CN112263195A

CN112263195A - Transverse water wiping method for flat mop and transverse water wiping mop bucket

Info

Publication number: CN112263195A
Application number: CN202011154633.XA
Authority: CN
Inventors: 赖依祥
Original assignee: Dongguan Guangmeihua Technology Co ltd
Current assignee: Dongguan Guangmeihua Technology Co ltd
Priority date: 2020-04-21
Filing date: 2020-10-26
Publication date: 2021-01-26
Anticipated expiration: 2040-10-26
Also published as: CN212489800U; CN112263195B

Abstract

The invention discloses a transverse water wiping method and a transverse water wiping mop bucket for a flat mop, wherein a mop is firstly put into clean water for cleaning; then the cleaned mop is placed on the water wiping mechanism, so that the mop and the water wiping mechanism are contacted with each other; then the mop is pressed downwards to push the water wiping mechanism to move transversely along the bottom surface of the mop, and water of the mop is wiped off through the transverse movement of the water wiping mechanism; and finally, loosening the mop to enable the wiping mechanism to return, and repeating the operation until the mop is wiped clean. The flat mop is initiatively wiped by sliding from the bottom surface, so that the operation is more convenient and easier, the mop can be easily pressed down without using a large force, the lifting process is automatically realized by the resetting mechanism, the labor is saved, and the mop bucket cannot be lifted by the mop; the mop can obtain larger extrusion force by pressing from top to bottom, so that the mop can be scraped more thoroughly and cleaner; and the mop can not be torn down, thereby improving the use convenience.

Description

Transverse water wiping method for flat mop and transverse water wiping mop bucket

Technical Field

The invention relates to the technical field of cleaning tools, in particular to a water wiping method for a flat mop and a water wiping mop bucket.

Background

Mop and mop bucket are the clear important instrument of house, and current mop bucket is of a great variety, the function is diversified, has some mop buckets to have the function of washing and dehydration, and the user is when wasing the mop, directly stretches into the mop bucket with the mop earlier, and the mop head soaks the aquatic in the mop bucket, then puts into the mop head and dewaters in the dehydration basket. However, the flat mop cannot be dehydrated due to its structural limitation. In order to clean and dewater the flat mop and prevent dirt and garbage from remaining on the mop cloth, some mop buckets specially designed for cleaning and squeezing the flat mop are designed, such as the squeezing method of the flat mop and the cleaning tool of the flat mop disclosed in patent CN 201910181435.3.

However, the existing water squeezing method for the flat mop and the mop bucket have the following defects that firstly, the flat mop is dewatered by adopting a vertical water squeezing method, and the flat mop is inserted into the bucket from a stroke opening of the mop bucket in a transverse vertical mode to be pulled up and down for squeezing water. However, in order to squeeze the mop more cleanly during water squeezing, enough squeezing force needs to be applied to the mop bucket, so that the stroking opening (water squeezing opening) of the mop bucket is made to be narrow, which causes great effort during up-and-down pulling, and is particularly difficult for children and old people to operate; secondly, the mop needs a large force to be pulled up and down, the mop is squeezed tightly by the stroking opening, and the mop bucket is not heavy, so the mop bucket can be easily lifted together with the mop bucket, and the water squeezing operation is very inconvenient. Some mop buckets are stepped by feet through arranging the stepping parts, so that the mop buckets are prevented from being lifted, but firstly, the structure of the mop bucket is more complicated, and secondly, the mop bucket cannot stand in the best force applying mode, so that the mop bucket is inconvenient to apply force and pull; thirdly, since the opening is narrow, in order to prevent the mop from being pulled off, the mop needs to be fixed by a buckle structure and a magic tape, which leads to a more complex structure and causes inconvenience for users. Fourth, since it is necessary to ensure that the mop can enter the squeezing area and be pulled up and down, the opening cannot be narrowed too much, so that although some water can be squeezed out, the squeezing force is still insufficient, which causes the dewatering effect to be unsatisfactory, and some water will remain on the mop.

Disclosure of Invention

The invention aims to solve the technical problem of the prior art and provides a transverse water wiping method and a transverse water wiping mop bucket, which have the advantages of simpler water wiping operation, more convenient use, more labor saving and high efficiency, better water squeezing effect and dirt cleaning effect, and are beneficial to protecting a mop cloth from being pulled off and aiming at a flat mop.

