CN111214186A - Water storage type electric mop cleaning tool - Google Patents

Abstract

The invention discloses a water storage type electric mop cleaning tool which comprises an electric mop and a mop barrel, wherein the electric mop comprises a mop rod and a mop head, wiping materials are arranged on the mop head, the mop barrel is provided with a water storage area and a working area, the electric mop is placed in the working area for cleaning and dewatering, a first channel communicated with the working area is arranged at the lower part of the water storage area, a plug is arranged in the first channel, the water storage area is closed when the plug is plugged, and liquid in the water storage area can flow to the working area when the plug is opened. According to the invention, the independent water storage area is arranged to supply water to the working area, the plug is opened to supply water to the working area for cleaning, and the electric mop is dewatered in the working area after the plug is plugged, so that a mop bucket can be placed at any position for use, frequent water saving is not needed, or a complicated tap water pipe is not needed for water receiving, and the use is convenient.

Description

Water storage type electric mop cleaning tool

Technical Field

The invention belongs to the technical field of cleaning supplies, and particularly relates to a water storage type electric mop cleaning tool.

Background

Along with the continuous improvement of the living standard of people and the continuous improvement of the quality requirements of people on life, the household cleaning articles are also gradually developed from a manual tool to the automation direction, and the birth of the electric mop is also because of the household cleaning articles, the electric mop not only reduces the labor capacity of people, but also has better cleaning effect;

the existing electric mop has the following application numbers: 201911043447.6 discloses an electric mop and a mop bucket kit, wherein the mop bucket can not be separated during cleaning and dewatering, that is, the electric mop is in the same environment during cleaning and dewatering, either immersed in water or in a water-free state, and the user often only uses the mop bucket to clean when using, but the dewatering can be manually taken up to be separated from the drying or be dewatered in other places, so the use is very inconvenient; and the mop bucket in the prior art also does not realize the separation of clear water and sewage, liquid is completely concentrated in one position in the mop bucket, and after the mop is dried, although the surface of a wiping object is cleaner, the mop bucket is still dried after being rinsed in sewage, so that the effect of treating symptoms is not permanent.

Disclosure of Invention

The invention mainly solves the technical problem of providing a water storage type electric mop cleaning tool, an independent water storage area is arranged to supply water to a working area, the working area is supplied with water to be cleaned after a plug is opened, and the electric mop is dewatered in the working area after the plug is plugged, so that a mop bucket can be placed at any position for use, frequent water saving is not needed, or a complicated tap water pipe is not needed for water receiving, and the use is convenient.

In order to solve the above technical problems, one technical solution adopted by the present invention is as follows:

the utility model provides an electronic mop burnisher of water storage formula, includes electronic mop and mop bucket, electronic mop includes mop pole and mop head, be equipped with the wiping article on the mop head, the mop bucket is equipped with water storage area and workspace, electronic mop is arranged in the workspace washs and dewaters, the lower part of water storage area is equipped with the intercommunication the first passageway of workspace, the first passageway is equipped with the stopper, when the stopper stops, the water storage area seals, when the stopper is opened, the liquid in water storage area can flow extremely the workspace.

The sewage treatment device is characterized by further comprising a sewage area, wherein the sewage area is positioned below the working area, a second channel for communicating the sewage area and the working area and a plug capable of opening or closing the second channel are arranged between the sewage area and the working area;

when the second channel is closed, the electric mop is arranged in the working area for cleaning, when the second channel is opened, sewage in the working area flows to the sewage area through the second channel, and the electric mop is dewatered in the working area.

Further, the plug is connected to the electric mop, and moves with the electric mop and plugs into or leaves the second channel;

alternatively, the plunger is always arranged in the second channel, and the electric mop can drive the plunger to be plugged into and/or separated from the second channel.

Further, the plug is fixedly connected with the mop bucket, and the water storage area is movable relative to the mop bucket and can be moved to be clamped with the plug to close the first channel or be separated from the plug to open the first channel.

Further, the moving direction of the water storage area is up-and-down movement.

Further, the plug is provided with a driving arm, one end of the driving arm extends into the working area, and the electric mop can contact and drive the driving arm to move when being placed in the working area, so that the plug is driven to plug or open the first channel.

Further, the driving arm is fixedly connected with the plug, and the plug is lifted or translated along with the driving arm;

or the driving arm is movably connected with the plug and drives the plug to ascend or descend through a lever principle;

the first passage is opened or closed by the movement of the stopper.

