CN215534112U - Hand-washing-free mop bucket - Google Patents

Abstract

The utility model discloses a hand-washing-free mop bucket which comprises a bucket body, wherein a water squeezing mechanism is arranged on the outer wall of the bucket body and is positioned on the outer side of the bucket body; the water squeezing device also comprises a water draining mechanism, wherein the water draining mechanism is communicated with the water squeezing mechanism and the barrel body and is used for draining water squeezed by the water squeezing mechanism into the barrel body. Compared with the prior art, the utility model has the advantages that the water squeezing mechanism is arranged at the outer side of the barrel body, and the water squeezed by the water squeezing mechanism is drained into the barrel body through the drainage mechanism, so that the barrel body part of the original water squeezing area is saved, raw materials for barrel body forming are saved, the cost is reduced, the size of the barrel body can be smaller, only a single barrel body part needs to be cleaned, the cleaning is simpler, a user can observe the water squeezing condition at any time when the mop squeezes water, the water squeezing speed can be conveniently and timely adjusted, and the use flexibility is better.

Description

Hand-washing-free mop bucket

Technical Field

The utility model relates to the technical field of daily necessity mop buckets, in particular to a hand-washing-free mop bucket.

Background

A hand-free mop bucket is a daily common cleaning tool, a user cleans and cleans a mop while mopping the floor, namely the mop is placed in clean water in the mop bucket to stir after being dirtied so as to remove dirt on the mop head as much as possible, the mop is dried or squeezed after being cleaned, and the dried or squeezed mop is used for cleaning the floor again.

At present, an existing hand-washing-free mop bucket, as disclosed in chinese patent application publication CN111214187A, includes a squeezing area, a water containing area, and a flat mop, and has a mop bucket, the mop bucket has the squeezing area and the water cleaning area, the flat mop squeezes water in the squeezing area, and cleans in the water containing area, the squeezing area and the water containing area are both provided with a water opening squeezing device, and the flat mop is inserted into the corresponding water opening squeezing device during squeezing water and cleaning, and squeezes water and cleans respectively. However, the above-mentioned squeezing flat mop has disadvantages: the bucket body is large in size, the two areas are arranged, so that the bucket body is troublesome to clean, particularly, water in the bucket body in the water squeezing area is difficult to pour, and the preparation cost is high.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the technical problem of providing a hand-free mop bucket which is relatively small in size, simple to clean and low in cost.

The technical scheme adopted by the utility model for solving the technical problems is as follows: a hand-washing-free mop bucket comprises a bucket body, wherein a water squeezing mechanism is arranged on the outer wall of the bucket body and is positioned on the outer side of the bucket body; the water squeezing device also comprises a water draining mechanism, wherein the water draining mechanism is communicated with the water squeezing mechanism and the barrel body and is used for draining water squeezed by the water squeezing mechanism into the barrel body.

Compared with the prior art, the utility model has the advantages that the water squeezing mechanism is arranged at the outer side of the barrel body, and the water squeezed by the water squeezing mechanism is drained into the barrel body through the drainage mechanism, so that the barrel body part of the original water squeezing area is saved, raw materials for barrel body forming are saved, the cost is reduced, the size of the barrel body can be smaller, only a single barrel body part needs to be cleaned, the cleaning is simpler, a user can observe the water squeezing condition at any time when the mop squeezes water, the water squeezing speed can be conveniently and timely adjusted, and the use flexibility is better.

Furthermore, the vertical projection of the water squeezing mechanism is not coincident with the barrel opening of the barrel body; a water receiving tray is arranged on the outer wall of the barrel body, is positioned below the water squeezing mechanism and is used for receiving water drops dripped by the water squeezing mechanism; the water collector can collect water drops dripping from the water squeezing port at the initial stage of water squeezing of the mop or collect water drops splashed in the water squeezing process, so that the water drops are prevented from directly dripping on the ground to cause secondary pollution, the volume of the water collector is small, the preparation cost is relatively low, and a cleaning tool is more easily contacted with the inner wall and the bottom during use, so that the cleaning is more convenient.

Furthermore, the water pan is detachably connected with the outer wall of the barrel body, and the water pan is positioned on the outer wall of the lower end of the barrel body; after setting up like this, together with the staving when not needing to clean for the water collector can be taken out alone and wash, uses flexibility and convenience better.

