CN111728548A

CN111728548A - Electric mop cleaning basin

Info

Publication number: CN111728548A
Application number: CN202010667034.1A
Authority: CN
Inventors: 胡海荣; 肖樟斌
Original assignee: Ningbo Zhekai Electrical Appliance Co ltd
Current assignee: Ningbo Zhekai Electrical Appliance Co ltd
Priority date: 2020-07-13
Filing date: 2020-07-13
Publication date: 2020-10-02

Abstract

The utility model provides an electronic mop wash basin which characterized in that: including the water storage basin, to closing cleaning platform and the last water mechanism of setting on cleaning platform that sets up on the water storage basin, divide into sewage district and clear water district through filter part in the water storage basin, it is corresponding, cleaning platform is crowded dry district and water feeding district respectively corresponding to the top in sewage district and clear water district, it installs in cleaning platform water feeding district department to go up water mechanism, it can rotate under electric mop's rotatory mop drives to go up water mechanism, it has the dewatering structure who washs and crowd to dry the mop to distribute in cleaning platform's crowded dry district, water hole down has been seted up in cleaning platform's crowded dry district, cleaning platform's last water feeding district is equipped with the delivery port corresponding to last water mechanism position. The mop cleaning device is simple and reasonable in structure, can conveniently clean a mop, and has good squeezing and dewatering functions; and the water and the sewage can be isolated, so that the water can be recycled, and the cost is greatly saved.

Description

Electric mop cleaning basin

Technical Field

The invention relates to the technical field of electric mop cleaning, in particular to a cleaning basin for an electric mop.

Background

Mopping is always the most annoying housework of people, and the traditional mop is not only labor-consuming but also unclean. The electric mop adopts a rotating or vibrating mode to mop the floor, and the friction force of the electric mop on the floor is larger, so that the electric mop not only saves time and labor, but also has better cleaning effect than the common mop in the cleaning degree.

At present, a plurality of electric mops are available in the market, and especially the electric mop with double-disc rotation is more and more popular among users. However, the electric mop is inconvenient to clean, mop cloth is often required to be detached for cleaning, and although some cleaning basins are designed, dirty water is cleaned repeatedly, so that secondary pollution is serious. The other mop lacks a spin-drying structure, so that the mop is not easy to mop due to water showering after being cleaned.

According to inspection, the traditional Chinese patent No. CN201821805712.0, the electric mop cleaning machine, comprises a cleaning machine box body, a hand basin box body is arranged at the top of the cleaning machine box body, a motor box body and a cleaning box body are arranged at the bottom of the cleaning machine box body, a starting switch is arranged on the side wall of the cleaning machine box body, a driving assembly is arranged in the motor box body and electrically connected to the starting switch, a mop cloth positioning assembly, a rolling assembly and a water outlet pipe are arranged in the cleaning box body, the mop cloth positioning assembly is arranged above the rolling assembly, the water outlet pipe is arranged above the mop cloth positioning assembly, a mop locking assembly and a water inlet pipe are arranged at the top of the cleaning box body, the water inlet pipe is connected to the water outlet pipe through a water inlet valve, a plurality of water spray holes are formed in. The cleaning machine adopts an electric mode to clean and dewater the mop, saves time and labor, but has more complex structure, higher cost and inconvenient maintenance.

Disclosure of Invention

The invention aims to solve the technical problem of providing the electric mop cleaning basin which is simple in structure and low in cost, can conveniently clean a mop, can isolate clear water and sewage, has the functions of squeezing and dewatering, and is very convenient and efficient to use.

The technical scheme adopted by the invention for solving the technical problems is as follows: the utility model provides an electronic mop wash basin which characterized in that: including the water storage basin, to closing cleaning platform and the last water mechanism of setting on cleaning platform that sets up on the water storage basin, divide into sewage district and clear water district through filter part in the water storage basin, it is corresponding, cleaning platform is crowded dry district and upper water district respectively corresponding to the top in sewage district and clear water district, it installs in cleaning platform upper water district department to go up water mechanism, cleaning platform's upper water district is equipped with the delivery port corresponding to last water mechanism position, it can be rotatory realization upper water under the rotatory mop of electric mop to go up water mechanism drives, it washs and the dewatering structure of wringing to have the mop to distribute in cleaning platform's crowded dry district, the hole of draining has been seted up on cleaning platform's the crowded dry district.