In order to solve the technical problems, the invention adopts the following technical scheme: a transverse water wiping method for a flat mop is characterized in that: comprises the following steps of (a) carrying out,

s1, cleaning the flat mop with clear water;

s2, making the mop cloth on the bottom of the cleaned flat mop contact with the water wiping mechanism;

s3, the flat mop is pressed downwards, the wiping mechanism is pushed to move transversely along the bottom surface of the mop, and water of the mop is wiped by wiping the mop when the wiping mechanism moves transversely;

and S4, releasing the press on the flat plate handle to restore the wiping mechanism to the original position, pressing the mop downwards again to wipe water, and repeating the operation until the mop is wiped clean.

The water wiping mechanism is provided with a left part and a right part, the two water wiping mechanisms are folded to be aligned with the middle position of the flat mop before water is wiped, and the two water wiping mechanisms respectively move towards the left end and the right end of the flat mop in a synchronous and transverse mode to wipe water on the mop when water is wiped under pressure.

The utility model provides a horizontal water mop bucket of scraping to dull and stereotyped mop, is provided with the water district of scraping including the staving in the staving, is provided with in the water district of scraping and scrapes water mechanism, its characterized in that: the water wiping mechanism is movably arranged on a lifting seat to form a structure capable of transversely sliding left and right in a water wiping area when moving up and down along with the lifting seat; the lifting seat is arranged in the water scraping area through a lifting guide mechanism and is provided with a reset mechanism for driving the lifting seat to automatically ascend and return; the wiper mechanism and the lifting seat are arranged in the wiper area (such as close to the upper part) together to form a structure that the mop can be pressed and moved downwards after being placed on the wiper mechanism; the mop is placed on the water wiping mechanism, then the water wiping mechanism is contacted with the mop cloth on the bottom surface of the mop, and the water wiping mechanism is moved left and right by pressing the mop, so that water and dirt on the mop cloth are wiped off.

The water scraping mechanism is provided with a scraping strip, the mop is placed on the water scraping mechanism, then the scraping strip is contacted with a mop cloth on the bottom surface of the mop, the scraping strip is pressed by the mop to enable the water scraping mechanism to drive the scraping strip to move left and right, and water and dirt on the mop cloth are scraped by the scraping strip.

Furthermore, the water wiping mechanism also comprises a sliding seat and a roller strip, wherein both sides of the sliding seat are provided with fixing walls which are convex upwards to form a groove-shaped structure, and a water draining hole is arranged in the groove bottom area of the sliding seat; the scraping strip is transversely fixed on the fixed walls at the two sides of the sliding seat and is vertical to the sliding direction of the sliding seat, so that the top of the scraping strip protrudes out of the fixed walls to abut against the bottom surface of the flat mop; the two ends of the roller strip are connected with the fixed wall through rotating shafts to form a rotatable structure, and the rotating direction of the roller strip is the same as the sliding direction of the sliding seat; the protruding part of the roller strip is basically flush with the top end of the scraping strip so as to abut against the bottom surface of the flat mop, and the structure for reducing the friction resistance of the water scraping mechanism in the sliding process is formed by the rotation and the rolling of the roller strip.

Furthermore, the water wiping mechanisms comprise a left group and a right group which are arranged in a left-right symmetrical mode, water is wiped at two sides simultaneously, and the water wiping effect is better; the bottom of the sliding seat is connected with a guide sliding seat, and the front end and the rear end of the guide sliding seat are provided with sliding shafts vertical to the sliding direction of the water wiping mechanism; an inner box is arranged in the water scraping area, two lifting sliding grooves are respectively arranged on the front side wall and the rear side wall of the inner box, the two lifting sliding grooves are respectively arranged in an inclined mode to form a splayed structure, the front sliding shaft and the rear sliding shaft of the guide sliding seat are respectively embedded in the lifting sliding grooves on the front side wall and the rear side wall of the inner box through sliding shaft sleeves, and a structure capable of achieving lifting sliding and horizontal sliding is formed.