Furthermore, a guide plate for guiding water drops dripped by the water squeezing mechanism into the water receiving tray is arranged on the outer wall of the barrel body, and the guide plate extends up and down along the outer wall of the barrel body; then the baffle sets up the back, can collect the water collector effectively with the water droplet in, and even the water droplet drips on the outer wall of staving, under the guide of baffle, also can collect the water collector in, and then can prevent effectively that the water droplet from dripping the condition on the floor and taking place, need not to carry out the secondary to the floor and clean for user's use is experienced better.

Furthermore, the water squeezing mechanism is positioned at the upper end between the two guide plates, the water receiving tray is positioned at the lower end between the two guide plates, and the water receiving tray is clamped with the two guide plates; then the water droplet of both sides all can be guided to collect in the water collector for the water guide effect of baffle is better, and holistic appearance is also more regular simultaneously, more accords with most people's aesthetic, and the appearance is also more pleasing to the eye.

Furthermore, the water squeezing mechanism comprises a stroking head and a water squeezing frame connected with the barrel body, a water squeezing opening and a water squeezing channel are arranged on the water squeezing frame, and the water squeezing opening is positioned above the water squeezing channel and is communicated with the water squeezing channel; the stroking head is connected to the water squeezing frame or the barrel body, and one end of the stroking head is positioned in the water squeezing channel; the drainage mechanism comprises a drainage channel, one end of the drainage channel is communicated with the other end of the stroking head, and one end of the drainage channel is communicated with the inner cavity of the barrel body; after the arrangement, the water squeezing mechanism and the water draining mechanism are simple in structure and few in parts while the using effect is ensured, so that the production efficiency is improved, and the cost is reduced.

Further, the stroking head comprises at least one scraping blade; an extrusion roller is arranged on the inner wall of the squeezing channel opposite to the smoothing head, the extrusion roller is hinged with the inner wall of the squeezing channel through a connecting rod, and in a natural state, one end of the connecting rod connected with the extrusion roller is lower than one end of the connecting rod hinged with the inner wall of the squeezing channel; then when the mop inserts the downstream of crowded water mouth, the extrusion gyro wheel extrudes the mop to the doctor-bar, and when the mop upward movement, the extrusion gyro wheel can use connecting rod and crowded water passageway inner wall articulated department as the fulcrum rotation with the connecting rod together under the effect of mop board, make the interval increase between extrusion gyro wheel and the doctor-bar, the event not only can make the crowded water effect of mop better, the mop is extracted also more laborsaving simultaneously, and extrusion gyro wheel itself makes the mop reciprocate more smooth and easy, use experience is better, also more humanized.

Furthermore, the two scraping pieces are arranged up and down, and a gap is reserved between the two scraping pieces; after the mop is arranged in this way, water can be extruded out more easily after the mop passes through the scraping blade, and the water squeezing effect is better.

Furthermore, the inclination angle of the scraping blade positioned above is smaller than that of the scraping blade positioned below; after the arrangement, the friction force between the first scraping blade and the mop can be reduced, and after the first scraping blade extrudes a part of water, the friction force between the second scraping blade and the mop can also be relatively reduced, so that the resistance of the mop during water extrusion is smaller, and meanwhile, the double water extrusion has a better mop extrusion effect.

Furthermore, the stroking head also comprises at least one water squeezing roller, and the water squeezing roller is positioned above the scraping blade; the rotation of the wringing roller can further reduce the resistance of the mop during initial extrusion, and the scraping blade can also ensure the later-stage wringing effect, so that the mop can move up and down more smoothly during extrusion, and the using effect is better.

Furthermore, two containing grooves are formed in an inner arm, opposite to the scraping piece, in the water squeezing channel, and the distance between the two containing grooves is smaller than or equal to the length of the scraping piece; one end of the connecting rod is hinged in the accommodating groove, the other end of the connecting rod is rotatably connected with the extrusion roller, and at least part of the extrusion roller is positioned in the water extrusion channel; the top wall of the containing groove limits the upward rotation of the connecting rod, and when the connecting rod rotates upwards to a limit position, the vertical distance between the other end of the connecting rod and the inner wall of the squeezing channel where the scraping blade is located is smaller than the vertical distance between one end of the connecting rod and the inner wall of the squeezing channel where the scraping blade is located; after the mop lifting mechanism is arranged, the resetting mechanism is not needed, the squeezing idler wheels can reset under the action of self gravity, the squeezing idler wheels push the mop to the direction of the scraping pieces when the mop is pressed down, the water squeezing effect is guaranteed, and the squeezing idler wheels can be opened when the mop is lifted, so that the distance between the squeezing idler wheels and the scraping pieces is increased, the mop is lifted more labor-saving, and the use is more humanized.