Preferably, the water storage basin is internally divided into a left part, a middle part and a right part by two filtering parts, wherein the middle part is a sewage area, the left side and the right side are clean water areas, correspondingly, the middle part of the cleaning platform corresponding to the upper part of the sewage area is a squeezing area, the left side and the right side are water feeding areas, and the water feeding mechanisms are arranged at the water feeding areas on the left side and the right side of the cleaning platform.

Further, the dewatering structure adopts dewatering crossbands or/and wedge-shaped array bosses.

As an improvement, a circular boss is respectively arranged on the upper surface of the cleaning platform and above the two filtering parts, the dewatering transverse bar and the wedge-shaped array boss are radially distributed in an extruding area of the cleaning platform at intervals by taking the circular boss as a center, the water feeding mechanism is arranged in a water feeding area outside the circular boss, and a water discharging hole is formed between the dewatering transverse bar and the wedge-shaped array boss.

And the water feeding mechanism comprises a water feeding impeller and a centrifugal baffle, mounting seats for mounting the water feeding impeller and the centrifugal baffle are arranged below the left side and the right side of the cleaning platform, the centrifugal baffle is fixed on the mounting seats, the water feeding impeller is rotatably mounted above the centrifugal baffle, and the lower end of the water feeding impeller is positioned below the liquid level of the water storage basin.

Furthermore, one end of the water feeding impeller is provided with a driving wheel matched with a mop cloth of the electric mop, the diameter of the driving wheel is larger than that of the water feeding impeller, a notch for exposing the upper end of the driving wheel is formed in the cleaning platform, the notch is communicated with the water feeding opening to form an L-shaped opening, when the mop cloth of the electric mop is placed on the cleaning platform, the driving wheel is driven to rotate through the rotating friction of the mop cloth, so that the rotation of the water feeding impeller is realized, and when the water feeding impeller rotates in the forward direction, the water feeding impeller normally centrifugally feeds water to the cleaning platform, and the cleaning platform is cleaned; when the water feeding impeller rotates in the reverse direction, the water feeding impeller does not feed water, and the cleaning platform performs dehydration.

Still further, centrifugal baffle is longitudinal section semicircular cowl, and the both sides outside of centrifugal baffle is equipped with the engaging lug of being connected with the mount pad, and the shaft hole that runs through is seted up to the impeller axial of watering, and the mount pad epirelief is equipped with the pivot, and the one end of centrifugal baffle is equipped with the protruding axle that corresponds, and the one end shaft hole of the drive wheel of impeller of watering cooperates with the pivot of mount pad, and the other end shaft hole is fixed with the protruding axle cooperation of centrifugal baffle.

Furthermore, the four water feeding impellers are symmetrically arranged left and right and front and back, and the upper water feeding impeller and the lower water feeding impeller are radially distributed by taking the left circular boss and the right circular boss as centers.

Furthermore, the peripheral position corresponding to the water outlet on the cleaning platform is convexly provided with an isolation rib for preventing sewage on the cleaning platform from flowing into the clean water area.

Furthermore, the water storage basin is a kidney-shaped basin, correspondingly, the cleaning platform is a kidney-shaped platform, the upper end in the water storage basin is convexly provided with an edge for placing the cleaning platform, the front side and the rear side of the inner wall of the water storage basin are convexly provided with positioning grooves for inserting the filtering components, the lower end of the cleaning platform is convexly provided with corresponding slots, the two ends of the filtering components are inserted in the positioning grooves of the water storage basin, and the upper end of the filtering components is matched and positioned with the slots of the cleaning platform.

And finally, cleaning and dewatering marks are arranged on the front side and the rear side of the middle part of the clean water platform, a water outlet is formed in the front edge and the rear edge of the clean water platform, a highest water level mark is arranged at the water outlet, and a communicating groove is formed in the periphery of the inner side of the clean water platform and communicated with the water outlet.

Compared with the prior art, the invention has the advantages that: the water storage basin is divided into a sewage area and a clear water area through a filtering part, and the cleaning platform is correspondingly provided with an extrusion area and a water feeding area; the impeller that goes up water sets up in the district that goes up water, can rotate under the rotatory mop of electronic mop drives, washs hosepipe to the clean level platform in the water storage basin, and the extrusion district sets up dehydration horizontal bar and wedge array boss, can carry out vertical, side direction wringing to the mop, and the sewage of extruding gets into the clear water district after the sewage district filters, can wash the mop repeatedly. The mop cleaning device is simple and reasonable in structure, can conveniently clean a mop, and has good squeezing and dewatering functions; and the clean water and sewage can be isolated, so that the water can be recycled, and the cost is greatly saved.

