CN217090639U - Water squeezing device, flat mop and cleaning tool - Google Patents

Abstract

The utility model discloses a crowded water installation, include: a mounting seat; a water stroking assembly; an extrusion assembly; the mounting seat is provided with a water squeezing channel, the water stroking assembly and the extruding assembly are respectively positioned on two sides of the water squeezing channel, and the water stroking assembly and the extruding assembly are oppositely arranged; when the mop plate moves upwards, the squeezing assembly squeezes the mop plate towards the water stroking assembly; a flat mop comprises a handle, a mop plate and mop cloth; the mop plate is provided with a plurality of through holes used for water permeation in the thickness direction, and the through holes are positioned at the positions of the near end parts of the two ends of the mop plate in the length direction; a cleaning tool comprises a mop barrel, a water squeezing device and a flat mop, wherein the water squeezing device is any one of the water squeezing devices, and the water squeezing device is connected with the mop barrel through a mounting seat. Compared with the prior art, the utility model has the characteristics of can reduce mop bucket manufacturing cost, and can improve the mop bucket and use experience degree.

Description

Water squeezing device, flat mop and cleaning tool

Technical Field

The utility model belongs to the technical field of cleaning supplies technique and specifically relates to a water-wringing device, dull and stereotyped mop and burnisher.

Background

At present, the water squeezing device for the flat mop cleaning barrel on the market comprises a scraping plate/a water squeezing roller, a mounting seat and an extrusion piece; the scraper/wringing roller and the extrusion piece are connected on the mounting seat, the scraper/wringing roller is used for scraping or extruding water on the mop cloth on the flat mop, and the extrusion piece is used for extruding the flat mop in the direction of the scraper/wringing roller.

The water squeezing mode is that water is squeezed when the mop moves from top to bottom, the water collecting device is required to be lifted or an independent water squeezing area is arranged for realizing the water squeezing mode, the first lifting mode is that the lifting device is arranged on a lifting handle, and then the lifting handle is opened and locked for squeezing the flat mop when in use, so that the structure of the mop bucket is complex and the cost is high; the second sets up crowded water district like CN209808257U alone, sets up two independent regions on the staving, is the washing district and the district of squeezing water respectively, has increased the die sinking cost of mop bucket to for the focus behind the staving dress water, the handle need set up on eccentric position, and this just leads to the outward appearance relatively poor, and also appears inclined to one side the condition easily during water lifting, uses the experience degree relatively poor.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the technical problem of providing a water squeezing device which can reduce the production cost of a mop bucket and improve the use experience of the mop bucket.

The utility model provides a technical scheme that above-mentioned technical problem adopted does: a wringing device comprising:

the mounting seat is used for connecting the barrel body and mounting the water stroking assembly and the extruding assembly;

the water smoothing assembly is used for squeezing out water in the mop cloth;

the squeezing assembly is used for squeezing the mop plate towards the water stroking assembly;

the mounting seat is provided with a water squeezing channel, the water stroking assembly and the extruding assembly are connected to the mounting seat, the water stroking assembly and the extruding assembly are respectively positioned on two sides of the water squeezing channel, and the water stroking assembly and the extruding assembly are oppositely arranged; the installation seat is provided with a cavity used for downward movement or rotation of the squeezing assembly, and when the mop plate moves upwards, the squeezing assembly squeezes the mop plate towards the water stroking assembly.

Compared with the prior art, the utility model has the advantages that the extrusion component can move or rotate downwards, so that when the mop plate moves upwards, the extrusion component extrudes the mop plate towards the water stroking component, thereby realizing water squeezing; when the mop bucket is arranged on the mop bucket, the mop bucket only needs to be provided with one area, and after the flat mop is cleaned, the water squeezing device squeezes out water on the mop cloth in the upward lifting process, so that the structure of the mop bucket is relatively simple, the structure of a die is also simple, and the die opening cost is low; meanwhile, the size of the mop bucket does not need to be increased, the handle position can be set in a mode of a common bucket, and the use experience is good.

