CN115804553A - Flat mop cleaning tool - Google Patents

Abstract

The invention discloses a flat mop cleaning tool, which comprises a mop bucket and a flat mop, wherein the flat mop comprises a mop plate with a wiping object and a mop rod movably connected to the mop plate; the mop bucket comprises a bucket body and a squeezing frame arranged on the bucket body, a mop penetrating port is arranged on the squeezing frame, and a squeezer used for cleaning and/or squeezing a flat mop is arranged on one side of the mop penetrating port; a water storage area is arranged in the barrel body; a water pumping mechanism is arranged in the bucket body, the water inlet end of the water pumping mechanism is communicated with the water storage area, and when the flat mop is matched with the water pumping mechanism, the water outlet end of the water pumping mechanism is communicated with the mop; the flat mop is provided with a water outlet, and water entering the flat mop by the water pumping mechanism can directly or indirectly flow onto the wiping material through the water outlet.

Description

Flat mop cleaning tool

Technical Field

The invention belongs to the technical field of cleaning tools, and particularly relates to a flat mop capable of cleaning and separating dirt and a mop bucket matched with the flat mop.

Background

Chinese patent document No. CN112120624a discloses a sewage shunting flat mop cleaning bucket for cleaning a flat mop, which is provided with a cleaning member. The flat mop cleaning barrel comprises a barrel body, a barrel cover and a sewage cleaning and squeezing device, wherein the barrel cover is assembled on the barrel body, and the barrel body comprises a sewage cleaning and squeezing area and a sewage area which are independent. The device is characterized in that the decontamination wringing device is arranged at the bottom of the barrel body or the barrel cover and far away from the decontamination dehydrating area, a stroking opening is formed between the decontamination wringing device and the barrel cover and/or the barrel body, and the stroking opening is communicated with the decontamination dehydrating area. The flat mop is inserted into the dirt removing and dewatering area along the stroking opening, at least part of the cleaning piece is immersed into and absorbs cleaning liquid in the dirt removing and dewatering area, and the dirt removing and water squeezing device is used for stroking and squeezing the cleaning piece and guiding sewage squeezed by the cleaning piece to flow into the sewage area in the reciprocating movement process of the flat mop along the stroking opening.

The purpose of the above documents is to clean the flat mop with clean water in the process of cleaning the flat mop, but inevitably, in the process of moving the flat mop up and down relative to the scrubbing opening, part of dirt on the flat mop falls into the dirt removing and dewatering area, and although most of the water in the dirt removing and dewatering area can be discharged into the sewage area in the process of moving the flat mop up and down for many times in the dirt removing and dewatering area, part of the dirt still deposits at the bottom of the dirt removing and dewatering area, and when the dirt removing and dewatering area is filled with water for the next time, the dirt remained at the bottom of the dirt removing and dewatering area can be mixed with the water in the dirt removing and dewatering area again, namely, the purpose of cleaning the flat mop with clean water every time cannot be realized well.

In addition, when water is injected into the dirt removing and dewatering area, the control valve assembly needs to be operated manually, when the mop is dirty, the control valve assembly needs to be opened for draining for many times, and the use is not convenient enough.

Moreover, in order to transfer the water in the sewage disposal and dewatering area to the sewage area quickly, the width of the sewage disposal and dewatering area is smaller and is generally slightly wider than the thickness of the flat mop, so that the sewage disposal and dewatering area is difficult to clean thoroughly after the flat mop is used, or special tools are required to clean, which is inconvenient.

Disclosure of Invention

The technical problem to be solved by the invention is as follows: aiming at the defects in the prior art, the cleaning tool which can be used for cleaning the flat mop and can flexibly control the water consumption and the cleaning frequency of the cleaning and is convenient to clean after the mop bucket is used is provided.

In order to realize the purpose of the invention, the following technical scheme is adopted for realizing the purpose: a flat mop cleaning tool comprises a mop bucket and a flat mop,

the flat mop comprises a mop plate with a wiping object and a mop rod movably connected to the mop plate; the mop bucket comprises a bucket body and a squeezing frame arranged on the bucket body, a mop penetrating port is arranged on the squeezing frame, and a squeezer used for cleaning and/or squeezing a flat mop is arranged on one side of the mop penetrating port;

when the flat mop is cleaned and/or squeezed, the mop plate rotates relative to the mop rod to be parallel to the mop rod, and the wiping object is contacted with the squeezer and moves up and down relatively;

a water storage area is arranged in the barrel body;

a water pumping mechanism is arranged in the barrel body, the water inlet end of the water pumping mechanism is communicated with the water storage area, and the water outlet end of the water pumping mechanism is communicated with the mop when the flat mop and the water pumping mechanism are in a matched state;

the flat mop is provided with a water outlet, and water entering the flat mop by the water pumping mechanism can directly or indirectly flow onto the wiping material through the water outlet.

