CN216020885U - Mop cleaning barrel and cleaning equipment - Google Patents

Abstract

The embodiment of the utility model provides a mop cleaning barrel and cleaning equipment, and relates to the field of cleaning equipment. The mop cleaning barrel comprises a barrel body and a mop barrel cover, wherein the mop barrel cover is installed at a port of the barrel body, a sewage collecting cavity is formed between the bottom of the inner wall of the mop barrel cover and the bottom of the inner wall of the barrel body, the mop barrel cover comprises a mop barrel cover shell, a cleaning water tank and a water storage tank, the mop barrel cover further comprises a cleaning mechanism, the cleaning mechanism comprises a water lifting device and a driving device, the driving device is used for being driven by a mop, a water outlet is formed in the bottom wall of the water storage tank and used for conveying liquid in the water storage tank to the mop, the mop abuts against and drives the driving device, and then the driving device drives the water lifting device to convey the liquid in the cleaning water tank to the water storage tank, the liquid flows to the mop from the water outlet of the water storage tank through a water outlet channel, the mop is cleaned, and the cleaning efficiency of the mop is improved, and the cleaning effect is improved.

Description

Mop cleaning barrel and cleaning equipment

Technical Field

The utility model relates to the field of cleaning equipment, in particular to a mop cleaning barrel and cleaning equipment.

Background

In the daily cleaning process, the common mop needs to be matched with the cleaning mop bucket for operation, and the cleaning mop bucket can clean the mop.

In the prior art, the efficiency of the mop cleaning process is not high, and the effect is not good.

SUMMERY OF THE UTILITY MODEL

The utility model provides a mop cleaning barrel and a cleaning device, which can improve the cleaning efficiency of a mop.

Embodiments of the utility model may be implemented as follows:

embodiments of the present invention provide a mop cleaning bucket, comprising:

a barrel body;

the mop bucket cover is arranged at the end opening of the bucket body, a sewage collecting cavity is formed between the mop bucket cover and the bottom of the inner wall of the bucket body, and the sewage collecting cavity is used for accommodating the mop;

the mop bucket cover comprises a mop bucket cover shell, a cleaning water tank and a water storage tank, wherein the cleaning water tank is arranged on the mop bucket cover shell, the water storage tank is arranged in the cleaning water tank, and the cleaning water tank and the water storage tank are mutually separated; a cleaning inlet is formed in one side, away from the bottom of the barrel body, of the mop barrel cover and is communicated with the sewage collecting chamber;

the mop bucket cover further comprises a cleaning mechanism, the cleaning mechanism is mounted on the mop bucket cover shell and comprises a water lifting device and a driving device, the driving device is used for being driven by the mop, the driving device is connected with the water lifting device and is used for driving the water lifting device to convey liquid in the cleaning water tank to the water storage tank, a water outlet opening is formed in the bottom wall of the water storage tank and is used for conveying the liquid in the water storage tank to the mop;

the mop barrel cover further comprises a water squeezing plate, the water squeezing plate is mounted on one side, close to the cleaning inlet, of the cleaning water tank, a squeezing port is defined by one side, far away from the cleaning water tank, of the water squeezing plate and the side wall of the cleaning inlet, the cleaning inlet is communicated with the squeezing port, the cleaning inlet and the squeezing port are used for enabling the mop to sequentially penetrate into the sewage collecting cavity, and the water squeezing plate is used for squeezing the mop to enable sewage on the mop to be separated from and flow into the sewage collecting cavity;

the water squeezing plate comprises a water draining plate and a squeezing serrated plate, the water draining plate and the squeezing serrated plate are arranged at intervals, the water draining plate is positioned on one side, away from the bottom of the barrel body, of the squeezing serrated plate, a sewage drainage channel is formed between the water draining plate and the squeezing serrated plate and is communicated with the sewage collection chamber, and the sewage drainage channel is used for conveying sewage on the mop to the sewage collection chamber; the edge of the water outlet opening is connected with the drainage plate, a water outlet channel is formed between one side of the drainage plate, which is far away from the extrusion serrated plate, and the side wall of the cleaning water tank, the water outlet channel is communicated with the water outlet opening, and the water outlet channel is used for conveying liquid in the water storage tank to the mop.

Optionally, the driving device comprises a squeezing roller shaft and a clutch, the squeezing roller shaft is connected with one end of the clutch, and the mop is used for driving the squeezing roller shaft to rotate when abutting against the squeezing roller shaft to move;

the water lifting device comprises an auger and a water delivery pipe, the auger is sleeved in the water delivery pipe, one end of the auger is arranged in the clean water tank, the other end of the auger is connected with the other end of the clutch, and the clutch is used for driving the auger to rotate;

the packing auger is used for transporting the liquid in the clean water tank to the water outlet end of the water delivery pipe from the water inlet end of the water delivery pipe and further transporting the liquid into the water storage tank.

Optionally, the clutch includes a bevel gear, a first clutch, a second clutch and a connecting shaft;

the bevel gear is meshed with the other end of the packing auger, the bevel gear is clamped with one side of the first clutch piece, which is far away from the extrusion roller shaft, a first matching gear is arranged on one side of the first clutch piece, which is far away from the bevel gear, a second matching gear is arranged on one side of the second clutch piece, which is far away from the extrusion roller shaft, and the first matching gear is matched with the second matching gear;

one end of the connecting shaft is fixedly connected with the extrusion roll shaft, and the other end of the connecting shaft is connected with the second clutch piece; the extrusion roller shaft is used for driving the connecting shaft to rotate, and the connecting shaft is used for driving the second clutch piece to rotate along a first rotating direction;

the second clutch piece is used for driving the first clutch piece to rotate along the first rotating direction when rotating along the first rotating direction;

the second clutch piece is used for being disengaged from the first clutch piece when rotating along a second rotating direction, and the first rotating direction is opposite to the second rotating direction.