Further, the mop plate also comprises a scraping blade connected with the mounting seat and used for scraping water on the mop plate; after the scraping piece is arranged, the scraping piece can scrape water on the back surface of the mop plate, so that the mop plate is not easy to drip after being squeezed, secondary pollution to the floor is not easy to cause, the use feeling of a user can be improved, and the mop plate is more humanized in use.

Furthermore, the scraping blade is positioned on the same side of the water squeezing channel and the squeezing component, and the scraping blade is positioned below the squeezing component; then when the length of doctor-bar in crowded water passageway is longer relatively, extrusion subassembly can also play certain limiting displacement to the doctor-bar for the doctor-bar is used in the power on the planker board great relatively, thereby can strike off the moisture on the planker board effectively, and, the clamp plate on the mount pad is located extrusion subassembly's below usually, doctor-bar accessible clamp plate push down can, need not set up the installation component to the doctor-bar in addition, thereby reduce the quantity of spare part, improve the packaging efficiency, and then reduction in production cost.

Furthermore, the water smoothing assembly is a water squeezing roller which is rotatably connected to the mounting seat, and at least part of the water squeezing roller is positioned in the water squeezing channel; after the arrangement, most of water extruded by the water extruding roller can directly drop into the mop bucket through the water extruding channel, and is not easy to enter the mounting seat, so that the situation that water is remained in the mounting seat for a long time and peculiar smell is generated is reduced.

Furthermore, the extrusion assembly comprises an extrusion sheet and a reset piece, one end of the extrusion sheet is rotatably connected to the mounting seat, and the other end of the extrusion sheet is positioned in the water extrusion channel; the cavity is positioned below the extrusion sheet and is used for accommodating the other end of the extrusion sheet when the extrusion sheet rotates downwards; the distance between the other end of the squeezing piece and the water smoothing assembly is larger than the thickness of the mop plate and smaller than the sum of the thickness of the mop plate and the thickness of the mop cloth; after the arrangement, the structure is simple, the use stability is good, the number of parts is small, the cost is relatively low, the installation is easy, the installation efficiency can be improved, and the production cost can be further reduced.

Furthermore, the reset piece is a tension spring, one end of the tension spring is connected to the mounting seat, and the other end of the tension spring is connected to the middle part of the extrusion sheet; then the extension spring sets up the back, when the extrusion piece rotated downwards or moved, the extension spring just was stretched, in the use, because the extension spring is the shrink state under natural stress state, even there is the foreign matter to enter into the extension spring position, can not influence the work of extension spring yet, and if be the spring, then the foreign matter enters into inside the spring easily, so stability in use is better.

The utility model discloses another purpose is: the flat mop comprises a handle, a mop plate and mop cloth, wherein one side of the mop plate is connected with the handle, and the other side of the mop plate is connected with the mop cloth; the mop plate is provided with a plurality of through holes used for water permeation in the thickness direction, and the through holes are located at the positions of the near end parts of the two ends of the mop plate in the length direction.

Compared with the prior art, the utility model discloses owing to set up a plurality of and be used for the ascending through-hole of permeable to water thickness side, then at crowded aquatic in-process, mention the back when the mop, the water droplet of following the mop board back down-flow on the mop board back is then absorbed by mop cloth through the through-hole easily for the water droplet is difficult for dripping subaerially, causes ground secondary pollution, and in case the water droplet drips subaerially, also influences user's sense organ, so still can improve user's use and experience.

Furthermore, at least one side of part of the through holes, which is close to the middle part of the mop plate, is provided with an inclined plane or a cambered surface for guiding water to enter the through holes; after the inclined plane or the cambered surface is arranged, under the guide of the inclined plane or the cambered surface, water drops on the mop plate can enter the through hole more easily, and are absorbed by the mop plate more easily, so that the possibility of dropping the water drops is lower, the stability is better, and the use experience degree is higher.

Furthermore, the through holes are at least divided into two rows along the width direction of the mop plate, and the two adjacent rows are distributed in a staggered manner; the staggered arrangement mode ensures that the probability of water drops entering the through holes is higher, and the use stability is better when the water drop collecting device is used.

Furthermore, the thickness of the two ends of the mop plate in the length direction is smaller than that of the middle part, and the surface of the mop plate connected with the mop cloth is a plane; after the arrangement, the mop plate can be easily inserted into the water squeezing channel on the premise of not influencing the working efficiency of the mop cloth, so that the use of a user is more convenient, the use feeling is better, and the mop cloth is more humanized.