Further, the plug has a notch, the plug is located in the first channel to close the first channel, and the plug can rotate to conduct the first channel through the notch.

Further, the plug is located within the first channel to close the first channel, and the plug is axially movable therealong to open the first channel.

Further, the first channel is located at a bottom or a side wall of the impoundment area.

Furthermore, the working area is provided with a lifting device, and the electric mop can be lifted through the lifting device and has a high position and a low position and is kept;

the electric mop is cleaned when being positioned at a low position, and is dewatered when being positioned at a high position.

Further, the lifting device comprises a spiral lifting device, a slide lifting device, a step lifting device or an elastic lifting device.

Furthermore, the elastic lifting device comprises an elastic component, two ends of the elastic component respectively act on the mop bucket and the electric mop inserted into the mop bucket, and the elasticity of the elastic component can support the electric mop to be positioned at a high position;

when the electric mop is used, the electric mop is pressed downwards to overcome the elasticity of the elastic part, and the descending mop drives the plug to open the first channel; and after cleaning, the downward pressure is released, the electric mop moves upwards to reset under the action of the elastic component, and the first channel is closed.

Furthermore, the working area is provided with a lifting part for supporting the electric mop to clean or dewater.

Furthermore, the lifting part is connected to the lifting device and can lift to a high position or a low position along with the lifting device, the plug is fixedly connected to the lifting part, the plug is closed to the second channel when the lifting part is located at the low position, and the plug is opened to the second channel when the lifting part is located at the high position.

Furthermore, the mop bucket comprises a first bucket body and a second bucket body, the working area is located in the first bucket body, the second bucket body forms the water storage area, and the second bucket body and the first bucket body are arranged in a separable mode.

Furthermore, the water storage area is provided with a water inlet which can be connected with a water source.

Furthermore, the working area and/or the sewage area are/is provided with a water outlet.

The invention has the beneficial effects that:

according to the cleaning tool, the independent water storage area is arranged to supply water to the working area, the plug is opened to supply water to the working area for cleaning, and the electric mop is dewatered in the working area after the plug is plugged, so that a mop bucket can be placed at any position for use, frequent water saving is not needed, or a complicated tap water pipe is not needed for water receiving, and the cleaning tool is convenient to use;

the cleaning tool is provided with the sewage area, the electric mop can use clean water when being cleaned in the working area every time, and the sewage and the clean water can be separated;

according to the cleaning tool, the copper strips are opened and closed by driving the driving arms connected with the plugs, redundant operation is not needed, the plugs can be driven to be opened when the electric mop is operated to be in the low-position cleaning state, and similarly, the plugs can be plugged when the electric mop is operated to be in the high-position dewatering state, the first channel is closed, the mop can be cleaned in clean water each time, water cannot be knocked down during each dewatering process, and a good dewatering effect is achieved.

The foregoing description is only an overview of the technical solutions of the present invention, and in order to make the technical solutions of the present invention more clearly understood and to implement them in accordance with the contents of the description, the following detailed description is given with reference to the preferred embodiments of the present invention and the accompanying drawings.

Drawings

FIG. 1 is a schematic view showing the overall structure of a cleaning tool in embodiment 1;

FIG. 2 is a sectional view of the cleaning tool of embodiment 1;

FIG. 3 is an exploded view of the cleaning tool of embodiment 1;

FIG. 4 is a schematic structural view of the first and second tub bodies in embodiment 1;

FIG. 5 is a schematic view showing the structure of a sewage zone in example 1;

FIG. 6 is a first construction view of the driving plug of embodiment 1;

FIG. 7 is a second construction view of the driving plug in embodiment 1;

FIG. 8 is a third construction view of the driving plug in embodiment 1 (first passage closed);

FIG. 9 is a third construction view of the driving stopper in embodiment 1 (the first passage is opened);

FIG. 10 is a view from the direction A of FIG. 2 (elastic lifting device);

FIG. 11 is a schematic structural view of a spiral elevating device in embodiment 1;

fig. 12 is a schematic structural view of the stage elevating device in embodiment 1;

fig. 13 is a schematic structural view of a holder of the step-up/down apparatus according to embodiment 1;

fig. 14 is a schematic elevation view (in a low position) of the slide elevating device in embodiment 1;

fig. 15 is a schematic elevation view (in an elevated position) of the chute elevator of embodiment 1;

FIG. 16 is a schematic view of the structure of a cleaning disk in embodiment 1;

FIG. 17 is a schematic view showing the structure of the mop suspension cleaning in example 1;

FIG. 18 is a schematic view of the whole structure of the cleaning tool in embodiment 2 (first passage closed);

FIG. 19 is a schematic view showing the whole construction of the cleaning tool in embodiment 2 (first passage is opened);

FIG. 20 is a sectional view of the cleaning tool of embodiment 3;

fig. 21 is an enlarged view of a portion B of fig. 20 (a structure of the plug and the first passage).