Optionally, the driving device further includes a clutch spacer, and the clutch spacer is configured to be clamped between a first mating tooth of the first clutch member and a second mating tooth of the second clutch member when the first clutch member is disengaged from the second clutch member, so as to prevent the first mating tooth from being mated with the second mating tooth.

Optionally, the inner wall of the barrel body is further provided with a mop stop plate, the mop stop plate is fixedly mounted on the inner wall of the barrel body and located in the sewage collection chamber, and the mop stop plate is used for abutting against the mop.

Optionally, two elliptical holes are formed in the opposite side walls of the mop bucket cover, two ends of the extruding serrated plate are respectively and movably arranged in the two elliptical holes, a first position and a second position are arranged on the elliptical holes, and the first position and the second position are symmetrical about the center of the elliptical holes;

the second position is far away from the squeezing opening relative to the first position, two ends of the squeezing serrated plate are used for being moved to the first position when the mop moves towards the sewage collecting chamber, the water squeezing plate is far away from the second position, and the serrations squeeze the mop;

the two ends of the pressing serrated plate are used for being moved to the second position when the mop moves towards the position far away from the sewage collecting chamber, the pressing serrated plate is far away from the first position, and the sawteeth are in contact with the mop.

Optionally, a drain outlet is formed in the side wall, close to the bottom, of the mop cleaning barrel, and the drain outlet is communicated with the sewage collecting chamber.

The embodiment of the utility model also provides cleaning equipment, which comprises a mop and the mop cleaning bucket, wherein the mop cleaning bucket is used for cleaning the mop.

Optionally, the mop comprises a mop rod and a mop head, wherein one end of the mop rod is hinged to the mop head;

the mop head comprises a mop plate and a cleaning piece, the cleaning piece is arranged on the mop plate and used for cleaning the ground, and one end of the mop rod is hinged to one side of the mop plate, which is far away from the cleaning piece;

the other side of the mop plate is also provided with a scraping plate, and the scraping plate is used for cleaning the ground.

Optionally, the mop plate comprises a first mounting plate and a second mounting plate, the first mounting plate is hinged to the mop rod, the second mounting plate is mounted on the first mounting plate, the cleaning piece is mounted on one side, away from the first mounting plate, of the second mounting plate, and the scraper bar is mounted on one side of the first mounting plate;

the scraper bar comprises a scraper bar mounting plate and a cleaning scraper bar, the cleaning scraper bar is mounted on the scraper bar mounting plate, the cleaning scraper bar is used for cleaning the ground, and the scraper bar mounting plate is parallel to the first mounting plate.

The cleaning barrel and the cleaning equipment provided by the embodiment of the utility model have the beneficial effects that:

the mop cleaning barrel comprises a barrel body and a mop barrel cover, wherein the mop barrel cover is installed at a port of the barrel body, a sewage collecting cavity is formed between the bottom of the mop barrel cover and the bottom of the inner wall of the barrel body and used for containing a mop, the mop barrel cover comprises a mop barrel cover shell, a cleaning water tank and a water storage tank, the cleaning water tank is installed on the mop barrel cover shell, the water storage tank is arranged in the cleaning water tank, the cleaning water tank and the water storage tank are mutually separated, a cleaning inlet is formed in one side, away from the bottom of the barrel body, of the mop barrel cover, and the cleaning inlet is communicated with the sewage collecting cavity. The mop barrel cover further comprises a cleaning mechanism, the cleaning mechanism is installed on the mop barrel cover shell and comprises a water lifting device and a driving device, the driving device is used for being driven by a mop, the driving device is connected with the water lifting device and used for driving the water lifting device to convey liquid in the cleaning water tank to the water storage tank, a water outlet is formed in the bottom wall of the water storage tank, and the water outlet is used for conveying the liquid in the water storage tank to the mop. The mop bung still includes the wringing board, the wringing board is installed in one side that clean water tank is close to clean entry, the wringing board is kept away from one side of clean water tank and is injectd the extrusion mouth with the lateral wall of clean entry, clean entry and extrusion mouth intercommunication, clean entry and extrusion mouth are used for being passed in proper order by the mop and get into in the sewage collection cavity, the wringing board is used for squeezing the mop, in order to break away from sewage on the mop and flow in sewage collection cavity, the mop passes clean entry and extrusion mouth in proper order and gets into sewage collection cavity or keep away from sewage collection cavity and pass through extrusion mouth and clean entry in proper order, mop butt drive arrangement simultaneously, this drive arrangement of mop butt and drive. And then the driving device drives the water lifting device to convey the liquid in the clean water tank to the water storage tank, the liquid flows onto the mop from the water outlet opening of the water storage tank through the water outlet channel to clean the mop, meanwhile, the extrusion serrated plate of the water squeezing plate can extrude the mop, so that the sewage on the mop is squeezed out, and the sewage can flow into the sewage collection chamber through the sewage discharge channel. The clean water tank and the sewage collection chamber are mutually separated, the liquid of the clean water tank can not be polluted, the cleaning efficiency of the mop is further improved, and the cleaning effect is improved.

The embodiment of the utility model also provides cleaning equipment, which comprises a mop and the mop cleaning barrel, wherein the mop cleaning barrel is used for cleaning the mop, so that the cleaning efficiency of the mop is improved, and the cleaning effect is improved.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings that are required to be used in the embodiments will be briefly described below, it should be understood that the following drawings only illustrate some embodiments of the present invention and therefore should not be considered as limiting the scope, and for those skilled in the art, other related drawings can be obtained according to the drawings without inventive efforts.

FIG. 1 is a cross-sectional view of a first region of a mop cleaning bucket provided in an embodiment of the present invention;

FIG. 2 is a schematic illustration of a clutch provided in an embodiment of the present invention;

FIG. 3 is a schematic view of a water lift provided in other embodiments of the present invention;

FIG. 4 is a schematic view of an elliptical aperture of a mop cleaning bucket provided in an embodiment of the present invention;

FIG. 5 is a cross-sectional view of a second region of a mop cleaning bucket provided in an embodiment of the present invention;

FIG. 6 is a partial schematic view of a mop cleaning bucket provided in an embodiment of the present invention;

FIG. 7 is a schematic view of a mop provided in an embodiment of the present invention;

FIG. 8 is an exploded view of a mop provided in an embodiment of the present invention;

fig. 9 is a cross-sectional view of a mop head provided in other embodiments of the present invention.