The utility model discloses a further purpose is: the cleaning tool comprises a mop barrel, a water squeezing device and a flat mop, wherein the water squeezing device is any one of the water squeezing devices, and the water squeezing device is connected with the mop barrel through a mounting seat.

Compared with the prior art, the utility model adopts the water squeezing device, so that the mop bucket only needs to be provided with one area, and after the flat mop is cleaned, the water squeezing device squeezes out the water on the mop cloth in the upward lifting process, so that the structure of the mop bucket is relatively simple, the structure of the die is also simple, and the die sinking cost is lower; meanwhile, the size of the mop bucket does not need to be increased, the handle position can be set in a mode of a common bucket, and the use experience is good.

Preferably, the flat mop is any one of the flat mops described above; in the using process, the condition that the flat mop drips is not easy to occur, secondary pollution to the floor is not easy to cause, and the using experience is better.

Further, a connecting ring is arranged on a bucket opening of the mop bucket, and the mounting seat is connected with the connecting ring; after the connecting ring is arranged, the whole mop bucket is more regular, the structure is simpler, the die sinking difficulty of the mop bucket is lower, and the die sinking cost of the mop bucket is reduced; the whole connecting ring is relatively small, and the die opening difficulty cannot be increased even if a plurality of buckles are arranged, so that the connecting ring can be connected with the mop barrel through the buckles, and the connecting mode can be quickly disassembled and is convenient to assemble on the premise of ensuring the connecting strength; in addition, the molding of the mounting seat is facilitated, and the production cost of the mounting seat is reduced.

Further, a handle is rotatably connected to the connecting ring, and the mounting seat is connected with the handle; a locking mechanism is arranged between the handle and the connecting ring, the handle is locked when being stored and locked, and the water squeezing channel can be used for squeezing water only after the handle is stored and locked; after the arrangement, the handle and the mounting seat are integrally formed, so that parts can be reduced, the production efficiency is improved, and the production cost is reduced; and after the handle is erected, the barrel opening is relatively less shielded, so that the mop barrel is convenient to feed water and pour water, and the use convenience is better.

Furthermore, a scraper for scraping hair of the flat mop is also arranged on the connecting ring; the scraper can scrape the hair on the flat mop after being arranged, so that the flat mop can be continuously used for a long time by a user without frequently manually removing the hair, and the use is more convenient.

Further, the mop bucket also comprises a buckle connected with the mop bucket or the connecting ring, and the buckle is used for clamping the flat mop; after the buckles are arranged, when the flat mop needs to be poured after being cleaned, the flat mop can be clamped on the mop barrel, the water tank is directly lifted for pouring and cleaning, the flat mop does not need to be additionally placed, and therefore the use is more convenient and humanized.

Drawings

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

FIG. 1 is a schematic view of a wringing device according to an embodiment;

FIG. 2 is a schematic view of a wringing device according to an embodiment with an upper cover plate removed;

FIG. 3 is a cross-sectional view of a wringing device according to an embodiment;

FIG. 4 is an exploded view of a wringer device according to an embodiment;

FIG. 5 is a schematic structural view of a second wringing device according to an embodiment;

FIG. 6 is a sectional view of a second wringing device according to an embodiment;

FIG. 7 is an enlarged view of portion A of FIG. 6;

FIG. 8 is a schematic structural view of an embodiment of a three-flat mop;

FIG. 9 is a cross-sectional view taken along line A-A of FIG. 8;

FIG. 10 is a schematic structural view of a four flat mop according to an embodiment;

FIG. 11 is a cross-sectional view taken along line B-B of FIG. 10;

FIG. 12 is a schematic perspective view of a four-plate mop according to an embodiment;

FIG. 13 is a schematic structural view of another embodiment of the flat mop;

FIG. 14 is a schematic diagram of an embodiment of a five-embodiment cleaning tool;

FIG. 15 is a schematic structural view of another embodiment of a sixth cleaning tool of the present invention;

FIG. 16 is a schematic structural view of a wringing device according to yet another embodiment of a seven-embodiment cleaning tool;

FIG. 17 is a partial cross-sectional view of a wringing device according to yet another embodiment of a seven-embodiment cleaning tool;

FIG. 18 is a schematic structural view of a wringing device of yet another embodiment of an eight-embodiment cleaning tool.

