CN216823322U - Clean external member with clean mouthful of list - Google Patents

Abstract

The utility model discloses a cleaning external member with a single cleaning opening, which comprises an outer barrel and a water pumping mechanism; the water pumping mechanism is driven by a flat mop positioned in the cleaning port; a large water storage area and a small water storage area with the volume smaller than that of the large water storage area are arranged in the outer barrel; the large water storage area is communicated with the small water storage area through a through hole; the water inlet end of the water pumping mechanism is communicated with the small water storage area; the water pumping mechanism is provided with two water outlet ends, the first water outlet end is communicated with the water outlet, and the second water outlet end is not communicated with the water outlet and the small water storage area; the horizontal height of the second water outlet end is lower than that of the first water outlet end; the water inlet quantity of the water pumping mechanism in the working state is larger than the flow quantity of the through hole in the same time; a moving part which moves along with the change of the liquid level height in the small water storage area is movably arranged in the small water storage area; the movable piece is provided with a closing piece which can block or prevent the second water outlet end from discharging water; the user only needs to reciprocate the mop, all is located same position when wasing and wringing, need not other operations, easy operation.

Description

Clean external member with clean mouthful of list

Technical Field

The utility model belongs to the technical field of cleaning products, concretely relates to clean external member with single clean mouth.

Background

Chinese patent document No. CN 108652542 a discloses a vertical washing and dewatering device for a flat mop and a mop bucket having the same, which includes a rotating frame, a fixing base, a washing opening and a friction member, wherein the mop head moves back and forth relative to the washing opening to enable the friction member to clean the wiping material on the mop head, the rotating frame can be driven to rotate around a longitudinal axis, the vertical washing and dewatering device is further 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 channel, the water outlet mechanism is provided with a water spraying member corresponding to the washing opening, water is pumped into the water pumping mechanism from the water inlet, and then flows out to the water outlet mechanism through the water pumping mechanism and is sprayed to the washing opening. When the cleaning device is used for cleaning, a drawing type air pump principle is adopted, so that the cleaning water can be conveyed to the upper part of the barrel body from the barrel bottom, the whole surface of the wiping object is further covered, and the cleaning device is matched with the friction piece to realize the up-and-down scraping and cleaning of the wiping object; when in dehydration, the mop rod moves up and down to drive the mop head and the rotating frame to rotate synchronously, and the cleaning materials on the flat mop head are rotated and centrifugally dehydrated.

In the above-mentioned patent, when washing and wringing function switch, need the manual extra operation that carries on of user, increased the use step for user's operation is inconvenient.

SUMMERY OF THE UTILITY MODEL

The utility model discloses the technical problem that will solve is: aiming at the defects stored in the prior art, the cleaning kit with the single cleaning opening is provided, and the cleaning and the squeezing can be completed through only one action.

In order to realize the purpose of the utility model, the following technical scheme is adopted to realize: a cleaning kit with a single cleaning opening comprises a flat mop and a mop bucket for cleaning the flat mop; the mop bucket comprises an outer bucket, a cover body arranged on the outer bucket and a water pumping mechanism which is arranged on the outer bucket and used for pumping water to the flat mop; the cover body is provided with a cleaning opening for the flat mop to pass through; a water outlet is formed in one side of the cleaning opening in the outer barrel;

the water pumping mechanism is driven by a flat mop positioned in the cleaning port;

a large water storage area and a small water storage area with the volume smaller than that of the large water storage area are arranged in the outer barrel; the large water storage area is communicated with the small water storage area through a through hole;

the water inlet end of the water pumping mechanism is communicated with the small water storage area; the water pumping mechanism is provided with two water outlet ends, the first water outlet end is communicated with the water outlet, and the second water outlet end is not communicated with the water outlet and the small water storage area;

the liquid level in the small water storage area is reduced under the working state of the water pumping mechanism;

a moving part which moves along with the change of the liquid level height in the small water storage area is movably arranged in the small water storage area; the movable piece is provided with a closing piece which can block or prevent the second water outlet end from discharging water;

when the gravity center of the movable member is higher than the set position, the closing member blocks or prevents the second water outlet end from discharging water, part or all of the water entering from the water inlet end of the water pumping mechanism flows out through the water outlet, and the flat mop is in a cleaning state at the moment;

when the gravity center of the movable member is lower than the set position, the closing member does not block or prevent the second water outlet end from discharging water, water entering from the water inlet end of the water pumping mechanism does not flow out from the water outlet or water flowing out from the water outlet does not contact with the flat mop, and the flat mop is in a squeezing state at the moment.