Icon: 1000-mop cleaning bucket; 100-barrel body; 110-a sewage collection chamber; 120-clean water tank; 122-a reservoir; 1222-a water outlet opening; 130-mop stop plate; 200-mop bucket cover; 210-cleaning the inlet; 220-mop bucket cover shell; 221-an upper cover; 222-middle cap; 223-lower cover; 300-a cleaning mechanism; 310-a water lifting device; 301-loose-leaf panels; 311-auger; 312-a water conveying pipe; 320-a drive device; 321-an extrusion roll shaft; 322-a clutch; 323-clutch spacer; 3221-bevel gear; 3222-a first clutch; 3223-a second clutch; 3224-connecting shaft; 400-water squeezing plate; 410-extrusion port; 420-extruding a serrated plate; 421-saw teeth; 430-a drain board; 440-a connecting plate; 401-a trapway; 402-a water outlet channel; 10-elliptical hole; 11-a first position; 12-a second position; 20-a sewage draining outlet; 2000-mop; 2100-mop pole; 2200-a mop head; 2300-scraping the slat; 2210-mop plate; 2220-cleaning member; 2211-a first mounting plate; 2212-a second mounting plate; 2310-mounting the wiper strip; 2320-cleaning scraping bar; 32-a first mating tooth; 33-a second mating tooth; 40-a guide wheel; 50-clean the inlet sidewall.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are some, but not all, embodiments of the present invention. The components of embodiments of the present invention generally described and illustrated in the figures herein may be arranged and designed in a wide variety of different configurations.

Thus, the following detailed description of the embodiments of the present invention, presented in the figures, is not intended to limit the scope of the utility model, as claimed, but is merely representative of selected embodiments of the utility model. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

It should be noted that: like reference numbers and letters refer to like items in the following figures, and thus, once an item is defined in one figure, it need not be further defined and explained in subsequent figures.

In the description of the present invention, it should be noted that if the terms "upper", "lower", "inside", "outside", etc. are used for indicating the orientation or positional relationship based on the orientation or positional relationship shown in the drawings or the orientation or positional relationship which is usually placed when the utility model is used, it is only for convenience of describing the present invention and simplifying the description, but it is not necessary to indicate or imply that the device or element referred to must have a specific orientation, be constructed in a specific orientation and be operated, and thus, it should not be construed as limiting the present invention.

Furthermore, the appearances of the terms "first," "second," and the like, if any, are used solely to distinguish one from another and are not to be construed as indicating or implying relative importance.

It should be noted that the features of the embodiments of the present invention may be combined with each other without conflict.

In the daily cleaning process, the common mop needs to be matched with the cleaning mop bucket for operation, and the cleaning mop bucket can clean the mop. In the prior art, the efficiency of the mop cleaning process is not high, and the effect is not good.

Accordingly, the mop cleaning bucket 1000 and the cleaning device provided in the embodiments of the present invention can solve this problem.

Referring to fig. 1 to 9, the present embodiment provides a mop cleaning bucket 1000 and a cleaning apparatus, which will be described in detail below.

Referring first to fig. 7-8, in an embodiment of the present invention, there is also provided a cleaning apparatus, including a mop 2000 and a mop cleaning barrel 1000, the mop cleaning barrel 1000 is used for cleaning the mop 2000, in this embodiment, the mop 2000 is a flat mop 2000, wherein the mop 2000 includes a mop rod 2100 and a mop head 2200, one end of the mop rod 2100 is hinged to the mop head 2200, and the other end of the mop rod 2100 is used for being held by a user.

Specifically, the mop head 2200 comprises a mop plate 2210 and a cleaning member 2220, and it is understood that the cleaning member 2220 is a cleaning cloth, the cleaning member 2220 is mounted on the mop plate 2210, the cleaning member 2220 is used for cleaning the floor, the mop rod 2100 is hinged at one end to one side of the mop plate 2210 away from the cleaning member 2220, a wiper strip 2300 is further provided at the other side of the mop plate 2210, and the wiper strip 2300 is used for cleaning the floor.

The mop plate 2210 comprises a first mounting plate 2211 and a second mounting plate 2212, the first mounting plate 2211 is hinged to the mop rod 2100, the second mounting plate 2212 is mounted on the first mounting plate 2211, the cleaning piece 2220 is mounted on one side, away from the first mounting plate 2211, of the second mounting plate 2212, the scraper bar 2300 is mounted on one side of the first mounting plate 2211, specifically, the scraper bar 2300 comprises a scraper bar mounting plate 2310 and a cleaning scraper bar 2320, the cleaning scraper bar 2320 is mounted on the scraper bar mounting plate 2310, the cleaning scraper bar 2320 is used for cleaning the ground, in the embodiment, the number of the cleaning scraper bars 2320 is multiple, the multiple cleaning scraper bars 2320 are mounted on the scraper bar mounting plate 2310 at intervals and in parallel, specifically, the number of the cleaning scraper bars 2320 is three, and the cleaning scraper bar 2320 is a rubber scraper bar.

Wherein the wiper strip mounting plate 2310 and the first mounting plate 2211 are parallel, it can be understood that in the present embodiment, the side of the cleaning wiper strip 2320 for cleaning the floor and the side of the cleaning element 2220 for cleaning the floor are coplanar, and when the floor is cleaned, the cleaning wiper strip 2320 and the cleaning element 2220 can simultaneously clean the floor, and of course, in other embodiments, the cleaning wiper strip 2320 can be used for cleaning operation alone, such as wiping glass or floor.