Wherein the reference numerals are specified as follows:

01. a water squeezing device; 1. a mounting seat; 101. an upper cover plate; 102. a base; 103. a wringing channel; 104. a containing groove; 2. a water stroking assembly; 201. a water squeezing stick; 202. a shaft; 3. an extrusion assembly; 301. a support frame; 302. extruding the sheet; 303. a tension spring; 304. a first connection block; 305. a second connecting block; 306. a rotating shaft; 307. a rotating shaft hole; 4. scraping a blade; 401. a working end; 402. a connecting end;

02. a flat mop; 5. a handle; 6. a mop plate; 7. mop cloth; 8. a socket; 9. a barb; 10. a through hole; 11. a cambered surface;

03. a mop bucket; 12. a barrel body; 13. a handle; 14. a connecting ring; 15. a hook is clamped; 16. a bayonet; 17. a scraper; 1701. a connecting frame; 1702. a shaving board; 18. and (5) buckling.

Detailed Description

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

In order to make the objects, technical solutions and advantages of the present invention more clearly understood, the present invention is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the invention.

It will be understood by those skilled in the art that in the disclosure of the present invention, the terms "longitudinal", "lateral", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", etc., indicate orientations or positional relationships that are based on those shown in the drawings, which are merely for convenience in describing the present invention and to simplify the description, and do not indicate or imply that the device or element so referred to must have a particular orientation, be constructed and operated in a particular orientation, and therefore the terms described above should not be considered limiting to the present invention.

Example one

As shown in fig. 1 to 4, a wringing device 01 includes: the mounting seat 1 is used for connecting the barrel body 12 and mounting the water stroking assembly 2 and the extrusion assembly 3, the mounting seat 1 is divided into an upper cover plate 101 and a base 102, the upper cover plate 101 is provided with a water squeezing channel 103, the base 102 is provided with a cavity facing the water squeezing channel 103, the water squeezing channel 103 penetrates through the mounting seat 1, and the base 102 is provided with a containing groove 104 for containing the extrusion assembly 3;

the water stroking component 2 is used for squeezing out water in the mop cloth 7; the water smoothing assembly 2 comprises a water squeezing stick 201 (which can also be a scraper, specifically, different types of water smoothing assemblies 2 are selected according to different mop cloths 7) and a shaft 202, the shaft 202 is connected to the upper cover plate 101, the water squeezing stick 201 is rotatably sleeved on the shaft 202, and part of the water squeezing stick 201 is positioned in the water squeezing channel 103;

the squeezing component 3 is used for squeezing the mop plate 6 towards the water stroking component 2; the squeezing component 3 comprises a support frame 301, a squeezing piece 302 and a tension spring 303, wherein a rotating shaft hole 307 is formed in the lower end of the support frame 301, a raised rotating shaft 306 is arranged on two sides of one end of the squeezing piece 302, one end of the squeezing piece 302 is rotatably connected to the lower end of the support frame 301 through the matching of the rotating shaft 306 and the rotating shaft hole 307, the other end of the squeezing piece 302 is located in the squeezing channel 103, and a first connecting block 304 connected with one end of the tension spring 303 is arranged in the middle of the squeezing piece 302; the upper end of the support frame 301 is provided with a second connecting block 305 connected with the other end of the tension spring 303; during assembly, the rotating shaft 306 at one end of the extrusion piece 302 is matched with the rotating shaft hole 307 at the lower end of the support frame 301, then one end of the tension spring 303 is hooked on the first connecting block 304, and then the other end of the tension spring 303 is hooked on the second connecting block 305; during the equipment, because extrusion piece 302 and extension spring 303 all install support and add, then assemble extrusion piece 302 and extension spring 303 to support frame 301 earlier, later with support frame 301 insert the storage tank 104 in can, so extrusion subassembly 3 is the design of module, can improve the packaging efficiency by a wide margin, and then reduction production and maintenance cost.