As a preferable scheme: the water flowing out of the second water outlet end flows into the large water storage area.

As a preferable scheme: the height of the second water outlet end is higher than the height of the highest liquid level of the large water storage area.

As a preferable scheme: the moving part is a floater which is connected in the small water storage area in a sliding mode.

As a preferable scheme: the water pumping mechanism comprises a piston cylinder and a piston body connected in the piston cylinder in a sliding manner; the piston body is connected with the flat mop positioned at the cleaning opening in a transmission manner.

A piston cavity is formed between the piston cylinder and the piston body; the water pumping mechanism also comprises a water inlet valve and a water outlet valve which are communicated with the piston cavity in a one-way manner; the conducting directions of the water inlet valve and the water outlet valve are opposite.

As a preferable scheme: a water storage barrel is arranged in the outer barrel; the big water storage area is arranged inside the water storage barrel, and the small water storage area is arranged at the bottom in the water storage barrel.

As a preferable scheme: the water pumping mechanism is arranged in the water storage barrel; and the water inlet end of the water pumping mechanism extends to the position of the small water storage area close to the inner bottom.

As a preferable scheme: a containing groove is formed at the bottom in the small water storage area; and the water inlet end of the water pumping mechanism is positioned in the containing groove.

As a preferable scheme: an extruder capable of extruding the flat mop is arranged below the water outlet in the outer barrel.

Compared with the prior art, the beneficial effects of the utility model are that: when the mop head is cleaned, clear water is added into the water storage barrel through the clear water port, at the moment, water in the large water storage area gradually flows into the small water storage area through the through hole, the floater gradually rises, after the small water storage area is filled with water, the floater also moves to the upper limit position, and at the moment, the sealing piece is opposite to the second water outlet end.

Then the mop head is inserted into the cleaning opening and moves up and down, the mop head drives the piston body to reciprocate up and down, the water pumping mechanism pumps out water in the small water storage area, and most of water enters the water outlet groove and flows onto the cleaning cloth from the water outlet because the water yield of the second water outlet end is low at the moment, so that the cleaning cloth is cleaned.

When the floater descends until the sealing piece is not opposite to the second water outlet end, the water pumped by the water pumping mechanism flows back to the large water storage area from the second water outlet end, and the cleaning cloth is cleaned at the moment.

And then the mop head moves up and down, water does not flow out from the water outlet, only the squeezer squeezes the cleaning cloth, water in the cleaning part is squeezed out, and the cleaning cloth is squeezed to be dry.

After repeated several times, the mop head is taken out from the cleaning port, and the small water storage area is gradually filled with water in the large water storage area through the through hole for next use. When the liquid level is pressed against the sealing piece to be separated from the range of the second water outlet end, all or most of the water pumped by the water pumping mechanism flows out from the second water outlet end, and at the moment, the flat mop is not soaked any more, so that the flat mop is squeezed to be dry.

In the process, a user only needs to move the mop up and down, and the mop is located at the same position when being cleaned and squeezed, so that other operations are not needed, and the operation is simple.

Drawings

Fig. 1 is a schematic structural diagram of the present invention.

Fig. 2 is an exploded schematic view of the cleaning barrel of the present invention.

Fig. 3 is a schematic sectional view of the water storage barrel of the present invention.

Fig. 4 is an exploded schematic view of the water pumping mechanism of the present invention.

Fig. 5 is a schematic sectional structure diagram of the present invention.

Fig. 6 is a schematic view of the closure of the present invention aligned with the second outlet end.

Fig. 7 is a schematic view of the closure of the present invention not aligned with the second outlet end.

