CN211834256U

CN211834256U - Electric mop cleaning tool

Info

Publication number: CN211834256U
Application number: CN202020334337.7U
Authority: CN
Inventors: 任永海
Original assignee: Hebei Jieshibao Commodity Plastics Products Co ltd
Current assignee: Hebei Jieshibao Commodity Plastics Products Co ltd
Priority date: 2020-03-17
Filing date: 2020-03-17
Publication date: 2020-11-03
Anticipated expiration: 2030-03-17

Abstract

The utility model discloses an electric mop cleaning tool, including electric mop and mop bucket, electric mop includes mop pole and mop head, be equipped with the wiping article on the mop head, its characterized in that: a washing and brushing component for cleaning the wiping object is arranged in the mop bucket, and the washing and brushing component can be lifted and is provided with a high position and a low position. The utility model discloses wash the part and can go up and down and can keep motionless at high-order or low level, electronic mop arranges in and washes the part and be located the low level when, and the aquatic and the rotatory clean wiper through electronic mop are arranged in with washing the part to the wiper, when being located the high level, and the surface of water and extrusion dehydration between the two are kept away from to the wiper and washing the part, realize that aquatic washs and aerial dehydration, improve the effect of wasing and dewatering.

Description

Electric mop cleaning tool

Technical Field

The utility model belongs to the technical field of cleaning products, especially, relate to an electric mop burnisher.

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 kit of mop barrels, the mop barrels of the electric mop can not be separated when cleaning and dewatering, that is, the electric mop is in the same environment when cleaning and dewatering, or is immersed in water or is in a water-free state, the user often only uses the mop barrel to clean when using, and the mop can be manually taken up to be separated from the water surface for dewatering or be dewatered in other places (other mop barrels or water tanks), so the use is very inconvenient.

SUMMERY OF THE UTILITY MODEL

The utility model discloses the main technical problem who solves provides an electric mop burnisher, the utility model discloses an electric mop burnisher is equipped with in the mop bucket and is used for cleaning the washing part of wiper, wash the part and can go up and down and can keep motionless at high-order or low level, and electric mop arranges in and washes the part and when being located the low level, and the wiper arranges the aquatic in with washing the part and through electric mop's rotatory clean wiper, when being located the high-order, and the surface of water and extrusion dehydration between the two are kept away from to wiper and washing the part, realize aquatic washing and aerial dehydration, improve the effect of wasing and dehydration.

In order to solve the technical problem, the utility model discloses a technical scheme of adoption as follows:

the utility model provides an electric mop cleaning tool, includes electric mop and mop bucket, electric mop includes mop pole and mop head, be equipped with the wiper on the mop head, be equipped with in the mop bucket and be used for the cleanness the scrubbing component of wiper, the scrubbing component can go up and down and have high-order and low level.

Furthermore, the washing and brushing component is connected with a lifting device, and the washing and brushing component can be positioned at the high position or the low position through the lifting device;

when the electric mop is abutted against the washing component and is positioned at a low position, the cleaning work is completed; and when the washing component is abutted against and positioned at a high position, the dehydration work is finished.

Furthermore, a clamping structure is arranged between the mop head and the brushing component, and the brushing component can be clamped and driven to ascend or descend by the clamping structure.

Furthermore, the clamping structure comprises a positioning column and a positioning hole which are matched with each other, wherein a protruding part which extends towards the inside of the positioning hole and has elasticity is arranged on the side wall of the positioning hole, and the positioning column can be clamped by the protruding part when inserted into the positioning hole.

Further, the positioning hole and the positioning column are coaxially arranged with the rotation axis of the wiper.

Furthermore, the lifting device comprises a fixed seat and a lifting column, and the brushing component 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, high-order step is followed the circumference equipartition of lateral wall, and is every adjacent still be equipped with low level step between the high-order step, the lateral wall of lift post is equipped with and can arranges in the high-order step or the locating piece of low level step.

Furthermore, the upper end of the lifting column penetrates through the scrubbing component and is fixedly or detachably connected with the scrubbing component, and one end of the lifting column penetrating through the scrubbing component forms the positioning column.

Furthermore, the low-position steps are the bottom of the mop bucket, and a channel for the positioning block to slide is arranged between the adjacent high-position steps.

Furthermore, the fixing seat is provided with a ratchet, the tooth end of the ratchet is arranged downwards, the upper surface of the positioning block is an inclined plane, when the lifting column rises, the inclined plane is abutted to the ratchet and can drive the lifting column to rotate, and the positioning block can sequentially fall into the high-level step and the low-level step through the rising rotation of the lifting column at each time.

Furthermore, the lifting device comprises an elastic component arranged between the washing component and the mop bucket, the elastic component acts on the washing component and drives the washing component to be positioned at the high position, and the elastic component can support the total weight of the electric mop when the electric mop is placed on the washing component;

when in use, the electric mop is arranged on the brushing part, and the elastic part drives the brushing part and the electric mop to be positioned at a high position for dehydration; the electric mop is pressed down to overcome the elasticity of the elastic part so that the brushing part and the electric mop are positioned at a low position for cleaning.

