CN218922488U - Mop bucket capable of cleaning and separating - Google Patents

Abstract

The utility model discloses a dirt-removing and separating mop bucket, which comprises a bucket body provided with a clean water bin, a water spraying component for spraying water to a flat mop, and a water pumping device for taking water from the clean water bin and conveying the water to the water spraying component, wherein the water pumping device is arranged on the bucket body; the water pumping device is also connected with a water outlet, and the position of the water outlet is lower than that of the water spraying component; when the water pumping device is in a working state, the water spraying component does not spray water when the flow of the water outlet is larger than a set value; when the flow of the water outlet is smaller than a set value, the water spraying component sprays water; a lifting water tank for controlling the flow of the water outlet is movably arranged in the barrel body, and the lifting water tank can move between a first position and a second position with different heights; when the lifting water tank is positioned at the first position, the flow rate of the water outlet is smaller than a set value; when the lifting water tank is positioned at the second position, the flow rate of the water outlet is larger than a set value; when the scheme is used, the flat mop only needs to move up and down in the mop wearing mouth, and the flat mop does not need to move in the horizontal direction, so that the operation is simple.

Description

Mop bucket capable of cleaning and separating

Technical Field

The utility model belongs to the technical field of daily necessities, and particularly relates to a mop bucket capable of removing dirt and separating.

Background

The Chinese patent document with the document number of CN108542323A discloses a cleaning device of a flat mop, which is provided with a cleaning port for cleaning a wiping object of a mop head of the flat mop, wherein the cleaning port is provided with a friction piece, the mop head moves back and forth relative to the cleaning port so as to enable the friction piece to clean the wiping object of the mop head, the cleaning device is also provided with a water inlet, a water pumping mechanism and a water outlet mechanism, the water pumping mechanism is communicated with the water inlet, the water outlet mechanism is communicated with the water pumping mechanism through a flow passage, the water outlet mechanism is provided with a water spraying piece corresponding to the cleaning port, water is pumped into the water pumping mechanism from the water inlet, flows out from the water pumping mechanism to the water outlet mechanism and is sprayed to the cleaning port. The utility model adopts the drawing type air pump principle, can convey the cleaning water from the barrel bottom to the upper part of the barrel body, further distributes the whole surface of the wiping object of the flat mop head, and then cooperates with the friction piece to realize the up-and-down scraping and washing of the wiping object, thereby improving the cleaning effect of the wiping object of the flat mop head.

In the process of cleaning and squeezing the flat mop, the flat mop needs to be moved left and right, namely, the cleaning and squeezing are positioned at different positions in two horizontal directions, so that the flat mop needs to be taken out of the barrel in the process of switching positions, sewage is easily carried out in the process, and the sewage flows to the ground to influence the use.

Disclosure of Invention

The technical problems to be solved by the utility model are as follows: aiming at the defects in the prior art, the cleaning and drying separation mop bucket can be cleaned and dried in one position.

The utility model is realized by adopting the following technical scheme: the utility model provides a clean water separation mop bucket, includes the staving that is equipped with the clear water storehouse, be equipped with the bung on the staving, be equipped with the mop mouth that supplies dull and stereotyped mop to penetrate in the staving on the bung, mop mouth one side is equipped with and is used for carrying out extrusion washing and/or extrusion dehydration's extruder to dull and stereotyped mop.

The mop bucket also comprises a water spraying component for spraying water to the flat mop and a water pumping device for taking water from the clean water bin and conveying the water to the water spraying component; the flat mop can drive the water pumping device to work when moving upwards and/or downwards in the mop penetrating opening.

The water pumping device is also connected with a water outlet, and when the water pumping device is in a working state, the water spraying component does not spray water when the flow rate of the water outlet is greater than a set value; when the flow rate of the water outlet is smaller than the set value, the water spraying component sprays water.

The lifting water tank for controlling the flow of the water outlet is movably arranged in the barrel body, and the lifting water tank can move between a first position and a second position with different heights.

When the lifting water tank is positioned at the first position, the flow rate of the water outlet is smaller than a set value; when the lifting water tank is positioned at the second position, the flow rate of the water outlet is larger than a set value.