Furthermore, a supporting table is arranged on the lifting seat, the sliding seat is arranged above the supporting table, the guide sliding seat is positioned below the supporting table, and the bottom of the sliding seat penetrates through a strip-shaped sliding hole in the supporting table and is fixedly connected with the guide sliding seat to form a synchronous sliding structure; draining holes are distributed on the supporting table, guide grooves are formed in the front side and the rear side of the supporting table, at least one group of transverse guide wheels are arranged on the bottom surfaces of the left side and the right side of the sliding seat respectively, and the transverse guide wheels are arranged in the guide grooves to form a guide structure for the transverse movement process of the water wiping mechanism; the middle of the bottom of the supporting table and the left and right sides of the supporting table are respectively provided with a stopping part, and the left and right sides of the guide sliding seat are respectively provided with a buffer part made of soft rubber, so that a contact buffer and shock absorption structure is formed when the water scraping mechanism moves to the middle or the left and right sides. Through the contact collision of soft bolster and backstop portion, the bolster has the cushioning effect when the collision, plays the effect of shock attenuation noise reduction.

Furthermore, the lower parts of the left side and the right side of the lifting seat are connected with tension springs, and the top ends of the tension springs are connected with the upper part of the inner box to form a lifting reset mechanism for the lifting seat after descending; the outer walls of the left side, the right side, the front side and the rear side of the lifting seat are provided with roller carriers, and at least the upper part and the lower part of each roller carrier are provided with rollers; roller grooves matched with the positions of the rollers are vertically arranged on the inner side wall of the periphery of the inner box, and the rollers are embedded into the corresponding roller grooves to form a guide structure for the lifting process of the lifting seat. When the water scraping mechanism works, the roller rolls along the roller groove on the inner wall of the inner box, so that the friction force can be reduced, the sliding is smoother, and the operation is easier.

Furthermore, the cross section of the upper part of the scraping strip is of a roughly triangular structure, the base pins of the bottom of the scraping strip are inserted in the groove bottom of the sliding seat, the connecting arms at the two ends of the scraping strip are inserted in the fixing walls at the front side and the rear side of the sliding seat, and the pointed part at the top of the scraping strip is in contact with the bottom surface of the flat mop. When the scraping strip moves relatively to the mop cloth, the scraping strip and the roller strip can play a role in cleaning and scraping the mop cloth. The friction between the wiping mechanism and the mop can be reduced by rolling the roller strip, and the wiping operation is easier and more labor-saving; the sharp edge at the upper part of the scraping strip is contacted with the mop cloth, so that the mop cloth is cleaned and dewatered more cleanly.

When the mop is pressed downwards, the water wiping mechanism overcomes the pulling force of the tension spring and moves downwards along with the lifting seat, and finally the wiping strips slide along the left side and the right side through the guiding of the lifting chute of the inner box so as to wipe and wipe water and dirt in the mop cloth; when the downward pressure of the mop is removed, the wiping mechanism is reset.

Furthermore, a cleaning area is also arranged in the barrel body, and the cleaning area is isolated from the water scraping area; the lower part of the side wall of the barrel body is respectively provided with a cleaning water outlet and a wiping water outlet, the cleaning water outlet is communicated with the cleaning area, and the wiping water outlet is communicated with the wiping area; the bottom of the cleaning area and the bottom of the water scraping area are respectively provided with a water guide groove, and the two water guide grooves are respectively communicated with the cleaning water outlet and the water scraping water outlet, so that the water in the cleaning area can be guided cleanly, and the water outlets can be respectively plugged by plugs when the water does not need to be drained; the side wall of the cleaning area is vertically provided with a reinforcing rib, and the reinforcing rib is of a structure gradually widened from bottom to bottom, so that the barrel body has higher structural strength; a handle is arranged outside the barrel body.

Or another lifting and transverse moving structure is adopted, namely, the water wiping mechanism also comprises a sliding seat and a roller strip, both sides of the sliding seat are provided with fixing walls which are raised upwards to form a groove-shaped structure, and the groove bottom area is provided with a water draining hole; the scraping strip is transversely fixed on the fixed walls at the two sides of the sliding seat and is vertical to the sliding direction of the sliding seat, so that the top of the scraping strip protrudes out of the fixed walls to abut against the bottom surface of the flat mop; the two ends of the roller strip are connected with the fixed wall through rotating shafts to form a rotatable structure, and the rotating direction of the roller strip is the same as the sliding direction of the sliding seat; the protruding part of the roller strip is basically flush with the top end of the scraping strip so as to prop against the bottom surface of the flat mop, and a structure for reducing the friction resistance of the water scraping mechanism in the sliding process is formed by the rotation and rolling of the roller strip;