1. A flat mop; 11. a mop head; 111. a rack; 12. a mop rod; 2. an outer tub; 21. a sewage area; 22. a cleaning zone; 3. a cover body; 31. cleaning the opening; 32. a water cleaning port; 4. a water pumping mechanism; 41. a piston cylinder; 42. a piston body; 43. a connecting plate; 44. a turntable; 441. an eccentric column; 45. a transmission gear; 46. a water pipe; 461. a second water outlet end; 462. a first water outlet end; 5. an extruder; 6. a water storage barrel; 61. a large water storage area; 62. a small water storage area; 63. sealing the cover; 631. a through hole; 632. a water inlet pipe; 64. a containing groove; 65. a water outlet groove; 651. a water outlet; 66. a rotating seat; 7. a float; 71. a closure; 72. a connecting rod.

Detailed Description

Referring to fig. 1 to 7, a cleaning kit with a single cleaning opening according to the present embodiment includes a flat mop 1 and a mop bucket for cleaning the flat mop; the mop bucket comprises an outer bucket 2, a cover body 3 arranged at the upper part of the outer bucket, and a water pumping mechanism 4 which is arranged in the outer bucket and used for pumping water to the flat mop; a cleaning opening 31 for the flat mop to pass through is formed on the cover body; a water outlet 651 is arranged at one side of the cleaning opening in the outer barrel.

The flat mop comprises a mop head 11, a mop rod 12 connected to one side of the mop head in a rotating mode, and cleaning cloth installed at one end, far away from the mop rod, of the mop head.

The water pumping mechanism is driven by a flat mop positioned in the cleaning opening.

A large water storage area 61 and a small water storage area 62 with the volume smaller than that of the large water storage area are arranged in the outer barrel; the big water storage area is communicated with the small water storage area through a through hole 631.

The water inlet end of the water pumping mechanism is communicated with the small water storage area; the water pumping mechanism has two water outlet ends, the first water outlet end 462 is communicated with the water outlet, and the second water outlet end 461 is not communicated with the water outlet and the small water storage area.

The level of the second water outlet end is lower than that of the first water outlet end.

The water inlet quantity of the water pumping mechanism in the working state is larger than the flow of the through hole in the same time.

A moving part which moves along with the change of the liquid level height in the small water storage area is movably arranged in the small water storage area; the movable member is provided with a closing member 71 which can obstruct or stop the water from flowing out of the second water outlet end.

When the gravity center of the movable member is higher than the set position, the closing member blocks or prevents the second water outlet end from discharging water, and part or all of the water entering from the water inlet end of the water pumping mechanism flows out through the water outlet.

When the gravity center of the movable member is lower than the set position, the closing member does not block or prevent the second water outlet end from discharging water, and water entering from the water inlet end of the water pumping mechanism does not flow out from the water outlet or does not contact with the flat mop.

When the liquid level is pressed against the sealing piece to be separated from the range of the second water outlet end, all or most of the water pumped by the water pumping mechanism flows out from the second water outlet end, and at the moment, the flat mop is not soaked any more, so that the flat mop is squeezed to be dry.

In the process, a user only needs to move the mop up and down, and the mop is located at the same position when being cleaned and squeezed, so that other operations are not needed, and the operation is simple.

The water flowing out of the second water outlet end flows into the large water storage area.

The water flowing out of the second water outlet end flows back to the large water storage area, so that the waste of the water can be reduced.

The height of the second water outlet end is higher than that of the highest liquid level of the large water storage area; so that the water in the large water storage area can not block the water flowing out from the second water outlet end from entering the large water storage area.

The movable part is a floater 7 which is connected in the small water storage area in a sliding way; a connecting rod 72 is formed at the upper end of the floater; the closing piece is fixedly connected to the upper part of the connecting rod.

A water storage barrel is arranged in the outer barrel; the big water storage area is arranged inside the water storage barrel, and the small water storage area is arranged at the bottom in the water storage barrel.

The upper end of the small water storage area is fixedly connected with a sealing cover 63 for separating the large water storage area from the small water storage area; the through hole is formed at the upper end of the sealing cover; the connecting rod penetrates through the through hole and extends into the large water storage area; and a gap is formed between the connecting rod and the through hole.

