CN211022505U - Backflow-preventing water squeezing mop bucket - Google Patents

Abstract

The utility model discloses a prevent crowded water mop bucket of refluence for wash and wringing out the mop head, be in including staving and setting the crowded water mechanism of staving opening part, the staving is equipped with and separates into crowded water chamber and washs the divided partition in chamber with this staving, crowded water mechanism include with staving swing joint's scraper, the scraper orientation crowded water chamber side has prevents the extrusion portion of refluence, scraper both sides edge is equipped with the breakwater that upwards extends. The utility model discloses in, through having set up the anti-backflow extrusion portion towards crowded water cavity side at the scraper, scraper both sides edge has set up the breakwater that upwards extends, makes the scraper hydroenergy smooth when crowded water flow to the washing intracavity from drainage portion, keeps crowded water intracavity anhydrous basically, can squeeze water in succession, thereby need not worry crowded water intracavity water level and increase the crowded water effect of influence.

Description

Backflow-preventing water squeezing mop bucket

Technical Field

The utility model belongs to the technical field of the mop technique and specifically relates to a mop bucket of crowded water prevents flowing backwards.

Background

In prior art, dull and stereotyped mop's dehydration has three kinds of modes, wherein the extrusion formula dehydration is stepped on to the foot, it sets up the foot on washing wringing bucket and steps on extrusion device, this foot is stepped on extrusion device and is including setting up the wringing basket in washing wringing bucket, articulate at washing wringing bucket upper portion and the footboard relative with the wringing basket, footboard and wringing basket enclose into a wringing space, need at first take off the mop on the mop board of dull and stereotyped mop when the dehydration, place the mop in the wringing space, then the foot is stepped on the footboard and is made the shrink of wringing space reach the purpose of wringing water on the mop. The dehydration mode in the form needs to design a foot-operated extrusion device with a complex structure, and the cost is higher; when squeezing water, the mop cloth needs to be detached first, and the foot needs to be lifted for stepping operation, which is troublesome.

Please refer to fig. 1, chinese utility model patent publication No. CN202751356U discloses a squeezing mechanism for a collodion mop, wherein when in use, a handle 10 is pulled upward by hand, a pull rod seat 6 is driven by a pull rod 8 to move upward, a panel 1 and a slide plate 2 connected with the pull rod seat 6 are driven by the pull rod seat 6 to move upward in a bracket 7, and a cleaning part 4 clamped between the two slide plates is squeezed to wring out water in the cleaning part 4, and the handle 10 is pressed downward by hand to restore the original position. The water squeezing mechanism of the collodion mop has a complex structure and high cost.

Please refer to fig. 2 and 3, chinese utility model patent publication No. CN202568152U discloses a flat collodion universal wringing mop and a rectangular cleaning wringing barrel, wherein the rectangular cleaning wringing barrel (16) is connected with a rectangular plastic flat plate (17) with water leakage holes through two hinges (18). The flat plate collodion water-squeezing mop is cleaned in a cuboid cleaning and squeezing barrel (16), taken out and placed on a rectangular plastic flat plate (17) with water leakage holes, a mop rod (2) is held by hand to vertically press downwards with force, the flat plate collodion (10) with the grooves is pressed, and water is squeezed out. The flat-plate universal collodion wringing mop is relatively simple in structure, but the flat-plate universal collodion wringing mop squeezes the plastic flat plate with the water leakage holes by manpower to finish wringing, so that the use is not only laborious, but also the wringing effect is poor.

The prior art has the defects of complex structure, complex operation, influence on water squeezing or cleaning effect and easiness in squeezing and drying after the water level is increased.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a backflow-preventing wringing mop bucket with a simple structure and a good wringing effect, which can prevent water from flowing backwards to the wringing cavity during wringing.

For reaching the advantage, the utility model provides a prevent crowded water mop bucket of refluence for wash and wringing out the mop head, be in including staving and setting the crowded water mechanism of staving opening part, the staving is equipped with and separates into crowded water chamber and washs the chamber divided partition with this staving, crowded water mechanism include with staving swing joint's scraper, the scraper orientation crowded water chamber side has prevents the extrusion portion of refluence, scraper both sides edge is equipped with the breakwater that upwards extends.

In an embodiment of the invention, the scraper further has a drainage portion extending towards the washing chamber.

In an embodiment of the present invention, the wringing mechanism further comprises a support body disposed above the drainage portion and detachably connected to the barrel body, and the support body separates the opening of the barrel body into a wringing socket and a cleaning socket.

In an embodiment of the present invention, an elastic holding portion for holding the scraper to incline toward the cleaning chamber is provided between the scraper and the barrel body.

In one embodiment of the present invention, the elastic holding portion is a torsion spring.

In an embodiment of the present invention, the scraper is rotatably connected to the barrel.

In an embodiment of the present invention, the water squeezing chamber and the cleaning chamber are respectively provided with a water squeezing limiting frame and a cleaning auxiliary frame which are fixedly connected to the side wall of the barrel body.