the water wiping mechanisms comprise a left group and a right group which are arranged symmetrically left and right; the bottom of the sliding seat is connected with a guide sliding seat, and the front end and the rear end of the guide sliding seat are provided with sliding shafts vertical to the sliding direction of the water wiping mechanism; an inner box is arranged in the water wiping area, lifting frames which are originally in an X-shaped cross structure and formed by water wiping support rods are respectively arranged on the front side wall and the rear side wall of the inner box, and the lower ends of the lifting frames are fixed on the side wall of the inner box through rotating shafts to form a rotatable structure; the guide sliding seats are respectively fixed at the top ends of the lifting frames to form a structure capable of realizing lifting sliding and left-right transverse sliding at the same time; the lower ends of the water scraping support frames of the lifting frames are respectively connected with connecting rods, and tension springs are connected between the connecting rods to form a lifting reset mechanism for the lifting seat after descending. When the mop is pressed downwards, the water wiping mechanism overcomes the pulling force of the tension spring and moves downwards along with the lifting seat, the upper end of the water wiping supporting rod is forked to drive the sliding seat to move towards the left side and the right side, the scraping plates are driven to slide towards the two sides, and the water and dirt in the mop cloth are scraped and washed and wiped by the scraping plates; when the downward pressure of the mop is removed, the wiping mechanism is reset.

The flat mop is initiatively wiped by adopting a mode of sliding transversely from the bottom surface, the power for realizing transverse sliding of the wiping mechanism comes from pressing the mop by a user, and the vertical pressure is converted into transverse sliding of the wiping mechanism by the lifting guide mechanism in the mop bucket, so that firstly, the operation of wiping is more convenient and easier, the mop can be easily pressed down without using a large force, and the lifting process is automatically realized by the resetting mechanism, so that the mop is more labor-saving, the effect of wiping water back and forth can be achieved, and meanwhile, the mop bucket is not required to be pressed manually to prevent the mop bucket from being lifted up; secondly, water can be scraped only by pressing the mop downwards, so that the mop can obtain larger extrusion force, and the effects of more thorough water scraping and cleaner dirt scraping are achieved; thirdly, because only scrape with bottom surface sliding friction's mode, consequently need not to set up buckle structure and can realize preventing that the mop from being torn off, the structure is simpler, and the mop is also put into very easily and scrapes the water zone, improves the convenience of using.

Drawings

FIG. 1 is a block diagram of a mop bucket of the present invention in use in combination with a flat mop;

FIG. 2 is an overall structural view of the mop bucket of the present invention;

FIG. 3 is an overall view of another angle of the mop bucket of the present invention;

FIG. 4 is a view showing the structure of the mop bucket of the present invention with the bucket body removed;

FIG. 5 is a view of the mop bucket shown at another angle with the bucket body removed;

FIG. 6 is a view showing the structure of the mop bucket of the present invention with the bucket body and the inner box removed;

FIG. 7 is a view showing the structure of the water wiping mechanism of the mop bucket in cooperation with the guide slider according to the present invention;

FIG. 8 is a view showing the structure of the wiper mechanism of the mop bucket of the present invention engaged with the guide slider at another angle.

In the figure, 1 is a barrel body, 11 is a cleaning area, 12 is a wiping area, 13 is a handle, 14 is a cleaning water outlet, 15 is a wiping water outlet, 16 is a leading water tank, 17 is a reinforcing rib, 2 is an inner box, 21 is a lifting chute, 22 is a roller groove, 3 is a lifting seat, 31 is a supporting table, 32 is a guide groove, 33 is a draining hole, 34 is a roller frame, 35 is a roller, 4 is a wiping mechanism, 40 is a sliding seat, 41 is a fixed wall, 42 is a wiping strip, 43 is a roller strip, 44 is a transverse guide wheel, 5 is a guide sliding seat, 51 is a sliding shaft, 52 is a sliding shaft sleeve, 53 is a buffer, 6 is a tension spring, and 7 is a mop.