Detailed Description

The following detailed description of the preferred embodiments of the present invention, taken in conjunction with the accompanying drawings, will make the advantages and features of the invention easier to understand by those skilled in the art, and thus will clearly and clearly define the scope of the invention.

Example 1:

a water storage type electric mop cleaning tool, as shown in fig. 1 to 3: including electronic mop 1 and mop bucket 2, electronic mop includes mop pole 11 and mop head 12, be equipped with on the mop head by motor drive's wiping material 13, the mop bucket is equipped with water storage area 21 and workspace 22, electronic mop is arranged in the workspace washs and dewaters, the lower part of water storage area is equipped with the intercommunication the first passageway 211 of workspace, first passageway is equipped with stopper 212, when the stopper stops, the water storage area seals, when the stopper is opened, the liquid in water storage area can flow to the workspace.

According to the cleaning tool, the independent water storage area is arranged to supply water to the working area, the plug is opened to supply water to the working area for cleaning, and the electric mop is dewatered in the working area after the plug is plugged, so that a mop bucket can be placed at any position for use, frequent water removal or water collection by a complicated tap water pipe is not needed, and the cleaning tool is convenient to use.

In a preferred embodiment, the first channel is located at the bottom of the impoundment area.

In this embodiment, the mop bucket is as shown in fig. 3 and 4: the water storage device comprises a first barrel body 23 and a second barrel body 24, wherein the working area is positioned in the first barrel body, the second barrel body forms the water storage area, and the second barrel body and the first barrel body are arranged in a separable mode; the separable arrangement is more convenient for storing water in the water storage area and is also beneficial to cleaning the first barrel body.

The water storage area is provided with a water inlet 214 which can be connected with a water source, wherein the water source comprises tap water, an external water tank and the like.

In specific implementation, in order to realize that the mop can use clean water every time when being cleaned in a working area, namely, in order to separate dirt and dust, as shown in fig. 5: the mop bucket is also provided with a sewage area 25 which is positioned below the working area, a second channel 251 for communicating the sewage area and the working area and a plug 252 capable of opening or closing the second channel are arranged between the sewage area and the working area;

when the second channel is closed, the electric mop is arranged in the working area for cleaning, when the second channel is opened, sewage in the working area flows to the sewage area through the second channel, and the electric mop is dewatered in the working area.

The working structure of the plunger is one of the following structures:

(1) the plug is fixedly connected with the electric mop, and moves with the electric mop and is plugged into or separated from the second channel;

(2) the plunger is usually arranged at the position of the second channel, and the electric mop can drive the plunger to be plugged into and separated from the second channel;

(structures of the above (1) and (2): this structure diagram is not shown because it is well understood.)

(3) The plunger is usually arranged in the second channel, the electric mop can drive the plunger to be plugged into the second channel, and the plunger is also provided with a resetting elastic piece for driving the plunger to leave the second channel; or the electric mop can drive the plug to leave the second channel, and the plug is also provided with a reset elastic piece for driving the plug to be plugged into the second channel.

In the embodiment, the plug is preferably driven by an electric mop, and the electric mop is driven by a return spring to leave, so that the electric mop can be placed in the working area and can move downwards to contact and drive the plug to close the second channel; after the electric mop moves upwards and leaves, the plunger is reset under the action of a reset spring, and the second channel is opened;

namely, when the electric mop is cleaned, the second channel is closed, and when the electric mop is dewatered, the second channel is opened; it should also be understood that the descending of the power mop described herein includes the triggering of the drive during or upon completion of the descending, both of which are the same except that the trigger position is adjusted.

Of course, the sewage area can be not arranged, only the water storage area for supplying water is used, and the whole usable mop bucket is also used.

The sewage area and/or the working area are/is provided with a water outlet 221, and the water outlet is provided with a separable plug.

