 37 and the buffer tank 35 are communicated with each other through the through hole 355, and the sewage is guided to flow into the sewage tank 37 from the buffer tank 355. The cleaning tank 33, the buffer tank 35 and the sewage tank 37 are integrally fixed to each other by an engaging structure.

The sewage outlet module 39 includes a control switch 391 and a water outlet 393. The control switch 391 controls the conduction of the conduction hole 355 by a foot pedal, and the water outlet hole 393 is disposed at a side surface of the sewage tank 37, and discharges water through the water outlet hole 393 when sewage exists in the sewage tank 37. In this embodiment, the outlet hole 393 may be connected to a sewage treatment system such as a sewer through an external pipe. The control switch 391 may be a pedal type or a manual type, and any structure capable of realizing the circulation of sewage from the buffer tank 35 to the sewage tank 37 is included in the creation and purpose of the present invention according to the specific design requirement.

When the cleaning base 30 is assembled, it includes the following steps:

step S01, providing a sewage tank 37, and disposing a water outlet hole 393 on a side wall of the sewage tank 37 and penetrating through the side wall of the sewage tank 37;

step S02, providing a buffer tank 37 and a control switch 39, wherein the buffer tank 37 is sleeved at the opening of the sewage tank 37, and the control switch 39 correspondingly controls whether the through hole 355 is conducted or not;

step S03, providing a cleaning tank 33, wherein the cleaning tank 33 is sleeved at the opening of the buffer tank 37, and the filtering hole 339 penetrates the cleaning tank 33 to the buffer tank 35.

Thus, the cleaning base 30 having a three-layer spacing structure is formed.

In the floor cleaning system 10, when the cleaning base 30 is used to clean the electric mop 20, the cleaning steps are as follows:

step S11, providing the electric mop 20 to be placed in the cleaning groove 33 of the cleaning base 30;

step S12, providing a clean water source to enter the hollow position of the body 311 through the water inlet hole 311 of the clean water inlet module 31, and then flow into the cleaning tank 33 through the diversion hole 313;

step S13, providing power to drive the mop rotating disc 25 of the electric mop 20 to rotate and simultaneously drive the mop 29 to synchronously rotate;

step S14, the mops 29 and the concave-convex structure of the cleaning groove 31 rub against each other to clean the mops 29;

step S15, the cleaned sewage flows from the cleaning tank 33 into the buffer tank 35 through the filtering holes 339;

step S16, turning on a control switch 391 to guide the sewage from the buffer tank 35 to the sewage tank 37 through the through hole 355;

in step S17, the sewage flows out of the sewage tank 37 through the water outlet hole 393 and flows out of the cleaning base 30.

In contrast to the prior art, in the floor cleaning system 10, the cleaning principle is as follows:

firstly, in the cleaning water inlet module 31, the cleaning water is supplied to enter the cleaning water inlet module 31 from the water inlet 313, and the diversion holes 315 disperse the cleaning water to enter the cleaning groove 33 in a multi-diversion manner, so that the contact area between the cleaning water and the mop 29 is enlarged, and the cleaning degree is improved. Furthermore, some washing articles such as washing liquid can be filled in the cleaning water inlet module 31, so that decontamination is facilitated.

Secondly, a first surface 3311 and a second surface 3313 with a height difference are arranged on the surface of the bottom wall 331 of the cleaning groove 31, so that the cleaning water flows from the first surface 3311 to the second surface 3313 in a single direction, and the cleaning water and the cleaned sewage are separated, so that the mop 29 is prevented from being polluted by the sewage for the second time; on the other hand, the dirt on the surface of the mop cloth is effectively separated from the surface of the mop cloth based on the concave-convex structure arranged on the surface of the cleaning groove 33, so that the cleaning effect is further improved; simultaneously, set up and filter hole 339 and filter sewage, avoid the dirty inflow of large granule buffer memory groove 35 and block up apopore 393.