In another embodiment, referring to fig. 9, fig. 9 is a schematic view of the mop head 2200 contacting the floor, which is a schematic view of a cross-section of the scraper bar 2300, wherein the scraper bar 2300 is serrated, specifically, square teeth, and one side of the scraper bar 2300 near the floor is used for cleaning the floor.

Referring to fig. 1, the mop cleaning bucket 1000 includes a bucket body 100 and a mop bucket cover 200, the mop bucket cover 200 is installed at a port of the bucket body 100, a sewage collecting chamber 110 is formed between the mop bucket cover 200 and the bottom of the inner wall of the bucket body 100, the sewage collecting chamber 110 is used for accommodating a mop 2000, the mop bucket cover 200 includes a mop bucket cover shell 220, a cleaning water tank 120 and a water storage tank 122, the cleaning water tank 120 is installed on the mop bucket cover shell 220, the water storage tank 122 is arranged in the cleaning water tank 120, the cleaning water tank 120 and the water storage tank 122 are separated from each other, a cleaning inlet 210 is formed in one side of the mop bucket cover 200 far away from the bottom of the bucket body 100, and the cleaning inlet 210 is communicated with the sewage collecting chamber 110.

Wherein the mop cover 200 further comprises a cleaning mechanism 300, the cleaning mechanism 300 is mounted on the mop cover housing 220 100, in this embodiment, the mop cover housing 220 comprises an upper cover 221, a middle cover 222 and a lower cover 223, specifically, the cleaning mechanism 300 is mounted on the middle cover 222, the upper cover 221, the middle cover 222 and the lower cover 223 can be assembled in a clamping manner, the cleaning water tank 120 is mounted on the lower cover 223, the cleaning mechanism 300 comprises a water lifting device 310 and a driving device 320, the driving device 320 is used for being driven by the mop 2000, the driving device 320 is connected with the water lifting device 310, the driving device 320 is used for driving the water lifting device 310 to convey the liquid in the cleaning water tank 120 to the water storage tank 122, the bottom wall of the water storage tank 122 is provided with a water outlet 1222 communicated with the cleaning inlet 210, the water outlet 1222 is used for conveying the liquid in the water storage tank 122 to the mop 2000, wherein the upper cover 221 can protect the driving device 320 in a half-covering manner, the edge of the middle cover 222 is provided with a protrusion (not shown), the sidewall of the barrel 100 is provided with a bayonet (not shown), the middle cover 222 is clamped on the barrel 100 after the protrusion and the bayonet are matched, so that the mop barrel cover 200 is conveniently installed at the port of the barrel 100, and specifically, in this embodiment, the cleaning inlet 210 penetrates through the middle part of the middle cover 222.

It will be appreciated that in other embodiments, the water lifting device 310 may be configured to move the liquid from the clean water tank 120 to the reservoir 122 by way of an eccentric that moves a plunger up and down, or by moving a piston mounted on one end of a direct drive shaft that moves the liquid from the clean water tank 120 to the reservoir 122.

Specifically, the mop bucket cover 200 further comprises a wringing plate 400, the wringing plate 400 is mounted on one side of the cleaning water tank 120 close to the cleaning inlet 210, one side of the wringing plate 400 far from the cleaning water tank 120 and the side wall of the cleaning inlet 210 define a squeezing port 410, the cleaning inlet 210 is communicated with the squeezing port 410, the cleaning inlet 210 and the squeezing port 410 are used for being sequentially penetrated into the sewage collection chamber 110 by the mop 2000, the wringing plate 400 is used for squeezing the mop 2000 to separate the sewage on the mop 2000 from flowing into the sewage collection chamber 110, wherein the wringing plate 400 comprises a drain plate 430 and an extrusion serration plate 420, the drain plate 430 and the extrusion serration plate 420 are arranged at intervals, and the drainage plate 430 is positioned at one side of the pressing serrated plate 420 far away from the bottom of the barrel body 100, a sewage channel 401 is formed between the drainage plate 430 and the pressing serrated plate 420, the sewage channel 401 is communicated with the sewage collecting chamber 110, and the sewage channel 401 is used for conveying the sewage on the mop 2000 to the sewage collecting chamber 110.

The edge of the water outlet opening 1222 is connected to the water discharge plate 430, a water outlet channel 402 is formed between the side of the water discharge plate 430 away from the serrated squeeze plate 420 and the side wall of the clean water tank 120, the water outlet channel 402 is communicated with the water outlet opening 1222, and the water outlet channel 402 is used for conveying the liquid in the water tank 122 to the mop 2000.

Wherein, a plurality of connecting plates 440 are fixedly connected on the drainage plate 430, the connecting plates 440 are parallel to each other, and the connecting plates 440 can divide the water outlet channel 402 into a plurality of channels for spraying water onto the mop 2000. Meanwhile, it should be noted that a water filling port (not shown) is formed in the clean water tank 120, and the water filling port is communicated with the interior of the clean water tank 120, so as to conveniently supply liquid into the clean water tank 120.

It will be readily appreciated that, in cleaning the mop 2000, the mop 2000 is sequentially passed through the cleaning inlet 210 and the pressing port 410 into the sewage collecting chamber 110 or sequentially passed through the pressing port 410 and the cleaning inlet 210 away from the sewage collecting chamber 110, and in this embodiment, the mop 2000 is sequentially passed through the cleaning inlet 210 and the pressing port 410 into the sewage collecting chamber 110 while the mop 2000 abuts against the driving means 320, and in particular, the cleaning member 2220 of the mop 2000 abuts against and drives the driving means 320.

The driving device 320 drives the water lifting device 310 to deliver the liquid in the clean water tank 120 to the water storage tank 122, the liquid flows from the water outlet 1222 of the water storage tank 122 to the mop 2000 through the water outlet channel 402 to wash the mop 2000, meanwhile, the pressing serrated plate 420 of the water squeezing plate 400 can squeeze the mop 2000, further squeeze the sewage on the mop 2000, and the sewage can flow into the sewage collection chamber 110 through the sewage discharge channel 401. Meanwhile, the cleaning water tank 120 and the sewage collecting chamber 110 are separated from each other, and the liquid of the cleaning water tank 120 is not contaminated, thereby improving the cleaning efficiency of the mop 2000 and improving the cleaning effect.