Preferably, the method comprises the following steps: the water pumping mechanism comprises a piston cylinder which is vertically arranged and a piston rod which is in sealing sliding connection with the piston cylinder, the piston cylinder is connected with a water inlet one-way valve, and the water inlet end of the water inlet one-way valve is communicated with the water storage area; the piston rod is provided with a water outlet channel which is communicated up and down, the water outlet channel is provided with a water outlet one-way valve, and the upper end of the water outlet channel is provided with a water outlet joint which is detachably connected with the flat mop; the flat mop is provided with a water inlet connector communicated with the water outlet connector;

or,

the water pumping mechanism comprises a piston cylinder and a piston rod, the piston cylinder is longitudinally arranged, the piston rod is connected with the piston cylinder in a sealing and sliding mode, the piston cylinder is connected with a water inlet check valve and a water outlet check valve, the water inlet end of the water inlet check valve is communicated with a water storage area, the water outlet end of the water outlet check valve is connected with a water outlet connector, the water outlet connector is detachably connected with the flat mop, and a water inlet connector communicated with the water outlet connector is arranged on the flat mop.

Preferably, the method comprises the following steps: the flat mop can drive the water pumping mechanism to work when moving upwards and/or downwards;

or,

the mop rod is connected with a driving sleeve in a sliding mode, and the driving sleeve can drive the water pumping mechanism to work when moving upwards and/or downwards.

Preferably, the method comprises the following steps: a mop cleaning area which does not store water is arranged at the upper part in the barrel body; the mop wearing port comprises a cleaning position and a squeezing position, and the squeezer is arranged at least in the range of the squeezing position;

the water pumping mechanism is positioned below the cleaning position, and the mop plate can drive the water pumping mechanism to work in the process of being inserted into the mop cleaning area from the cleaning position;

the mop plate is not contacted with the water pumping mechanism in the process of being inserted into the mop cleaning area from the squeezing position.

Preferably, the method comprises the following steps: a mop cleaning area which does not store water is arranged at the upper part in the barrel body;

the mop plate does not drive the water pumping mechanism to work in the process of being inserted into the mop cleaning area from the mop penetration opening; when the mop plate moves downwards to the limit position in the mop penetration, the flat mop is communicated with the water outlet end of the water pumping mechanism, and when the driving sleeve is pushed downwards, the driving sleeve drives the water pumping mechanism to work.

Preferably, the method comprises the following steps: the cleaning position and the squeezing position are adjacently arranged along the length direction of the mop wearing opening; the cleaning position and the squeezing position share one squeezer.

Preferably, the method comprises the following steps: the water outlet is arranged on the mop plate, a water inlet interface communicated with the water outlet end of the water pumping mechanism is arranged on the mop plate, and a water flow channel communicated with the water inlet interface and the water outlet is arranged in the mop plate;

or,

the water outlet is arranged on the mop rod, and when the mop plate rotates to be parallel to the mop rod, the water outlet is positioned above the mop plate or is close to the upper end of the mop plate; the lower end of the mop rod is provided with a water inlet interface communicated with the water outlet end of the water pumping mechanism, and a water flow channel communicated with the water inlet interface and the water outlet is arranged inside the mop rod.

Preferably, the method comprises the following steps: a clean water storage area and a sewage storage area are arranged in the barrel body, the sewage storage area is positioned at the bottom of the barrel body, and a part, which is positioned above the sewage storage area and is different from the clean water storage area, in the barrel body is a mop cleaning area; the water inlet end of the water pumping mechanism is communicated with the clean water storage area;

the water pumping mechanism conveys water in the clean water storage area into the flat mop and flows onto the wiping object from the water outlet, when the mop plate moves up and down relative to the cleaning device, the wetted wiping object and the squeezer generate relative friction, so that the squeezer separates dirt adhered to the wiping object and adsorbed water from the wiping object, and the wiping object is cleaned and squeezed to be dry; dirt and water scraped from the wiper by the squeezer falls into the sewage storage area. Because the sewage water storage area is located the staving bottom, the mop board reciprocates relatively cleaning device and carries out clear in-process, and the mop board can not soak in the sewage water storage area, perhaps the mop board only lower extreme part soak the sewage water storage area, can not produce obvious influence to the wringing of wiping thing.