In an embodiment of the utility model, the spacing frame of wringing is the U-shaped structure, and it has orientation the flat plate portion that is used for leaning on to lean on the mop that staving central direction extends makes the glued membrane portion of mop quilt the support portion of the crowded water of scraper extrusion and the spacing platform that is used for restricting the crowded water of mop and pushes down the distance.

In an embodiment of the present invention, the supporting body is a supporting rib extending longitudinally from the end surface of the mop bucket, or a supporting rib extending transversely from the side surface of the mop bucket, or directly uses the wall of the mop bucket as the supporting portion, or installs a limiting frame on the bucket body.

In an embodiment of the present invention, the supporting portion is provided with an extrusion guide surface, and the extrusion guide surface is provided with a backflow hole.

The utility model discloses in, through having set up the anti-backflow extrusion portion towards crowded water cavity side at the scraper, scraper both sides edge has set up the breakwater that upwards extends, makes the scraper hydroenergy smooth when crowded water flow to the washing intracavity from drainage portion, keeps crowded water intracavity anhydrous basically, can squeeze water in succession, thereby need not worry crowded water intracavity water level and increase the crowded water effect of influence.

Drawings

Fig. 1 is a schematic structural view of a squeezing mechanism of a foam cotton mop in the prior art.

Fig. 2 is a schematic structural view of a conventional universal mop with foam plates.

Fig. 3 is a schematic structural view of a rectangular cleaning wringing bucket in the prior art.

Fig. 4 is a schematic structural view of the backflow-preventing wringing mop bucket and the mop according to the first embodiment of the present invention.

Fig. 5 is an exploded view of the anti-backflow wringing mop bucket of fig. 4.

Fig. 6 is a schematic view of the structure of the squeegee blade of the anti-backflow water wringing mop bucket of fig. 5.

Fig. 7 is a schematic view of the anti-backflow water wringing mop bucket of fig. 5.

FIG. 8 is a cross-sectional view of the anti-backflow wringing mop bucket of FIG. 7.

Fig. 9 is a top view of the anti-backflow wringing mop bucket of fig. 7.

FIG. 10 is a schematic view of the mop construction of the anti-backflow wringing mop bucket of FIG. 5.

Detailed Description

To further illustrate the technical means and effects of the present invention adopted to achieve the intended purpose of the present invention, the following detailed description will be given with reference to the accompanying drawings and preferred embodiments in order to provide the best mode, structure, features and effects according to the present invention.

Referring to fig. 4-5, the backflow-preventing wringing mop bucket 1 of the first embodiment of the present invention is used for cleaning and wringing out a mop head 71, and comprises a bucket body 1 and a wringing mechanism 2 disposed at an opening of the bucket body 1.

Referring to fig. 7 to 9, the tub 1 is provided with a partition 13 partitioning the tub 1 into a pumping chamber 11 and a washing chamber 12. The water squeezing cavity 11 and the cleaning cavity 12 are respectively provided with a water squeezing limit frame 5 and a cleaning auxiliary frame 6 which are fixedly connected with the side wall of the barrel body 1.

The water squeezing limiting frame 5 is of a U-shaped structure, and the direction of a U-shaped opening faces the center of the barrel body 1. The mop comprises an abutting part 51 which extends towards the center direction of the barrel body 1 and is used for abutting against a flat plate part of the mop 7 so that the collodion part of the mop 7 is squeezed by the scraper 21 to be squeezed and flushed, and a limiting platform 52 used for limiting the squeezing and pressing distance of the mop 7, wherein the limiting platform 52 is used for avoiding the end part of a mop head 71 from colliding with the bottom of the barrel body 1 so as to cause the mop 7 to be easily damaged. The surface of the limiting platform 52 matched with the limiting bulge 73 of the mop 7 is provided with an elastic cushion block 521, and the elastic cushion block 521 is used for buffering the pressing force during water squeezing.

The washing assistant rack 6 is used for washing the mop 7 to remove dirt such as hair, which is difficult to be removed by washing water stuck to the cleaning part 712, and also to slightly squeeze water.

The wringing mechanism 2 comprises a scraper 21 movably connected with the barrel body and a support body 22 positioned above the scraper 21.

Referring to fig. 6, the scraper 21 has a backflow-preventing pressing portion 211 facing the water squeezing chamber 11 and a drainage portion 212 extending toward the cleaning chamber 12, and water baffles 213 extending upward are further provided at both side edges of the scraper 21. The backflow preventing pressing part 211 is a bar-shaped protrusion higher than the drainage part 212. A transition inclined surface 214 is arranged between the backflow-preventing pressing part 211 and the drainage part 212 and is used for guiding the extruded water to enter the drainage part 212.

Preferably, the backflow preventing pressing portion 211 and the drainage portion 212 are integrally formed.

Referring to fig. 9, the supporting body 22 is disposed above the drainage portion 212 and detachably connected to the barrel 1, and the supporting body 22 is used to divide the opening of the barrel into a water squeezing socket 3 and a cleaning socket 4 corresponding to the water squeezing cavity 11 and the cleaning cavity 12.

The scraper 21 is rotatably connected with the barrel 1 or the supporting body 22. An elastic holding portion t for holding the scraper 21 inclined toward the washing chamber 12 is provided between the scraper 21 and the tub 1. Further, the elastic holding portion t is a torsion spring.