Further, the lifting device comprises a support column which can move along the axial direction of the support column, the washing component is fixedly connected or detachably connected with the support column, and the elastic component is positioned between the support column and the mop bucket.

Furthermore, a positioning structure is arranged between the mop head and the washing component, and the positioning structure comprises a positioning column and a positioning hole which are matched with each other;

the positioning column is arranged on the mop head and the positioning hole is arranged on the washing component, or the positioning column is arranged on the washing component and the positioning hole is arranged on the mop head.

Furthermore, the upper end of the supporting column penetrates out of the brushing component, the penetrating end of the supporting column forms a positioning column, and the mop head is provided with a positioning hole for inserting the positioning column.

Furthermore, the washing component is movably connected to the mop barrel, the lifting device comprises a slide way for limiting the movement track of the washing component, the slide way is arranged on the mop barrel or the washing component, the slide way is provided with a high-position supporting part and a low-position supporting part, the washing component 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 for switching the falling position of the mop head;

when the washing and brushing component is cleaned, the washing and brushing component is positioned on the high-position supporting part or the low-position supporting part, when the washing and brushing component moves upwards, the upwards movement of the washing and brushing component can be blocked by the blocking part, and the downwards movement direction of the washing and brushing component can be switched by the blocking part.

The slide way comprises an upper way and a lower way which are respectively positioned at two sides of the high-position supporting part, the blocking part is positioned above the high-position supporting part and comprises a first blocking part and a second blocking part, and the low-position supporting part is positioned at an outlet of the lower way;

the brushing component stops when ascending on the upper lane to the first blocking part and falls back to the high-position supporting part through the guidance of the first blocking part; and the washing component moves upwards 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 washing component is lifted.

Furthermore, the lower supporting part is the bottom of the mop bucket, and the washing brush is located at the lower position when falling into the bottom of the mop bucket.

Furthermore, the slide way is positioned on the side wall of the mop bucket, and the brushing part is provided with a slide column which can be contained in the slide way to slide;

or the slide way is positioned on the brushing part, and the side wall of the mop bucket is provided with a slide column which can be contained in the slide way to slide.

Furthermore, the number of the lifting devices is 1, and 1 lifting device is positioned in the center of the mop head;

or a plurality of lifting devices are arranged, and the plurality of lifting devices support the brushing component together.

Further, the washing and brushing component comprises a cleaning disc, and at least one of a cleaning brush, a cleaning scraper blade or a cleaning roller is arranged on the cleaning disc.

Further, the wipes of the electric mop have at least two rotational speeds.

The mop bucket is provided with a high-position supporting part and a low-position supporting part for placing the washing component, when the washing component is placed on the high-position supporting part, the washing component is positioned at the high position, and when the washing component is placed on the low-position supporting part, the washing component is positioned at the low position; or the mop barrel is provided with a high-position supporting part for placing the washing component, when the washing component is placed on the high-position supporting part, the washing component is positioned at the high position, and when the washing component is placed at the bottom of the mop barrel, the washing component is positioned at the low position;

The utility model has the advantages that:

the utility model discloses an electric mop cleaning tool, be equipped with in the mop bucket and be used for cleaning the washing part of wiping thing, washing part can go up and down and can keep in high position or low position motionless, when electric mop arranges washing part and lies in low position, wiping thing and washing part arrange in aqueous and clean wiping thing through the rotation of electric mop, when lying in high position, wiping thing and washing part keep away from the surface of water and squeeze and dewater between the two, realize that washing in aqueous and aerial dewater, improve the effect of washing and dewatering;

the utility model discloses a wash the part and locate elevating gear realizes its high-order or the switching of low level through elevating gear and keeps, and operating logic is very simple, only needs to lift or push down just can realize wasing and the dehydration between seamless switching, need not the unnecessary operation of user, need not higher learning cost, and it is very convenient to use.

The above description is only an overview of the technical solution of the present invention, and in order to make the technical means of the present invention clearer and can be implemented according to the content of the description, the following detailed description is made with reference to the preferred embodiments of the present invention and accompanying drawings.