Drawings

FIG. 1 is a perspective view of the present invention;

FIG. 2 is a longitudinal cross-sectional view of the present invention;

FIG. 3 is an exploded view of FIG. 1;

FIG. 4 is a schematic structural diagram of the present invention in a state that the water feeding impeller rotates in a forward direction to clean the mop;

FIG. 5 is a cross-sectional view taken along line A-A of FIG. 4;

FIG. 6 is a schematic structural view showing the present invention in a state where the water-feeding impeller rotates in the reverse direction to wring and dewater the mop.

Fig. 7 is a cross-sectional view taken along line B-B of fig. 6.

Detailed Description

The invention is described in further detail below with reference to the accompanying examples.

As shown in fig. 1 to 7, an electric mop cleaning basin comprises a water storage basin 1, a cleaning platform 2, a water feeding mechanism 3 and filter cotton 4 as filter elements, and other filter screens can also be used as filter elements, the cleaning platform 2 is arranged on the water storage basin 1, the filter cotton 4 is divided into a left block and a right block, the two filter cotton 4 are vertically inserted into the water storage basin 1 to divide the water storage basin 1 into a left part, a middle part and a right part, wherein the middle part is a sewage area 30, the left side and the right side are clean water areas 10, correspondingly, the middle part of the cleaning platform 2 corresponding to the upper part of the sewage area 30 is a squeezing area, the left side and the right side are water feeding areas, the water feeding mechanism 3 is arranged at the water feeding areas at the left side and the right side of the cleaning platform 2, the water feeding mechanism 3 can be driven by the rotating mop cloth of the electric mop 5 to rotate to feed water, and a dewatering horizontal bar 23 and a wedge-shaped array boss 22 for cleaning and squeezing the mop are distributed in the squeezing, a water outlet hole 24 is arranged on the squeezing area of the cleaning platform 2, and a water outlet 20 is arranged on the water feeding area of the cleaning platform 2 corresponding to the position of the water feeding mechanism 3.

The concrete structure is as follows: the water storage basin 1 is a oval basin, correspondingly, the cleaning platform 2 is a oval platform, the upper end in the water storage basin 1 is convexly provided with an edge for placing the cleaning platform 2, the front side and the rear side of the inner wall of the water storage basin 1 are convexly provided with positioning grooves 11 for inserting the filter cotton 4, the lower end of the cleaning platform 2 is convexly provided with corresponding slots 27, the two ends of the filter cotton 4 are inserted in the positioning grooves 11 of the water storage basin 1, the upper end is matched and positioned with the slots 27 of the cleaning platform 2, the water storage basin 1 is divided into a left part, a middle part and a right part, the middle part is a sewage area 30, and the left side and the right side are clean water areas 10. The upper surface of cleaning platform 2, the top that corresponds to two filter pulp 4 are equipped with a circular boss 21 respectively, and the crowded dry district of cleaning platform 2 is distributed radially at interval to circular boss 21 as the center to dehydration horizontal bar 23, wedge array boss 22, and water feeding mechanism 3 sets up the water feeding district in the circular boss 21 outside, has seted up down water hole 24 between dehydration horizontal bar 23 and the wedge array boss 22.

The water feeding mechanism 3 comprises a water feeding impeller 31 and a centrifugal baffle 32, and mounting seats 28 for mounting the water feeding impeller 31 and the centrifugal baffle 32 are arranged below the left side and the right side of the cleaning platform 2.