The manner of opening and closing the stopper is achieved by a number of prior art techniques, in this embodiment by using a power mop drive:

as shown in fig. 2: the workspace is equipped with and is used for supporting the portion 31 of lifting that electronic mop washs or dewaters, the stopper is equipped with actuating arm 213, the one end of actuating arm extends in the workspace and can in the contact of the portion of lifting, the portion of lifting can rise or fall, and can drive through the lift of the portion of lifting the stopper motion, thereby the drive the stopper is stopped or is opened first passageway.

The best of the embodiment is strength, the working area is provided with the lifting part, and the same structural principle is adopted when the lifting part is cancelled to directly pass through the electric mop driving arm; in addition, the lifting part of the embodiment is a plate-shaped cleaning disc which is of a hollow structure so as to facilitate the outflow of sewage during cleaning or dehydration;

at the moment, the plug and the plug column are driven by the electric mop to move upwards and downwards, namely the same action can control two structures, thereby achieving two purposes at one time.

And the connecting structure of the driving arm driving the plug to move has three types:

(1) as shown in fig. 6: the driving arm is fixedly connected with the lifting part, when the lifting part and the plug are both positioned at a high position, the plug plugs the first channel, when the lifting part drives the plug and the plug is both positioned at a low position, the plug leaves the first channel, and the first channel is opened.

(2) As shown in fig. 7: the driving arm is used as a lever, two ends of the driving arm are respectively movably connected with the plug and the lifting part, a guide part 2111 which extends upwards is also arranged above the first channel and is positioned in the water storage area, the side wall of the guide part is provided with an opening 2112, the plug is driven to move upwards by the downward movement of the mop under the action of the lever principle, and water in the water storage area flows into the working area through the opening and the first channel;

in this embodiment, two ends of the driving arm are respectively hinged to the plug and the cleaning disc, that is, the driving arm moves along with the cleaning disc (lifting part) in both directions; in addition, a reset structure can be arranged on the driving arm, the driving arm is driven to reset through the elastic piece, so that the driving arm and the cleaning disk do not need to be connected, the cleaning disk can be contacted and pushed when lifted, and in the structure, the cleaning disk can be omitted, and the driving arm is directly driven by the mop.

(3) As shown in fig. 8 and 9: the plug can move transversely, the driving arm is fixedly connected with the plug or is of an integrated structure, one end, extending into the working area, of the driving arm is provided with an inclined plane, when the lifting part (or the electric mop) moves downwards, the driving arm acts on the inclined plane and drives the plug to move horizontally through the wedge-shaped structure principle, so that the plug is opened or closed to the first channel, and the plug is further provided with an elastic piece 215 for driving the plug to reset.

Above-mentioned three kinds of structures can all realize when lifting portion descends, the stopper is opened, when lifting portion ascends, the stopper stops.

In the embodiment, the opening and closing of the plug are controlled by the electric mop, when the electric mop is placed on the cleaning disc for cleaning and descends to a low position, the driving arm can be driven by the cleaning disc, so that the plug is driven to ascend or descend, the first channel is opened to inject water to a working area, when the electric mop is operated and the cleaning disc ascends, the plug is driven to ascend or descend by the driving arm, the first channel is closed, and the mop can further perform dewatering operation;

in addition, when the electric mop is used for dewatering, the structure for ensuring that the electric mop can not contact water has two types:

firstly, the water outlet 221 can discharge water in a working area at any time;

secondly, through the elevating gear lifting the position of electronic mop makes it can break away from the surface of water dehydration, specifically is: the lifting part is connected to the lifting device 4, the lifting part rises to a high position or falls to a low position and is kept, the lifting part supports the electric mop to be cleaned when the lifting part is at the low position, and the lifting part supports the electric mop to be dewatered when the lifting part is at the high position.

In fact, in this embodiment, the lifting device has three functions:

(1) the mop is used for dewatering when the mop is at a high position and cleaning when the mop is at a low position;

(2) the driving arm is used for realizing the action of the driving arm when the mop is inserted, namely, the opening and the closing of the first channel of the plug are driven;

(3) for driving the plug to open and close the second passage when the mop is inserted.

The above embodiment is also described as the best mode, the water storage area, the working area and the sewage area are arranged, the first channel and the second channel are arranged, and the three functions are realized by matching one lifting device to realize the mop operation.

