CN214906520U - Bucket for mop cleaning - Google Patents

Abstract

The utility model relates to a mop external member, concretely relates to mop washs and uses bucket. The utility model provides a mop washs and uses bucket, includes the staving, be equipped with crowded water subassembly in the staving, crowded water subassembly includes fly leaf and the scraper blade that the front and back set up relatively, the fly leaf extends forward from top to bottom, the scraper blade extends backward from top to bottom, fly leaf and scraper blade are all rotatable, fly leaf upper end and scraper blade upper end constitute there is the through groove, the fly leaf has the rotation arch of extending to the scraper blade side, it has the rotation arch of extending to the fly leaf side to scrape the board, two rotation archs have a first swing convex part around, and two rotate another rotation archs in the arch and have two adjacent second swing convex parts from top to bottom, and two second swing convex parts constitute between and have the cooperation groove, first swing convex part stretches into in the cooperation inslot. The utility model has the advantages of better dewatering effect of the mop and no influence on taking out and putting in the mop from the bucket.

Description

Bucket for mop cleaning

Technical Field

The utility model relates to a mop external member, concretely relates to mop washs and uses bucket.

Background

The application number is 201620338361.1's chinese patent discloses a mop bucket, including the staving, the staving is the inside hollow quadrilateral body of one side opening, is fixed with a vertical water installation of scraping on the inner wall of staving one of its side, water installation by a body, with the body cooperation and play the spacing body of clamping planker and fix the scraper on the body and constitute, realize the cleaning cloth dewatering effect on the planker through planker and scraper horizontal extrusion.

The mop bucket squeezes water in a mode of elastic squeezing deformation of the scraper, but the space width of the scraper side is large so that the mop can be conveniently placed, the scraper is difficult to squeeze a mop to the maximum extent, and the mop dewatering effect is poor.

Disclosure of Invention

The utility model aims at providing a mop dehydration is better, and does not influence the mop of taking out from the bucket and putting into and wash and use the bucket.

In order to achieve the above purpose, the utility model adopts the following technical scheme: the utility model provides a mop washs and uses bucket, includes the staving, be equipped with crowded water subassembly in the staving, crowded water subassembly includes fly leaf and the scraper blade that relative front and back set up, the fly leaf extends forward from top to bottom, the scraper blade extends backward from top to bottom, fly leaf and scraper blade are all rotatable, fly leaf upper end and scraper blade upper end constitute there is the through groove, and parallel arrangement around the axis of rotation of fly leaf and the axis of rotation of scraper blade, the fly leaf has the rotation arch of extending to the scraper blade side, the scraper blade has the rotation arch of extending to the fly leaf side, and two rotation archs in the front and back two rotation archs have a first swing convex part, and another rotation arch in two rotation archs has two adjacent second swing convex parts from top to bottom, constitutes between two second swing convex parts has the cooperation groove, first swing convex part stretches into in the cooperation inslot.

When the barrel body of the utility model is used, the mop plate of the mop is extended into the movable plate and the scraper of the wringing component, the part of the mop handle is close to the movable plate, the part of the mop plate is close to the scraper, along with the downward movement of the mop plate, one side surface of the mop plate can be contacted with the upper end of the movable plate, the other side surface of the mop plate can be contacted with the scraper, along with the downward movement of the mop plate, the movable plate can rotate, so that the first swing convex part or the second swing convex part can swing downwards, thereby driving the movable plate to rotate, or the mop plate firstly drives the scraper to rotate, and then the first swing convex part and the second swing convex part drive the movable plate to rotate, so that the mop plate is always clamped between the scraper and the movable plate, thereby improving the dewatering effect of the mop; then the mop moves upwards, the movable plate and the scraper are not pressed by the mop, and the mop can be easily taken out upwards.

Preferably, the rotary lug at the movable plate and the rotary lug at the scraper are both in gear type structure and meshed with each other, and the first swing lug and the second swing lug are both in gear type structure. The arrangement enables the rotation of the movable plate to better drive the scraper to rotate so as to facilitate the dehydration of the mop.

Preferably, the end surface of the first swing projection, the end surface of the second swing projection, and the groove wall of the engagement groove are all formed in an arc-shaped configuration. The arrangement reduces friction between the first swing convex part and the second swing convex part, so that the rotating speed of the movable plate and the scraper is improved, and the service life of the wringing assembly is prolonged.

Preferably, the wringing assembly further comprises a fixing frame, the movable plate and the scraping plate can be rotationally fixed on the fixing frame, and the fixing frame is fixed in the barrel body. Through setting up the mount, so that the utility model discloses a crowded water subassembly can make the modularization, and the whole mop of being convenient for washs the equipment production with the bucket, also is convenient for follow-up crowded maintenance of water subassembly to change.