Or,

the lower part of the barrel body is provided with a water storage area, a mop cleaning area is arranged above the water storage area in the barrel body, and a filtering device is arranged between the water storage area and the mop cleaning area in the barrel body; the water falling from the flat mop in the mop cleaning area flows into the water storage area after being filtered by the filtering device.

The water pumping mechanism conveys water in the water storage area into the flat mop and flows onto the wiping object from the water outlet, when the mop plate moves up and down relative to the cleaning device, the wetted wiping object and the squeezer generate relative friction, so that the squeezer separates dirt adhered to the wiping object and adsorbed water from the wiping object, and the wiping object is cleaned and squeezed; dirt and water scraped from the wiper by the squeezer falls into the filter device, solid dirt is left in the filter device, and filtered water flows back to the water storage area for reuse.

Preferably, the method comprises the following steps: a clear water barrel is detachably mounted at the upper part in the barrel body, and the clear water barrel is the clear water storage area;

the middle of the clear water barrel is provided with a passage which penetrates up and down, and the inside of the passage is the mop cleaning area or a part of the mop cleaning area.

Before the flat mop is cleaned in the mop bucket, only water is contained in the clean water bucket in the mop bucket, and the mop cleaning area is arranged in the middle of the clean water bucket, so that the mop bucket can be kept stable when the flat mop moves up and down relative to the squeezer to clean or squeeze the flat mop, and the mop bucket cannot shake due to the fact that the gravity center of the mop bucket deviates to one side.

Preferably, the method comprises the following steps: the water pumping mechanism is fixedly connected to the clear water barrel.

When the mop bucket needs to be thoroughly cleaned, the cover body and the clean water bucket (together with the water pumping mechanism) are sequentially taken down from the bucket body, so that the bucket body, particularly a sewage storage area at the bottom of the bucket body can be thoroughly cleaned. Because the width of the barrel body is not limited compared with the trash cleaning and dehydrating area in the background technology, the problem of difficult cleaning does not exist.

Compared with the prior art, the invention has the beneficial effects that: when the flat mop is matched with the water pumping mechanism, the water pumping mechanism can be driven to work by driving the whole flat mop or parts on the flat mop downwards and/or upwards, and the water pumping structure pumps water in the water storage area into the flat mop and flows onto the wiping object from a water outlet on the flat mop to wet the wiping object; when the mop plate moves up and down relative to the cleaning device, the wetted wiping object generates relative friction with the squeezer, so that the squeezer separates dirt adhered on the wiping object and adsorbed water from the wiping object, and the wiping object is cleaned and squeezed. Because the water outlet is arranged on the flat mop, the flat mop has the function of a water outlet pipeline, so that the mop bucket does not need to be provided with a separate water outlet pipe, a water outlet spray head and other parts, and the mop bucket is beneficial to cleaning after the mop bucket is used up every time. And the water flowing through the interior of the flat mop is clean water, so that the interior of the flat mop cannot be polluted.

Drawings

FIG. 1 is a schematic diagram of the present invention.

FIG. 2 is a schematic view of the flat mop being inserted from the cleaning station into the mop aperture for cleaning.

FIG. 3 is a schematic view of the flat mop being wiped by inserting the wringing station into a mop aperture.

Fig. 4 is an exploded view of the mop bucket portion.

Fig. 5 is a schematic structural view of the water pumping mechanism and the clear water barrel.

Fig. 6 is a schematic diagram of a structure of the water pumping mechanism.

FIG. 7 is a schematic view of the mop plate of the flat mop rotated to be parallel to the mop pole.

Fig. 8 is a schematic view of the flat mop in a mopping state.

Fig. 9 is an exploded view of the flat mop.

Fig. 10 is a schematic sectional view showing the structure of the flat mop.