In this embodiment, an elastic lifting device is preferably used, as shown in fig. 10: the elastic lifting device comprises an elastic component 471, two ends of the elastic component respectively act on the lifting part and the mop bucket, and in order to drive the two parts to be away from each other, the elasticity of the elastic component can support the total weight of the electric mop when the electric mop is placed on the lifting part;

when the electric mop is used, the electric mop is pressed downwards to overcome the elasticity of the elastic part, and the descending mop drives the plug to open the first channel; and after cleaning, the downward pressure is released, the electric mop moves upwards to reset under the action of the elastic component, and the first channel is closed.

The spring goes up and down to have simple lift logic to compound lifting's operation custom, elevating gear's simple structure, spare part are less moreover, reduce the actual effect risk, and the volume of device is retrencied, are favorable to dwindling the whole volume of mop bucket, are convenient for pack, transportation, storage and accomodate.

The elasticity providing unit of the elastic member may be an elastic element such as a coil spring, a leaf spring, a torsion spring, etc., preferably a coil spring.

Of course, the lifting device in this embodiment may also use a spiral lifting device, a slide lifting device or a step lifting device;

as shown in fig. 11: the spiral lifting device comprises a fixed column 41, a moving tube 42 and a positioning rod 43, the fixed column is fixedly connected to the mop bucket, the moving tube is sleeved outside the fixed column, the positioning rod passes through the moving tube and is inserted into an insertion hole in the center of the fixed column, and the positioning rod and the fixed column are relatively stopped rotating;

the moving pipe penetrates through the cleaning disc (lifting part) and is axially fixed with the cleaning disc, so that the cleaning disc can lift along with the moving pipe;

the fixed column is sleeved with a transmission piece 44, the transmission piece is in spiral connection transmission with the moving pipe, the moving pipe can move up and down to drive the transmission piece to rotate, and a ratchet structure 441 capable of being meshed is arranged between the transmission piece and the moving pipe;

a rotation stopping structure 431 is arranged between the inner peripheral surface of the moving pipe and the positioning rod, and the positioning rod can move along the axial direction of the positioning rod, so that the rotation stopping structure can be engaged or disengaged; when the movable pipe is meshed with the fixed column, the movable pipe and the positioning rod are circumferentially stopped, and the positioning rod and the fixed column are circumferentially stopped, so that the movable pipe cannot rotate and cannot descend; when disengaged, the movable tube may be rotated down.

In detail, when the lifting device is in a normal state, the moving pipe and the positioning rod are both located at the low position, namely the cleaning disc is also located at the low position, and the electric mop is placed on the cleaning disc for cleaning;

when the dewatering operation is required after cleaning, the electric mop is lifted up, the moving pipe and the cleaning disc can be driven to move upwards through the clamping structure, the positioning rod is driven to move upwards in the continuous upward movement process, after the electric mop moves upwards to the end point, the electric mop can push the positioning rod to move downwards (manually or under the action of gravity) and enable the rotation stopping structure to be occluded, and the ratchet structure of the transmission part is also engaged at the moment, so that the moving pipe cannot rotate at the moment (the moving pipe and the transmission part are in a spiral connection mode, the moving mode of the moving pipe can only rotate and can move up and down for rotating to form up and down movement), and therefore the moving pipe cannot move up and down, and the moving pipe (the positioning rod and the cleaning disc) can be kept at a high position;

after the dewatering operation is finished, the electric mop is separated from the lifting device, at the moment, the moving pipe is not clamped by the mop head, and can slightly fall by one end distance (the falling distance is the distance for enabling the rotation stopping structure to be disengaged from the occlusion), so that the rotation stopping structure is disengaged, at the moment, the moving pipe can rotate and fall, and meanwhile, the cleaning disc also descends until the normal state is recovered.

The structure of the lifting device is disclosed in the Chinese patent application with the application number of 201810014543.7.

As shown in fig. 12 and 13: the step lifting device comprises a fixed seat 45 and a lifting column 46, and the cleaning disc is fixedly connected or detachably connected with the lifting column;

the fixing base fixed connection in the mop bucket, the lift post with the fixing base is worn to overlap and is connected, just the lift post can be followed its axial slip and along its circumference rotation, the lateral wall of fixing base is equipped with high-order step 451, high-order step is followed the circumference equipartition of lateral wall, and is every adjacent still be equipped with low level step 452 between the high-order step, the lateral wall of lift post is equipped with and can arranges in high-order step or the locating piece 461 of low level step.