Preferably, the wringing component comprises two movable plates which are spaced from each other at left and right, and the two movable plates are connected through a crank structure. Through setting up the crank structure to make and constitute the space of stepping down to the handle department of mop between two fly leafs, in order to avoid the mop card on the staving.

Preferably, the inner wall of the front end of the fixed frame is provided with a supporting part, the supporting part is provided with a supporting groove which penetrates through the left side and the right side and is opened upwards, the crank structure comprises two crank arms, a connecting rod part is connected between the front ends of the two crank arms, the rear ends of the two crank arms are respectively connected with a shaft part, the shaft part is supported in the supporting groove and is fixed with the movable plate, and the shaft part is coaxial with the rotation axis of the movable plate. The movable plate can be more stably fixed by arranging the supporting part.

Preferably, the middle part of the front end of the fixing frame is provided with a yielding groove for yielding the crank structure.

Preferably, the fixed frame is provided with a front limiting plate located between the automatic rotation axis of the movable plate and the automatic rotation axis of the scraper, the front limiting plate is located below the movable plate, and when the movable plate is turned downwards to the limiting position, the front limiting plate is located on the front side of the upper end of the movable plate. Through setting up preceding spacing board to carry out spacingly to the turned angle of fly leaf, in order to avoid the crowded water subassembly of scraper blade impaired.

Preferably, the fixed frame is provided with a rear limiting plate located between the movable plate rotation axis and the scraper blade rotation axis, the rear limiting plate is located below the scraper blade, and when the scraper blade is turned downwards to the limiting position, the rear limiting plate is located on the rear side of the upper end of the scraper blade. Through setting up back limiting plate to carry on spacingly to the turned angle of scraper blade, in order to avoid the crowded water subassembly of scraper blade impaired.

Preferably, the scraper is provided with a plurality of penetrating through holes, and the plurality of penetrating through holes are arranged on the scraper at intervals from left to right. The through hole is used for supplying sewage to pass through to avoid sewage to flow to the scraper blade root along the scraper blade incline direction, so that dropping of sewage is convenient for, and dirty dirt is hidden in the scraper blade department is avoided.

The utility model has the advantages of better dewatering effect of the mop and no influence on taking out and putting in the mop from the bucket.

Drawings

Fig. 1 is a schematic structural view of a barrel body of the present invention;

FIG. 2 is a schematic structural view of the wringing assembly of the present invention;

fig. 3 is a schematic structural diagram of the movable plate and the scraper of the present invention.

Detailed Description

The invention will be further described with reference to the drawings and the specific embodiments.

By shown in fig. 1 to 3, the utility model discloses a mop washs and uses bucket, including staving 100, be equipped with crowded water subassembly in the staving 100, crowded water subassembly includes fly leaf 1 and the scraper blade 2 that sets up relatively around, and fly leaf 1 extends forward from top to bottom, and scraper blade 2 extends backward from top to bottom, and on fly leaf 1 and scraper blade 2 all can rotate and be fixed in mount 3, mount 3 was located logical body 100. Wherein, the scraper blade 2 is provided with a plurality of through holes 24, and a plurality of through holes 24 are arranged on the scraper blade 2 at intervals from left to right.

The number of the movable plates 1 is two, the two movable plates 1 are arranged at left and right intervals, the passing groove 200 is formed at the upper end of each movable plate 1 and the upper end of each scraper 2, and the rotating axis of each movable plate 1 and the rotating axis of each scraper 2 are equal in height and are arranged in parallel in the front and back direction.

The movable plate 1 is provided with a rotating protrusion extending towards the scraper 2, the scraper 2 is provided with a rotating protrusion extending towards the movable plate 1, the front rotating protrusion 11 and the rear rotating protrusion 21 are respectively a front rotating protrusion 11 and a rear rotating protrusion 21, the front rotating protrusion 11 and the rear rotating protrusion 21 both form a gear type structure and are meshed with each other, the rear rotating protrusion 21 is provided with a first swinging protrusion 22, the front rotating protrusion 11 is provided with two second swinging protrusions 12 adjacent to each other up and down, a matching groove is formed between the two second swinging protrusions 12, the first swinging protrusion 22 extends into the matching groove, the first swinging protrusion 22 and the second swinging protrusion 22 both form a tooth part of the gear type structure, and the front end surface of the first swinging protrusion 22, the rear end surface of the second swinging protrusion 12 and the groove wall of the matching groove all form an arc-shaped structure. The scraper is pressed downwards by the pressing plate 2 to enable the first swing convex part 22 at the scraper to swing downwards and drive the second swing convex part to swing around the rotation axis of the movable plate, and the movable plate is pressed downwards to enable the second swing convex part 12 at the movable plate to swing downwards and drive the first swing convex part to swing around the rotation axis of the scraper.