A. A mop bucket; 1. a barrel body; 11. a handle; 10. a sewage storage area; 100. a mop cleaning area; 2. a clear water barrel; 20. a clear water storage area; 21. a mop positioning part; 3. a water pumping mechanism; 31. a water inlet pipe; 32. a piston cylinder; 33. a piston rod; 34. a spring; 35. a water inlet one-way valve; 36. a water outlet one-way valve; 37. a water inlet end; 38. a water outlet joint; 39. a water outlet channel; 4. a cover body; 41. a mop wearing opening; 411. cleaning the position; 412. a squeezing position; 42. an extruder; B. a flat mop; 5. a mop plate; 51. positioning the bayonet; 52. a water inlet interface; 53. a water flow channel; 5a, a lower cover plate; 6. a wipe; 7. a mop rod; 71. a mop rod joint; 72. positioning the chuck; 73. a chuck spring; 74. a spring locator; 8. a universal joint.

Detailed Description

Referring to fig. 1 to 10, the present embodiment is a flat mop cleaning tool comprising a mop bucket a and a flat mop B.

Referring to fig. 7 to 10, the flat mop comprises a mop plate 5 with a wipe 6 and a mop rod 7 movably connected to the mop plate.

Specifically, the wiping object 6 is connected to the bottom surface of the mop plate through a magic tape or a similar quick-release connecting piece, a protruding part is arranged in the middle of the top surface (the upward surface when mopping the floor) of the mop plate, the protruding part is rotatably connected with a universal joint 8, the universal joint 8 is rotatably connected with a mop rod joint 71 at the lower end of a mop rod 7, the universal joint 8 is perpendicular to a rotating shaft which is rotatably connected with the mop plate and the mop rod, and the rotating shaft between the universal joint and the protruding part is arranged along the length direction of the mop plate.

One end of the protruding part along the length direction of the mop plate is provided with a positioning bayonet 51, a positioning chuck 72 is arranged in the mop rod joint 71 in a sliding mode, and a chuck spring 73 and a spring positioning part 74 are sequentially arranged at the rear end, located in the positioning bayonet, in the mop rod joint. When the mop plate rotates to be parallel to the mop rod, the positioning clamping head 72 is clamped with the positioning clamping opening 51, so that the mop plate can be positioned in a parallel state with the mop rod, and the mop plate is convenient to clean.

As described with reference to fig. 1 to 6, the mop bucket a includes a bucket body 1 and a squeezing frame mounted on the bucket body, in this embodiment, the squeezing frame is a cover 4 detachably connected to an opening at the upper end of the bucket body. The side wall of the upper part of the barrel body is connected with a U-shaped handle 11, the inner walls of the two ends of the handle are symmetrically provided with inserting connectors, and the inserting connectors penetrate through the side wall of the barrel body and the side wall of the cover body, so that the cover body is fixed on the barrel body.

The cover body is provided with a mop penetrating port 41, and one side of the mop penetrating port is provided with a squeezer 42 for cleaning and/or squeezing the flat mop. In this embodiment, the pressing device is a sheet-shaped pressing sheet, and in other embodiments, the pressing device may also be a cylindrical pressing roller or a pressing rod, or comb-shaped or saw-toothed pressing teeth. The number of the squeezers may be one or more, and when a plurality of squeezers are provided, different types of squeezers may be provided.

In other embodiments, the squeezing frame may be a frame structure having only one opening enclosing the mop penetration.

Further, upper portion detachably is equipped with clear water bucket 2 in the staving 1, is clear water storage district 20 in the clear water bucket 2, the staving bottom is sewage water storage district 10, the part that is located sewage water storage district top and is different from clear water storage district in the staving is the clean district of mop. The cleaning bucket is positioned at one side of the mop cleaning area, or a channel which penetrates through the cleaning bucket from top to bottom is arranged in the middle of the cleaning bucket, and the inside of the channel is the mop cleaning area (when the length of the mop plate is equal to the height of the cleaning bucket) or a part of the mop cleaning area (when the height of the cleaning bucket is smaller than that of the mop plate). The cleaning bucket is shown in figures 4 and 5, the two sides of the cleaning bucket, which are positioned at the mop penetration opening, are respectively provided with a cavity for storing water, before the flat mop is cleaned in the mop bucket, only water is contained in the cleaning bucket in the mop bucket, and the mop cleaning area is arranged in the middle of the cleaning bucket, so that the mop bucket can be kept stable when the flat mop moves up and down relative to the squeezer to clean or squeeze the flat mop, and the mop bucket cannot shake due to the deviation of the gravity center of the mop bucket to one side.

The mop wearing opening comprises a cleaning position 411 and a squeezing position 412, and the cleaning position and the squeezing position are adjacently arranged along the length direction of the mop wearing opening; the washing station and the wringing station share one of the squeezers 42. In other embodiments, the squeezer may be provided only at the wringing station. I.e. only the wipe needs to be wetted in the cleaning position and scraped off and dried in the wringing position.