The number of the accommodating grooves 104 on the base 102 is two, the two accommodating grooves 104 face the wringing sticks 201, the two accommodating grooves 104 are horizontally distributed, and the side walls of the accommodating grooves 104 far away from the wringing channel 103 are inclined planes, so that the upper end openings of the accommodating grooves 104 are larger than the lower end openings of the accommodating grooves 104, when the supporting frame 301 is connected in the accommodating grooves 104, the supporting frame 301 is attached to the wringing channel 103, and the supporting frame 301 is more stable in the accommodating grooves 104; the squeezing sheet 302 and the wringing stick 201 are respectively positioned at two sides of the wringing channel 103, the squeezing sheet 302 faces the wringing stick 201, and the lower corner at the other end of the squeezing sheet 302 is chamfered, so that when the mop plate 6 moves upwards, the mop plate 6 is more easily squeezed into the space between the squeezing sheet 302 and the wringing stick 201, and the use feeling is improved; the mounting base 1 is provided with a cavity for downwards moving or rotating the squeezing sheet 302, when the mop plate 6 upwards moves, the squeezing sheet 302 squeezes the mop plate 6 towards the water squeezing stick 201, thereby realizing the water squeezing of the mop cloth 7 on the mop plate 6.

Example two

As shown in fig. 5 to 7, the wringing device 01 further includes a scraping blade 4 connected to the mounting base 1, the scraping blade 4 is located between the upper cover plate 101 and the base 102, and is clamped by the upper cover plate 101 and the base 102, the scraping blade 4 extends along the inner wall of the wringing channel 103 at the side where the squeezing sheet 302 is provided, and the scraping blade 4 is located below the squeezing sheet 302; the front end of the scraping blade 4 is a working end 401, the working end 401 is positioned in the water squeezing channel 103, the working end 401 is of a wedge-shaped structure and has certain deformability and supporting force, so that the scraping blade 4 is relatively attached to the back of the mop plate after contacting with the back of the mop plate, and residual water on the back of the mop plate 6 can be more easily scraped; the rear end of the wiper blade 4 is a connecting end 402, the connecting end 402 is of a T-shaped structure, and after the connecting end 402 is clamped by the upper cover plate 101 and the base 102, the connecting end 402 is pressed to be limited, and the T-shaped structure can play a role in stopping, so that the connecting stability of the wiper blade 4 is better, and wiping is more effective.

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

EXAMPLE III

As shown in fig. 8 and 9, a flat mop 02 includes a handle 5, a mop plate 6 and mop cloth 7 (not shown in the drawings), wherein an inserting seat 8 is arranged on the back (one side) of the mop plate 6, the inserting seat 8 can rotate 360 degrees, the mop plate 6 is inserted into the handle 5 through the inserting seat 8 (or connected with the handle 5 by screw threads, etc.), and the handle 5 is a multi-section detachable handle 5 (also can be a telescopic handle), so that the flat mop is convenient to store in the packaging process, the packaging size is reduced, and the packaging cost and the logistics cost are reduced; the front surface (the other side) of the mop plate 6 is provided with the plurality of barbs 9, one surface of the mop cloth 7 is a fiber surface, the fiber surface can be connected with the plurality of barbs 9 to form magic adhesive connection, the mop cloth 7 after connection has better flatness and better connection firmness, the mop plate is not easy to wrinkle during wringing, and the wringing effect of the mop cloth 7 is ensured; the mop plate 6 is provided with a plurality of through holes 10 used for water permeation in the thickness direction, the through holes 10 penetrate through the front and the back of the mop plate 6, and the through holes 10 are located at the positions of the proximal end parts of the two ends of the mop plate 6 in the length direction. The through holes 10 are arranged in at least two rows (three rows, or two rows (as shown in fig. 13), four rows, five rows or six rows, etc.) at two ends of the mop plate 6 along the width direction of the mop plate 6, and the adjacent two rows are distributed in a staggered manner, so that the probability of water drops entering the through holes 10 is higher, and the use stability is better. Through holes 10 are further arranged on two sides of the through holes 10 which are arranged in a staggered mode, the size of each through hole 10 is smaller than that of the through holes 10 which are arranged in a staggered mode, the through holes 10 also play a role in guiding water of the mop plate 6 to the mop cloth 7, but the water can be quickly discharged when the mop cloth 7 at the two ends is squeezed when water is accumulated, and the dewatering effect of the two ends of the mop cloth 7 is guaranteed.