Drawings

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

FIG. 2 is a schematic view showing the structure of a scrubbing member in example 1;

FIG. 3 is another schematic structural view of the scrubbing member of example 1;

FIG. 4 is a sectional view of the cleaning tool of embodiment 1;

FIG. 5 is a sectional view of the elevating device in embodiment 1;

FIG. 6 is a view from the direction A of FIG. 4 (the mop in the lowered position);

FIG. 7 is a view in the direction A of FIG. 4 (the mop in the raised position);

FIG. 8 is a sectional view of a holding structure in embodiment 1;

FIG. 9 is a sectional view of another holding structure in embodiment 1;

FIG. 10 is a schematic structural view of a second embodiment of the cleaning tool of example 1;

FIG. 11 is a schematic structural view of a third embodiment of the cleaning tool of example 1;

FIG. 12 is a schematic view showing the overall structure of a cleaning tool according to embodiment 2;

FIG. 13 is a schematic structural view of a lifting device in embodiment 2;

FIG. 14 is a schematic structural view of a holder according to embodiment 2;

FIG. 15 is a schematic structural view of another embodiment of the cleaning tool of example 2;

FIG. 16 is a schematic view of a holding structure in embodiment 2;

FIG. 17 is a schematic view showing the overall construction of a cleaning tool according to embodiment 3;

FIG. 18 is a sectional view of the elevating device in embodiment 3;

FIG. 19 is a schematic structural view of another embodiment of the cleaning tool of example 3;

FIG. 20 is an exploded perspective view of the cleaning tool of embodiment 4;

FIG. 21 is a schematic view showing a slide sliding locus in embodiment 4;

FIG. 22 is a schematic view showing a slide track of the slide according to embodiment 4 (second lower support);

FIG. 23 is an exploded schematic view of another embodiment of the cleaning tool of example 4;

FIG. 24 is an exploded perspective view of a cleaning tool according to example 5;

FIG. 25 is a schematic structural view of a lifting device in embodiment 5;

FIG. 26 is an exploded perspective view of the elevating device in accordance with embodiment 5;

FIG. 27 is a sectional view of the elevating device in embodiment 5;

FIG. 28 is an exploded perspective view of the cleaning tool of embodiment 6;

FIG. 29 is a schematic view showing the structure of a scrubbing member in accordance with embodiment 6;

Detailed Description

The following detailed description of the preferred embodiments of the present invention will be provided in conjunction with the accompanying drawings, so as to enable those skilled in the art to more easily understand the advantages and features of the present invention, and thereby define the scope of the invention more clearly and clearly.

Example 1:

a power mop cleaning tool, as shown in fig. 1: including electric mop 1 and mop bucket 2, electric mop includes mop pole 11 and mop head 12, be equipped with on the mop head and wipe material 13, its characterized in that: a washing and brushing component 3 for cleaning the wiping matters is arranged in the mop bucket, can be lifted and is provided with a high position and a low position;

when the electric mop is abutted against the brushing component and is positioned at a low position, the wiper is immersed or partially immersed in water, and the wiper rotates and is cleaned by the brushing component; in the raised position, the wipe scrapes the scrubbing elements away from the water surface to dewater.

The electric mop of the utility model is not limited in the type and form, and can be a rotary head type flat mop, a rotary belt mop and/or a horizontal roller type rotary mop.

When the cleaning tool of the utility model is used, the mop bucket can store water certainly, when the washing component is positioned at a low position, the horizontal plane does not pass through the washing component, thus having better cleaning effect, and when the cleaning tool is used for dewatering, the wiper can not contact water, thus finishing the dewatering operation;

in addition, when scraping and dewatering are carried out, the rotation of the wiping object can also carry out centrifugal dewatering (spin-drying), the two modes simultaneously act, and the dewatering efficiency and effect of the electric mop are improved.

As shown in fig. 2 and 3: the washing and brushing part comprises a washing disc 31, at least one of a washing brush 32, a washing scraper 33 or a washing roller 34 is arranged on the washing disc, and the surface of the washing disc is provided with a plurality of through holes for water squeezed from the mop to flow into the mop bucket during dewatering.

The washing and brushing part of the utility model is arranged in an axial rotation stopping way, and the cleaning operation is implemented through the rotation of the electric mop wiper when the mop is cleaned;

of course, the scrubbing means may be positively rotatable in a direction opposite to that of the power mop wipe.

The utility model discloses a wash the part and can include any washing device among the prior art such as cleaning brush, cleaning roller, it is well known, the kind of mop wiper is various, it is better to use platelike or brush form cleaning element cleaning performance for flat cloth mop, for example the bar wiper of multi-beam, it is more reasonable directly to rotate the washing in water, for example collodion mop (sponge, foaming cotton), it all can to use cleaning brush or cleaning roller, consequently, the washing piece that sets up on wasing the dish, its compound mode has a plurality ofly, the utility model discloses also only enumerate several typical modes.

In addition, as shown in fig. 3: when a plurality of wipers are provided, the cleaning disks corresponding to the wipers can be independently arranged or can be combined to form an integral structure.

The brushing means of the present invention, which is elevated and has a high position and a low position that can be held, is realized by the elevating means 4, as shown in fig. 1 and fig. 4 to 7: the brushing component is connected with a lifting device 4, and the brushing component can be positioned at the high position or the low position through the lifting device, so that the electric mop can be cleaned at the low position or dewatered at the high position along with the brushing component.