The driving device 320 comprises a squeezing roller shaft 321 and a clutch 322, one end of the squeezing roller shaft 321 is connected with one end of the clutch 322, when the mop 2000 abuts against the squeezing roller shaft 321 to move, the squeezing roller shaft 321 is driven to rotate, specifically, in the process that the mop 2000 enters the sewage collection chamber 110, the cleaning piece 2220 drives the squeezing roller shaft 321 to rotate, so that the clutch 322 rotates, and the clutch 322 drives the water lifting device 310 to convey water to clean the cleaning piece 2220 of the mop 2000.

The water lifting device 310 comprises an auger 311 and a water pipe 312, the auger 311 is sleeved in the water pipe 312, one end of the auger 311 is arranged inside the clean water tank 120, the other end of the auger 311 is connected with the other end of a clutch 322, the clutch 322 is used for driving the auger 311 to rotate, the auger 311 is used for conveying liquid in the clean water tank 120 to the water outlet end of the water pipe 312 from the water inlet end of the water pipe 312, and further conveying the liquid to the water storage tank 122 and conveying the liquid to the mop 2000, and it can be understood that the outer wall of the auger 311 and the inner wall of the water pipe 312 are provided with gaps.

It is understood that during the movement of the mop 2000, the auger 311 is driven to rotate, so as to bring the liquid in the cleaning water tank 120 to the water outlet, and then the mop 2000 is washed, in this embodiment, the liquid in the cleaning water tank 120 is clean water, but in other embodiments, the liquid in the cleaning water tank 120 may also be a detergent mixture.

It will be appreciated that in this embodiment, the water pipe 312 may be fixedly mounted on the mop cover housing 220, and the auger 311 rotates to deliver the liquid to the reservoir 122. In other embodiments, the water pipe 312 and the packing auger 311 can be integrally formed and rotate together; in addition, it is also possible that one end of the middle shaft of the packing auger 311 close to the bottom of the cleaning water tank 120 is spherical, the bottom wall of the cleaning water tank 120 is provided with a spherical groove, one end of the middle shaft of the packing auger 311 close to the bottom of the cleaning water tank 120 is matched with the spherical groove, at this time, the packing auger 311 is rotatably supported against the bottom wall of the cleaning water tank 120, and the water pipe 312 and the packing auger 311 rotate together.

Referring to fig. 3, in other embodiments, the bottom opening of the water pipe 312 may further be provided with two loose-leaf plates 301, specifically, the number of the loose-leaf plates 301 is two, the loose-leaf plates 301 rotate clockwise to cooperate with the bottom opening of the water pipe 312 to close the bottom opening of the water pipe 312, it is easy to understand that, during the rotation of the water pipe 312 and the auger 311 together, under the impact of water flow, the loose-leaf plates 301 are opened, at this time, the liquid in the clean water tank 120 may be delivered to the water storage tank 122, when the rotation of the water pipe 312 and the auger 311 stops, at this time, a lot of liquid in the water pipe 312 is not delivered to the water storage tank 122, and under the action of gravity, the liquid closes the loose-leaf plates 301, so that the liquid in the clean water tank 120 may be more efficiently delivered to the water storage tank 122.

Referring to fig. 2 in combination with fig. 1, the clutch 322 includes an umbrella tooth 3221, a first clutch member 3222, a second clutch member 3223, and a connecting shaft 3224, the umbrella tooth 3221 is engaged with the other end of the packing auger 311, the umbrella tooth 3221 is engaged with a side of the first clutch member 3222 away from the pressing roller shaft 321, a first engaging tooth 32 is disposed on a side of the first clutch member 3222 away from the umbrella tooth 3221, a second engaging tooth 33 is disposed on a side of the second clutch member 3223 away from the pressing roller shaft 321, the first engaging tooth 32 is engaged with the second engaging tooth 33, and specifically, the first engaging tooth 32 and the second engaging tooth 33 are both inclined teeth, and the inclination directions of the first engaging tooth 32 and the second engaging tooth 33 are opposite.

One end of the connecting shaft 3224 is fixedly connected to the pressing roller shaft 321, and the other end of the connecting shaft 3224 is connected to the second clutch member 3223; the pressing roller shaft 321 is used for driving the connecting shaft 3224 to rotate, and the connecting shaft 3224 is used for driving the second clutch member 3223 to rotate along the first rotation direction, it can be understood that the second clutch member 3223 may be sleeved on an outer wall of the connecting shaft 3224, and the second clutch member 3223 is a cylindrical structure. Wherein, a projection is arranged at one side of the umbrella teeth 3221 close to the first clutch member 3222, a groove is arranged on the first clutch member 3222, and the projection is matched with the groove, so that the first clutch member 3222 can drive the umbrella teeth 3221 to rotate.

Second clutch member 3223 is configured to rotate in a first rotational direction to drive first clutch member 3222 in a first rotational direction; the second clutch member 3223 is configured such that, upon rotation of the second clutch member 3223 in a second rotational direction, the second clutch member 3223 disengages from the first clutch member 3222, the first rotational direction being opposite to the second rotational direction, it being understood that, with the relative positioning illustrated in fig. 2, the first rotational direction is the direction of clockwise rotation of the second clutch member 3223 about the axis and the second rotational direction is the direction of counterclockwise rotation of the second clutch member 3223 about the axis.