When the electric mop is placed into the cleaning disc, the lifting column can be driven to ascend by the aid of the clamping structure for clamping the lifting column, and positioning blocks on the lifting column are respectively arranged on the high-position steps or the low-position steps, so that the cleaning disc can be located on the low-position cleaning and the high-position dewatering.

According to the lifting device, the cleaning and the dewatering are coaxially carried out, the cleaning and the dewatering are combined into one and are coaxially carried out, the structure is simplified, the operation is convenient, the size of the mop bucket can be reduced, the packaging, the transportation, the storage and the storage are convenient, and the labor is saved during the use; the lifting mechanism is simple in structure, easy to manufacture and assemble, low in cost and beneficial to market popularization.

In this embodiment, in order to obtain the maximum lifting stroke in the end lifting device, the low-position supporting portion is eliminated, the low-position step is the bottom of the mop bucket, and a first channel for the positioning block to slide is arranged between the adjacent high-position steps.

The lower step is cancelled, so that the lifting column directly descends to the bottom of the mop barrel to form a lower state, and the lower step part of the side wall of the fixing seat is a first channel for the positioning block to slide through, thereby being beneficial to simplifying the structure of the fixing seat and reducing the preparation difficulty and cost.

It can be understood that, the above structure is that the positioning block can be switched between the abutting state of the high step and the abutting state of the low step by rotating the lifting column by an angle through manual operation, and as a best mode, this embodiment also provides a mode that the rotation angle does not need manual operation, the fixing base is provided with a ratchet 453, the tooth end of the ratchet is downward, the upper surface of the positioning block is a bevel 4611, when the lifting column ascends, the bevel abuts against the ratchet and can drive the lifting column to rotate, and by each ascending rotation of the lifting column, the positioning block can sequentially fall into the high step and the low step.

Of course, the inclined plane on the positioning block can also be independently arranged, that is, not arranged together with the positioning block, the inclined plane can also be arranged on the upper surface of the independently arranged protruding structure.

More specifically, the ratchet, the high-position step and the low-position step are arranged in a staggered manner, the positioning block is separated from the high-position step or the low-position step and moves upwards to contact with the inclined surface of the ratchet, and the shifting of the circumferential angle of the lifting column is completed through the inclined surface, and the high-position step and the low-position step are arranged at intervals, so that the positioning block can sequentially fall into the high-position step and the low-position step by the action of switching every time the lifting column moves upwards, and the switching between the high position and the low position is realized;

the ratchet structure can be convenient to realize the sequential switching of the high position and the low position, is convenient and quick, does not need manual intervention operation, and greatly reduces the learning cost of a user.

As shown in fig. 14 and 15: the slide way lifting device comprises a slide way 48 for limiting the movement track of the cleaning disc, the cleaning disc is provided with a slide post 35 which can be arranged in the slide way and can slide along the track of the slide way, the slide way is arranged on the mop bucket or the cleaning disc, the slide way is provided with a high-position supporting part 481 and a low-position supporting part 482, the cleaning disc can move to the high-position supporting part or the low-position supporting part along the track of the slide way, and the slide way is also provided with a blocking part 483 for switching the falling position of the cleaning disc;

when the cleaning disc is used, the cleaning disc is positioned on the low-position supporting part or the high-position supporting part, the cleaning disc can block the upward movement of the cleaning disc through the blocking part when moving upward, and the downward movement direction of the cleaning disc is switched through the blocking part.

Realize high-order and low-order switching through the first passageway of restriction movement track, the track can set up the lateral wall at the mop bucket, and the structure of slide is also comparatively retrencied, need not the lift that many parts cooperation realized electronic mop, reduce cost.

Further, the slideway comprises an upper channel 485 and a lower channel 486 which are respectively positioned at two sides of the high-position support part, the blocking part is positioned above the high-position support part, the blocking part comprises a first blocking part 4831 and a second blocking part 4832, and the low-position support part is positioned at an outlet position of the lower channel;

the cleaning disc stops when ascending on the ascending channel to the first blocking part and descends and falls back to the high-position supporting part under the guidance of the first blocking part; and the cleaning disc ascends again when the position is switched, falls into the descending channel through the guide of the second blocking part and finally falls into the low-position supporting part, so that the cleaning disc is lifted.

Alternatively, the lifting structure disclosed in chinese patent No. ZL201510518015.1 may be used, and various lifting structures may be used.