The water pumping device is also connected with a water injection port, and when the water pumping device is in a working state, the water injection port injects water into the lifting water tank.

The lifting water tank in the initial state is positioned at the first position by means of the reset piece, and when the water in the lifting water tank exceeds a set value, the lifting water tank moves to the second position.

When the scheme is used, the flat mop only needs to move up and down in the mop wearing mouth, and the flat mop does not need to move in the horizontal direction, so that the operation is simple.

As a preferable scheme: the first position and the second position are respectively specific height positions.

The resetting piece is a first magnet; the lifting water tank is internally provided with a second magnet which is attracted with the first magnet.

Or alternatively, the process may be performed,

the first position and the second position are respectively a section of height section.

The reset piece is a spring which is arranged in the barrel body and drives the lifting water tank to move to the first position.

As a preferable scheme: the water filling port is an independent water outlet facing the lifting water tank, or the water discharging port is the water filling port at the same time.

As a preferable scheme: a water passing channel for water supply outflow is formed in the lifting water tank; when the water pumping device works, the water flowing into the lifting water tank from the water injection port is larger than the water flowing out from the water passing channel.

The water passing channel faces to the clean water bin.

The water in the lifting water tank flows back into the clean water bin again, so that the waste of clean water is avoided.

As a preferable scheme: a driving wheel in transmission connection with the water pumping device is rotationally connected in the barrel body; when the flat mop moves in the cleaning socket, the flat mop drives the driving wheel to rotate.

As a preferable scheme: the driving wheel is a driving gear meshed with the flat mop for driving; the mop is provided with a transmission rack meshed with the transmission gear.

Or alternatively, the process may be performed,

the driving wheel is a friction roller; the mop drives the friction roller to rotate through friction force.

The friction roller is made of rubber materials or the outer wall of the friction roller is fixedly connected with a rubber layer.

As a preferable scheme: the water pumping device is a volumetric pump. Alternatively, the water pumping device is a vane pump.

As a preferable scheme: an indicator is movably arranged in the barrel body; the indicator is provided with a first mark and a second mark; the barrel cover is provided with a display area. When the water spraying component sprays water, the first mark is positioned in the display area; the second sign is located in the display area when the water spraying component is not spraying water.

The user may determine the current status of the flat mop by observing the first and second markers located within the display area, thereby determining the time for the flat mop to wring.

As a preferable scheme: the indicator is driven by the lifting water tank.

As a preferable scheme: the water pumping device comprises two groups of pump bodies; two driving wheels are rotatably connected in the barrel body; each driving wheel is in transmission connection with one pump body respectively.

As a preferable scheme: the clean water bin is detachably connected in the barrel body.

Compared with the prior art, the utility model has the beneficial effects that: when the lifting water tank is used, clean water is added into the clean water bin, and the lifting water tank is located at the first position.

When the flat mop is cleaned, the flat mop is inserted into the mop penetrating opening to enter the cleaning area, the flat mop is moved up and down in a reciprocating mode, the mop plate drives the driving wheel to rotate in a reciprocating mode, the piston body moves in a reciprocating mode, water in the clean water bin is pumped into the water outlet pipe, most of water flows onto the wiping object from the water spraying part, the wiping object is cleaned, and a small amount of water flows into the lifting water tank through the water injection opening.

Along with the water in the lifting water tank increases, the lifting water tank gradually moves downwards, the indicating piece gradually rotates, after the water in the lifting water tank is larger than a set value, the lifting water tank moves to a second position, at the moment, the lifting water tank is not opposite to the water outlet, the water outlet is used for flowing out water, the water spraying part is not used for flowing out water, at the moment, the second mark is located in the display area, a user knows that the flat mop moving up and down at the moment is used for squeezing the wiping object after checking the second mark, then the wiping object is squeezed out after the second mark reciprocates for several times, and the flat mop is taken out from the barrel body.

In the process, the squeezer squeezes the wiping articles, and the squeezed sewage flows into the sewage area through the squeezer.

After the flat mop is taken out, the water filling port is free from water outflow, at the moment, water in the lifting water tank flows into the clean water bin through the water passage, and the water in the lifting water tank is gradually reduced, so that the spring pushes the lifting water tank to the first position from the second position, and the water tank can be used next time.

