CN213787242U

CN213787242U - Horizontal water-wiping mop bucket

Info

Publication number: CN213787242U
Application number: CN202022606158.7U
Authority: CN
Inventors: 赖依祥
Original assignee: Dongguan Guangmeihua Technology Co ltd
Current assignee: Dongguan Guangmeihua Technology Co ltd
Priority date: 2020-11-11
Filing date: 2020-11-11
Publication date: 2021-07-27
Anticipated expiration: 2030-11-11

Abstract

The utility model discloses a transverse water wiping mop bucket, which comprises a water wiping bucket, wherein a water wiping platform with a wiping strip is arranged in the water wiping bucket, the water wiping platform is movably arranged on at least two guide rods, the guide rods are arranged along the longitudinal direction of the water wiping bucket, and the two ends of the guide rods are respectively embedded on the side walls of the water wiping bucket to form a structure capable of sliding up and down; the bottom surface of the water wiping platform is hinged with an inclined supporting arm, and the bottom end of the supporting arm is hinged and fixed with the water wiping barrel; a reset mechanism is arranged on the supporting arm, and the water wiping platform is driven by the reset mechanism to reset; the mop is placed and is scraped the mop contact of strip and mop bottom surface by scraping on the water platform back, and water and foul on with the mop are scraped down through the lateral shifting who scrapes the water platform, and it is more convenient, laborsaving to make like this to scrape water the operation, and it is better to scrape the water effect, also need not the manpower to push down the mop bucket, the simple structure of whole mop bucket simultaneously, and is with low costs.

Description

Horizontal water-wiping mop bucket

Technical Field

The utility model relates to a burnisher technical field, concretely relates to a mop bucket for realizing that water is scraped to mop is clear.

Background

The mop and the mop bucket are important tools for household cleaning, the existing mop bucket is various in types and diversified in functions, at present, for flat mops and the like, due to structural limitations, in order to clean and dewater the flat mops and the like and simultaneously prevent dirt and garbage from remaining on mop cloth, some mop buckets specially used for cleaning and wringing the flat mops are designed, for example, the flat mop wringing using method disclosed in patent CN201910181435.3 and the flat mop cleaning tool thereof, and the like.

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 vertically inserted into the bucket from a smoothing opening of the mop bucket and pulled up and down for squeezing water. In order to squeeze water more cleanly, enough squeezing force needs to be applied to the mop bucket, so that a stroking opening (water squeezing opening) of the mop bucket is made to be narrow, and the mop bucket is very laborious to pull up and down, and is especially difficult to operate by children and old people; 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 treaded by feet through the treading parts, so that the mop buckets are prevented from being lifted, but the structure of the mop bucket is more complicated, and the feet cannot stand in the best force applying mode, so that the mop is inconvenient to pull by applying force; 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 to the user. Fourthly, since it is necessary to ensure that the mop can enter the squeezing area and be pulled up and down, the opening cannot be too narrow, so that although a part of water can be squeezed out, the squeezing effect is not ideal because the squeezing pressure is not enough, and a part of water obviously remains on the mop.

SUMMERY OF THE UTILITY MODEL

The to-be-solved technical problem of the utility model is the defect of prior art, a horizontal water-scraping mop bucket that scrapes that the operation is simpler, the use is more convenient, more laborsaving high-efficient, crowded water effect and clear away foul effect is better is provided.

In order to solve the technical problem, the utility model adopts the following technical scheme: the utility model provides a transversely scrape water mop bucket, is provided with in scraping the water bucket and scrapes water mechanism, its characterized in that including scraping the water bucket: the water wiping mechanism is a water wiping platform with a wiping strip, and the water wiping platform is movably arranged on at least two guide rods to form a structure capable of sliding along the guide rods; the guide rod is arranged along the longitudinal direction of the water scraping barrel, the inner walls of the two ends of the water scraping barrel are respectively provided with a guide groove, and the two ends of the guide rod are respectively embedded in the guide grooves to form a structure capable of sliding up and down; the bottom surface of the water wiping platform is hinged with an inclined supporting arm, the bottom end of the supporting arm is hinged and fixed with the water wiping barrel, so that the supporting arm forms a structure capable of swinging back and forth by taking the bottom end as a shaft, and the water wiping platform is driven to move up and down and move transversely by the swinging of the supporting arm; the support arm is provided with a resetting mechanism, and the water wiping platform is driven by the resetting mechanism to reset so as to form a structure capable of transversely reciprocating; after the mop is placed on the water wiping platform, the wiping strip is contacted with the mop cloth on the bottom surface of the mop, and a structure capable of wiping off water and dirt on the mop cloth is formed by the transverse movement of the water wiping platform.