The connection mode of the washing component and the lifting device can be a fixed connection mode, an integral forming structure mode, a detachable connection mode and the like, preferably the detachable connection mode is the detachable connection mode, the washing component is relatively fixed when in use, and the washing component can also be detached to be cleaned and replaced.

As shown in fig. 4 and 6: a clamping structure 5 is arranged between the mop head and the washing component, and the washing component can be clamped and driven to ascend or descend by the clamping structure.

The clamping structure is shown in fig. 8 and 9: the positioning device comprises a positioning column 51 and a positioning hole 52 which are matched with each other, wherein a protrusion 521 which extends towards the inside of the positioning hole and has elasticity is arranged on the side wall of the positioning hole, and the positioning column can be clamped by the protrusion when inserted into the positioning hole.

The elastic protrusion may be a snap structure realized by the elasticity of the material thereof, as shown in fig. 8: the protruding part is of an integral structure and has elasticity, and the clamped positioning column is provided with a flange or a concave ring 511 which is clamped with the protruding part;

it is also possible as shown in fig. 9: the protrusion is a movably mounted clamping head 5211, which is driven by an elastic member 5212 to extend into the positioning hole, thereby achieving elastic clamping.

The present embodiment is preferably: the positioning hole and the positioning column are coaxially arranged with the rotation axis of the wiping object, and the electric mop can certainly shake to a certain extent under the action of centrifugal force during rotation, so that the unstable phenomenon caused by shaking can be counteracted to the greatest extent by the coaxial arrangement.

The lifting device of the present embodiment is shown in fig. 4 to 7: the mop bucket comprises a fixed column 41, a moving tube 42 and a positioning rod 43, wherein 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, the positioning rod and the fixed column are relatively stopped rotating, and the upper end of the positioning rod is a supporting part;

the moving pipe penetrates through the washing component and is axially fixed with the washing component, and one end of the moving pipe, which penetrates through the washing component, forms the positioning column;

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 rotation stopping structure is meshed, the moving pipe and the positioning rod are circumferentially stopped, and the positioning rod and the fixed column are circumferentially stopped, so that the moving pipe cannot rotate and cannot descend at the moment; 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, that is, the washing component is also located at the low position, and the electric mop is abutted against the positioning rod and is cleaned by the washing component;

when the dewatering operation is required after cleaning, the electric mop is lifted up, the moving pipe and the washing component can be driven to move upwards through the clamping structure, the positioning rod is driven to move upwards in the continuous moving-up process, after the electric mop moves upwards to the end point, the electric mop can push the positioning rod to move downwards and enable the rotation stopping structure to be occluded, and the ratchet structure of the transmission component is also engaged, so that the moving pipe cannot rotate at the moment (the moving mode of the moving pipe can only rotate due to the spiral connection mode between the moving pipe and the transmission component, and the moving pipe can only rotate and move up and down due to rotation), therefore, the moving pipe cannot move up and down, and the moving pipe (the positioning rod and the washing component) 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 slightly falls by a distance (the falling distance is the distance for enabling the rotation stopping structure to be disengaged from the occlusion) to enable the rotation stopping structure to be disengaged, at the moment, the moving pipe can rotate and fall, and meanwhile, the brushing component also descends until the normal state is recovered.

The lifting device of the embodiment can realize coaxial lifting and positioning of the mop in the mop bucket, so that the mop can be cleaned at a low position, the mop is lifted to a position above the water level through the lifting mechanism after being cleaned to be dewatered, and the cleaning and dewatering are coaxially performed, so that the cleaning and dewatering water are combined into one and are coaxially performed, the structure is simplified, the operation is convenient and fast, the volume of the mop bucket can be reduced, the packaging, the transportation, the storage and the storage are convenient, and the use is more labor-saving; and the utility model discloses an its simple structure of elevating system easily makes and assembles, and is with low costs, does benefit to marketing.

The structure of the lifting device used in this embodiment is disclosed in the chinese utility model patent application No. 201810014543.7.

The lifting devices of the present embodiment are axial supporting structures, so that the number of the lifting devices is preferably the same as the number of the wipers, and the lifting devices and the wipers are preferably arranged coaxially, so as to provide a relatively stable supporting function;

of course, a single lifting device may be provided, as shown in fig. 10: the lifting device is positioned in the center of the mop head;

or as shown in fig. 11: a plurality of lifting devices are arranged but are not coaxially arranged with the wiping object, and two lifting devices are arranged symmetrically.

In this embodiment, there are 1 lifting device, and 1 lifting device is located at the center of the mop head; or a plurality of lifting devices are arranged, and the plurality of lifting devices support the brushing component together.

This embodiment has enumerated two kinds of elevating gear setting modes: the central position of the lifting device is provided with 1, the central position can ensure the horizontal balance of the mop head, and the lifting device 1 is beneficial to controlling the cost; 2 lifting devices are arranged, so that the balance type of the mop head during cleaning and dewatering can be improved; of course, 3 are also provided, thereby further improving the balance.