The water squeezing rack is provided with a placing groove for placing the scraping blade, the upper end of the placing groove is opened, and the opening is provided with a groove for containing the connecting rod hinge shaft; the cover plate is provided with a first pressure rod and a second pressure rod which respectively correspond to the placing groove and the groove, the first pressure rod limits the scraping blade upwards, and the second pressure rod limits the connecting rod hinge shaft upwards; after setting up like this, the structure of crowded water frame and apron is simpler, the die sinking shaping of also being convenient for, and the cost of manufacture is lower, puts into respective standing groove and recess respectively with doctor-bar and extrusion roller and the connecting rod after the equipment simultaneously, covers the apron can, so be more convenient for with the equipment of doctor-bar and extrusion roller, can improve the packaging efficiency by a wide margin.

Further, a base is arranged at the bottom of the barrel body, the barrel body is obliquely arranged, and a pedal for supporting the barrel body and used for pedaling is arranged on the base; then the staving slope sets up the back for the water yield in the staving can reduce, can satisfy abluent demand again simultaneously, so can the using water wisely, and can make again after the footboard sets up crowded water or cleaning process, the stability of staving is better, is difficult for appearing rocking or the condition of empting, and stability in use is also better.

Further, a handle is arranged on the water receiving plate; when the water pan is required to be cleaned, the handle is directly held by hand to take down the water pan, so the water pan is simple and convenient to use.

Drawings

The present invention will be described in further detail below with reference to the drawings and preferred embodiments, but those skilled in the art will appreciate that the drawings are only drawn for the purpose of illustrating the preferred embodiments and therefore should not be taken as limiting the scope of the utility model. Furthermore, unless specifically stated otherwise, the drawings are merely schematic representations based on conceptual representations of elements or structures depicted and may contain exaggerated displays and are not necessarily drawn to scale.

FIG. 1 is a schematic structural view of a first embodiment of the hand-free mop bucket of the present invention;

FIG. 2 is an exploded view of a second embodiment of the hand-free mop bucket of the present invention;

FIG. 3 is a schematic structural view of a third embodiment of the hand-free mop bucket of the present invention;

FIG. 4 is a schematic cross-sectional view of a fourth embodiment of the hand-free mop bucket of the present invention;

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

FIG. 6 is an enlarged view of portion B of FIG. 5;

FIG. 7 is a schematic structural view of a five-stage wringing rack of an embodiment of the hand-free mop bucket of the utility model;

FIG. 8 is a schematic view of a five-cover plate of the embodiment of the hand-free mop bucket of the present invention;

FIG. 9 is an exploded view of a fifth embodiment of the hand-free mop bucket of the present invention;

FIG. 10 is a schematic structural view of a sixth embodiment of the hand-free mop bucket of the present invention;

fig. 11 is a schematic structural view of a seventh embodiment of the hand-free mop bucket of the present invention.

Wherein the reference numerals are specified as follows: 1. a barrel body; 2. a water squeezing mechanism; 3. a water pan; 4. a guide plate; 5. stroking the head; 6. a water squeezing frame; 7. water squeezing; 8. a wringing channel; 9. a drainage channel; 10. scraping a blade; 11. extruding the roller; 12. a connecting rod; 13. a water squeezing roller; 14. a containing groove; 15. a cover plate; 16. a placement groove; 17. a groove; 18. a first pressure lever; 19. a second compression bar; 20. a base; 21. a pedal; 22. a handle.

Detailed Description

The present invention will be described in detail below with reference to the accompanying drawings.

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is described in further detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the utility model and are not intended to limit the utility model.

It will be understood by those skilled in the art that in the present disclosure, the terms "longitudinal," "lateral," "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," and the like are used in an orientation or positional relationship indicated in the drawings for ease of description and simplicity of description, and do not indicate or imply that the referenced device or element must have a particular orientation, be constructed and operated in a particular orientation, and thus, the above terms should not be construed as limiting the present invention.