Further, the guide rod is arranged in the water scraping barrel in a horizontal and longitudinal mode, so that the water scraping platform is in a structure capable of horizontally moving; the scraping strips are perpendicular to the guide rods, and the guide rods penetrate through the lower portions of the scraping strips to form supports for the horizontal scraping table.

Furthermore, the guide way separates through the guide vane along vertical, is provided with along vertical backstop strip in the guide way, and the backstop strip is towards scraping the inside protrusion of water bucket and with scrape water bucket inner wall structure as an organic whole, and the both ends of each guide bar are separated through the backstop of backstop strip and with scraping water bucket inner wall respectively, cause the damage to the bucket wall when preventing the guide bar from sliding from top to bottom.

Furthermore, the water wiping platform is provided with two sets which are mutually independent from the left and the right, the two sets of water wiping platforms are respectively connected with a supporting arm and provided with a reset mechanism, and the two supporting arms form an X-shaped cross structure and simultaneously slide to and fro from the left and the right to wipe water; the bottom of each of the two water scraping platforms is provided with a plurality of water draining holes.

Furthermore, the upper end of the supporting arm is hinged and fixed with the wiper platform through a shaft pin; the bottom of the water scraping barrel is provided with a shaft seat, and the bottom end of the supporting arm is hinged and fixed with the shaft seat through a connecting shaft.

Preferably, a torsion spring is sleeved on the shaft pin, one end of the torsion spring is clamped with the supporting arm, and the other end of the torsion spring is clamped with the wiping platform. When the mop is pressed down, the water wiping platform slides towards two sides, the supporting arms are forked and descend, and the torsional spring is in a twisting state. When the mop is stopped to be pressed down, the water wiping platform is driven to slide towards the middle to reset under the action of the torsion force of the torsion spring, the supporting arm and the guide rod ascend simultaneously, and the water wiping platform ascends to the highest position and slides to the middle section position of the guide rod when the torsion spring is in a release state.

Or a torsional spring is arranged on the connecting shaft, one end of the torsional spring clamps the supporting arm, and the other end of the torsional spring clamps the bottom of the water scraping barrel. When the mop is pressed down, the water wiping platform slides towards two sides, the supporting arms are forked and descend, and the torsional spring is in a twisting state. When the mop is stopped to be pressed down, the supporting arms are driven to ascend and furl under the action of the torsion force of the torsion spring to push the water scraping platform to reset towards the middle, and the water scraping platform ascends to the highest position and slides to the middle section of the guide rod when the torsion spring is in a release state.

Or the upper sections of the two support arms are connected with a tension spring, and two ends of the tension spring are respectively connected with one support arm. When the mop is pressed down, the water wiping platform slides towards two sides, the supporting arms are forked and descend, and the tension spring is in a stretching state. When the mop is stopped to be pressed down, the supporting arms are folded and lifted under the action of the tension spring to push the water scraping platform to reset towards the middle, and the water scraping platform is lifted to the highest position and slides to the middle section of the guide rod when the tension spring is in a contraction state.

Further, the mop cleaning machine also comprises a clear water barrel, when the mop cleaning machine is far away from the water pool, the mop cleaning machine can clean water firstly, and when the mop cleaning machine is near the water pool, the clear water barrel is not needed; the side of the clear water barrel is provided with a plug pin, the side of the wiper barrel is provided with a plug hole matched with the plug pin, and the clear water barrel and the wiper barrel are combined and fixed by inserting the plug pin into the plug hole, so that the clear water barrel and the wiper barrel can be conveniently combined and disassembled.

Furthermore, a reinforcing rib is vertically arranged on the inner wall of the water scraping barrel, and the reinforcing rib and the water scraping barrel are of an integrated structure, so that the water scraping barrel has higher supporting capacity.