Centrifugal baffle 32 is the semicircular arc baffle of longitudinal section, the both sides outside of centrifugal baffle 32 is equipped with the engaging lug 321 of being connected with mount pad 28, the shaft hole 312 that runs through is seted up to last water impeller 31 axial, the mount pad 28 epirelief is equipped with the pivot, the one end of centrifugal baffle 32 is equipped with corresponding protruding axle 322, the shaft hole 312 both ends of going up water impeller 31 respectively with the pivot cooperation of mount pad 28, the protruding axle 322 cooperation of centrifugal baffle 32 is rotationally installed in the top of centrifugal baffle 32, its lower extreme is located the liquid level below of water storage basin 1. The outer end of the water feeding impeller 31 is provided with a driving wheel 311 matched with a mop cloth of the electric mop 5, the diameter of the driving wheel 311 is larger than that of the water feeding impeller 31 and is generally coaxially arranged, the cleaning platform 2 is provided with a notch 29 for exposing the upper end of the driving wheel 311, the notch 29 is communicated with the water feeding port 20 to form an L-shaped opening, when the mop cloth of the electric mop 5 is placed on the cleaning platform 2, the driving wheel 311 is driven to rotate through the rotating friction of the mop cloth, so that the rotation of the water feeding impeller 31 is realized, when the water feeding impeller 31 rotates in the forward direction, the water feeding impeller 31 normally centrifugalizes water to the cleaning platform 2, and the cleaning platform 2 is cleaned; when the water feeding impeller 31 rotates in the opposite direction, the water feeding impeller 31 does not feed water, and the cleaning platform 2 carries out dehydration; the four water feeding impellers 31 are symmetrically arranged in the left, right, front and back directions, the front and back water feeding impellers 31 are radially distributed by taking the left and right circular bosses 21 as centers, and are generally rotationally symmetrically arranged by taking the left and right circular bosses 21 as centers, and the left and right water feeding impellers 31 are symmetrically arranged in the left and right directions by taking the center line of the cleaning basin as a center. The peripheral position of the cleaning platform 2 corresponding to the water outlet 20 is convexly provided with an isolation rib for preventing sewage on the cleaning platform 2 from flowing into the clean water area. The front side and the rear side of the middle part of the clean water platform 2 are provided with cleaning and dewatering marks, the front edge and the rear edge are provided with a water outlet 25, the water outlet 25 is provided with a highest water level mark 26, and the periphery of the inner side of the clean water platform 2 is provided with a communicating groove 2a communicated with the water outlet 25.

The specific operation process is as follows:

when the electric mop 5 is cleaned, the electric mop 5 is placed on the cleaning platform 2 as shown in fig. 4, at the moment, the mop rotates in the direction shown by an arrow, the driving wheel 311 rotates, the water feeding impeller 31 rotates in the positive direction, and water in the clean water area in the water storage basin 1 enters the cleaning platform 2 from the water outlet 20 under the action of the water feeding impeller 31; in the squeezing area of the cleaning platform 2, the smooth horizontal dewatering strips 23 are used for longitudinal water squeezing, the electric mop 5 and the horizontal dewatering strips 23 squeeze to wipe water, the wedge-shaped array bosses 22 are used for lateral water squeezing by the rotating force of the electric mop 5 (water is squeezed out after the mop slowly enters the narrow opening from the wedge-shaped wide opening), and the mop is repeatedly cleaned as the arrangement modes of the horizontal dewatering strips 23 and the wedge-shaped array bosses 22 are arranged at intervals in a circulating manner and are similar to a washboard; the sewage after being cleaned and squeezed flows into the sewage area 30 from the lower water hole 24 through the communicating groove 2a, the sewage is filtered by the filter cotton 4 and then repeatedly and quickly permeates into the clean water area 10, and then the mop is washed by relatively clean water through the water feeding mechanism 3, so that the mop is cleaned more cleanly.

When the electric mop 5 needs to be dewatered, the electric mop 5 is placed on the cleaning platform 2 as shown in fig. 6, at the moment, the mop rotates in the direction shown by an arrow, the driving wheel 311 rotates, the water feeding impeller 31 rotates reversely, the water feeding impeller 31 does not feed water, the cleaning platform 2 only carries out dewatering work, and through the operation, the electric mop 5 is not sprayed with water, so that the mopping is more convenient.

In addition, the design of the water storage basin 1 is not limited to the middle sewage area 30 and the two side sewage areas 10, and can also be designed as the middle sewage area and the two side sewage areas, meanwhile, the middle part of the cleaning platform 2 is a water feeding area, the two sides are squeezing areas, and the arrangement of the water feeding mechanism 3, the dewatering cross bars 23 and the wedge-shaped array bosses 22 can be correspondingly changed.

The foregoing is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, various modifications and decorations can be made without departing from the technical principle of the present invention, and these modifications and decorations should also be regarded as the protection scope of the present invention.

Claims

1. The utility model provides an electronic mop wash basin which characterized in that: including the water storage basin, to closing cleaning platform and the last water mechanism of setting on cleaning platform that sets up on the water storage basin, divide into sewage district and clear water district through filter part in the water storage basin, it is corresponding, cleaning platform is crowded dry district and upper water district respectively corresponding to the top in sewage district and clear water district, it installs in cleaning platform upper water district department to go up water mechanism, cleaning platform's upper water district is equipped with the delivery port corresponding to last water mechanism position, it can be rotatory realization upper water under the rotatory mop of electric mop to go up water mechanism drives, it washs and the dewatering structure of wringing to have the mop to distribute in cleaning platform's crowded dry district, the hole of draining has been seted up on cleaning platform's the crowded dry district.