Example one

As shown in fig. 1, a hand-washing-free mop bucket comprises a bucket body 1, wherein a handle is arranged on the bucket body 1, a water squeezing mechanism 2 is arranged on the outer wall of the upper end of the bucket body 1, the water squeezing mechanism 2 has the same structure as a mouth smoothing squeezing device mentioned in the background art, the water squeezing mechanism 2 is positioned at the outer side of the bucket body 1, specifically, the water squeezing mechanism 2 is fixed at the outer side of the mouth of the bucket body 1, and the vertical projection of the water squeezing mechanism 2 is not overlapped with the mouth of the bucket body 1, so that water drops dropping from a water squeezing mouth 7 cannot drop into the bucket body 1; the water discharging device further comprises a water discharging mechanism which is a water discharging channel 9, the water discharging channel 9 is arranged on the outer wall of the upper end of the barrel body 1, the back part of the stroking head extruding device is positioned at the water discharging channel 9, the back part of the stroking head is positioned in the water discharging channel 9, so that water stroked down by the mop at the stroking head can directly enter the water discharging channel 9, and the water is guided into the barrel body 1 through the water discharging channel 9.

When the washing barrel is used, water for washing is filled in the barrel body 1, the flat mop is washed in the barrel body 1, then the washed flat mop is aligned to the water squeezing mechanism 2 and is inserted from a smoothing opening of the water squeezing mechanism 2 for squeezing, the water smoothed by the smoothing head on the flat mop is firstly guided into the drainage channel 9 and is guided into the barrel body 1 by the drainage channel 9.

Example two

As shown in fig. 2, the vertical projection of the water squeezing mechanism 2 is not coincident with the bung of the barrel body 1; the outer wall of the lower end of the barrel body 1 is provided with a water receiving disc 3, the water receiving disc 3 is positioned right below a water squeezing opening 7 of the water squeezing mechanism 2, the width of the water receiving disc 3 is more than or equal to that of the water squeezing opening 7, and the height of the water receiving disc 3 is less than that of the barrel body 1 and is used for receiving water drops dropping on the water squeezing mechanism 2 or the mop; the water receiving tray 3 can collect water drops dropping from the water squeezing opening 7 at the initial stage of mop water squeezing, so that the water drops are prevented from directly dropping on the ground and causing secondary pollution, the volume of the water receiving tray 3 is small, the preparation cost is relatively low, and the water receiving tray is convenient to clean when in use.

When the mop head of the flat mop is inserted into the water squeezing mechanism 2, because more water is arranged on the mop head, the upper hand can drip at the lower end of the mop head, and the water drops after dripping can pass through the water squeezing port 7 and are finally caught by the water receiving disc 3, and the water drops are gathered in the water receiving disc 3, and because the volume of the water receiving disc 3 is relatively small, the flat mop can be easily poured and cleaned.

The rest of the structure is the same as the first embodiment.

EXAMPLE III

As shown in fig. 3, the water pan 3 is detachably connected to the outer wall of the barrel 1 (in this example, the water pan is clamped, or inserted, or attracted by a magnet, or limited by a limiting plate, etc.), and the water pan 3 is located on the outer wall of the lower end of the barrel 1; the water pan 3 can be taken out for cleaning and dumping separately, and the use convenience is better.

A guide plate 4 for guiding water drops dropped by the water squeezing mechanism 2 into the water receiving tray 3 is arranged on the outer wall of the barrel body 1, and the guide plate 4 extends up and down along the outer wall of the barrel body 1; generally, in order to prevent water drops on the outer wall of the barrel body 1 from accumulating at the joint of the water receiving tray 3 and the outer wall of the barrel body 1 or leaking from a gap, an inner recess can be arranged on the outer wall of the barrel body 1, and the tray body part of the water receiving tray 3 is positioned in the inner recess, so that the water drops left along the outer wall of the barrel body 1 can enter the water receiving tray 3, the situation that water drops accumulate at the joint of the water receiving tray 3 and the outer wall of the barrel body 1 or leak from the gap is not easy to occur, and the using effect is better; guide 4 can guide effectively to collect water collector 3 with the water droplet, and even the water droplet drips on the outer wall of staving 1, under guide 4, also can collect water collector 3 in, and then can prevent effectively that the water droplet from dripping the condition on the floor and taking place, and inefficacy carries out the secondary to the floor and cleans for user's use is experienced better.