When the scheme is used, the flat mop only needs to move up and down in the mop wearing mouth, and the flat mop does not need to move in the horizontal direction, so that the operation is simple.

Drawings

Fig. 1 is a schematic structural view of the present utility model.

Fig. 2 is a schematic exploded view of the present utility model.

Fig. 3 is a schematic exploded view of the water pumping device of the present utility model.

Fig. 4 is a schematic view of the structure of the lifting water tank of the present utility model.

Fig. 5 is a schematic structural view of the indicator of the present utility model.

Fig. 6 is a schematic view of the structure of the lifting water tank in the first position.

Fig. 7 is a schematic view of the structure of the lifting water tank in the second position.

FIG. 8 is a schematic view of the lifting flume of the present utility model moving between a first position and a second position.

Fig. 9 is a schematic view of the lifting water tank in the first and second positions in embodiment 2 of the present utility model.

1. A tub body; 10. a handle; 2. a barrel cover; 21. a mop penetrating opening; 22. a display area; 23. a mounting frame; 31. a water spraying part; 32. an extruder; 33. a clean water bin; 4. a water pumping device; 41. a piston cylinder; 42. a piston body; 43. a connecting rod; 44. a driven plate; 45. a driving wheel; 46. a lower end cap; 47. a steel ball; 51. a lifting water tank; 511. a water passing channel; 52. a water injection pipe; 521. a water filling port; 53. a drain pipe; 531. a water outlet; 54. a spring; 55. a lower supporting frame; 551. indicating the wearing mouth; 56. a first magnet; 61. an indicator; 611. a first identifier; 612. a second identifier; 613. an eccentric column; 62. an indication link; 621. pressing down a rod; 7. a flat mop; A. a first position; B. a second position.

Detailed Description

Example 1

According to fig. 1 to 8, the cleaning and separating mop bucket according to the present embodiment includes a bucket body 1 provided with a clean water bin 33, a bucket cover 2 is provided on the bucket body, a mop penetrating opening 21 for penetrating a flat mop into the bucket body is formed on the bucket cover, and a squeezer 32 for squeezing, cleaning and squeezing and dewatering the flat mop is provided on one side of the mop penetrating opening; the lower end of the barrel cover is fixedly connected with a mounting frame 23; the extruder is mounted on the mounting frame.

The mop bucket also comprises a water spraying component 31 which is fixedly connected to the mounting frame and used for spraying water to the flat mop, and a water pumping device 4 which is used for taking water from the clean water bin and delivering the water to the water spraying component; the flat mop can drive the water pumping device to work when moving upwards and downwards in the mop penetrating opening.

The water spraying component comprises a water spraying pipe which is fixedly connected to the mounting frame and is close to the mop through hole, and a connecting pipe which is communicated with the water spraying pipe and the water pumping device. The water spraying pipe is uniformly provided with water spraying ports towards the position of the mop penetrating port.

The water pumping device is also connected with a water outlet 531, and the mounting frame is fixedly connected with a water outlet 53; the water outlet is formed on the side wall of the water drain pipe; the position of the water outlet is lower than the water spraying component; when the water pumping device is in a working state, the water spraying component does not spray water when the flow of the water outlet is larger than a set value, and only the squeezer squeezes the flat mop; when the flow of the water outlet is smaller than the set value, the water spraying component sprays water, and at the moment, the flat mop is soaked by the water sprayed by the water spraying component, so that the flat mop is cleaned.

In other embodiments, a section of the connecting pipe is higher than the water outlet, so that the water pumped by the water pumping device can flow out of the water outlet preferentially, and therefore, when the water outlet flow is large, the water spraying pipe does not flow out of the water.

Or, the water spraying component is internally provided with a flow blocking piece for blocking the water flow, the flow blocking piece is a one-way valve or a rubber sheet, and when the water outlet is closed, the water can break through the restriction of the flow blocking piece and be sprayed out of the water spraying pipe; when the water outlet is not closed, water preferentially flows out of the water outlet and does not flow out of the water spray pipe.