In addition, the wiping material of the electric mop of the utility model has at least two rotating speeds, wherein one of the rotating speeds is lower for mopping and cleaning, the other rotating speed is higher for dewatering, and the higher rotating speed can improve the dewatering effect;

three speeds can be set, and the three speeds respectively correspond to mopping, cleaning and dewatering, so that the effect of each function is better.

Example 2:

the present embodiment is different from embodiment 1 in the structure of the lifting device, as shown in fig. 12 to 14: the lifting device comprises a fixed seat 45 and a lifting column 46, and the brushing part 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 abutted against the supporting part, the lifting column can be driven to ascend by clamping the lifting column through the clamping structure, and the electric mop can be cleaned at the low position and dewatered at the high position by respectively arranging the positioning blocks on the lifting column on the high-position step or the low-position step;

in this embodiment, the lifting column penetrates through the fixing seat, the high-order step and the low-order step are disposed on the inner side wall of the fixing seat, and the positioning blocks are disposed on the outer side wall of the lifting column.

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; and the utility model discloses an its simple structure of elevating system easily makes and assembles, and is with low costs, does benefit to marketing.

In this embodiment, the lifting device is an axial lifting mechanism, and is preferably disposed coaxially with the wiper, and as a preferred embodiment, the lifting column and the positioning column are the same piece, that is, the upper end of the lifting column passes through the washing component and is fixedly or detachably connected thereto, and the end of the lifting column passing through the washing component constitutes the positioning column.

The lower step is the bottom of the mop barrel, a channel for the positioning block to slide is arranged between the adjacent high steps, namely the lower step is eliminated, 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 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 lifting column can be rotated by a certain angle through manual operation to realize the switching of the abutting state of the positioning block between the high-position step and the low-position step, and this embodiment also provides a mode without manual operation of the rotation angle as a best mode, as shown in fig. 13 and 14: the fixing seat is provided with a ratchet 453, the tooth end of the ratchet is arranged downwards, the upper surface of the positioning block is an inclined surface 4611, when the lifting column rises, the inclined surface is abutted to the ratchet and can drive the lifting column to rotate, and the positioning block can sequentially fall into the high-level step and the low-level step through the rising rotation of the lifting column at each time.

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 ratchets, the high-position steps and the low-position steps are arranged in a staggered manner, the positioning blocks are separated from the high-position steps or the low-position steps and move upwards to contact the inclined surface parts of the ratchets, and the shifting of the circumferential angles of the lifting column is completed through the inclined surfaces, and the high-position steps and the low-position steps are arranged at intervals, so that the positioning blocks can sequentially fall into the high-position steps and the low-position steps by the action of switching every time the lifting column moves upwards, and the electric mop is switched between the high-position steps and the low-position steps; 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.

This example also provides another implementation, as shown in fig. 15: the lifting device is not coaxially arranged with the wiper.

In addition, like embodiment 1, this embodiment also has a clamping structure, as shown in fig. 16: the positioning device comprises a positioning column 51 and a positioning hole 52 which are matched with each other, wherein a protrusion 521 which extends towards the inside of the positioning hole and has elasticity is arranged on the side wall of the positioning hole, and the clamped positioning column is provided with a concave ring 511 which is clamped with the protrusion.

Example 3:

embodiment 3 differs from embodiment 1 in the structure of the lifting device, as shown in fig. 17 and 18: the lifting device comprises an elastic component 471 arranged between the washing component and the mop bucket, the elastic component acts on the washing component and drives the washing component to be positioned at the high position, and the elasticity of the elastic component is as follows: which can support the total weight of the electric mop and the washing component when the electric mop is placed on the washing component;

According to the lifting device, the high-position dehydration of the electric mop is realized through the elastic component, and when the electric mop is placed on the washing component, the elasticity of the elastic component is larger than the self weights of the electric mop and the washing component, so that the electric mop and the washing component are positioned at high positions; when the mop needs to be cleaned, the mop rod is pressed downwards to overcome the elasticity of the elastic component, so that the wiping materials and the washing and brushing component of the mop head can both move downwards to a low position (invaded into water or partially immerged into water), thereby implementing the cleaning operation;

the lifting device in the embodiment has simple and clear lifting logic and very simple operation, has simple structure and fewer parts, reduces actual effect risk, has simple volume, is favorable for reducing the whole volume of the mop bucket, and is convenient for packaging, transportation, storage and storage.

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.

Further, as shown in fig. 18: the lifting device comprises a support column 47 which can move along the axial direction of the support column, the brushing component is fixedly connected or detachably connected with the support column, and the elastic component is positioned between the support column and the mop bucket.