The water receiving tray 3 is provided with two parallel guide plates 4, the water squeezing mechanism 2 is positioned at the upper end between the two guide plates 4, the water receiving tray 3 is positioned at the lower end between the two guide plates 4, the water receiving tray 3 is clamped between the two guide plates 4, a bulge for clamping can be arranged on the guide plates 4, the mold opening forming and the demolding after forming are easier, the preparation cost is reduced, the water receiving tray 3 is provided with an inner concave matched with the bulge, the whole water receiving tray 3 is more regular, and the situation that the bulge is broken can not occur during cleaning or dropping; then the water droplet of both sides all can be guided to collect in water collector 3 for the water guide effect of baffle 4 is better, and holistic appearance is also more regular simultaneously, more accords with the aesthetic of most people, and the appearance is also more pleasing to the eye.

The handle 22 is arranged on the water pan 3, and the handle 22 is formed by arranging strip-shaped through holes on the water pan 3, so that the use reliability is ensured, the use of raw materials can be saved, and the preparation cost is reduced.

The rest of the structure is the same as the embodiment.

Example four

As shown in fig. 4-6, the wringing mechanism 2 comprises a stroking head 5 and a wringing frame 6 connected with the barrel body 1, a wringing port 7 and a wringing channel 8 are arranged on the wringing frame 6, and the wringing port 7 is positioned above the wringing channel 8 and is communicated with the wringing channel 8; the stroking head 5 is connected with a drainage channel 9 on the barrel wall of the barrel body 1 (of course, the stroking head 5 can also be connected with the wringing frame 6), and one end of the stroking head 5 is positioned in the wringing channel 8; the drainage mechanism comprises a drainage channel 9, the drainage channel 9 is arranged on the barrel wall of the barrel body 1, one end of the drainage channel 9 is communicated with the other end of the stroking head 5 (the other end of the stroking head 5 is positioned in the drainage channel 9 in the embodiment), and the other end of the drainage channel 9 is communicated with the inner cavity of the barrel body 1; the water squeezing mechanism 2 and the water discharging mechanism are simple in structure and few in parts while the using effect is guaranteed, so that the production efficiency is improved, and the cost is reduced.

The stroking head 5 comprises at least one blade 10; an extrusion roller 11 is arranged on the inner wall of the water squeezing channel 8 opposite to the stroking head 5, the extrusion roller 11 is hinged with the inner wall of the water squeezing channel 8 through a connecting rod 12, and in a natural state, one end of the connecting rod 12 connected with the extrusion roller 11 is lower than one end of the connecting rod 12 hinged with the inner wall of the water squeezing channel 8; then when the mop inserts crowded mouth of a river 7 downstream, squeeze roller 11 squeezes the mop to doctor-bar 10, and when the mop upward movement, squeeze roller 11 can use connecting rod 12 and 8 inner walls of crowded water passageway articulated departments of connecting rod 12 as the fulcrum rotation together under the effect of mop board, make the interval increase between squeeze roller 11 and the doctor-bar 10, so not only can make the crowded water effect of mop better, simultaneously the mop extract also more laborsaving, squeeze roller 11 itself can make the mop reciprocate more smoothly, use experience is better, also more humanized.

The two scraping pieces 10 are arranged up and down, and a gap is reserved between the two scraping pieces 10; the arrangement makes the mop more easily squeezed out after passing through the scraping blade 10, and the water squeezing effect is better.

The inclination angle of the wiper blade 10 positioned above is smaller than that of the wiper blade 10 positioned below; therefore, after the mop is arranged in this way, the friction force between the first scraping blade 10 and the mop can be reduced, and after a part of water is squeezed by the first scraping blade 10, the friction force between the second scraping blade 10 and the mop can also be relatively reduced, so that the resistance of the mop during squeezing can be smaller, and meanwhile, the double squeezing has a better squeezing effect on the mop.

The rest of the structure is the same as that of the embodiment.