Detailed Description

The invention relates to a transverse water wiping method for a flat mop, which comprises the following steps,

s1, cleaning the flat mop with clear water, such as cleaning in clear water, cleaning with water manually, cleaning with water automatically, etc.;

In this embodiment, referring to fig. 1 to 8, the transverse water wiping mop bucket for the flat mop includes a bucket body 1, a cleaning area 11 and a water wiping area 12 are arranged in the bucket body 1, the two areas are isolated from each other and are not communicated with each other, and a water wiping mechanism 4 is arranged in the water wiping area 12; the water wiping mechanism 4 is movably arranged on a lifting seat 3 to form a structure which can transversely slide left and right in the water wiping area 12 along with the lifting motion of the lifting seat 3; the lifting seat 3 is arranged in the water scraping area 12 through a lifting guide mechanism, and the lifting seat 3 is provided with a reset mechanism to drive the lifting seat 3 to automatically ascend and return, so that water can be scraped during resetting, and the effect of reciprocating scraping is achieved; the wiper mechanism 4 is arranged in the wiping area 12 together with the lifting seat 3, so that the mop 7 can be pressed down and moved after being placed on the wiper mechanism 4; the wiping mechanism 4 is provided with a wiping strip 42, the wiping strip 42 is contacted with the mop cloth on the bottom surface of the mop 7 after the mop 7 is placed on the wiping mechanism 4, and the wiping mechanism 4 drives the wiping strip 42 to move left and right by pressing the wiping strip 42 through the mop 7, so that water and dirt on the mop cloth are wiped down by the wiping strip 42.

The wiper mechanism 4 further comprises a sliding seat 40 and a roller strip 43, wherein two sides of the sliding seat 40 are provided with fixing walls 41 protruding upwards to form a groove-shaped structure, and a water draining hole is formed in the groove bottom area of the sliding seat; the scraping strip 42 is transversely fixed on the fixing walls 41 at two sides of the sliding seat 40 and is vertical to the sliding direction of the sliding seat 40, so that the top of the scraping strip 42 protrudes out of the fixing walls 41 to abut against the bottom surface of the flat mop 7; the two ends of the roller strip 43 are connected with the fixed wall 41 through a rotating shaft to form a rotatable structure, and the rotating direction of the roller strip 43 is the same as the sliding direction of the sliding seat 40; the protruding portion of the roller strip 43 is substantially flush with the top end of the wiper strip 42 to abut against the bottom surface of the flat mop 7, and the frictional resistance during the sliding of the wiper mechanism 4 can be reduced by the rotational rolling of the roller strip 43, so that the sliding is smoother.

The water wiping mechanisms 4 comprise a left group and a right group which are arranged in a bilateral symmetry manner, water is wiped at two sides simultaneously, and the water wiping effect is better; the bottom of the sliding seat 40 is connected with a guide sliding seat 5, and the front end and the rear end of the guide sliding seat 5 are provided with sliding shafts 51 which are vertical to the sliding direction of the wiper mechanism 4; an inner box 2 is arranged in the water wiping area 12, two lifting chutes 21 are respectively arranged on the front side wall and the rear side wall of the inner box 2, the two lifting chutes 21 are respectively arranged in an inclined manner to form a splayed structure, and the front sliding shaft 51 and the rear sliding shaft 51 of the guide sliding seat 5 are respectively embedded in the lifting chutes 21 on the front side wall and the rear side wall of the inner box 2 through sliding shaft sleeves 52 to form a structure capable of realizing lifting sliding and horizontal sliding at the same time.

A support table 31 is arranged on the lifting seat 3, the sliding seat 40 is erected above the support table 31, the guide sliding seat 5 is positioned below the support table 31, and the bottom of the sliding seat 40 penetrates through a strip-shaped sliding hole in the support table 31 to be connected and fixed with the guide sliding seat 5 to form a synchronous sliding structure; the support table 31 is provided with draining holes 33, the front side and the rear side of the support table 31 are provided with guide grooves 32, the bottom surfaces of the left side and the right side of the sliding seat 40 are respectively provided with at least one group of transverse guide wheels 44, and the transverse guide wheels 44 are arranged in the guide grooves 32 to form a guide structure for the transverse moving process of the water wiping mechanism 4, so that the sliding seat 40 can slide more smoothly; stopping parts are respectively arranged at the middle part and the left and right sides of the bottom of the supporting platform 31, and buffering parts 53 made of soft rubber are respectively arranged at the left and right sides of the guide sliding seat 5, so that a contact buffering and shock absorbing structure is formed when the wiping mechanism 4 moves to the middle or the left and right sides. Through the contact collision of soft bolster 53 and backstop portion, the bolster has the cushioning effect when the collision, plays the effect of shock attenuation noise reduction.