More specifically, the supporting column is sleeved on a fixing seat 45, the supporting column can move along the axial direction of the supporting column, the fixing seat is fixedly connected to the mop bucket, the elastic component is arranged between the supporting column and the fixing seat or between the supporting column and the mop bucket, namely, acting forces at two ends of the elastic component are respectively arranged between the supporting column and the mop bucket, and are used for driving the supporting column to move upwards, the upward movement stroke of the supporting column is limited by the fixing seat, and when the supporting column is in a normal state, a supporting part of the supporting column is in a high-position state at an upward vertex of the supporting column under the action of the elastic component, namely, the washing component is also in a high-position state;

in the embodiment, a clamping structure is not arranged between the electric mop and the brushing component, which is well understood, the lifting device of the embodiment is normally located at a high position, and the operation of switching to the low position is to press the mop downwards, so that the clamping structure is not needed to drive the brushing component to move upwards;

however, in order to provide better stability for the electric mop when being placed into the bucket for washing or dewatering, a positioning structure is provided between the mop head and the scrubbing component, and the positioning structure comprises a positioning column 51 and a positioning hole 52 which are matched with each other, but the positioning structure is not limited to this way, and any structure can be used as long as the positioning structure can be matched with each other and can fix positions with each other;

The lifting device of the present embodiment is also an axial lifting structure, the lifting device in the above embodiment is coaxially disposed with the wiper, and the positioning column and the positioning hole are also coaxially disposed, so in this structure, it is preferable to configure the positioning column and the supporting column as the same piece; namely, the upper end of the supporting column penetrates out of the washing component, the penetrating end forms a positioning column, and the mop head is provided with a positioning hole for inserting the positioning column.

This example also shows another embodiment, as shown in fig. 19: the lifting device and the wiper are arranged non-coaxially, and the corresponding positioning column changes positions along with the lifting device;

however, it is also understood that the positions of the lifting device and the positioning post are not necessarily the same, and they can be matched arbitrarily.

Example 4:

embodiment 4 is also different from embodiment 1 in the structure of the lifting device, as shown in fig. 20 to 22: the washing component is movably connected to the mop barrel, the lifting device comprises a slide way 48 for limiting the movement track of the washing component, the slide way is arranged on the mop barrel or the washing component, the slide way is provided with a high-position supporting part 481 and a low-position supporting part 482, the washing component 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 mop head;

the slide way can be arranged on the mop bucket or on the washing and brushing part, and when the slide way is positioned on the side wall of the mop bucket, the washing and brushing part is provided with a slide column 35 which can be contained in the slide way to slide; or the slide way is positioned on the brushing part, and the side wall of the mop bucket is provided with a slide column 35 which can be accommodated in the slide way to slide.

When the washing component is positioned on the low-position supporting part, the electric mop is inserted for cleaning, the wiping object and the washing component are positioned in water at the moment, the cleaning action is completed through the rotation of the electric mop, the electric mop is lifted up after the cleaning action is completed, the washing component is driven to move upwards through the clamping structure, the upward movement is stopped through the blocking of the blocking part, the washing component can fall into the high-position supporting part along the slide way, and the electric mop and the washing component leave the water surface and rotate to realize spin-drying and dehydration;

realize high-order and low-order switching through the passageway of restriction movement track, the track can set up the lateral wall at the mop bucket, can make elevating gear need not to set up the aquatic in the bucket, can improve the life of device on the one hand, and on the other hand, the structure of slide is also comparatively retrencied, need not the lift that many parts cooperation realized electronic mop, reduces the die sinking cost.

As shown in fig. 21 and 22: 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 of the lower channel;

In this embodiment, the first blocking portion and the second blocking portion are disposed adjacent to each other and both have inclined guide surfaces, and a tip of the guide surface of the first blocking portion is located above the high-position support portion or is biased to be above the high-position support portion, so as to guide the brushing member to fall into the high-position support portion when the brushing member moves downward; the tail end of the guide surface of the second blocking part is positioned at the inlet of the lower channel, and can guide the washing component to fall into the lower channel when the washing component descends, and then the motion track of the washing component is limited by the lower channel, so that the washing component falls into the lower supporting part; and sequentially switching between the high position and the low position in a circulating mode.

This embodiment is shown in fig. 20: the lower part of the washing component is also provided with a bearing part 37 which is fixedly connected with the washing component, the extending end of the bearing part is propped against the bottom of the mop barrel, so that enough supporting force can be provided for the washing component during the washing operation, the stability of the mop barrel during the washing is improved, and the damage of the washing component can be effectively prevented.

In this embodiment, as an optimal implementation manner, the lower supporting portion is the bottom of the mop bucket, and the washing brush is located at the lower position when falling into the bottom of the mop bucket; the lower supporting part is removed, the washing component directly descends to the bottom of the mop bucket, the structure can simplify the structure of the slideway, the service life of the lifting device is prolonged, and the manufacturing cost of the cleaning tool can be controlled.

In this embodiment, the brushing member further has a pad 36, the pad is supported at the bottom of the mop bucket when the brushing member is at the low position, the specific horizontal position of the brushing member when the brushing member is at the low position is set by the height of the pad, and the sliding column 35 is disposed on the sidewall of the pad.