It should be noted that, in this embodiment, when the mop 2000 enters the sewage collecting chamber 110 through the cleaning inlet 210 and the squeezing port 410, specifically, during the downward movement of the mop 2000, the mop 2000 drives the squeezing roller shaft 321 to rotate clockwise, and then the clutch 322 also rotates clockwise, the umbrella teeth 3221 on the clutch 322 drives the packing auger 311 to rotate to lift the clean water in the cleaning water tank 120 to the water storage tank 122, and then the mop 2000 is cleaned, when the mop 2000 passes through the squeezing port 410 and the cleaning inlet 210 from the sewage collecting chamber 110, that is, during the reverse movement of the mop 2000, the mop 2000 drives the squeezing roller shaft 321 to rotate counterclockwise, and then the clutch 322 also rotates counterclockwise, the second clutch 3223 and the first clutch 3222 are disengaged, and at this time, the packing auger 311 stops rotating, and the clean water in the cleaning water tank 120 is no longer conveyed to the water storage tank 122.

The driving device 320 further includes a clutch spacer 323, the clutch spacer 323 is used for being clamped between the first mating tooth 32 of the first clutch 3222 and the second mating tooth 33 of the second clutch 3223 when the first clutch 3222 is disengaged from the second clutch 3223, so as to prevent the first mating tooth 32 and the second mating tooth 33 from mating, it can be understood that the clutch spacer 323 can be inserted between the first mating tooth 32 and the second mating tooth 33, so as to prevent the first mating tooth 33 and the second mating tooth 33 from mating, at this time, during the up-and-down movement of the mop 2000, the packing unit 311 does not rotate any more, and the clean water in the clean water tank 120 cannot be conveyed to the water storage tank 122, in this case, the cleaning member 2220 of the mop 2000 is pressed only by the water squeezing plate 400, so that the dirty water on the cleaning member 2220 is separated and enters the sewage collecting chamber 110.

With continued reference to fig. 1, the pressing saw tooth plate 420 is provided with saw teeth 421 at a side thereof adjacent to the cleaning inlet 210, and the saw teeth 421 are used for pressing the mop 2000.

Specifically, in this embodiment, the elliptical holes 10 are formed in the side walls of the middle cover 222, please refer to fig. 4, only one elliptical hole 10 is shown in fig. 4 for explanation, the other elliptical hole 10 is opposite to the elliptical hole 10, two ends of the serrated extrusion plate 420 are movably disposed in the two elliptical holes 10, the elliptical hole 10 is provided with a first position 11 and a second position 12, the first position 11 and the second position 12 are symmetrical with respect to the center of the elliptical hole 10, and in this embodiment, when no mop 2000 enters the extrusion opening 410, two ends of the serrated extrusion plate 420 are clamped in the middle of the elliptical hole 10.

The second position 12 is far away from the squeezing port 410 relative to the first position 11, the two ends of the squeezing serrated plate 420 move towards the first position 11 when being moved towards the sewage collection chamber 110 by the mop 2000, the squeezing serrated plate 420 is far away from the second position 12, the serrations 421 squeeze the mop 2000, the two ends of the squeezing serrated plate 420 move towards the second position 12 when being moved towards the sewage collection chamber 110 by the mop 2000, the squeezing serrated plate 420 is far away from the first position 11, and the serrations 421 contact the mop 2000.

It can be easily understood that, when the mop 2000 enters the sewage collecting chamber 110 through the cleaning inlet 210 and the pressing port 410, the cleaning member 2220 of the mop 2000 moves the pressing saw-toothed plate 420 downward, and a portion of the saw teeth 421 is inserted into the cleaning member 2220 to press the cleaning member 2220, so that the sewage on the cleaning member 2220 is separated. When the mop 2000 passes through the squeezing opening 410 and the cleaning inlet 210 from the sewage collecting chamber 110, the cleaning member 2220 of the mop 2000 drives the squeezing serrated plate 420 to move upward, and the serrations 421 move away from the cleaning member 2220, so that the mop 2000 can be moved out of the sewage collecting chamber 110 more easily.

Of course, in other embodiments, when no mop 2000 enters the pressing opening 410, the two ends of the pressing saw-tooth plate 420 can be movably disposed at the first position 11 of the elliptical hole 10, and the saw-teeth 421 press the cleaning members 2220 during the process that the mop 2000 enters the sewage collecting chamber 110, so as to separate the sewage on the cleaning members 2220.

Referring to fig. 5, a drain outlet 20 is formed on the sidewall of the mop cleaning bucket 1000 near the bottom, it is understood that a plug (not shown) is further provided at the sewage draining exit 20, the plug plugs the sewage draining exit 20, in the cleaning process, the mop cleaning bucket 1000 is convenient to move, the sewage discharge outlet 20 is communicated with the sewage collecting chamber 110, when the stopper is removed, the dirty water separated from the mop 2000 can be discharged to the outside through the discharge port, the inner wall of the tub 100 is further provided with a mop stopper 130, the mop stopper 130 is fixedly installed on the inner wall of the tub 100, and is located within the waste collection chamber 110, the mop stop plate 130 is adapted to abut the mop 2000, it being understood that, as the mop 2000 enters the waste collection chamber 110, due to the mop stop plate 130, the mop 2000 is pressed against the mop, the mop 2000 is not contacted with the sewage in the sewage collecting chamber 110, and the mop 2000 can be cleaned more efficiently.

Referring to fig. 6, fig. 6 shows a cleaning inlet side wall 50, the cleaning inlet side wall 50 is opposite to the water squeezing plate 400, the cleaning inlet side wall 50 is provided with guide wheels 40, specifically, two guide wheels 40, and the guide wheels 40 are used for abutting against one side of the mop plate 2210 far away from the cleaning piece 2220 during the process that the mop 2000 enters the sewage collection chamber 110 and can roll relative to the mop plate 2210, at this time, the mop rod 2100 is located between the two guide wheels 40.

The mop cleaning barrel 1000 comprises a barrel body 100 and a mop barrel cover 200, the mop barrel cover 200 is installed at a port of the barrel body 100, a sewage collecting cavity 110 is formed between the bottom of the inner wall of the barrel body 100 and the bottom of the inner wall of the barrel body 100, the sewage collecting cavity 110 is used for accommodating a mop 2000, the mop barrel cover 200 comprises a mop barrel cover shell 220, a cleaning water tank 120 and a water storage tank 122, the cleaning water tank 120 is installed on the mop barrel cover shell 220, the water storage tank 122 is arranged in the cleaning water tank 120, the cleaning water tank 120 and the water storage tank 122 are mutually separated, a cleaning inlet 210 is formed in one side, away from the bottom of the barrel body 100, of the mop barrel cover 200, and the cleaning inlet 210 is communicated with the sewage collecting cavity 110.