EXAMPLE five

As shown in fig. 7 to 9, two accommodating grooves 14 are formed in the inner wall of the wringing channel 8 of the wringing frame 6, which is opposite to the scraping blade 10, and the distance between the two accommodating grooves 14 is less than or equal to the length of the scraping blade 10; one end of a connecting rod 12 is hinged in the accommodating groove 14, the other end of the connecting rod 12 is rotatably connected with the extrusion roller 11, and at least part of the extrusion roller 11 is positioned in the water extrusion channel 8; the top wall of the accommodating groove 14 limits the upward rotation of the connecting rod 12, and when the connecting rod 12 rotates upwards to a limit position, the vertical distance between the other end of the connecting rod 12 and the inner wall of the water squeezing channel 8 where the scraping blade 10 is located is smaller than the vertical distance between one end of the connecting rod 12 and the inner wall of the water squeezing channel 8 where the scraping blade 10 is located; after the arrangement, a reset mechanism is not needed, the squeezing roller 11 can reset under the action of self gravity, and meanwhile, when the mop is pressed down, the squeezing roller 11 pushes the mop to the direction of the scraping piece 10, so that the water squeezing effect is ensured, and when the mop is lifted, the squeezing roller 11 is opened again, so that the distance between the squeezing roller 11 and the scraping piece 10 is increased, the mop is lifted more labor-saving, and the use is more humanized.

The cover plate 15 is covered on the wringing frame 6; the stroking head 5 can be connected on the water squeezing frame 6, the position of the placing groove 16 is above the outer wall of the guide plate 4 arranged on the barrel body 1, the corresponding outer wall of the barrel body 1 sinks for the integral smoothness of the upper end of the water squeezing frame 6, the lower end of the water squeezing frame 6 protrudes downwards, the lower end of the protrusion is attached to the outer wall of the barrel body 1, and the drainage channel 9 is arranged at the position of the water squeezing frame 6 protruding downwards; the wringing frame 6 is provided with a placing groove 16 for placing the scraping sheet 10, the placing groove 16 is positioned at two sides of the drainage channel 9, the upper wall of the drainage channel 9 is positioned on the cover plate 15, so that the cover plate 15 is pressed to form the complete drainage channel 9; the upper end of the accommodating groove 14 is opened, and a groove 17 for accommodating the hinge shaft of the connecting rod 12 is arranged at the opening; the cover plate 15 is provided with a first pressure lever 18 and a second pressure lever 19 which respectively correspond to the placing groove 16 and the groove 17, the first pressure lever 18 limits the scraper 10 upwards, and the second pressure lever 19 limits the hinging shaft of the connecting rod 12 upwards.

The remaining structure is the same as in the fourth embodiment.

EXAMPLE six

As shown in fig. 10, the stroking head 5 is connected to the wringing frame 6, the stroking head 5 further comprises at least one wringing roller 13 (in this example, one, two or three, etc.), and the wringing roller 13 is located above the wiper 10; the rotation of the wringing roller 13 can further reduce the resistance of the mop during the initial squeezing, and the scraping blade 10 can also ensure the later squeezing effect, so that the mop can move up and down more smoothly during squeezing, and the using effect is better.

The rest of the structure is the same as that of the fifth embodiment.

EXAMPLE seven

As shown in fig. 11, a base 20 is disposed at the bottom of the tub 1, and the tub 1 is disposed obliquely; a pedal 21 for supporting the barrel body 1 and pedaling is arranged on the base 20; during the use, the user steps on footboard 21 with the foot for staving 1's stability is better, and when wasing and crowded water, staving 1 is difficult for appearing rocking or the condition of empting, can prevent the floor by staving 1's water secondary pollution effectively.

The rest of the structure is the same as that of the fifth embodiment.

The present invention has been described in detail, and the principles and embodiments of the present invention have been described herein using specific examples, which are provided only to assist in understanding the present invention and the core concepts. It should be noted that, for those skilled in the art, it is possible to make various improvements and modifications to the present invention without departing from the principle of the present invention, and those improvements and modifications also fall within the scope of the claims of the present invention.

Claims (14)

1. The utility model provides a hand-washing-free mop bucket, includes staving (1), its characterized in that: the outer wall of the barrel body (1) is provided with a water squeezing mechanism (2), and the water squeezing mechanism (2) is positioned on the outer side of the barrel body (1); the water squeezing device further comprises a water draining mechanism, wherein the water draining mechanism is communicated with the water squeezing mechanism (2) and the barrel body (1) and is used for draining water squeezed by the water squeezing mechanism (2) into the barrel body (1).

2. The hand-free mop bucket of claim 1, wherein: the vertical projection of the water squeezing mechanism (2) is not coincident with the barrel opening of the barrel body (1); the water collecting tray is characterized in that a water collecting tray (3) is arranged on the outer wall of the barrel body (1), and the water collecting tray (3) is located below the water squeezing mechanism (2) and used for receiving water drops dropping from the water squeezing mechanism (2).