Example four

As shown in fig. 10 to 12, at least a part of the through holes 10 (in this embodiment, all or part of the through holes) of the plurality of through holes 10 are provided with an inclined surface or an arc surface 11 for guiding water to enter the through holes 10, in this embodiment, the arc surface 11 (of course, the inclined surface is also available), and the direction of guiding water drops by the arc surface 11 is more, so that water can enter the through holes 10 more easily, the water guiding effect is better, the mold opening of the arc surface 11 is easier, and the mold opening cost is lower.

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

EXAMPLE five

As shown in fig. 14, a cleaning tool comprises a mop bucket 03, a water squeezing device 01 and a flat mop 02;

the mop bucket 03 includes:

a tub 12, a cylindrical tub 12, for containing water;

the handle 13 is hinged at the opening of the barrel body 12, so that a user can conveniently lift and pour water;

the wringing device 01 includes:

the mounting seat 1 is divided into an upper cover plate 101 and a base 102, the upper cover plate 101 is provided with a water squeezing channel 103, the base 102 is provided with a cavity facing the water squeezing channel 103, the water squeezing channel 103 penetrates through the mounting seat 1, and the base 102 is provided with a containing groove 104 for containing the squeezing assembly 3; the upper cover plate 101 is connected to the bucket opening of the mop bucket 03, and the water squeezing channel 103 is positioned in the bucket opening of the mop bucket 03; the mounting seat 1 is connected with the barrel body 12;

the water smoothing assembly 2 comprises a water squeezing stick 201 (which can also be a scraper, specifically, different types of water smoothing assemblies 2 are selected according to different mop cloths 7) and a shaft 202, the shaft 202 is connected to the upper cover plate 101, the water squeezing stick 201 is rotatably sleeved on the shaft 202, and part of the water squeezing stick 201 is positioned in the water squeezing channel 103;

the squeezing component 3 comprises a supporting frame 301, a squeezing piece 302 and a tension spring 303, a rotating shaft hole 307 is formed in the lower end of the supporting frame 301, protruding rotating shafts 306 are arranged on two sides of one end of the squeezing piece 302, one end of the squeezing piece 302 is rotatably connected to the lower end of the supporting frame 301 through the matching of the rotating shafts 306 and the rotating shaft hole 307, the other end of the squeezing piece 302 is located in the water squeezing channel 103, and a first connecting block 304 connected with one end of the tension spring 303 is arranged in the middle of the squeezing piece 302; the upper end of the support frame 301 is provided with a second connecting block 305 connected with the other end of the tension spring 303; during assembly, the rotating shaft 306 at one end of the pressing piece 302 is matched with the rotating shaft hole 307 at the lower end of the supporting frame 301, then one end of the tension spring 303 is hooked on the first connecting block 304, and then the other end of the tension spring 303 is hooked on the second connecting block 305.

The flat mop 02 includes:

the handle 5, the handle 5 is a telescopic handle 5;

the mop plate 6 is characterized in that a plug socket 8 is arranged on the back (one side) of the mop plate 6, the plug socket 8 can rotate 360 degrees, and the mop plate 6 is plugged with the handle 5 through the plug socket 8; the front side (the other side) of the mop plate 6 is provided with a plurality of barbs 9; the mop plate 6 is provided with a plurality of through holes 10 used for water permeation in the thickness direction, the through holes 10 penetrate through the front and the back of the mop plate 6, and the through holes 10 are positioned at the positions of the near end parts of the two ends of the mop plate 6 in the length direction; the through holes 10 are arranged in three rows at two ends of the mop plate 6 along the width direction of the mop plate 6, and the adjacent two rows are distributed in a staggered manner;

mop cloth 7, mop cloth 7's one side is the fibre face, and the fibre face can be connected with a plurality of barb 9 and form the connection of devil's-sticky formula.