The water pumping mechanism is arranged in the water storage barrel; and the water inlet end of the water pumping mechanism extends to the position of the small water storage area close to the inner bottom.

The water pumping mechanism comprises a piston cylinder 41 and a piston body 42 connected in the piston cylinder in a sliding manner; the piston body is connected with the flat mop positioned at the cleaning opening in a transmission manner.

A piston cavity is formed between the piston cylinder and the piston body; the water pumping mechanism also comprises a water inlet valve and a water outlet valve which are communicated with the piston cavity in a one-way manner; the conducting directions of the water inlet valve and the water outlet valve are opposite.

A water inlet pipe 632 extending towards the interior of the small water storage area is formed at the lower end of the sealing cover; the piston body is communicated with the water inlet pipe in a sealing way; the water inlet of the water inlet pipe is the water inlet end of the water pumping mechanism.

The water inlet valve is a steel ball which is positioned in the water inlet pipe and can be in sealed abutment with the water inlet, and the steel ball seals the water inlet through the self gravity, so that the assembly is convenient.

A water pipe 46 communicated with the piston cavity is formed at one side of the piston cylinder; the inner wall of the water through pipe is provided with a water through pipe water outlet; the water outlet valve is a steel ball which can be in sealing and abutting contact with the water outlet of the water through pipe.

The second water outlet end is formed at the upper part of the side wall of the water through pipe; the closing piece is sleeved on the outer wall of the water service pipe in a sliding mode.

The closing piece is connected with the water pipe in a sealing and sliding mode, and when the closing piece is aligned with the second water outlet end, the closing piece prevents the second water outlet end from discharging water.

Or a gap is formed between the closing piece and the water pipe, when the closing piece is aligned with the second water outlet end, the closing piece blocks the water outlet of the second water outlet end, only a small amount of water at the second water outlet end overflows from the gap, and most of the water flows out from the first water outlet end; because of the gap, the friction between the closing piece and the water pipe is small, and the closing piece can move up and down conveniently.

A containing groove is formed at the bottom in the small water storage area; the end of intaking of pumping mechanism is located and holds the inslot, and then makes pumping mechanism can take most water out in the district of little water storage.

A rack 111 which is longitudinally arranged is formed on one side of the mop head; a transmission gear 45 which can be meshed with the rack in a transmission way is rotationally connected in the outer barrel; a turntable 44 coaxially and fixedly connected with the transmission gear is rotatably connected in the large water storage area; an eccentric column 441 is formed at the eccentric position on the turntable; the eccentric column is rotatably connected with a connecting plate 43 with the other end rotatably connected with the piston body.

The upper part of the water storage barrel is provided with a rotating seat 66 which is respectively connected with the transmission gear and the turntable in a rotating way.

A water outlet groove 65 is formed at the upper part of the water storage barrel close to the cleaning opening; the water outlet is formed at one end of the water outlet groove close to the cleaning opening. The first water outlet end is communicated with the water outlet groove through a pipeline.

An extruder 5 capable of extruding the flat mop is arranged below the water outlet in the outer barrel; the squeezer is fixedly connected to the lower end of the water outlet groove.

A clear water port 32 for water injection is formed at the upper end of the cover body above the water storage barrel.

A sewage area 21 and a cleaning area 22 are formed in the outer barrel; the mop head inserted into the outer barrel through the cleaning opening is positioned in the cleaning area; the sewage area is positioned right below one side of the squeezer away from the cleaning port; the water storage bucket is installed on the upper portion of the sewage area.

When the mop head is cleaned, clear water is added into the water storage barrel through the clear water port, at the moment, water in the large water storage area gradually flows into the small water storage area through the through hole, the floater gradually rises, after the small water storage area is filled with water, the floater also moves to the upper limit position, and at the moment, the sealing piece is opposite to the second water outlet end.

Then the mop head is inserted into the cleaning opening and moves up and down, the mop head drives the piston body to reciprocate up and down, the water pumping mechanism pumps out water in the small water storage area, and most of water enters the water outlet groove and flows onto the cleaning cloth from the water outlet because the water yield of the second water outlet end is low at the moment, so that the cleaning cloth is cleaned.