A water pumping mechanism is arranged below the cleaning position in the barrel body, the water inlet end of the water pumping mechanism is communicated with the clear water barrel, and the water outlet end of the water pumping mechanism is communicated with the mop when the flat mop and the water pumping mechanism are in a matched state; the flat mop is provided with a water outlet 51, and water entering the flat mop by the water pumping mechanism can flow onto the wiping object through the water outlet, or water flowing out of the water outlet flows onto the cover body or the squeezer and then flows onto the wiping object through the cover body or the squeezer.

The mop plate can drive the water pumping mechanism to work in the process of being inserted into the mop cleaning area from the cleaning position, so that the wiping materials are wetted.

The mop plate is not contacted with the water pumping mechanism in the process of being inserted into the mop cleaning area from the squeezing position, and the wiping object and the squeezer are moved and squeezed mutually, so that the wiping object is scraped to be dried.

Specifically, as shown in fig. 5 and 6, the water pumping mechanism is fixed at the bottom of the clear water barrel, and the clear water barrel and the water pumping mechanism can be taken out together when the barrel body is cleaned. The pumping mechanism comprises a piston cylinder 32 and a piston rod 33, the piston cylinder 32 is vertically arranged, the piston rod 33 is in sealing sliding connection with the piston cylinder, and the lower end of the piston rod 33 is connected with a piston in sealing sliding connection with the piston cylinder. The piston cylinder is connected with a water inlet one-way valve 35, and a water inlet end 37 of the water inlet one-way valve is communicated with the bottom of the clear water barrel through a water inlet pipe 31; a water outlet channel 39 which is communicated up and down is arranged on the piston rod, a water outlet one-way valve 36 is arranged on the water outlet channel, and a water outlet joint 38 which is detachably connected with the flat mop is arranged at the upper end of the water outlet channel; the flat mop is provided with a water inlet connector 52 communicated with the water outlet connector. And after the water outlet connector is in butt joint with the water inlet connector, the joint of the water inlet connector and the water outlet connector is sealed by the sealing washer.

As shown in fig. 9 and 10, the water inlet port 52 is disposed at one end of the protrusion portion of the mop plate, which is far away from the positioning bayonet, the water flow channel 53 communicated with the water inlet port is disposed in the mop plate, the bottom surface of the mop plate is connected with the lower cover plate 5a, and the water flow channel is formed by enclosing the mop plate and the lower cover plate together. In this embodiment, the water outlet is located at the upper end of the bottom surface of the mop plate as shown in fig. 7, and water flows in from the water inlet port, passes through the water flow channel, and finally flows out from the water outlet to the wiper from top to bottom under the action of gravity.

In other embodiments, a plurality of water outlets can be arranged on the bottom surface of the mop plate from top to bottom, water flows out from the water outlets and then wets the wiper from the back surface of the wiper, when the wiper and the squeezer are squeezed with each other, at least part of water absorbed in the wiper penetrates through the wiper from back to front and flows to the cleaning surface in front of the wiper, and dirt adhered to the cleaning surface is scraped together with the water under the cooperation of the squeezer, so that the wiper is cleaned.

When the flat mop is cleaned by using the mop bucket, the mop plate is rotated to be parallel to the mop rod as shown in the figure, and the positioning clamping head 72 on the mop rod joint is clamped with the positioning bayonet 51 on the mop plate. Then the mop plate is inserted into the mop penetration opening along the cleaning position, the water inlet interface on the mop plate is just positioned right above the water outlet connector 38 of the water pumping mechanism, the mop rod is pushed downwards until the water inlet interface is in butt joint with the water outlet connector, when the mop rod is pushed downwards continuously, the piston rod is driven to move downwards, the water outlet one-way valve is switched on at the moment, the water inlet one-way valve is switched off, water positioned below the piston rod in the piston cylinder flows out from the water outlet connector along the water flow channel and flows through the water inlet interface and the water flow channel in sequence, finally, wet wiping matters flow out from the water outlet, after the downward pushing force on the mop rod is removed or the mop rod is pulled upwards, the piston rod is pushed to move upwards to reset by the spring 34 installed in the piston cylinder, at the moment, the water outlet one-way valve is closed, the water inlet one-way valve is opened, and water in the clean water bucket flows into the piston cylinder along the water inlet pipe. It should be noted that when the piston rod is pressed for the first time, there is no water in the piston cylinder, that is, the piston rod is pressed for the first time, and water is not discharged, and the piston rod needs to be reset once, and then there is water in the piston cylinder.

