CN215534111U

CN215534111U - Single-opening mop bucket

Info

Publication number: CN215534111U
Application number: CN202120269838.6U
Authority: CN
Inventors: 周兰仙
Original assignee: Individual
Current assignee: Individual
Priority date: 2021-01-29
Filing date: 2021-01-29
Publication date: 2022-01-18
Anticipated expiration: 2031-01-29

Abstract

The utility model discloses a single opening smoothing type mop bucket which comprises an inner bucket and an outer bucket, wherein a opening smoothing extrusion device for extruding a flat mop head is arranged at the opening part of the inner bucket, the opening smoothing extrusion device comprises a socket for passing through the flat mop head and an extrusion piece arranged on one side of the socket for extruding a wiping object of the flat mop head, an overflowing hole communicated with the outer bucket is arranged at the middle lower part of the inner bucket in the bucket body, the outer bucket is independently separated to form a clear water cavity and a sewage cavity, the inner bucket is arranged on one side of the clear water cavity, and a water pressing structure for extruding water from the inner bucket to the sewage bucket in a one-way mode is further arranged in the inner bucket. The outer barrel is divided into the clean water cavity and the sewage cavity, so that the sewage is discharged into the sewage cavity all the time in the process of cleaning and squeezing the flat head, and the clean water enters the inner barrel all the time from the clean water cavity, so that the flat head is cleaned by clean water each time, and repeated cleaning and squeezing work on the flat head cannot be influenced.

Description

Single-opening mop bucket

Technical Field

The utility model relates to the field of articles for daily use, in particular to a single-stroking-mouth type mop bucket.

Background

When present dull and stereotyped mop washs and the dehydration, need cooperate the mop bucket, generally need set up washing district and dehydration zone on the mop bucket for the washing of mop and the dehydration operation after wasing, like the structure disclosed in the chinese patent that application number is CN201710221885.1 name extrusion dull and stereotyped mop burnisher that can erect, divide into independent washing district and dehydration zone with the mop bucket, set up respectively in washing district top and dehydration zone top and smooth out a mouthful extrusion device, it has water to fall in the washing district, does not adorn water in the dehydration zone. The flat mop is inserted into the cleaning area top and is smoothed out a mouthful extrusion device and get into the cleaning area after, the wiper that the flat mop will with the water contact in the cleaning area to the in-process that the flat mop was inserted from top to bottom realizes the washing of flat mop, then with the flat mop insert the mouthful extrusion device that smoothes out that dewaters the district position and get into the dehydration district, insert the in-process that the flat mop was pulled out from top to bottom, because water is not adorned in the dehydration district, thereby the flat mop is gone up and is remained too much water on the wiper and will be extruded, realizes the function of the flat dehydration of dragging.

However, this arrangement requires the plate to be dragged between the two ports for cleaning and dewatering, and is therefore inconvenient to operate. To address the above-mentioned problems, a related structure is disclosed in chinese patent application No. CN209377489U entitled mop bucket for facilitating flat mop cleaning and dewatering. The inner barrel with the opening smoothing extrusion structure is arranged in the outer barrel, and the flow passing holes communicated with the cavities of the inner barrel and the outer barrel are formed in the middle lower part of the inner barrel, so that clear water in the outer barrel can gradually flow into the inner barrel, when the flat mop head is extruded, water in the inner barrel is continuously pumped up and down through the flat head and is discharged to the outer barrel from the opening smoothing part of the inner barrel, and meanwhile, the water is extruded to the outer barrel through the one-way water outlet structure at the bottom of the inner barrel. In this way, although the plate head can be cleaned and squeezed by only one stroking opening and repeatedly inserting the plate head up and down, the water in the outer barrel can dirty the assembly, and the water flowing into the inner barrel again is dirty, so that the repeated cleaning and squeezing of the plate mop is not facilitated.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a single-stroking-type mop bucket which can realize the cleaning and squeezing of a flat head through a step of up-and-down insertion and cannot influence the repeated cleaning and squeezing effect of the flat head.

In order to achieve the purpose, the method is realized by the following technical means: the single-stroking-mouth type mop bucket comprises an inner bucket and an outer bucket, wherein a stroking-mouth extruding device used for extruding a flat mop head is arranged at the position of a bucket opening of the inner bucket, the stroking-mouth extruding device comprises a socket used for passing through the flat mop head and an extruding piece arranged on one side of the socket and used for extruding a flat mop head wiping object, a overflowing hole communicated with the outer bucket is formed in the position, in the middle and lower part of the bucket body, of the inner bucket, the outer bucket is independently separated to form a clear water cavity and a sewage cavity, the inner bucket is arranged on one side of the clear water cavity, and a water pressing structure used for extruding water from the inner bucket to the sewage bucket in a single direction is further arranged in the inner bucket.