A lifting water tank 51 for controlling the flow of the water outlet is movably arranged in the barrel body, and the lifting water tank is connected to the outer wall of the drain pipe in a sliding manner; the lifting water tank can move between a first position A and a second position B with different heights.

When the lifting water tank is positioned at the first position, the side wall of the lifting water tank plugs the water outlet, and the flow rate of the water outlet is smaller than a set value; when the lifting water tank is positioned at the second position, the lifting water tank moves to the position below the water outlet, and the flow rate of the water outlet is larger than a set value.

The water pumping device is also connected with a water injection port 521, and the mounting frame is fixedly connected with a water injection pipe 52; the water injection port is formed on the water injection pipe and faces the lifting water tank; when the water pumping device is in a working state, the water injection port injects water into the lifting water tank.

The lifting water tank in the initial state is positioned at the first position by means of the reset piece, and when the water in the lifting water tank exceeds a set value, the lifting water tank moves to the second position. When the scheme is used, the flat mop only needs to move up and down in the mop wearing mouth, and the flat mop does not need to move in the horizontal direction, so that the operation is simple.

The first position and the second position are respectively a section of height interval (as shown in fig. 8). The reset element is a spring 54 which is arranged in the barrel body and drives the lifting water tank to move to the first position. The lower end of the drain pipe is connected with a lower supporting frame 55; the spring is positioned between the lower support frame and the lifting water tank. The water filling port is an independent water outlet facing the lifting water tank. A water passing channel for water to flow out is formed in the bottom of the lifting water tank; when the water pumping device works, water flowing into the lifting water tank from the water injection port is larger than water flowing out from the water passing channel, so that water in the lifting water tank is gradually increased. The water passing channel faces to the clean water bin. The water in the lifting water tank flows back into the clean water bin again, so that the waste of clean water is avoided. When the lifting water tank is positioned at the second position, the flat mop moves up and down to squeeze the flat mop, and at the moment, water flowing out of the water outlet also flows into the lifting water tank, so that the lifting water tank is ensured not to move to the first position in the squeezing process.

A driving wheel 45 in transmission connection with the water pumping device is rotatably connected in the barrel body; when the flat mop moves in the cleaning socket, the flat mop drives the driving wheel to rotate. The driving wheel is rotatably connected to the mounting frame and at least partially positioned in the mop through hole. The driving wheel is a driving gear meshed with the flat mop for driving; the mop is provided with a transmission rack meshed with the transmission gear. Or the driving wheel is a friction roller; the mop drives the friction roller to rotate through friction force. The friction roller is made of rubber materials or the outer wall of the friction roller is fixedly connected with a rubber layer. The flat mop comprises a mop rod, a mop plate movably connected to the lower end of the mop rod, and a wiper arranged on one side of the mop plate; the mop plate is contacted with the friction roller and drives the friction roller to rotate. The water pumping device is a volumetric pump; alternatively, the water pumping device is a vane pump.

The positive displacement pump comprises a piston cylinder 41 fixedly connected in the clean water bin, a piston body 42 slidingly connected in the piston cylinder, a connecting rod 43 rotatably connected on the piston body, and a driven disc 44 rotatably connected on the mounting frame and connected with the driving wheel through a gear transmission; and a connecting column rotationally connected with the connecting rod is formed at the eccentric position of the driven disc.

The lower end of the piston cylinder is connected with a lower end cover 46; a piston water inlet is formed on the lower end cover; a steel ball 47 for sealing the water inlet of the piston is movably arranged in the lower end cover, and the lower end cover and the steel ball form a water inlet one-way valve.

The water outlet end of the piston cylinder is fixedly connected with a water outlet pipe fixedly connected with the mounting frame; a steel ball 47 is arranged in the water outlet pipe, and the water outlet pipe and the steel ball form a water outlet one-way valve. A plurality of connecting channels which are mutually communicated are formed on the mounting frame; the water outlet pipe is respectively communicated with the water injection pipe, the water outlet pipe and the water spraying component through the connecting channels.