When the cleaning device is actually used, the number of times of pressing the piston rod can be flexibly adjusted according to the dirt degree of the wiper, and the wiper is ensured to be cleaned.

During the process that the mop plate moves up and down in the cleaning position, the squeezer generates friction squeezing or rolling squeezing relative to the wiping object, so that dirt adhered on the wiping object and water adsorbed by the wiping object are squeezed out simultaneously.

After the mop is cleaned, the mop plate is inserted into the mop penetrating opening along the squeezing position to move up and down, and the piston rod is not driven by the mop plate any more, so that after the mop plate of the cabinet moves up and down for a plurality of times, the wiper can be wiped by the squeezer.

The sewage squeezed by the squeezer from the wiper falls into the sewage storage area 10 at the bottom of the barrel body, the bottom of the clean water barrel or the bottom of the barrel body is provided with a mop positioning part 21, and the mop positioning part 21 is used for limiting the limit position of the mop plate moving downwards at the squeezing position, so that the lower end of the wiper cannot be immersed into the sewage storage area.

It should be noted that, in order to avoid the lower end of the wiper contacting the sewage, the capacity of the clean water barrel (i.e. the clean water storage area) is designed to be slightly smaller than the capacity of the sewage storage area, that is, after the water in the clean water storage area is used up, the water level in the sewage storage area is also lower than the lower end of the mop plate (when abutting against the mop positioning portion).

In other embodiments, the lower part of the barrel body is a water storage area, a mop cleaning area is arranged above the water storage area in the barrel body, and a filtering device is arranged between the water storage area and the mop cleaning area in the barrel body; the water falling from the flat mop in the mop cleaning area flows into the water storage area after being filtered by the filtering device.

In other embodiments, the mop rod is slidably connected with a driving sleeve, and the driving sleeve can drive the water pumping mechanism to work when moving upwards and/or downwards.

Correspondingly, the mechanism of drawing water including the piston barrel that vertically sets up and with piston barrel sealing sliding connection's piston rod, the piston barrel is connected with into water check valve and goes out water check valve, the end of intaking check valve is linked together with the water storage district, the play water end of going out water check valve is connected with out water connector, goes out water connector and dull and stereotyped mop can dismantle and be connected, be equipped with on the dull and stereotyped mop with the water inlet interface that goes out water connector intercommunication.

The mop plate does not drive the water pumping mechanism to work in the process of being inserted into the mop cleaning area from the mop penetration opening; when the mop plate moves downwards to the limit position in the mop penetration, the flat mop is communicated with the water outlet end of the water pumping mechanism, and when the driving sleeve is pushed downwards, the driving sleeve drives the water pumping mechanism to work.

In other embodiments, the water outlet is arranged on the mop rod, and when the mop plate is rotated to be parallel to the mop rod, the water outlet is positioned above or close to the upper end of the mop plate, so that water flowing out of the water outlet can flow onto the wiping matters to wet the wiping matters; the lower end of the mop rod is provided with a water inlet interface communicated with the water outlet end of the water pumping mechanism, and a water flow channel communicated with the water inlet interface and the water outlet is arranged inside the mop rod.

Claims (10)

1. A flat mop cleaning tool, includes mop bucket and flat mop, its characterized in that: the flat mop comprises a mop plate with a wiping object and a mop rod movably connected to the mop plate; the mop bucket comprises a bucket body and a squeezing frame arranged on the bucket body, a mop penetrating port is arranged on the squeezing frame, and a squeezer used for cleaning and/or squeezing a flat mop is arranged on one side of the mop penetrating port; when the flat mop is cleaned and/or squeezed, the mop plate rotates relative to the mop rod to be parallel to the mop rod, and the wiping object is contacted with the squeezer and moves up and down relatively; a water storage area is arranged in the barrel body; a water pumping mechanism is arranged in the barrel body, the water inlet end of the water pumping mechanism is communicated with the water storage area, and the water outlet end of the water pumping mechanism is communicated with the mop when the flat mop and the water pumping mechanism are in a matched state; the flat mop is provided with a water outlet, and water entering the flat mop by the water pumping mechanism can directly or indirectly flow onto the wiping material through the water outlet.