Furthermore, the cleaning groove 33, the buffer groove 35 and the sewage groove 37 are stacked to form a nested three-layer structure with mutual communication, sewage is filtered in a layered manner, wherein the first layer effectively cleans the mop, the cleaned sewage is partially buffered in the buffer groove 35 of the second layer, and when the second layer is full of sewage, the control switch 391 is turned on, and the sewage is discharged through the sewage groove 37 through the water outlet hole 393. The three-layer structure is flexible to use, the cleaning base 30 is suitable for different cleaning environments, and when the cleaning base is cleaned in a small amount, sewage can be stored in the cache groove 35 and is convenient to move; when the buffer tank 37 is full, the control switch 391 may be turned on to discharge the sewage in time.

Finally, a water level control hole 338 is formed in the side wall of the cleaning tank 33 to ensure that the amount of water in the cleaning tank 33 is within a set range, thereby avoiding overflow and improving the cleaning effect.

The above description is only an embodiment of the present invention, and not intended to limit the scope of the present invention, and all modifications of equivalent structures and equivalent processes, which are made by using the contents of the present specification and the accompanying drawings, or directly or indirectly applied to other related technical fields, are included in the scope of the present invention.

Claims (10)

1. The utility model provides a ground cleaning system, includes electronic mop and clean base, electronic mop includes mop carousel and mop, the mop subsides are located the mop carousel, its characterized in that: the cleaning base comprises a cleaning groove, the cleaning groove comprises a bottom wall and a side wall which enclose an accommodating space, the mop rotating disc and the mop are accommodated in the accommodating space of the cleaning groove, the bottom wall comprises a first surface and a second surface, the first surface and the second surface form a step, the mop rotating disc drives the mop to rotate, the mop is cleaned by cleaning water, and the step separates the cleaning water and the sewage.

2. A floor cleaning system according to claim 1, wherein the mop is secured to the mop turntable by velcro.

3. The floor cleaning system of claim 3, further comprising a cleaning water intake module, wherein the cleaning water intake module comprises a water inlet, a body and a diversion hole, and cleaning water enters the body from the water inlet and is diverted through the diversion hole to flow into the cleaning tank in multiple branches.

4. The floor cleaning system of claim 4, wherein the first surface is higher than the second surface, the first surface being disposed adjacent the diverter aperture.

5. A floor cleaning system according to claim 5, wherein the bottom wall surface is further provided with a plurality of relief structures, the relief structures comprising at least one of brushes and bumps.

6. A floor cleaning system as claimed in claim 5, wherein the filter aperture is provided in the second surface.

7. The floor cleaning system of claim 6, further comprising a buffer tank and a sewage tank, wherein the buffer tank and the sewage tank are nested from top to bottom, the buffer tank and the sewage tank are communicated with each other through the filtering hole, and the buffer tank and the sewage tank are communicated with each other through the conducting hole.

8. The floor cleaning system of claim 7, further comprising a sewage outlet module, wherein the sewage outlet module comprises a control switch and a water outlet hole, the control switch correspondingly controls whether the via hole is communicated, and the water outlet hole is communicated with the sewage tank.

9. The cleaning base of claim 1, wherein the cleaning tank further comprises a water level control hole, the water level control hole being provided in the side wall.

10. The utility model provides a clean method of electronic mop of clean system in ground, clean system in ground includes electronic mop and clean base, electronic mop includes mop carousel and mop, the mop along with the mop carousel rotates in step, clean base includes cleaning water intake module, cleaning groove, buffer memory groove, bilge sump and sewage play water module, adopts clean base is clean when electronic mop, includes following step:

accommodating the electric mop in the cleaning groove;

providing cleaning water to enter the cleaning tank from the cleaning water inlet module;

the cleaning trough comprises a bottom wall, the bottom wall comprises a first surface and a second surface which form a step, and cleaning water flows to the second surface from the first surface in a single direction after cleaning the mop;

the surface of the bottom wall is provided with a concave-convex structure, and the mop rotates and rubs with the concave-convex structure to clean the mop;

the cleaned sewage is converged into the cache tank from the cleaning tank;

starting a control switch, opening a via hole for communicating the cache tank with the sewage tank, and introducing sewage into the sewage tank;

and the sewage is discharged from the sewage tank through the water outlet.

Images