In addition, the mode of separating from the water surface when the mop is dewatered also comprises a suspension dewatering structure, as shown in fig. 15: the mop rod is provided with a protruding hanging part 111, a supporting seat 28 for accommodating the hanging part is arranged above the mop bucket, and the electric mop is in a dewatering state away from the water surface after being hung.

The shape of the protruding part is not limited, and the protruding part can be a rectangular bump, a protruding flange or a hook arranged along the circumferential direction of the mop rod, and the like; in this embodiment, the hanging portion is a protruding flange disposed along the circumferential direction of the mop rod, and the supporting seat has an opening 281 sized to accommodate only the mop rod and to support the hanging portion.

This embodiment is shown in fig. 1 and 16: the cleaning disc is also provided with a cleaning disc acting on the wiping object, and the cleaning disc comprises at least one of a cleaning brush 32, a cleaning scraper 33 or a cleaning roller 34;

the cleaning tray includes any washing and brushing device in the prior art, such as a cleaning brush, a cleaning roller and the like, as is well known, mop wipers are various in variety, such as flat cloth mops, plate-shaped or brush-shaped cleaning parts are good in cleaning effect, such as a plurality of bundles of strip-shaped wipers, and it is reasonable to directly rotate and clean in water, such as collodion mops (sponges and foam cotton) and all cleaning brushes or cleaning rollers can be used, so that the cleaning brushes arranged on the lifting part can be combined in various ways, and the invention only lists a few typical ways.

Example 2:

this embodiment differs from embodiment 1 in the way of opening and closing the first passage, since there are several ways of achieving the opening and closing of the stopper, such as the simplest manual operation, or by a manual valve or an automated solenoid valve;

in this embodiment, the open and closed states of the plug are achieved by moving the impoundment area, as shown in fig. 18 and 19: the plug is fixedly connected with the mop bucket, and the second bucket body (water storage area) is movable relative to the first bucket body and can be moved to be clamped with the plug to close the first channel or leave the plug to open the first channel.

In particular, the water storage area is in a closed (plugged) state in a normal state, when water needs to be filled into the working area, the water storage area is operated to move, so that the plug is separated from the first channel, namely the first channel is opened, so that the water in the water storage area can flow into the working area, the use is convenient, and in the embodiment,

in this embodiment, the moving direction of the water storage area is up-and-down movement, and certainly, if the water storage area is set to be horizontal or oblique movement, the up-and-down direction is more suitable for the operation habit, and the up-and-down direction is the most labor-saving direction, so that the use convenience is further improved.

Example 3:

this embodiment also differs from embodiment 1 in the manner of opening and closing the first passage, as shown in fig. 20 and 21: the plug is provided with a notch 2121, is positioned in the first channel to close the first channel, and can rotate to enable the notch to conduct the first channel.

In detail, the first channel is located on the side wall of the water storage area, the side wall of the plug has a notch 2121, the plug is cylindrical with its driving arm (handle) and is vertically placed, the plug can rotate along its axis and can rotate to the state of conducting and closing the first channel.

In this embodiment, the first channel is located on the side wall of the water storage area, and the first channel may be also disposed on the bottom plate, only the position of the driving arm is changed.

In addition, when the first channel is located in the side wall, it is located close to the bottom so that no water remains in the impounded area.

In yet another embodiment of the plug of this embodiment, the plug is located in the first passage to close the first passage, and the plug is axially movable along the plug to open the first passage; this embodiment is not shown and is well understood, and the stopper is also provided with a handle, but the handle drives the stopper in an axial sliding manner to block or block the first passage, the stopper can be driven up or down manually, the first passage is opened when pressed down and closed when lifted up, or vice versa. Of course, an elastic reset component can be arranged for cooperation, manual operation is required to operate movement in one direction, and the other direction is completed by the reset component, for example, manual operation is performed to press down, the first channel is opened, the plug is reset after being released, and the first channel is closed.

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

Claims (18)

1. The utility model provides an electronic mop burnisher of water storage formula, includes electronic mop (1) and mop bucket (2), electronic mop includes mop pole (11) and mop head (12), be equipped with on the mop head and wipe (13), its characterized in that: the mop bucket is equipped with water storage area (21) and workspace (22), electronic mop is arranged in the workspace washs and dewaters, the lower part of water storage area is equipped with intercommunication first passageway (211) of workspace, first passageway is equipped with stopper (212), when the stopper stops, the water storage area seals, when the stopper is opened, the liquid in water storage area can flow to the workspace.