An indicator 61 is rotatably connected in the barrel body; the indicating piece is rotationally connected to the mounting frame; the indicator is formed with a first mark 611 and a second mark 612; a display area is formed on the barrel cover;

when the water spraying component sprays water, the first mark is positioned in the display area; the second sign is located in the display area when the water spraying component is not spraying water. The user may determine the current status of the flat mop by observing the first and second markers located within the display area, thereby determining the time for the flat mop to wring. The indicator is driven by the lifting water tank. An eccentric column 613 is formed at the eccentric position of the indicator; an indication connecting rod 62 is rotatably connected to the eccentric column; the upper end of the lower support is provided with an indication through hole 551 through which the common indication connecting rod passes.

The side wall of the indication connecting rod is positioned right below the lifting water tank and is provided with a pressing rod 621; a counterweight is fixedly connected to one side, away from the eccentric column, of the indicating piece; when the lifting water tank is positioned at the first position, the first mark is positioned in the display area under the gravity action of the counterweight by the indicating piece; when the lifting water tank moves to the second position, the lifting water tank is propped against the lower pressure rod and moves downwards by the electric lower pressure rod, so that the indicating piece is driven to rotate, and the second mark moves to the display area.

The clean water bin is detachably connected in the barrel body, so that the clean water bin is convenient to detach and clean.

The barrel body comprises a cleaning area positioned right below the mop penetrating opening and a sewage area positioned below the squeezer; the clean water bin is arranged in the cleaning area.

The water pumping device comprises two groups of pump bodies, namely positive displacement pumps; two driving wheels are rotatably connected in the barrel body; a driving wheel is connected with a pump body in a driving way. The water outlet ends of the two groups of pump bodies are communicated.

Two pump bodies are not synchronous in operation, namely one pump body is pumping, and another pump body is probably spraying water, if only one pump body, only half of the time is spraying water, so compare in one pump body, two pump bodies can reduce the time that the whole water pumping device does not spray water for the whole water pumping device sprays water more smoothly.

Through setting up two pump bodies, under the same circumstances of water spray volume, the volume of pump body is littleer, and the moment of drive pump body work is littleer, so drive wheel pivoted power through frictional force littleer, reduces the trend that drive wheel and dull and stereotyped mop slipped.

When the lifting water tank is used, clean water is added into the clean water bin, and the lifting water tank is located at the first position. When the flat mop is cleaned, the flat mop is inserted into the mop penetrating opening to enter the cleaning area, the flat mop is moved up and down in a reciprocating mode, the mop plate drives the driving wheel to rotate in a reciprocating mode, the piston body moves in a reciprocating mode, water in the clean water bin is pumped into the water outlet pipe, most of water flows onto the wiping object from the water spraying part, the wiping object is cleaned, and a small amount of water flows into the lifting water tank through the water injection opening. Along with the water in the lifting water tank increases, the lifting water tank gradually moves downwards, the indicating piece gradually rotates, after the water in the lifting water tank is larger than a set value, the lifting water tank moves to a second position, at the moment, the lifting water tank is not opposite to the water outlet, the water outlet is used for flowing out water, the water spraying part is not used for flowing out water, at the moment, the second mark is located in the display area, a user knows that the flat mop moving up and down at the moment is used for squeezing the wiping object after checking the second mark, then the wiping object is squeezed out after the second mark reciprocates for several times, and the flat mop is taken out from the barrel body.

In the process, the squeezer squeezes the wiping articles, and the squeezed sewage flows into the sewage area through the squeezer.

After the flat mop is taken out, the water filling port is free from water outflow, at the moment, water in the lifting water tank flows into the clean water bin through the water passage, and the water in the lifting water tank is gradually reduced, so that the spring pushes the lifting water tank to the first position from the second position, and the water tank can be used next time.

Example 2

As shown in fig. 9, this embodiment is different from embodiment 1 in that: the first position and the second position are respectively specific height positions; the reset element is a first magnet 56; a second magnet which is attracted with the first magnet is arranged in the lifting water tank;

when the lifting water tank is positioned at the first position, the first magnet and the second magnet are mutually attracted.

When the water in the lifting water tank reaches a set value, the whole gravity of the lifting water tank is larger than the magnetic force between the first magnet and the second magnet, so that the lifting water tank can move downwards instantly, water flows out from the water outlet, and water cannot flow out from the water spraying component.