The lower parts of the left side and the right side of the lifting seat 3 are connected with tension springs 6, and the top ends of the tension springs 6 are connected with the upper part of the inner box 2 to form a lifting reset mechanism after the lifting seat 3 descends; roller carriers 34 are arranged on the outer walls of the left side, the right side, the front side and the rear side of the lifting seat 3, and rollers 35 are arranged at least on the upper part and the lower part of the roller carriers 34; roller grooves 22 matched with the positions of the rollers 35 are vertically arranged on the inner side wall of the periphery of the inner box 2, and the rollers 35 are embedded into the corresponding roller grooves 22 to form a guide structure for the lifting process of the lifting seat 3. When the wiping mechanism 4 works, the roller 35 rolls along the roller groove 22 on the inner wall of the inner box 2, so that the friction force can be reduced, the sliding is smoother, and the operation is easier.

The scraping strip 42 has a structure with a wide lower part and a sharp upper part, the cross section of the upper part of the scraping strip is of a roughly triangular structure, the base pins of the bottom of the scraping strip 42 are inserted in the groove bottom of the sliding seat 40, meanwhile, the connecting arms at the two ends of the scraping strip are inserted in the fixing walls 41 at the front side and the rear side of the sliding seat 40, and the sharp part at the top of the scraping strip is contacted with the bottom surface of the flat mop 7. The scraping strip 42 and the roller strip 43 function to wash and dry the mop cloth when the scraping strip 42 is moved relatively to the mop cloth. The friction between the wiping mechanism 4 and the mop can be reduced by the rolling of the roller strip 43, and the wiping operation is easier and more labor-saving; the upper sharp edge of the scraping strip 42 contacts with the mop cloth, so that the mop cloth is cleaned and dewatered more cleanly.

When the mop 7 is pressed downwards, the water wiping mechanism 4 overcomes the pulling force of the tension spring 6, moves downwards along with the lifting seat 3, finally, the wiping strips 42 slide along the left side and the right side through the guiding of the lifting chute 21 of the inner box 2, and water and dirty matters in the mop cloth are wiped and wiped; when the downward pressure of the mop 7 is removed, the lifting seat 3 and the wiping mechanism 4 are reset.

A cleaning water outlet 14 and a wiping water outlet 15 are respectively arranged at the lower part of the side wall of the barrel body 1, the cleaning water outlet 14 is communicated with the cleaning area 11, and the wiping water outlet 15 is communicated with the wiping area 12; the bottom of the cleaning area 11 and the bottom of the water wiping area 12 are respectively provided with a water guide groove 16, the two water guide grooves 16 are respectively communicated with a cleaning water outlet 14 and a water wiping water outlet 15, so that the water in the cleaning area can be guided conveniently, and the water outlets can be respectively plugged by plugs when the water does not need to be drained; the side wall of the cleaning area 11 is vertically provided with a reinforcing rib 17, and the reinforcing rib 17 is of a structure gradually widened from bottom to bottom, so that the barrel body 1 has higher structural strength; a handle 13 is arranged outside the barrel body 1.

Or the lifting and horizontal moving structure adopts another embodiment which is not shown and only briefly described, namely, the wiper mechanism further comprises a sliding seat and a roller strip, both sides of the sliding seat are provided with fixing walls which are convex upwards to form a groove-shaped structure, and the groove bottom area of the sliding seat is provided with a water draining hole; the scraping strip is transversely fixed on the fixed walls at the two sides of the sliding seat and is vertical to the sliding direction of the sliding seat, so that the top of the scraping strip protrudes out of the fixed walls to abut against the bottom surface of the flat mop; the two ends of the roller strip are connected with the fixed wall through rotating shafts to form a rotatable structure, and the rotating direction of the roller strip is the same as the sliding direction of the sliding seat; the protruding part of the roller strip is basically flush with the top end of the scraping strip so as to prop against the bottom surface of the flat mop, and a structure for reducing the friction resistance of the water scraping mechanism in the sliding process is formed by the rotation and rolling of the roller strip;

The present invention has been described in detail, and it should be understood that the detailed description and specific examples, while indicating the preferred embodiment of the invention, are intended for purposes of illustration only and are not intended to limit the scope of the invention.