When the mop is pressed downwards, the water scraping platform overcomes the pulling force of a reset mechanism (such as a torsional spring, a tension spring and the like) and moves downwards along with the supporting arm, and finally the scraping strips slide along the left side and the right side through the guiding of the guiding rod to scrape and wash and dry water and dirt in the mop cloth; and when the downward pressure of the mop is removed, the water wiping platform is reset.

The utility model discloses a mode of following bottom surface lateral sliding scrapes water to dull and stereotyped mop, and realize scraping the power of water platform lateral sliding and derive from the user and press the mop, realize turning into the lateral sliding who scrapes the water platform with vertical pressure by guide bar and support arm cooperation, so first, the operation of scraping water is more convenient, light, need not to use vigorously can easily push down the mop, and the process of rising is realized by canceling release mechanical system is automatic, therefore more laborsaving, can also reach the effect of reciprocating scraping water, also need not the manpower to push down the mop bucket simultaneously so as to prevent that the mop bucket from being lifted up because of lifting up the mop together; 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. Meanwhile, the whole mop bucket is simple in structure and low in cost.

Drawings

FIG. 1 is an overall structure diagram of the present invention;

FIG. 2 is an overall view of another aspect of the present invention;

FIG. 3 is a view showing the inside of the wiping bucket and the clear water bucket;

FIG. 4 is an assembly structure view of the support arm and the water scraping barrel;

FIG. 5 is a view of the wiper platform assembled with the support arms;

fig. 6 is a structural view showing a state in which the mop bucket of the present invention is used in combination with a mop.

In the figure, 1 is a water scraping barrel, 11 is a shaft seat, 12 is a guide groove, 13 is a guide sheet, 14 is a stop strip, 15 is an inserting hole, 16 is a reinforcing rib, 2 is a water scraping platform, 21 is a scraping strip, 3 is a supporting arm, 31 is a connecting shaft, 4 is a guide rod, 5 is a shaft pin, 6 is a torsion spring, 7 is a clear water barrel, 71 is an inserting pin, and 8 is a mop.

Detailed Description

In the embodiment, referring to fig. 1 to 6, the transverse water wiping mop bucket comprises a water wiping bucket 1, a water wiping mechanism is arranged in the water wiping bucket 1, the water wiping mechanism is a water wiping platform 2 with a wiping strip 21, and the water wiping platform 2 is movably installed on at least two guide rods 4 to form a structure capable of sliding along the guide rods 4; the guide rod 4 is installed along the longitudinal direction (namely the length direction) of the water scraping barrel 1, the inner walls of the two ends of the water scraping barrel 1 are respectively provided with a guide groove 12, and the two ends of the guide rod 4 are respectively embedded in the guide grooves 12 to form a structure capable of sliding up and down; the bottom surface of the water wiping platform 1 is hinged with an inclined supporting arm 3, the bottom end of the supporting arm 3 is hinged and fixed with the water wiping barrel 1, so that the supporting arm 3 forms a structure capable of swinging back and forth by taking the bottom end as a shaft, and the water wiping platform 2 is driven to move up and down and move transversely by the swinging of the supporting arm 3; a reset mechanism is arranged on the supporting arm 3, and the water wiping platform 2 is driven by the reset mechanism to reset, so that the water wiping platform 2 forms a structure capable of transversely reciprocating; after the mop 8 is placed on the wiping platform 2, the wiping strip 21 contacts with the mop cloth on the bottom surface of the mop 8, and the mop 8 moves transversely to form a structure capable of wiping off water and dirt on the mop cloth.

The guide rod 4 is arranged in the wiping barrel 1 in a horizontal and longitudinal mode, so that the wiping platform 2 is in a horizontally-movable structure; the wiper strips 21 are perpendicular to the guide rods 4, and the guide rods 4 extend through the lower part of the respective wiper strip 21 to form a support for the wiper platform 2.

Guide way 12 separates through guide plate 13 along vertical, is provided with along vertical backstop strip 14 in guide way 12, backstop strip 14 towards scrape 1 inside protrusion of cask and with scrape 1 inner wall of cask structure as an organic whole, the both ends of each guide bar 4 respectively through the backstop of backstop strip 14 and separate with scraping 1 inner wall of cask, cause the damage to the bucket wall when preventing guide bar 4 from sliding from top to bottom.