The method is further optimized as follows: the aperture of the overflowing hole is 1-4 mm.

The method is further optimized as follows: the extrusion piece is matched with a water outlet structure, and the water outlet structure is communicated with the sewage bucket.

The method is further optimized as follows: the water outlet structure is an extrusion piece, the extrusion piece is arranged in an inclined mode, the higher end of the extrusion piece is located on one side of the smoothing opening, and the lower end of the extrusion piece is located in the sewage cavity area.

The method is further optimized as follows: the inner barrel and the outer barrel are detachably connected or integrally arranged.

The method is further optimized as follows: the pressurized-water mechanism is including setting up in the pressurized-water storehouse of interior bucket lower part, the pressurized-water storehouse is connected through the connecting neck with the lower part of interior bucket, it has a piston to connect the sealed sliding in the neck, one side that the piston is towards interior bucket is connected with a pressurized-water section of thick bamboo, the bottom of interior bucket is worn out and is in interior bucket position on the upper portion of pressurized-water section of thick bamboo, the bottom and the piston break-over of pressurized-water section of thick bamboo just are provided with first check valve in the break-over position, the direction of switching on of first check valve is interior bucket to pressurized-water storehouse one-way switch-on, and still be provided with the elastic component of ordering about the piston between piston bottom and the connecting neck bottom and move towards connecting neck top, still be provided with the second check valve between pressurized-water storehouse and sewage cavity, the direction of switching on of second check valve is pressurized-water storehouse to sewage cavity one-way switch-on.

The method is further optimized as follows: the wall of the water pressing barrel is provided with a plurality of split grooves along the generatrix.

Compared with the prior art, the utility model has the advantages that: 1. when the flat mop is cleaned, the flat mop enters the inner barrel through the opening smoothing extrusion device, and in the process of up-down insertion, water adsorbed on the flat mop directly enters the sewage cavity through the extrusion piece, so that less and less water in the inner barrel is obtained, and when the flat mop is inserted behind, the dewatering work is realized, so that the cleaning and dewatering work of the mop can be realized only by arranging one opening smoothing extrusion device, and the operation is convenient;

2. the bottom of the inner barrel is provided with the pressurized water structure, so that the water outlet efficiency of the inner barrel is accelerated, the insertion frequency of a mop in the inner barrel is reduced, and on the other hand, when the water in the cleaning cavity of the inner barrel is discharged and the water in the pressurized water bin is also pressed to be dry, water still enters the inner barrel from the overflowing hole, but due to the arrangement of the pressurized water structure, the water can be timely and quickly discharged from the pressurized water bin to the sewage cavity, the flat head is prevented from being soaked again, and the squeezing efficiency is improved;

3. the outer barrel is divided into the clean water cavity and the sewage cavity, so that the sewage is discharged into the sewage cavity all the time in the process of cleaning and squeezing the flat head, and the clean water enters the inner barrel all the time from the clean water cavity, so that the flat head is cleaned by clean water each time, and repeated cleaning and squeezing work on the flat head cannot be influenced.

Drawings

FIG. 1 is a schematic axial view of the mop bucket in this embodiment;

FIG. 2 is an inside isometric view of the mop bucket of this embodiment with the bucket cover removed;

FIG. 3 is a schematic cross-sectional view of the mop bucket of this embodiment;

FIG. 4 is an enlarged view of portion A of FIG. 3;

FIG. 5 is a schematic view of the inner barrel in this embodiment;

FIG. 6 is a schematic view of the barrel according to the first embodiment;

FIG. 7 is a schematic view of the barrel according to the second embodiment.

In the figure, 1, an outer barrel; 11. a clear water cavity; 12. a sewage chamber; 121. a water drain valve; 13. a partition plate; 2. an inner barrel; 21. a cleaning chamber; 22. water passing holes; 23. a water pressing bin; 231. a connecting neck; 232. a water pressing cavity; 24. an extrusion; 31. a piston; 32. a water pressing cylinder; 4. a spring; 51. a first check valve; 52. a second one-way valve.

Detailed Description

The utility model will be further described in the following by means of specific embodiments, which are given by way of illustration only and are not limiting to the scope of the utility model.

Example one

A single-opening mop bucket, as shown in figures 1-6, comprises an outer bucket 1 and an inner bucket 2, wherein the outer bucket 1 is shown in figure 6 and is separated into two independent cavities by a partition plate 13, and the two independent cavities are respectively a sewage cavity 12 of a clean water cavity 11, wherein the inner bucket 2 is installed on one side of the clean water cavity 11, and the inner bucket 2 is fixedly installed by abutting against the partition plate 13.

The opening of the inner barrel 2 is provided with a opening smoothing extrusion device, wherein the function and the structure of the opening smoothing extrusion device are the same as those of the prior art, and are not changed, so that the brief description is made here, and the deep analysis on the structure function is not made. The opening squeezing device is provided with a downward inclined squeezing part 24, when the flat mop head is inserted up and down at the opening part, water and impurities squeezed out by the squeezing part 24 enter the sewage cavity 12 along the squeezing part 24.