Claims

1. A transverse water wiping method for a flat mop is characterized in that: comprises the following steps of (a) carrying out,

s1, cleaning the flat mop with clear water;

2. The method of wiping water laterally for a flat mop of claim 1, wherein: the water wiping mechanism is provided with a left part and a right part, the two water wiping mechanisms are folded to be aligned with the middle position of the flat mop before water is wiped, and the two water wiping mechanisms respectively move towards the left end and the right end of the flat mop in a synchronous and transverse mode to wipe water on the mop when water is wiped under pressure.

3. The utility model provides a horizontal water mop bucket of scraping to dull and stereotyped mop, including the staving, scrape water district in the staving, be provided with in scraping water district and scrape water mechanism, its characterized in that: the water wiping mechanism is movably arranged on a lifting seat to form a structure capable of transversely sliding left and right in a water wiping area when moving up and down along with the lifting seat; the lifting seat is arranged in the water scraping area through a lifting guide mechanism and is provided with a reset mechanism for driving the lifting seat to automatically ascend and return; the water wiping mechanism and the lifting seat are arranged in the water wiping area together to form a structure that the mop can be pressed down and moved after being placed on the water wiping mechanism; the mop is placed on the water wiping mechanism, then the water wiping mechanism is contacted with the mop cloth on the bottom surface of the mop, and the water wiping mechanism is moved left and right by pressing the mop, so that water and dirt on the mop cloth are wiped off.

4. The cross-wiping mop bucket for a flat mop as defined in claim 3, wherein: the water scraping mechanism is provided with a scraping strip, the scraping strip is contacted with a mop cloth on the bottom surface of the mop after the mop is placed on the water scraping mechanism, the scraping strip is pressed by the mop to enable the water scraping mechanism to drive the scraping strip to move left and right, and the scraping strip scrapes water and dirt on the mop cloth; the water wiping mechanism also comprises a sliding seat and a roller strip, wherein both sides of the sliding seat are provided with fixing walls which are convex upwards to form a groove-shaped structure, and a water draining hole is arranged in the groove bottom area of the sliding seat; the scraping strip is transversely fixed on the fixed walls at the two sides of the sliding seat and is vertical to the sliding direction of the sliding seat, so that the top of the scraping strip protrudes out of the fixed walls to abut against the bottom surface of the flat mop; the two ends of the roller strip are connected with the fixed wall through rotating shafts to form a rotatable structure, and the rotating direction of the roller strip is the same as the sliding direction of the sliding seat; the protruding part of the roller strip is basically flush with the top end of the scraping strip so as to abut against the bottom surface of the flat mop, and the structure for reducing the friction resistance of the water scraping mechanism in the sliding process is formed by the rotation and the rolling of the roller strip.

5. The cross-wiping mop bucket for a flat mop as defined in claim 4, wherein: the water wiping mechanisms comprise a left group and a right group which are arranged symmetrically left and right; the bottom of the sliding seat is connected with a guide sliding seat, and the front end and the rear end of the guide sliding seat are provided with sliding shafts vertical to the sliding direction of the water wiping mechanism; an inner box is arranged in the water scraping area, two lifting sliding grooves are respectively arranged on the front side wall and the rear side wall of the inner box, the two lifting sliding grooves are respectively arranged in an inclined mode to form a splayed structure, the front sliding shaft and the rear sliding shaft of the guide sliding seat are respectively embedded in the lifting sliding grooves on the front side wall and the rear side wall of the inner box through sliding shaft sleeves, and a structure capable of achieving lifting sliding and horizontal sliding is formed.

6. The cross-wiping mop bucket for a flat mop as defined in claim 5, wherein: a supporting table is arranged on the lifting seat, the sliding seat is arranged above the supporting table, the guide sliding seat is positioned below the supporting table, and the bottom of the sliding seat penetrates through a strip-shaped sliding hole in the supporting table and is fixedly connected with the guide sliding seat to form a synchronous sliding structure; draining holes are distributed on the supporting table, guide grooves are formed in the front side and the rear side of the supporting table, at least one group of transverse guide wheels are arranged on the bottom surfaces of the left side and the right side of the sliding seat respectively, and the transverse guide wheels are arranged in the guide grooves to form a guide structure for the transverse movement process of the water wiping mechanism; the middle of the bottom of the supporting table and the left and right sides of the supporting table are respectively provided with a stopping part, and the left and right sides of the guide sliding seat are respectively provided with a buffer part made of soft rubber, so that a contact buffer and shock absorption structure is formed when the water scraping mechanism moves to the middle or the left and right sides.