When in use, the used flat mop 02 is cleaned at one side of the bucket opening without the water squeezing device 01, or is directly moved up and down in the water squeezing channel 103 of the water squeezing device 01 for cleaning; if the first cleaning mode is adopted, after cleaning is finished, the flat mop 02 is lifted, then the flat mop is inserted into the water squeezing channel 103, and finally the flat mop 02 is lifted to squeeze the mop cloth 7; if the cleaning mode is the second cleaning mode, after the cleaning is finished, the flat mop 02 can be directly lifted to squeeze the mop cloth 7.

EXAMPLE six

As shown in fig. 15, the connecting ring 14 is arranged on the opening of the mop bucket 03, and the mounting seat 1 and the connecting ring 14 are integrally formed, so that a pair of dies can be reduced, and the mounting procedure can be reduced, thereby greatly reducing the production cost; the connecting ring 14 is provided with a plurality of insertion ports, the barrel mouth is provided with insertion buckles corresponding to the insertion ports one by one, and the connecting ring 14 is inserted into the barrel body 12.

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

EXAMPLE seven

As shown in fig. 16 and 17, the handle 13 is rotatably connected to the connecting ring 14, and the handle 13 is integrally formed with the mounting base 1; a locking mechanism is arranged between the handle 13 and the connecting ring 14, the handle 13 is locked when the handle 13 is used for storage, and the water squeezing channel 103 can be used for squeezing water after the handle 13 is locked; the locking mechanism (the locking mechanism can also use other locking mechanisms applied by the applicant in another application) comprises a hook 15 rotationally connected to the handle 13 and a torsion spring for resetting the hook 15, a bayonet 16 matched and locked with the hook 15 is arranged on the connecting ring 14, when the handle 13 is stored, the hook 15 is matched and clamped with the bayonet 16, the handle 13 is locked at the current position, if unlocking is needed, the other end of the hook 15 is pressed, so that the hook 15 is separated from the bayonet 16, the handle 13 can be rotated, and the barrel can be lifted through the handle 13.

The connecting ring 14 is also provided with a scraper 17 for scraping hairs of the flat mop 02; the scraper 17 and the water squeezing device 01 are respectively positioned at two sides of the rotating shaft of the handle 13; the scraper 17 comprises a connecting frame 1701 and a toothed (in this example, a plurality of columnar protrusions or a plurality of toothed protrusions) hair scraping plate 1702, the connecting frame 1701 is clamped with the connecting ring 14, a hair removing channel is arranged on the connecting frame 1701, the hair scraping plate 1702 is positioned in the hair removing channel, and the flat mop 02 can scrape the hair on the mop cloth 7 by moving up and down in the hair removing channel.

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

Example eight

As shown in fig. 18, a buckle 18 connected with the connecting ring 14 is further included (the buckle 18 can also be connected to the barrel 12), the buckle 18 and the water squeezing device 01 are respectively located at two sides of the rotating shaft 306 of the handle 13, the buckle 18 is a C-shaped buckle, the buckle 18 is used for clamping the flat mop 02, and after the buckle 18 is arranged, the hair scraper 17 is not arranged; when the flat mop 02 needs to be poured after being cleaned, the handle 5 of the flat mop 02 can be clamped on the buckle 18, and then the water tank is directly lifted for pouring and cleaning, so that the flat mop 02 does not need to be additionally placed, and secondary pollution is not easily caused.

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

The above is to the utility model discloses going on the detailed introduction, having used specific individual example to right in this paper the utility model discloses a principle and implementation mode have been elucidated, and the explanation of above embodiment only is used for helping understanding the utility model discloses and core thought. It should be noted that, for those skilled in the art, without departing from the principle of the present invention, the present invention can be further modified and modified, and such modifications and modifications also fall within the protection scope of the appended claims.