2. A flat mop cleaning tool as defined in claim 1, further comprising: the water pumping mechanism comprises a piston cylinder which is vertically arranged and a piston rod which is in sealing sliding connection with the piston cylinder, the piston cylinder is connected with a water inlet one-way valve, and the water inlet end of the water inlet one-way valve is communicated with the water storage area; the piston rod is provided with a water outlet channel which is communicated up and down, the water outlet channel is provided with a water outlet one-way valve, and the upper end of the water outlet channel is provided with a water outlet joint which is detachably connected with the flat mop; the flat mop is provided with a water inlet connector communicated with the water outlet connector; or, the mechanism of drawing water includes the piston cylinder that vertically sets up and with piston cylinder sealing sliding connection's piston rod, the piston cylinder is connected with into water check valve and goes out water check valve, the end of intaking check valve is linked together with the water storage district, the play water end of going out water check valve is connected with out water connector, goes out water connector and dull and stereotyped mop can dismantle and be connected, be equipped with on the dull and stereotyped mop with the water inlet interface that goes out water connector intercommunication.

3. A flat mop cleaning tool as claimed in claim 1 or claim 2, in which: the flat mop can drive the water pumping mechanism to work when moving upwards and/or downwards; or, a driving sleeve is connected to the mop rod in a sliding manner, and the driving sleeve can drive the pumping mechanism to work when moving upwards and/or downwards.

4. A flat mop cleaning tool as defined in claim 3, further comprising: a mop cleaning area which does not store water is arranged at the upper part in the barrel body; the mop wearing port comprises a cleaning position and a squeezing position, and the squeezer is arranged at least in the range of the squeezing position; the water pumping mechanism is positioned below the cleaning position, and the water pumping mechanism can be driven to work in the process that the mop plate is inserted into the mop cleaning area from the cleaning position; the mop plate is not contacted with the water pumping mechanism in the process of being inserted into the mop cleaning area from the squeezing position.

5. A flat mop cleaning tool as defined in claim 3, further comprising: a mop cleaning area which does not store water is arranged at the upper part in the barrel body; the mop plate does not drive the water pumping mechanism to work in the process of being inserted into the mop cleaning area from the mop penetration opening; when the mop plate moves downwards to the limit position in the mop penetration, the flat mop is communicated with the water outlet end of the water pumping mechanism, and when the driving sleeve is pushed downwards, the driving sleeve drives the water pumping mechanism to work.

6. A flat mop cleaning tool as defined in claim 4, wherein: the cleaning position and the squeezing position are adjacently arranged along the length direction of the mop wearing opening; the cleaning position and the squeezing position share one squeezer.

7. A flat mop cleaning tool as defined in claim 1, further comprising: the water outlet is arranged on the mop plate, a water inlet interface communicated with the water outlet end of the water pumping mechanism is arranged on the mop plate, and a water flow channel communicated with the water inlet interface and the water outlet is arranged in the mop plate; or the water outlet is arranged on the mop rod, and when the mop plate rotates to be parallel to the mop rod, the water outlet is positioned above the mop plate or is close to the upper end of the mop plate; the lower end of the mop rod is provided with a water inlet connector communicated with the water outlet end of the water pumping mechanism, and a water flow channel communicated with the water inlet connector and the water outlet is arranged in the mop rod.

8. A flat mop cleaning tool as defined in claim 1, further comprising: a clean water storage area and a sewage storage area are arranged in the barrel body, the sewage storage area is positioned at the bottom of the barrel body, and a part, which is positioned above the sewage storage area and is different from the clean water storage area, in the barrel body is a mop cleaning area; the water inlet end of the water pumping mechanism is communicated with the clean water storage area; or the lower part of the barrel body is a water storage area, a mop cleaning area is arranged above the water storage area in the barrel body, and a filtering device is arranged between the water storage area and the mop cleaning area in the barrel body; the water falling from the flat mop in the mop cleaning area flows into the water storage area after being filtered by the filtering device.

9. A flat mop cleaning tool as defined in claim 8, further comprising: a clear water barrel is detachably mounted at the upper part in the barrel body, and the clear water barrel is a clear water storage area; the middle of the clear water barrel is provided with a passage which penetrates up and down, and the inside of the passage is the mop cleaning area or a part of the mop cleaning area.

10. A flat mop cleaning tool as defined in claim 9, further comprising: the water pumping mechanism is fixedly connected to the clear water barrel.

Images