The water wiping platform 2 is provided with two sets which are mutually independent from the left and the right, the two sets of water wiping platforms 2 are respectively connected with the supporting arms 3 and provided with a reset mechanism, and the two supporting arms 3 form an X-shaped cross structure and simultaneously slide to and fro from the left and the right to wipe water; the bottom of the two water scraping platforms 2 are provided with a plurality of water draining holes.

The upper end of the supporting arm 3 is hinged and fixed with the wiper platform 2 through a shaft pin 5; the bottom of the water scraping barrel 1 is provided with a shaft seat 11, and the bottom end of the supporting arm 3 is hinged and fixed with the shaft seat 11 through a connecting shaft 31.

Preferably, a torsion spring 6 is sleeved on the shaft pin 5, one end of the torsion spring 6 is clamped with the supporting arm 3, and the other end is clamped with the wiper platform 2. When the mop 8 is pressed down, the water wiping platform 2 slides towards two sides, the supporting arms 3 are spread and descended, and the torsion spring 6 is in a twisting state. When the mop 8 stops being pressed down, the water wiping platform 2 is driven to slide towards the middle to reset under the action of the torsion force of the torsion spring 6, meanwhile, the supporting arm 3 and the guide rod 4 ascend, and when the torsion spring 6 is in a release state, the water wiping platform 2 ascends to the highest position and slides to the middle position of the guide rod 4.

As a second mode, a torsion spring (not shown) is provided on the connecting shaft 31, one end of the torsion spring is clamped to the supporting arm 3, and the other end is clamped to the bottom of the water scraping bucket 1. When the mop 8 is pressed down, the water wiping platform 2 slides towards two sides, the supporting arms 3 are spread and descended, and the torsion spring is in a twisting state. When the mop 8 stops being pressed down, the supporting arm 3 is driven to ascend and furl under the action of the torsion force of the torsion spring, the water wiping platform 2 is pushed to reset towards the middle, and the water wiping platform 2 rises to the highest position and slides to the middle section position of the guide rod 4 when the torsion spring is in a release state.

As a third mode, a tension spring (not shown) is connected to the upper end of each of the two support arms 3, and one support arm 3 is connected to each of both ends of the tension spring. When the mop 8 is pressed down, the water wiping platform 2 slides towards two sides, the supporting arms 3 are spread and descend, and the tension springs are in a stretching state. When the mop 8 stops being pressed down, the supporting arm 3 is folded and ascends under the action of the tension spring to push the water wiping platform 2 to reset towards the middle, and the water wiping platform 2 ascends to the highest position and slides to the middle section of the guide rod 4 when the tension spring is in a contraction state.

The mop cleaner further comprises a clear water barrel 7, when the mop cleaner is far away from a water pool, the mop 8 can be cleaned through the clear water barrel 7, then water is scraped, and when the mop cleaner is near the water pool, the clear water barrel 7 is not needed; the side of the clean water barrel 7 is provided with a plug pin 71, the side of the wiper barrel 2 is provided with a plug hole 15 matched with the plug pin 71, and the clean water barrel 7 and the wiper barrel 1 are combined and fixed by inserting the plug pin 71 into the plug hole 15, so that the assembly and disassembly can be conveniently carried out.

The inner wall of the water wiping barrel 1 is vertically provided with a reinforcing rib 16, and the reinforcing rib 16 and the water wiping barrel 1 are of an integral structure, so that the water wiping barrel 1 has higher supporting capacity.

When the mop 8 is pressed downwards, the water wiping platform 2 overcomes the pulling force of a reset mechanism (such as a torsional spring, a tension spring and the like) and moves downwards along with the supporting arm 3, and finally the wiping strips 21 slide along the left side and the right side through the guiding of the guiding rod 4 to wipe and dry water and dirt in the mop cloth; when the downward pressure of the mop 8 is removed, the wiping platform 2 is reset.

The above description is only a preferred embodiment of the present invention, and should not be taken as limiting the scope of the invention, i.e. the present invention is intended to cover all equivalent variations and modifications within the scope of the present invention.