Claims (15)

1. A wringing device comprising:

the mounting seat (1) is used for connecting the barrel body (12) and mounting the water stroking assembly (2) and the extrusion assembly (3);

the water smoothing assembly (2) is used for squeezing out water in the mop cloth (7);

the squeezing component (3) is used for squeezing the mop plate (6) towards the water stroking component (2);

the method is characterized in that: a water squeezing channel (103) is arranged on the mounting seat (1), the water stroking assembly (2) and the extruding assembly (3) are connected to the mounting seat (1), the water stroking assembly (2) and the extruding assembly (3) are respectively positioned on two sides of the water squeezing channel (103), and the water stroking assembly (2) and the extruding assembly (3) are oppositely arranged; the installation seat (1) is provided with a cavity for downward movement or rotation of the squeezing component (3), and when the mop plate (6) moves upward, the squeezing component (3) squeezes the mop plate (6) towards the water stroking component (2).

2. The wringing device of claim 1, wherein: the mop also comprises a scraping blade (4) connected with the mounting seat (1) and used for scraping water on the mop plate (6).

3. The wringing device of claim 2, wherein: the scraping blade (4) is positioned on the same side of the water squeezing channel (103) and the squeezing component (3), and the scraping blade (4) is positioned below the squeezing component (3).

4. The wringing device of claim 1, wherein: the water smoothing assembly (2) is a water squeezing roller, the water squeezing roller is rotatably connected to the mounting base (1), and at least part of the water squeezing roller is located in the water squeezing channel (103).

5. The wringing device of claim 1, wherein: the squeezing assembly (3) comprises a squeezing sheet (302) and a resetting piece, one end of the squeezing sheet (302) is rotatably connected to the mounting seat (1), and the other end of the squeezing sheet (302) is positioned in the water squeezing channel (103); the cavity is positioned below the extrusion sheet (302) and is used for accommodating the other end of the extrusion sheet (302) when the extrusion sheet (302) rotates downwards; the distance between the other end of the squeezing piece (302) and the water smoothing assembly (2) is larger than the thickness of the mop plate (6) and smaller than the sum of the thickness of the mop plate (6) and the thickness of the mop cloth (7).

6. The wringing device of claim 5, wherein: the piece that resets is extension spring (303), and the one end of extension spring (303) is connected on mount pad (1), and the middle part at extrusion piece (302) is connected to the other end of extension spring (303).

7. The utility model provides a flat mop, it includes handle (5), mop board (6) and mop cloth (7), its characterized in that: one side of the mop plate (6) is connected with the handle (5), and the other side of the mop plate (6) is connected with the mop cloth (7); the mop plate (6) is provided with a plurality of through holes (10) which are used for water permeation in the thickness direction, and the through holes (10) are positioned at the positions of the near end parts of the two ends of the mop plate (6) in the length direction.

8. The flat mop of claim 7, wherein: at least one side of the through holes (10) close to the middle part of the mop plate (6) in the through holes (10) is provided with an inclined surface or an arc surface (11) for guiding water to enter the through holes (10).

9. The flat mop of claim 7 or 8, wherein: the through holes (10) are at least divided into two rows along the width direction of the mop plate (6), and the two adjacent rows are distributed in a staggered manner.

10. A cleaning implement comprising a mop bucket (03), a wringer device (01) and a flat mop (02), characterized in that: the water squeezing device (01) is as claimed in any one of claims 1 to 6, and the water squeezing device (01) is connected with the mop bucket (03) through the mounting seat (1).

11. The cleaning implement of claim 10, wherein: the flat mop (02) is as claimed in any one of claims 7 to 9.

12. The cleaning implement of claim 10, wherein: the mop bucket (03) is characterized in that a connecting ring (14) is arranged on the bucket opening, and the mounting seat (1) is connected with the connecting ring (14).

13. The cleaning implement of claim 12, wherein: the connecting ring (14) is rotatably connected with a handle (13), and the mounting seat (1) is connected with the handle (13); a locking mechanism is arranged between the handle (13) and the connecting ring (14), the handle (13) is locked when the handle (13) is used for storage, and the water squeezing channel (103) can be used for squeezing water after the handle (13) is locked.

14. The cleaning implement of claim 12, wherein: a scraper for scraping hair of the flat mop (02) is also arranged on the connecting ring (14).

15. The cleaning implement of claim 12, wherein: the mop bucket also comprises a buckle (18) connected with the mop bucket (03) or the connecting ring (14), and the buckle (18) is used for clamping the flat mop (02).

Images