Example 3

This embodiment differs from embodiment 1 in that: the water outlet is the water filling port at the same time.

The water outlet is in a longitudinal strip shape, when the lifting water tank is positioned at the first position, the lifting water tank covers most of the area of the water outlet, at the moment, only a small part of the area of the water outlet is used for discharging water, the flow is smaller than a set value, and the water spraying component is used for spraying water.

When the water in the lifting water tank is gradually increased, the lifting water tank moves downwards, so that the water outlet area of the water outlet is increased, the flow is larger than a set value, and the water spraying component does not spray water.

Claims (10)

1. The mop bucket comprises a bucket body provided with a clean water bin, wherein a bucket cover is arranged on the bucket body, a mop penetrating opening for penetrating a flat mop into the bucket body is formed in the bucket cover, and an extruder for extrusion cleaning and/or extrusion dehydration of the flat mop is arranged on one side of the mop penetrating opening; the method is characterized in that: the water pump device is used for taking water from the clean water bin and conveying the water to the water spraying component; the flat mop can drive the water pumping device to work when moving upwards and/or downwards in the mop penetrating opening; the water pumping device is also connected with a water outlet, and when the water pumping device is in a working state, the water spraying component does not spray water when the flow rate of the water outlet is greater than a set value; when the flow of the water outlet is smaller than a set value, the water spraying component sprays water; a lifting water tank for controlling the flow of the water outlet is movably arranged in the barrel body, and the lifting water tank can move between a first position and a second position with different heights; when the lifting water tank is positioned at the first position, the flow rate of the water outlet is smaller than a set value; when the lifting water tank is positioned at the second position, the flow rate of the water outlet is larger than a set value; the water pumping device is also connected with a water injection port, and when the water pumping device is in a working state, the water injection port injects water into the lifting water tank; the lifting water tank in the initial state is positioned at the first position by means of the reset piece, and when the water in the lifting water tank exceeds a set value, the lifting water tank moves to the second position.

2. A decontaminating and separating mop bucket as defined in claim 1, wherein: the first position and the second position are respectively specific height positions; the resetting piece is a first magnet; a second magnet which is attracted with the first magnet is arranged in the lifting water tank; or the first position and the second position are respectively a section of height section; the reset piece is a spring which is arranged in the barrel body and drives the lifting water tank to move to the first position.

3. A decontaminating and separating mop bucket as defined in claim 1, wherein: the water filling port is an independent water outlet facing the lifting water tank, or the water discharging port is the water filling port at the same time.

4. A decontaminating and separating mop bucket as defined in claim 1, wherein: a water passing channel for water supply outflow is formed in the lifting water tank; when the water pumping device works, the water flowing into the lifting water tank from the water injection port is larger than the water flowing out from the water passing channel.

5. A decontaminating and separating mop bucket as defined in claim 1, wherein: a driving wheel in transmission connection with the water pumping device is rotationally connected in the barrel body; when the flat mop moves in the cleaning socket, the flat mop drives the driving wheel to rotate.

6. A decontaminating and separating mop bucket as defined in claim 5, wherein: the driving wheel is a driving gear meshed with the flat mop for driving; or the driving wheel is a friction roller, and the mop drives the friction roller to rotate; the friction roller is made of rubber materials or the outer wall of the friction roller is fixedly connected with a rubber layer.

7. A decontaminating and separating mop bucket as defined in claim 1, wherein: the water pumping device is a volumetric pump; alternatively, the water pumping device is a vane pump.

8. A decontaminating and separating mop bucket as defined in claim 1, wherein: an indicator is movably arranged in the barrel body; the indicator is provided with a first mark and a second mark; a display area is arranged on the barrel cover; when the water spraying component sprays water, the first mark is positioned in the display area; the second sign is located in the display area when the water spraying component is not spraying water.

9. A decontaminating and separating mop bucket as defined in claim 8, wherein: the indicator is driven by the lifting water tank.

10. A decontaminating and separating mop bucket as defined in claim 5, wherein: the water pumping device comprises two groups of pump bodies; two driving wheels are rotatably connected in the barrel body; each driving wheel is in transmission connection with one pump body respectively.

Images