7. The cross-wiping mop bucket for a flat mop as defined in claim 6, wherein: the lower parts of the left side and the right side of the lifting seat are connected with tension springs, and the top ends of the tension springs are connected with the upper part of the inner box to form a lifting reset mechanism after the lifting seat is lowered; the outer walls of the left side, the right side, the front side and the rear side of the lifting seat are provided with roller carriers, and at least the upper part and the lower part of each roller carrier are provided with rollers; roller grooves matched with the positions of the rollers are vertically arranged on the inner side wall of the periphery of the inner box, and the rollers are embedded into the corresponding roller grooves to form a guide structure for the lifting process of the lifting seat.

8. The cross-wiping mop bucket for a flat mop as defined in claim 4, wherein: the cross section of the upper part of the scraping strip is of a roughly triangular structure, the base pins of the bottom of the scraping strip are inserted into the groove bottom of the sliding seat, and meanwhile, the connecting arms at the two ends of the scraping strip are inserted into the fixing walls at the front side and the rear side of the sliding seat, and the pointed part at the top of the scraping strip is contacted with the bottom surface of the flat mop.

9. The cross-wiping mop bucket for a flat mop as defined in claim 3, wherein: a cleaning area is also arranged in the barrel body, and the cleaning area is isolated from the water scraping area; the lower part of the side wall of the barrel body is respectively provided with a cleaning water outlet and a wiping water outlet, the cleaning water outlet is communicated with the cleaning area, and the wiping water outlet is communicated with the wiping area; the bottom of the cleaning area and the bottom of the water scraping area are respectively provided with a water guide groove, and the two water guide grooves are respectively communicated with the cleaning water outlet and the water scraping water outlet; the side wall of the cleaning area is vertically provided with a reinforcing rib which is of a structure gradually widened from bottom to bottom; a handle is arranged outside the barrel body.

10. The cross-wiping mop bucket for a flat mop as defined in claim 3 or 9, wherein: the water scraping mechanism is provided with a scraping strip, the scraping strip is contacted with a mop cloth on the bottom surface of the mop after the mop is placed on the water scraping mechanism, the scraping strip is pressed by the mop to enable the water scraping mechanism to drive the scraping strip to move left and right, and the scraping strip scrapes water and dirt on the mop cloth; the water wiping mechanism also comprises a sliding seat and a roller strip, wherein both sides of the sliding seat are provided with fixing walls which are convex upwards to form a groove-shaped structure, and a water draining hole is arranged in the groove bottom area of the sliding seat; the scraping strip is transversely fixed on the fixed walls at the two sides of the sliding seat and is vertical to the sliding direction of the sliding seat, so that the top of the scraping strip protrudes out of the fixed walls to abut against the bottom surface of the flat mop; the two ends of the roller strip are connected with the fixed wall through rotating shafts to form a rotatable structure, and the rotating direction of the roller strip is the same as the sliding direction of the sliding seat; the protruding part of the roller strip is basically flush with the top end of the scraping strip so as to prop against the bottom surface of the flat mop, and a structure for reducing the friction resistance of the water scraping mechanism in the sliding process is formed by the rotation and rolling of the roller strip;

the water wiping mechanisms comprise a left group and a right group which are arranged symmetrically left and right; the bottom of the sliding seat is connected with a guide sliding seat, and the front end and the rear end of the guide sliding seat are provided with sliding shafts vertical to the sliding direction of the water wiping mechanism; an inner box is arranged in the water wiping area, lifting frames which are originally in an X-shaped cross structure and formed by water wiping support rods are respectively arranged on the front side wall and the rear side wall of the inner box, and the lower ends of the lifting frames are fixed on the side wall of the inner box through rotating shafts to form a rotatable structure; the guide sliding seats are respectively fixed at the top ends of the lifting frames to form a structure capable of realizing lifting sliding and left-right transverse sliding at the same time; the lower ends of the water scraping support frames of the lifting frames are respectively connected with connecting rods, and tension springs are connected between the connecting rods to form a lifting reset mechanism for the lifting seat after descending.