3. The hands-free mop bucket of claim 2, wherein: the water pan (3) is detachably connected with the outer wall of the barrel body (1), and the water pan (3) is positioned on the outer wall of the lower end of the barrel body (1).

4. The hands-free mop bucket of claim 2, wherein: the outer wall of the barrel body (1) is provided with a guide plate (4) for guiding water drops dripped by the water squeezing mechanism (2) into the water receiving tray (3), and the guide plate (4) extends up and down along the outer wall of the barrel body (1).

5. The hands-free mop bucket of claim 4, wherein: two that baffle (4) are parallel, crowded water mechanism (2) are located the upper end between two baffle (4), and water collector (3) are located the lower extreme between two baffle (4), and joint between water collector (3) and two baffle (4).

6. The hand-free mop bucket of claim 1, wherein: the wringing mechanism (2) comprises a stroking head (5) and a wringing frame (6) connected with the barrel body (1), a wringing port (7) and a wringing channel (8) are arranged on the wringing frame (6), and the wringing port (7) is positioned above the wringing channel (8) and communicated with the wringing channel (8); the stroking head (5) is connected to the wringing frame (6) or the barrel body (1), and one end of the stroking head (5) is positioned in the wringing channel (8); the drainage mechanism comprises a drainage channel (9), one end of the drainage channel (9) is communicated with the other end of the stroking head (5), and one end of the drainage channel (9) is communicated with the inner cavity of the barrel body (1).

7. The hands-free mop bucket of claim 6, wherein: the stroking head (5) comprises at least one scraping blade (10); and an extrusion roller (11) is arranged on the inner wall of the water squeezing channel (8) opposite to the stroking head (5), the extrusion roller (11) is hinged with the inner wall of the water squeezing channel (8) through a connecting rod (12), and in a natural state, one end of the connecting rod (12) connected with the extrusion roller (11) is lower than one end of the connecting rod (12) hinged with the inner wall of the water squeezing channel (8).

8. The hands-free mop bucket of claim 7, wherein: the scraping pieces (10) are two pieces, the two scraping pieces (10) are arranged up and down, and a gap is reserved between the two scraping pieces (10).

9. The hands-free mop bucket of claim 8, wherein: the inclination angle of the scraping blade (10) positioned above is smaller than that of the scraping blade (10) positioned below.

10. The hands-free mop bucket of claim 7, wherein: the stroking head (5) further comprises at least one wringing roller (13), and the wringing roller (13) is positioned above the scraping blade (10).

11. The hands-free mop bucket of claim 7, wherein: two containing grooves (14) are formed in an inner arm, opposite to the scraping piece (10), in the water squeezing channel (8), and the distance between the two containing grooves (14) is smaller than or equal to the length of the scraping piece (10); one end of a connecting rod (12) is hinged in the accommodating groove (14), the other end of the connecting rod (12) is rotatably connected with the extrusion roller (11), and at least part of the extrusion roller (11) is positioned in the water extrusion channel (8); the top wall of the accommodating groove (14) limits the upward rotation of the connecting rod (12), and when the connecting rod (12) rotates upwards to a limit position, the vertical distance from the other end of the connecting rod (12) to the inner wall of the water squeezing channel (8) where the scraping blade (10) is located is smaller than the vertical distance from one end of the connecting rod (12) to the inner wall of the water squeezing channel (8) where the scraping blade (10) is located.

12. The hands-free mop bucket of claim 11, wherein: the scraper cleaning device is characterized by further comprising a cover plate (15) covered on the wringing frame (6), wherein a placing groove (16) for placing the scraper (10) is formed in the wringing frame (6), the upper end of the containing groove (14) is open, and a groove (17) for containing a hinge shaft of the connecting rod (12) is formed in the opening; be equipped with first depression bar (18) and second depression bar (19) that correspond with standing groove (16) and recess (17) respectively on apron (15), first depression bar (18) are upwards spacing to doctor-bar (10), and second depression bar (19) are upwards spacing to connecting rod (12) articulated shaft.

13. The hand-free mop bucket of claim 1, wherein: the bottom of staving (1) is equipped with base (20), and staving (1) slant setting, be equipped with on base (20) and be used for supporting staving (1) and be used for pedal footboard (21).

14. The hands-free mop bucket of claim 2, wherein: a handle (22) is arranged on the water receiving tray (3).

Images