The mop cover 200 further comprises a cleaning mechanism 300, the cleaning mechanism 300 is mounted on the mop cover housing 220 100, the cleaning mechanism 300 comprises a water lifting device 310 and a driving device 320, the driving device 320 is used for being driven by the mop 2000, the driving device 320 is connected with the water lifting device 310, the driving device 320 is used for driving the water lifting device 310 to convey liquid in the cleaning water tank 120 to the water storage tank 122, the bottom wall of the water storage tank 122 is provided with a water outlet 1222, and the water outlet 1222 is used for conveying liquid in the water storage tank 122 to the mop 2000.

The mop cover 200 further comprises a wringing plate 400, the wringing plate 400 is mounted on one side of the cleaning water tank 120 close to the cleaning inlet 210, one side of the wringing plate 400 far away from the cleaning water tank 120 and the side wall of the cleaning inlet 210 define a squeezing port 410, the cleaning inlet 210 is communicated with the squeezing port 410, the cleaning inlet 210 and the squeezing port 410 are used for being sequentially penetrated into the sewage collection chamber 110 by the mop 2000, and the wringing plate 400 is used for squeezing the mop 2000 to separate the sewage on the mop 2000 from flowing into the sewage collection chamber 110.

The mop 2000 sequentially passes through the cleaning inlet 210 and the pressing port 410 into the sewage collecting chamber 110 or away from the sewage collecting chamber 110 sequentially passes through the pressing port 410 and the cleaning inlet 210 while the mop 2000 abuts against the driving means 320, specifically, the cleaning member 2220 of the mop 2000 abuts against and drives the driving means 320. The driving device 320 drives the water lifting device 310 to deliver the liquid in the clean water tank 120 to the water storage tank 122, the liquid flows from the water outlet 1222 of the water storage tank 122 to the mop 2000 through the water outlet channel 402 to wash the mop 2000, meanwhile, the pressing serrated plate 420 of the water squeezing plate 400 can squeeze the mop 2000, further squeeze the sewage on the mop 2000, and the sewage can flow into the sewage collection chamber 110 through the sewage discharge channel 401. The cleaning water tank 120 and the sewage collecting chamber 110 are separated from each other, and the liquid of the cleaning water tank 120 is not contaminated, thereby improving the cleaning efficiency of the mop 2000 and enhancing the cleaning effect.

The embodiment of the utility model also provides cleaning equipment, which comprises a mop 2000 and the mop cleaning barrel 1000, wherein the mop cleaning barrel 1000 is used for cleaning the mop 2000, so that the cleaning efficiency of the mop 2000 is improved, and the cleaning effect is improved.

The above description is only for the specific embodiment of the present invention, but the scope of the present invention is not limited thereto, and any changes or substitutions that can be easily conceived by those skilled in the art within the technical scope of the present invention are included in the scope of the present invention. Therefore, the protection scope of the present invention shall be subject to the protection scope of the appended claims.

Claims (10)

1. A mop cleaning bucket for cleaning a mop, comprising:

a tub (100);

the mop bucket cover (200) is arranged at the port of the bucket body (100), a sewage collecting chamber (110) is formed between the mop bucket cover (200) and the bottom of the inner wall of the bucket body (100), and the sewage collecting chamber (110) is used for accommodating the mop (2000);

the mop bucket cover (200) comprises a mop bucket cover shell (220), a cleaning water tank (120) and a water storage tank (122), the cleaning water tank (120) is arranged on the mop bucket cover shell (220), the water storage tank (122) is arranged in the cleaning water tank (120), and the cleaning water tank (120) and the water storage tank (122) are mutually separated; a cleaning inlet (210) is formed in one side, away from the bottom of the barrel body (100), of the mop barrel cover (200), and the cleaning inlet (210) is communicated with the sewage collecting chamber (110);

the mop bucket cover (200) further comprises a cleaning mechanism (300), the cleaning mechanism (300) is mounted on the mop bucket cover shell (220), the cleaning mechanism (300) comprises a water lifting device (310) and a driving device (320), the driving device (320) is used for being driven by the mop (2000), the driving device (320) is connected with the water lifting device (310), the driving device (320) is used for driving the water lifting device (310) to convey liquid in the cleaning water tank (120) to the water storage tank (122), a water outlet opening (1222) is formed in the bottom wall of the water storage tank (122), and the water outlet opening (1222) is used for conveying liquid in the water storage tank (122) to the mop (2000);

the mop bucket cover (200) further comprises a water squeezing plate (400), the water squeezing plate (400) is mounted on one side of the cleaning water tank (120) close to the cleaning inlet (210), one side of the water squeezing plate (400) far away from the cleaning water tank (120) and the side wall of the cleaning inlet (210) define a squeezing opening (410), the cleaning inlet (210) is communicated with the squeezing opening (410), the cleaning inlet (210) and the squeezing opening (410) are used for being sequentially penetrated into the sewage collecting chamber (110) by the mop (2000), and the water squeezing plate (400) is used for squeezing the mop (2000) to separate the sewage on the mop (2000) from flowing into the sewage collecting chamber (110);

the water squeezing plate (400) comprises a drainage plate (430) and a pressing serrated plate (420), the drainage plate (430) and the pressing serrated plate (420) are arranged at intervals, the drainage plate (430) is positioned on one side, away from the bottom of the barrel body (100), of the pressing serrated plate (420), a sewage drainage channel (401) is formed between the drainage plate (430) and the pressing serrated plate (420), the sewage drainage channel (401) is communicated with the sewage collection chamber (110), and the sewage drainage channel (401) is used for conveying sewage on the mop (2000) to the sewage collection chamber (110); the edge of the water outlet opening (1222) is connected with the drainage plate (430), a water outlet channel (402) is formed between one side of the drainage plate (430) far away from the pressing serrated plate (420) and the side wall of the cleaning water tank (120), the water outlet channel (402) is communicated with the water outlet opening (1222), and the water outlet channel (402) is used for conveying liquid in the water tank (122) to the mop (2000).