2. The power mop wash basin of claim 1, wherein: the inside of the water storage basin is divided into a left part, a middle part and a right part through two filtering parts, wherein the middle part is a sewage area, the left side and the right side are clean water areas, correspondingly, the middle part of the cleaning platform corresponding to the upper part of the sewage area is a squeezing area, the left side and the right side are water feeding areas, and the water feeding mechanisms are arranged at the water feeding areas on the left side and the right side of the cleaning platform.

3. The power mop wash basin of claim 2, wherein: the dehydration structure adopts dehydration crossbands or/and wedge-shaped array bosses.

4. The power mop wash basin of claim 3, wherein: the upper surface of the cleaning platform and the upper parts corresponding to the two filtering parts are respectively provided with a circular boss, the dewatering transverse bar and the wedge-shaped array boss are radially distributed in the squeezing area of the cleaning platform at intervals by taking the circular boss as the center, the water feeding mechanism is arranged in the water feeding area outside the circular boss, and a water outlet hole is formed between the dewatering transverse bar and the wedge-shaped array boss.

5. The power mop wash basin of claim 1, wherein: the water feeding mechanism comprises a water feeding impeller and a centrifugal baffle, a mounting seat for mounting the water feeding impeller and the centrifugal baffle is arranged below the left side and the right side of the cleaning platform, the centrifugal baffle is fixed on the mounting seat, the water feeding impeller is rotatably mounted above the centrifugal baffle, and the lower end of the water feeding impeller is located below the liquid level of the water storage basin.

6. The power mop wash basin of claim 5, wherein: one end of the upper water impeller is provided with a driving wheel matched with a mop of the electric mop, the diameter of the driving wheel is larger than that of the upper water impeller, a notch for exposing the upper end of the driving wheel is formed in the cleaning platform, the notch is communicated with the water feeding port to form an L-shaped opening, when the mop of the electric mop is placed on the cleaning platform, the driving wheel is driven to rotate through the rotating friction of the mop, so that the rotation of the upper water impeller is realized, when the upper water impeller rotates in the forward direction, the upper water impeller normally centrifugally feeds water to the cleaning platform, and the cleaning platform is cleaned; when the water feeding impeller rotates in the reverse direction, the water feeding impeller does not feed water, and the cleaning platform performs dehydration.

7. The power mop wash basin of claim 6, wherein: the centrifugal baffle is longitudinal section semicircular arc baffle, and the both sides outside of centrifugal baffle is equipped with the engaging lug of being connected with the mount pad, and the shaft hole that runs through is seted up to the impeller axial of watering, and the mount pad epirelief is equipped with the pivot, and the one end of centrifugal baffle is equipped with the protruding axle that corresponds, and the one end shaft hole of the drive wheel of impeller of watering cooperates with the pivot of mount pad, and the other end shaft hole is fixed with the protruding axle cooperation of centrifugal baffle.

8. An electric mop cleaning basin according to any one of claims 2 to 7, characterized in that: the four water feeding impellers are symmetrically arranged left, right, front and back, and the upper water feeding impeller and the lower water feeding impeller are radially distributed by taking the left circular boss and the right circular boss as centers.

9. An electric mop cleaning basin according to any one of claims 1 to 7, characterized in that: and the cleaning platform is convexly provided with an isolation rib which is used for preventing sewage on the cleaning platform from flowing into the clean water area and corresponds to the peripheral position of the water outlet.

10. An electric mop cleaning basin according to any one of claims 1 to 7, characterized in that: the water storage basin is a oval basin, the cleaning platform is a oval platform correspondingly, the upper end in the water storage basin is convexly provided with an edge for placing the cleaning platform, the front side and the rear side of the inner wall of the water storage basin are convexly provided with positioning grooves for inserting the filtering components, the lower end of the cleaning platform is convexly provided with corresponding slots, the two ends of the filtering components are inserted in the positioning grooves of the water storage basin, and the upper ends of the filtering components are matched and positioned with the slots of the cleaning platform.

11. An electric mop cleaning basin according to any one of claims 1 to 7, characterized in that: the cleaning and dewatering marks are arranged on the front side and the rear side of the middle of the clean water platform, the lower water gaps are formed in the front edge and the rear edge of the clean water platform, the highest water level mark is arranged at the lower water gap, and the communicating groove is formed in the periphery of the inner side of the clean water platform and communicated with the lower water gaps.