The support body 22 is provided with a squeeze guide surface 221 for guiding the mop 7 into the squeezing socket 3 on the side of the squeezing socket 3. The press guide surface 221 has a backflow hole 221a formed in a surface thereof. The return hole 221a is a key-shaped through groove. In other embodiments of the present invention, the shape of the backflow hole 221a may also be circular, square, oval, etc.

The water guard 213 of the scraper 21 has a stopper surface 213a engaged with the lower surface of the pressing guide surface 221 of the support body 22, and the stopper surface 213a is used to restrict downward rotation of the scraper 21 by a force when wiping water.

The supporting body 22 is a supporting rib extending longitudinally from the end surface of the mop bucket 1, or a supporting rib extending transversely from the side surface of the mop bucket 1, or the wall of the mop bucket 1 is directly used as a supporting part, or a limiting frame is arranged on the bucket body 1.

Referring to fig. 10, the anti-backflow wringing mop bucket 1 is used to wash or wring out a mop 7. The mop 7 comprises a mop head 71 and a mop rod 72. The mop head 71 includes a base 711 and a cleaning portion 712. The mop pole 72 is provided with a limit projection 721 that mates with the limit platform 52. The cleaning portion 712 is a cotton cloth or a collodion material.

When squeezing, the cleaning part 712 is pre-squeezed and guided to the squeezing socket 3 through the squeezing guide surface 221, squeezing is performed by matching the abutting part 51 and the backflow prevention squeezing part 211, squeezed water flows back to the cleaning cavity 12 through the backflow hole 221a and the drainage part 212, and the same amount of water is kept in the cleaning cavity 12 all the time, so that the cleaning part 712 can be repeatedly cleaned.

When the cleansing part 712 is moved downward or upward during cleansing, dirt which is hard to be removed by washing water attached to the cleansing part 712, such as hair, is removed by rubbing against the side of the cleansing frame 6, and it is also possible to slightly squeeze water through the cleansing frame 6.

The utility model discloses in, through having set up the anti-backflow extrusion portion towards crowded water cavity side at the scraper, scraper both sides edge has set up the breakwater that upwards extends, makes the scraper hydroenergy smooth when crowded water flow to the washing intracavity from drainage portion, keeps crowded water intracavity anhydrous basically, can squeeze water in succession, thereby need not worry crowded water intracavity water level and increase the crowded water effect of influence.

The above description is only a preferred embodiment of the present invention, and the present invention is not limited to the above description, and although the present invention has been disclosed with the preferred embodiment, it is not limited to the present invention, and any skilled person can make modifications or changes equivalent to the above embodiments without departing from the scope of the present invention, but all the modifications, equivalent changes and modifications made by the technical spirit of the present invention to the above embodiments are within the scope of the present invention.

Claims (10)

1. The utility model provides a prevent crowded water mop bucket that refluxes for wash and wringing out the mop head, be in including staving and setting the crowded water mechanism of staving opening part, the staving is equipped with and separates into crowded water chamber and washing chamber divided partition with this staving, its characterized in that, crowded water mechanism include with staving swing joint's scraper, the scraper orientation crowded water chamber side has prevents the extrusion portion that refluxes, scraper both sides edge is equipped with the breakwater that upwards extends.

2. The anti-backflow wringing mop bucket of claim 1, wherein the scraper further comprises a drain extending toward the cleaning chamber.

3. The anti-backflow water squeezing mop bucket according to claim 2, wherein the water squeezing mechanism further comprises a support body which is arranged above the drainage part and detachably connected with the bucket body, and the support body divides the opening of the bucket body into a water squeezing socket and a cleaning socket.

4. The anti-backflow water squeezing mop bucket according to claim 1, wherein an elastic holding part for holding the scraper to be inclined towards the cleaning cavity is arranged between the scraper and the bucket body.

5. The anti-backflow wringing mop bucket of claim 4, wherein the resilient retaining portion is a torsion spring.

6. The anti-backflow water wringing mop bucket of claim 1, wherein the scraper is rotatably connected to the bucket body.

7. The anti-backflow water squeezing mop bucket according to claim 1, wherein the water squeezing cavity and the cleaning cavity are respectively provided with a water squeezing limiting frame and a cleaning auxiliary frame which are fixedly connected with the side wall of the bucket body.

8. The mop bucket of claim 7, wherein the water squeezing limiting frame is a U-shaped structure having an abutting portion extending toward the center of the bucket body for abutting against the flat plate portion of the mop to squeeze the collodion portion of the mop by the scraper and a limiting platform for limiting the pressing distance of the mop.

9. The anti-backflow water squeezing mop bucket according to claim 3, wherein the supporting body is a supporting rib extending longitudinally from the end surface of the mop bucket, or a supporting rib extending transversely from the side surface of the mop bucket, or the wall of the mop bucket is directly used as a supporting part, or a limiting frame is arranged on the bucket body.

10. The anti-backflow water squeezing mop bucket according to claim 9, wherein the supporting portion is provided with a squeeze guide surface, and the squeeze guide surface is provided with a backflow hole.

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