2. A mop cleaning bucket according to claim 1, wherein the drive means (320) includes a squeegee roller shaft (321) and a clutch (322), the squeegee roller shaft (321) and one end of the clutch (322) being connected, the mop (2000) being adapted to drive the squeegee roller shaft (321) in rotation when it is moved against the squeegee roller shaft (321);

the water lifting device (310) comprises an auger (311) and a water conveying pipe (312), the auger (311) is sleeved in the water conveying pipe (312), one end of the auger (311) is arranged inside the cleaning water tank (120), the other end of the auger (311) is connected with the other end of the clutch (322), and the clutch (322) is used for driving the auger (311) to rotate;

the packing auger (311) is used for conveying liquid in the clean water tank (120) from the water inlet end of the water conveying pipe (312) to the water outlet end of the water conveying pipe (312) and further conveying the liquid into the water storage tank (122).

3. The mop cleaning bucket of claim 2, wherein the clutch (322) includes a bevel gear (3221), a first clutch member (3222), a second clutch member (3223), and a connecting shaft (3224);

the bevel gear (3221) is meshed with the other end of the packing auger (311), the bevel gear (3221) is clamped with one side, away from the extrusion roller shaft (321), of the first clutch member (3222), a first matching gear (32) is arranged on one side, away from the bevel gear (3221), of the first clutch member (3222), a second matching gear (33) is arranged on one side, away from the extrusion roller shaft (321), of the second clutch member (3223), and the first matching gear (32) is matched with the second matching gear (33);

one end of the connecting shaft (3224) is fixedly connected with the squeezing roller shaft (321), and the other end of the connecting shaft (3224) is connected with the second clutch member (3223); the pressing roller shaft (321) is used for driving the connecting shaft (3224) to rotate, and the connecting shaft (3224) is used for driving the second clutch member (3223) to rotate in a first rotating direction;

the second clutch member (3223) is configured to rotate in a first rotational direction, driving the first clutch member (3222) in rotation in the first rotational direction;

the second clutch member (3223) is configured for disengagement of the second clutch member (3223) from the first clutch member (3222) upon rotation in a second rotational direction, the first rotational direction being opposite the second rotational direction.

4. The mop cleaning bucket according to claim 3, wherein the driving device (320) further comprises a clutch spacer (323), the clutch spacer (323) is used for being clamped between a first mating tooth (32) of the first clutch member (3222) and a second mating tooth (33) of the second clutch member (3223) when the first clutch member (3222) is disengaged from the second clutch member (3223) so as to prevent the first mating tooth (32) and the second mating tooth (33) from being mated.

5. The mop cleaning bucket according to claim 1, wherein a mop stop plate (130) is further arranged on the inner wall of the bucket body (100), the mop stop plate (130) is fixedly installed on the inner wall of the bucket body (100) and is located in the sewage collecting chamber (110), and the mop stop plate (130) is used for abutting against the mop (2000).

6. The mop cleaning barrel according to claim 1, characterized in that two elliptical holes (10) are formed in opposite side walls of the mop barrel cover, two ends of the pressing serrated plate (420) are movably arranged in the two elliptical holes (10), a first position (11) and a second position (12) are arranged on the elliptical holes (10), and the first position (11) and the second position (12) are symmetrical about the center of the elliptical hole (10);

the second position (12) is far away from the squeezing opening (410) relative to the first position (11), both ends of the squeezing serrated plate (420) are used for being moved to the first position (11) when the mop (2000) moves towards the sewage collection chamber (110), the water squeezing plate (400) is far away from the second position (12), and the serrated teeth (421) squeeze the mop (2000);

the two ends of the pressing serrated plate (420) are used for being moved to the second position (12) when the mop (2000) moves away from the sewage collecting chamber (110), the pressing serrated plate (420) is away from the first position (11), and the serrations (421) are contacted with the mop (2000).

7. The mop cleaning bucket according to claim 1, wherein a drain outlet (20) is formed in the side wall of the mop cleaning bucket near the bottom, and the drain outlet (20) is communicated with the sewage collecting chamber (110).

8. A cleaning device, comprising a mop (2000) and a mop cleaning bucket according to any one of claims 1 to 7 for cleaning the mop (2000).

9. The cleaning device according to claim 8, wherein the mop (2000) comprises a mop rod (2100) and a mop head (2200), wherein one end of the mop rod (2100) is hinged to the mop head (2200);

the mop head (2200) comprises a mop plate (2210) and a cleaning piece (2220), the cleaning piece (2220) is arranged on the mop plate (2210), the cleaning piece (2220) is used for cleaning the floor, one end of the mop rod (2100) is hinged to one side of the mop plate (2210) far away from the cleaning piece (2220);

the other side of the mop plate (2210) is also provided with a scraping plate (2300), and the scraping plate (2300) is used for cleaning the ground.

10. The cleaning apparatus of claim 9, wherein the mop plate (2210) comprises a first mounting plate (2211) and a second mounting plate (2212), the first mounting plate (2211) and the mop rod (2100) being hinged, the second mounting plate (2212) being mounted on the first mounting plate (2211), the cleaning member (2220) being mounted on a side of the second mounting plate (2212) remote from the first mounting plate (2211), the doctor blade plate (2300) being mounted on a side of the first mounting plate (2211);

the scraping plate (2300) comprises a scraping plate mounting plate (2310) and a cleaning scraping plate (2320), the cleaning scraping plate (2320) is mounted on the scraping plate mounting plate (2310), the cleaning scraping plate (2320) is used for cleaning the ground, and the scraping plate mounting plate (2310) is parallel to the first mounting plate (2211).

Images