The embodiment of this embodiment shown in fig. 20 is: the slideway is provided on the side wall of the mop bucket, and fig. 23 shows another embodiment of this embodiment: the ramps and the scrubbing elements are configured differently from those described above, but the ramps and the high and low supports of this embodiment are in opposite directions, since the direction of movement between the scrubbing elements and the mop bucket is opposite, and therefore the direction in which the ramps are provided separately is also opposite.

In addition, like embodiments 1 and 2, the present embodiment also has a clamping structure, and the clamping structure of the present embodiment includes a positioning column 51 and a positioning hole 52 that are matched with each other, a side wall of the positioning hole is provided with an elastic protrusion that extends into the positioning hole, and the clamped positioning column has a concave ring that is engaged with the protrusion.

Example 5:

the present embodiment is different from embodiment 4 in the structure of the chute, as shown in fig. 24 to 27: the slideway is arranged on a swing frame 49 which is rotatably connected with a box body 491, the swing frame is provided with an elastic piece 492 driving the swing frame to deflect towards one side, the box body is provided with a vertically arranged guide groove 4911, and the slideway can be exposed from the guide groove part.

In this embodiment, the swing frame, the box body and the elastic member are all mounted by being sleeved on the pin 493, the box body is fixedly connected to the mop bucket, two ends of the elastic member respectively act on the box body and the swing frame to enable the swing frame to deflect towards one side, and the box body limits the deflection angle of the swing frame, so that the swing frame can rotate back and forth within a certain angle range, and is fixedly deflected towards one side in a normal state when no external force exists;

the combination of the guide groove 4911 and the slide way 48 limits the moving track of the brushing component, so that the brushing component can sequentially enter the high-position supporting part or the low-position supporting part under the action of the blocking part, and then the brushing component can ascend again to enter the slide way after being separated from the high-position supporting part under the action of the elastic part, so that the circular switching of the high position and the low position is realized.

The structure of the lifting device used in this embodiment is disclosed in chinese utility model patent application No. 201510518015.1.

Example 6:

the present embodiment differs from embodiment 1 in the manner of realizing the brushing means at the high position and the low position, as shown in fig. 28 and 29: the mop bucket is provided with a high-position supporting part 21 and a low-position supporting part 22 for placing the brushing component, when the brushing component is placed on the high-position supporting part, the brushing component is positioned at the high position, and when the brushing component is placed on the low-position supporting part, the brushing component is positioned at the low position;

or the mop bucket is provided with a high-position supporting part 21 for placing the brushing component, when the brushing component is placed on the high-position supporting part, the brushing component is positioned at the high position, and when the brushing component is placed at the bottom of the mop bucket, the brushing component is positioned at the low position.

The washing component is supported by the direct high-low position supporting part, so that the intervention operation of an electric mop is not needed when the washing component is used, and a user manually prevents the washing component from being in a high position or a low position according to the requirement, so that the washing component is simple to implement, is realized without other structures, and is low in preparation cost and not easy to damage;

the high-level supporting part and the low-level supporting part of the embodiment are protruding steps fixedly arranged on the side wall of the mop bucket, and correspondingly, the scrubbing component is provided with a supporting arm 38 capable of being supported on the steps, and meanwhile, the steps are provided with grooves for positioning the supporting arms; when the washing and brushing component is directly arranged at the bottom of the barrel without arranging the low-position supporting part, a cushion block 36 is also arranged below the washing and brushing component, the specific horizontal position of the washing and brushing component at the low position is arranged through the height of the cushion block, and at the moment, the supporting arm is arranged on the side wall of the cushion block;

further, in this embodiment, as in embodiment 4, a bearing portion 37 is further provided below the brushing member to enhance the rigidity of the brushing member.

In the embodiment, the washing component is provided with a handle 39 for carrying, the handle is fixedly arranged or rotatably connected with the washing component and is higher than the water surface in the mop bucket, so that a user can not dirty hands when in use; preferably, the handle is arranged to fit the wall of the mop bucket.

The above only is the embodiment of the present invention, not limiting the scope of the present invention, all the equivalent structure changes made in the specification and the attached drawings or directly or indirectly applied to other related technical fields are included in the same principle as the present invention.

Claims

1. The utility model provides an electric mop cleaning tool, includes electric mop (1) and mop bucket (2), electric mop includes mop pole (11) and mop head (12), be equipped with on the mop head and wipe (13), its characterized in that: a washing and brushing component (3) for cleaning the wiping matters is arranged in the mop bucket, and the washing and brushing component can be lifted and is provided with a high position and a low position.

2. The power mop cleaning tool of claim 1, wherein: the washing and brushing component is connected with a lifting device (4), and the washing and brushing component can be positioned at the high position or the low position through the lifting device;

3. The power mop cleaning tool of claim 2, wherein: a clamping structure (5) is arranged between the mop head and the washing component, and the washing component can be clamped and driven to ascend or descend by the clamping structure.