When the floater descends until the sealing piece is not opposite to the second water outlet end, the water pumped by the water pumping mechanism flows back to the large water storage area from the second water outlet end, and the cleaning cloth is cleaned at the moment.

And then the mop head moves up and down, water does not flow out from the water outlet, only the squeezer squeezes the cleaning cloth, water in the cleaning part is squeezed out, and the cleaning cloth is squeezed to be dry.

After repeated several times, the mop head is taken out from the cleaning port, and the small water storage area is gradually filled with water in the large water storage area through the through hole for next use.

Claims (9)

1. A cleaning kit with a single cleaning opening comprises a flat mop and a mop bucket for cleaning the flat mop; the mop bucket comprises an outer bucket, a cover body arranged on the outer bucket and a water pumping mechanism which is arranged on the outer bucket and used for pumping water to the flat mop; the cover body is provided with a cleaning port for the flat mop to pass through; a water outlet is formed in one side of the cleaning opening in the outer barrel; the method is characterized in that: the water pumping mechanism is driven by a flat mop positioned in the cleaning port; a large water storage area and a small water storage area with the volume smaller than that of the large water storage area are arranged in the outer barrel; the large water storage area is communicated with the small water storage area through a through hole; the water inlet end of the water pumping mechanism is communicated with the small water storage area; the water pumping mechanism is provided with two water outlet ends, the first water outlet end is communicated with the water outlet, and the second water outlet end is not communicated with the water outlet and the small water storage area; the liquid level in the small water storage area is reduced under the working state of the water pumping mechanism; a moving part which moves along with the change of the liquid level height in the small water storage area is movably arranged in the small water storage area; the movable piece is provided with a closing piece which can block or prevent the second water outlet end from discharging water; when the gravity center of the movable member is higher than the set position, the closing member blocks or prevents the second water outlet end from discharging water, part or all of the water entering from the water inlet end of the water pumping mechanism flows out through the water outlet, and the flat mop is in a cleaning state at the moment; when the gravity center of the movable member is lower than the set position, the closing member does not block or prevent the second water outlet end from discharging water, water entering from the water inlet end of the water pumping mechanism does not flow out from the water outlet or water flowing out from the water outlet does not contact with the flat mop, and the flat mop is in a squeezing state at the moment.

2. A cleaning kit having a single cleaning port as defined in claim 1, wherein: the water flowing out of the second water outlet end flows into the large water storage area.

3. A cleaning kit having a single cleaning port as defined in claim 1, wherein: the height of the second water outlet end is higher than the height of the highest liquid level of the large water storage area.

4. A cleaning kit having a single cleaning port as defined in claim 1, wherein: the moving part is a floater which is connected in the small water storage area in a sliding mode.

5. A cleaning kit having a single cleaning port as defined in claim 1, wherein: the water pumping mechanism comprises a piston cylinder and a piston body connected in the piston cylinder in a sliding manner; the piston body is in transmission connection with the flat mop positioned at the cleaning opening; a piston cavity is formed between the piston cylinder and the piston body; the water pumping mechanism also comprises a water inlet valve and a water outlet valve which are communicated with the piston cavity in a one-way manner; the conducting directions of the water inlet valve and the water outlet valve are opposite.

6. A cleaning kit having a single cleaning port as defined in claim 1, wherein: a water storage barrel is arranged in the outer barrel; the big water storage area is arranged inside the water storage barrel, and the small water storage area is arranged at the bottom in the water storage barrel.

7. A cleaning kit having a single cleaning port as defined in claim 6, wherein: the water pumping mechanism is arranged in the water storage barrel; and the water inlet end of the water pumping mechanism extends to the position of the small water storage area close to the inner bottom.

8. A cleaning kit having a single cleaning port as defined in claim 1, wherein: a containing groove is formed at the bottom in the small water storage area; and the water inlet end of the water pumping mechanism is positioned in the containing groove.

9. A cleaning kit having a single cleaning port as defined in claim 1, wherein: an extruder capable of extruding the flat mop is arranged below the water outlet in the outer barrel.

Images