2. The water storage type electric mop cleaning tool according to claim 1, wherein: a sewage area (25) is also arranged and is positioned below the working area, a second channel (251) for communicating the sewage area and the working area is arranged between the sewage area and the working area, and a plug (252) capable of opening or closing the second channel is arranged between the sewage area and the working area;

when the second channel is closed, the electric mop is arranged in the working area for cleaning, when the second channel is opened, sewage in the working area flows to the sewage area through the second channel, and the electric mop is dewatered in the working area.

3. The water storage type electric mop cleaning tool according to claim 2, wherein: the plug is connected to the electric mop, and moves with the electric mop and plugs in or leaves the second channel;

alternatively, the plunger is always arranged in the second channel, and the electric mop can drive the plunger to be plugged into and/or separated from the second channel.

4. The water storage type electric mop cleaning tool according to claim 1, wherein: the plug is fixedly connected with the mop bucket, and the water storage area is movable relative to the mop bucket and can be moved to be clamped with the plug to close the first channel or be separated from the plug to open the first channel.

5. The water storage type electric mop cleaning tool according to claim 4, wherein: the moving direction of the water storage area is up-and-down movement.

6. The water storage type electric mop cleaning tool according to claim 1, wherein: the plug is provided with a driving arm (213), one end of the driving arm extends into the working area, and the electric mop can contact and drive the driving arm to move when being placed in the working area, so that the plug is driven to plug or open the first channel.

7. The water storage type electric mop cleaning tool according to claim 6, wherein: the driving arm is fixedly connected with the plug, and the plug is lifted or translated along with the driving arm;

or the driving arm is movably connected with the plug and drives the plug to ascend or descend through a lever principle;

the first passage is opened or closed by the movement of the stopper.

8. The water storage type electric mop cleaning tool according to claim 1, wherein: the plug is provided with a notch (2121), the plug is positioned in the first channel to close the first channel, and the plug can rotate to conduct the first channel through the notch.

9. The water storage type electric mop cleaning tool according to claim 1, wherein: the plug is located within the first passage to close the first passage and is axially movable therealong to open the first passage.

10. The water storage type electric mop cleaning tool according to any one of claims 1 to 9, wherein: the first channel is located at a bottom or a side wall of the impoundment area.

11. The water storage type electric mop cleaning tool according to claims 1 to 9, wherein: the working area is provided with a lifting device (4), the electric mop can be lifted through the lifting device and is provided with a high position and a low position and is kept;

the electric mop is cleaned when being positioned at a low position, and is dewatered when being positioned at a high position.

12. The water storage type electric mop cleaning tool according to claim 11, wherein: the lifting device comprises a spiral lifting device, a slideway lifting device, a step lifting device or an elastic lifting device.

13. The water storage electric mop cleaning tool of claim 12, wherein: the elastic lifting device comprises an elastic component (471), two ends of the elastic component respectively act on the mop bucket and the electric mop inserted into the mop bucket, and the elasticity of the elastic component can support the electric mop to be positioned at a high position;

when the electric mop is used, the electric mop is pressed downwards to overcome the elasticity of the elastic part, and the descending mop drives the plug to open the first channel; and after cleaning, the downward pressure is released, the electric mop moves upwards to reset under the action of the elastic component, and the first channel is closed.

14. The water storage type electric mop cleaning tool according to any one of claims 1 to 9, wherein: the working area is provided with a lifting part (31) for supporting the electric mop to clean or dewater.

15. The water storage electric mop cleaning tool of claim 14, wherein: the lifting part is connected to the lifting device (4), and can lift to a high position or a low position along with the lifting device, the plug (252) is fixedly connected to the lifting part, the plug is closed when the lifting part is located at the low position, and the plug is opened when the lifting part is located at the high position.

16. The water storage type electric mop cleaning tool according to any one of claims 1 to 9, wherein: the mop bucket comprises a first bucket body (23) and a second bucket body (24), the working area is located in the first bucket body, the second bucket body forms the water storage area, and the second bucket body and the first bucket body are arranged in a separable mode.

17. The water storage type electric mop cleaning tool according to any one of claims 1 to 9, wherein: the water storage area is provided with a water inlet (214) which can be connected with a water source.

18. The water storage type electric mop cleaning tool according to claim 2, wherein: the working area and/or the sewage area are/is provided with a water outlet (221).

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