4. The power mop cleaning tool of claim 3, wherein: the clamping structure comprises a positioning column (51) and a positioning hole (52) which are matched with each other, wherein a protrusion (521) which extends towards the inside of the positioning hole and has elasticity is arranged on the side wall of the positioning hole, and the positioning column can be clamped by the protrusion when inserted into the positioning hole.

5. The power mop cleaning tool of claim 4, wherein: the positioning hole and the positioning column are coaxially arranged with the rotation axis of the wiping object.

6. The power mop cleaning tool of claim 4 or 5, wherein: the lifting device comprises a fixed seat (45) and a lifting column (46), and the brushing component is fixedly connected or detachably connected with the lifting column;

fixing base fixed connection in the mop bucket, the lift post with the fixing base is worn the cover to be 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.

7. The power mop cleaning tool of claim 6, wherein: the upper end of the lifting column penetrates through the brushing component and is fixedly or detachably connected with the same, and one end of the lifting column penetrating through the brushing component forms the positioning column.

8. The power mop cleaning tool of claim 6, wherein: the lower steps are the bottom of the mop barrel, and a channel for the positioning block to slide is arranged between the adjacent high steps.

9. The power mop cleaning tool of claim 6, wherein: the fixing seat is provided with a ratchet (453), the tooth end of the ratchet is arranged downwards, the upper surface of the positioning block is an inclined surface, when the lifting column rises, the inclined surface is abutted to the ratchet and can drive the lifting column to rotate, and the positioning block can sequentially fall into the high-level step and the low-level step through the rising rotation of the lifting column at each time.

10. The power mop cleaning tool of claim 2, wherein: the lifting device comprises an elastic component (471) arranged between the washing component and the mop bucket, the elastic component acts on the washing component and drives the washing component to be positioned at the high position, and the elastic component can support the total weight of the electric mop when the electric mop is arranged on the washing component;

11. The power mop cleaning tool of claim 10, wherein: the lifting device comprises a supporting column (47) which can move along the axial direction of the supporting column, the brushing component is fixedly connected or detachably connected with the supporting column, and the elastic component is positioned between the supporting column and the mop bucket.

12. The power mop cleaning tool of claim 10, wherein: a positioning structure is arranged between the mop head and the washing component, and the positioning structure comprises a positioning column (51) and a positioning hole (52) which are matched with each other;

13. The power mop cleaning tool of claim 11, wherein: the upper end of the supporting column penetrates out of the washing component, a positioning column (51) is formed at the penetrating end, and a positioning hole (52) for the positioning column to insert is formed in the mop head.

14. The power mop cleaning tool of claim 3 or 4, wherein: the washing component is movably connected with the mop barrel, the lifting device comprises a slide way (48) for limiting the movement track of the washing component, the slide way is arranged on the mop barrel or the washing component, the slide way is provided with a high-position supporting part and a low-position supporting part, the washing component 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 mop head;

15. The power mop cleaning tool of claim 14, wherein: the slideway comprises an upper slideway (485) and a lower slideway (486) which are respectively positioned at two sides of the high-position supporting part, the blocking part is positioned above the high-position supporting part, the blocking part comprises a first blocking part (4831) and a second blocking part (4832), and the low-position supporting part is positioned at an outlet of the lower slideway;

16. The power mop cleaning tool of claim 15, wherein: the low-position supporting part is the barrel bottom of the mop barrel, and the washing component is positioned at the low position when falling into the barrel bottom of the mop barrel.

17. The power mop cleaning tool of claim 15 or 16, wherein: the slide way is positioned on the side wall of the mop bucket, and the brushing part is provided with a sliding column (35) which can be contained in the slide way to slide;

or the slide way is positioned on the washing component, and the side wall of the mop bucket is provided with a slide column (35) which can be accommodated in the slide way to slide.

18. The power mop cleaning tool of any of claims 2-5, wherein: 1 lifting device is arranged, and 1 lifting device is positioned at the center of the mop head;

19. The power mop cleaning tool of claim 1, wherein: the washing and brushing component comprises a washing disc (31), and at least one of a washing brush (32), a washing scraper (33) or a washing roller (34) is arranged on the washing disc.

20. The power mop cleaning tool of claim 1, wherein: the mops of the power mop have at least two rotational speeds.

21. The power mop cleaning tool of claim 1, wherein: the mop bucket is provided with a high-position supporting part and a low-position supporting part for placing the washing component, when the washing component is placed on the high-position supporting part, the washing component is positioned at the high position, and when the washing component is placed on the low-position supporting part, the washing component is positioned at the low position;

or the mop bucket is provided with a high-position supporting part for placing the washing component, when the washing component is placed on the high-position supporting part, the washing component is positioned at the high position, and when the washing component is placed at the bottom of the mop bucket, the washing component is positioned at the low position;