The two movable plates 1 are connected through a crank structure 10, the crank structure comprises two crank arms 101, a connecting rod portion 102 is connected between the front ends of the two crank arms 101, the rear ends of the two crank arms 101 are respectively connected with an axle portion 102, the axle portion 102 is fixed with the movable plates 1, and the axle portion 102 is coaxial with the rotation axis of the movable plates 1.

The inner wall of the front end of the fixing frame 3 is provided with a supporting part 31, the supporting part 31 forms a supporting groove which penetrates through the left and the right and is opened upwards, and the shaft part 102 is supported in the supporting groove. The middle part of the front end of the fixing frame 3 is provided with a yielding groove 32 for yielding the crank structure 10.

The fixing frame 3 is provided with a front limiting plate 33 and a rear limiting plate 34 which are positioned between the rotation axis of the movable plate 1 and the rotation axis of the scraper 2, the front limiting plate 33 is positioned below the movable plate 1, the rear limiting plate 34 is positioned below the scraper 2, the passing groove 200 is also arranged between the front limiting plate 33 and the rear limiting plate 34, when the movable plate 1 is turned downwards to a limiting position, the front limiting plate 3 is positioned on the front side of the upper end of the movable plate 1, and when the scraper 2 is turned downwards to the limiting position, the rear limiting plate 34 is positioned on the rear side of the upper end of the scraper 2. Wherein, the lower end of the front limiting plate 33 is connected with the front end of the fixing frame through a front bottom plate, the lower end of the rear limiting plate 34 is connected with the rear end of the fixing frame through a rear bottom plate, and the rear bottom plate is provided with a water leakage hole which penetrates up and down.

The utility model has the advantages of better dewatering effect of the mop and no influence on taking out and putting in the mop from the bucket.

Claims (10)

1. A bucket for cleaning a mop is characterized by comprising a bucket body, wherein a water squeezing assembly is arranged in the bucket body, the wringing component comprises a movable plate and a scraping plate which are oppositely arranged in front and back, the movable plate extends forwards from top to bottom, the scraper plate extends backwards from top to bottom, the movable plate and the scraper plate can rotate, a through groove is formed at the upper end of the movable plate and the upper end of the scraper plate, the rotation axis of the movable plate and the rotation axis of the scraper are arranged in parallel front and back, the movable plate is provided with a rotating bulge extending towards the side of the scraper, the scraper plate is provided with a rotating bulge extending towards the side of the movable plate, one rotating bulge in the front rotating bulge and the rear rotating bulge is provided with a first swinging convex part, the other rotating bulge in the two rotating bulges is provided with two second swinging convex parts which are adjacent up and down, a matching groove is formed between the two second swinging convex parts, and the first swinging convex part extends into the matching groove.

2. The bucket for washing mop as claimed in claim 1, wherein the rotary protrusions at the movable plate and the rotary protrusions at the scrapers are formed in a gear type structure and engaged with each other, and the first swing projection and the second swing projection are formed in a tooth portion of the gear type structure.

3. The bucket according to claim 1, wherein the end faces of the first swing projection, the second swing projection, and the wall of the fitting groove are formed in a circular arc shape.

4. The bucket for cleaning mop as claimed in claim 1, wherein the wringing assembly further comprises a fixing frame, the movable plate and the scraping plate are both rotatably fixed on the fixing frame, and the fixing frame is fixed in the bucket body.

5. The bucket according to claim 4, wherein the wringing assembly comprises two movable plates spaced apart from each other at right and left sides, and the two movable plates are connected by a crank structure.

6. The bucket for cleaning mop as claimed in claim 5, wherein the inner wall of the front end of the fixing frame is provided with a supporting portion, the supporting portion is formed with a supporting groove which penetrates through the left and right sides and is opened upward, the crank structure comprises two crank arms, a connecting rod portion is connected between the front ends of the two crank arms, the rear ends of the two crank arms are respectively connected with a shaft portion, the shaft portion is supported in the supporting groove and fixed with the movable plate, and the shaft portion is coaxial with the rotation axis of the movable plate.

7. The bucket for cleaning mop as claimed in claim 5, wherein a recess is formed in the middle of the front end of the fixing frame for receiving the crank structure.

8. The bucket for cleaning mops as claimed in claim 4, wherein the fixing frame has a front stopper located between the rotation axis of the movable plate and the rotation axis of the squeegee, the front stopper being located below the movable plate, the front stopper being located at the front side of the upper end of the movable plate when the movable plate is turned downward to the limit position.

9. The bucket for cleaning mops as claimed in claim 4, wherein the holder has a rear stopper plate located between the rotation axis of the movable plate and the rotation axis of the squeegee, the rear stopper plate being located below the squeegee, the rear stopper plate being located at the rear side of the upper end of the squeegee when the squeegee is turned downward to the limit position.

10. The bucket as claimed in claim 1, wherein the scraping plate has a plurality of through holes formed therethrough, and the through holes are formed in the scraping plate at left and right intervals.

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