Claims

1. The utility model provides a transversely scrape water mop bucket, is provided with in scraping the water bucket and scrapes water mechanism, its characterized in that including scraping the water bucket: the water wiping mechanism is a water wiping platform with a wiping strip, and the water wiping platform is movably arranged on at least two guide rods to form a structure capable of sliding along the guide rods; the guide rod is arranged along the longitudinal direction of the water scraping barrel, the inner walls of the two ends of the water scraping barrel are respectively provided with a guide groove, and the two ends of the guide rod are respectively embedded in the guide grooves to form a structure capable of sliding up and down; the bottom surface of the water wiping platform is hinged with an inclined supporting arm, the bottom end of the supporting arm is hinged and fixed with the water wiping barrel, so that the supporting arm forms a structure capable of swinging back and forth by taking the bottom end as a shaft, and the water wiping platform is driven to move up and down and move transversely by the swinging of the supporting arm; the support arm is provided with a resetting mechanism, and the water wiping platform is driven by the resetting mechanism to reset so as to form a structure capable of transversely reciprocating; after the mop is placed on the water wiping platform, the wiping strip is contacted with the mop cloth on the bottom surface of the mop, and a structure capable of wiping off water and dirt on the mop cloth is formed by the transverse movement of the water wiping platform.

2. The transverse wiper mop bucket of claim 1, wherein: the guide rod is arranged in the water scraping barrel in a horizontal and longitudinal mode, so that the water scraping platform forms a structure capable of horizontally moving; the scraping strips are perpendicular to the guide rods, and the guide rods penetrate through the lower portions of the scraping strips to form supports for the horizontal scraping table.

3. The transverse wiper mop bucket of claim 1, wherein: the guide groove is vertically partitioned by the guide piece, a vertical stop strip is arranged in the guide groove, the stop strip protrudes towards the inside of the water scraping barrel and is integrated with the inner wall of the water scraping barrel, and two ends of each guide rod are respectively partitioned from the inner wall of the water scraping barrel by stopping of the stop strip.

4. The transverse wiper mop bucket of claim 1, wherein: the water wiping platform is provided with two sets which are mutually independent from each other on the left and right, the two sets of water wiping platforms are respectively connected with a supporting arm and provided with a reset mechanism, and the two supporting arms form an X-shaped cross structure; the bottom of each of the two water scraping platforms is provided with a plurality of water draining holes.

5. The transverse wiper mop bucket of claim 4, wherein: the upper end of the supporting arm is hinged and fixed with the water wiping platform through a shaft pin; the bottom of the water scraping barrel is provided with a shaft seat, and the bottom end of the supporting arm is hinged and fixed with the shaft seat through a connecting shaft.

6. The transverse wiper mop bucket of claim 5, wherein: the shaft pin is sleeved with a torsion spring, one end of the torsion spring clamps the supporting arm, the other end of the torsion spring clamps the water wiping platform, and the water wiping platform rises to the highest position and slides to the middle position of the guide rod when the torsion spring is in a release state.

7. The transverse wiper mop bucket of claim 5, wherein: and a torsional spring is arranged on the connecting shaft, one end of the torsional spring clamps the supporting arm, the other end of the torsional spring clamps the bottom of the water scraping barrel, and the water scraping platform rises to the highest position and slides to the middle position of the guide rod when the torsional spring is in a release state.

8. The transverse wiper mop bucket of claim 5, wherein: the upper sections of the two support arms are connected with tension springs, two ends of each tension spring are connected with one support arm respectively, and the water scraping platform rises to the highest position and slides to the middle section of the guide rod when the tension springs are in a contraction state.

9. The transverse wiper mop bucket of claim 1, wherein: the water scraper is characterized by further comprising a water cleaning barrel, wherein the side surface of the water cleaning barrel is provided with a plug pin, the side surface of the water scraping barrel is provided with a plug hole matched with the plug pin, and the water cleaning barrel and the water scraping barrel are combined and fixed by inserting the plug pin into the plug hole.

10. The transverse wiper mop bucket of claim 1, wherein: the inner wall of the water scraping barrel is vertically provided with a reinforcing rib, and the reinforcing rib and the water scraping barrel are of an integrated structure.