The wall of the inner barrel 2 is provided with an overflowing hole, the aperture is 1-2mm, and the effect of enabling water in the clean water cavity 11 to slowly flow into the cleaning cavity 21 of the inner barrel 2 is achieved, when the flat mop is cleaned, on one hand, the water in the inner barrel 2 is squeezed out by the flat mop squeezing device and flows to the sewage cavity 12, on the other hand, the water in the clean water cavity 11 slowly flows into the inner barrel 2, the water outlet speed is far higher than the water inlet speed, after the flat mop is pulled up and down for several times, the water in the cleaning cavity 21 is drained, at the moment, the flat mop is pulled up and down, the flat mop dehydration operation is achieved, therefore, the effect that only one flat mop squeezing device is needed is achieved, the cleaning and dehydration work can be achieved only through the action of pulling the flat mop up and down, and the operation is very convenient. In addition, the outer barrel 1 is divided into the independent clear water cavity 11 and the independent sewage cavity 12, so that the discharged sewage does not influence clear water, and therefore, when the mop is cleaned for the second time, water entering the cleaning cavity 21 is always kept clean, and repeated cleaning and squeezing work of the flat head is not influenced.

Meanwhile, because the overflowing hole is always in the water inlet state, even if the water in the cleaning cavity 21 is pumped to be dried during the dehydration operation, a certain amount of water is inevitably reserved in the cleaning cavity 21 all the time, and the completely water-free state of the cleaning cavity 21 cannot be achieved, so that a water pressing structure is further arranged on the inner barrel 2.

The water pressing mechanism comprises a water pressing bin 23 arranged at the lower part of the inner barrel 2, the water pressing bin 23 is connected with the lower part of the inner barrel 2 through a connecting neck 231, a piston 31 is hermetically slid in the connecting neck 231, one side of the piston 31 facing the inner barrel 2 is connected with a water pressing barrel 32, the upper part of the water pressing barrel 32 penetrates through the bottom of the inner barrel 2 and is positioned at the position of the inner barrel 2, the bottom of the water pressing barrel 32 is penetrated through the piston 31 and is provided with a first one-way valve 51 at the penetrating part, the conduction direction of the first one-way valve 51 is that the inner barrel 2 is conducted towards the water pressing bin 23 in one way, a spring 4 for driving the piston 31 to move towards the top of the connecting neck 231 is further arranged between the bottom of the piston 31 and the bottom of the connecting neck 231, a second one-way valve 52 is further arranged between the water pressing bin 23 and the sewage cavity 12, and the conduction direction of the second one-way valve 52 is that the water pressing bin 23 is conducted towards the sewage cavity 12. In order to make water better enter the inside of the pressurized water cylinder 32, a plurality of slots along the generatrix of the wall of the pressurized water cylinder 32 are arranged.

When the last squeezing operation of the plate head is performed, water slowly flows into the cleaning cavity 21, when the plate head is inserted downwards, the plate head presses the water pressing cylinder 32 downwards, and the piston 31 slides downwards, so that the air in the water pressing cavity 232 is discharged through the second one-way valve 52. When the flat head is inserted upwards, the piston 31 will return under the action of the spring 4, and the water pressing cylinder 32 also rises and returns, at this time, the water pressing cavity 232 will generate negative pressure, and the water accumulated in the cleaning cavity 21 will be sucked into the water pressing cavity 232 through the first one-way valve 51, so as to realize the pumping-out of a small amount of accumulated water in the cleaning cavity 21. When the mop head is inserted downwards again, the water in the water pressing cavity 232 is discharged into the sewage cavity 12 through the second one-way valve 52, and when the mop head is lifted, a small amount of water accumulated in the cleaning cavity 21 is pumped into the water pressing cavity 232 again to reciprocate in sequence, so that the efficiency of the mop head in the squeezing process is improved.

Example two

Referring to the attached drawing 7, the single-opening mop bucket is different from the first embodiment in that the inner bucket 2 is directly integrated with the outer bucket 1, the inner bucket 2 is directly integrated with the partition plate 13 by injection molding, and the rest of the structure and principle are the same as those of the first embodiment.

The above description is only a preferred embodiment of the present invention, and the protection scope of the present invention is not limited to the above embodiments, and all technical solutions belonging to the idea of the present invention belong to the protection scope of the present invention. It should be noted that modifications and embellishments within the scope of the utility model may occur to those skilled in the art without departing from the principle of the utility model, and are considered to be within the scope of the utility model.

Claims

1. The single-opening-smoothing type mop bucket comprises an inner bucket (2) and an outer bucket (1), wherein a mouth smoothing extrusion device used for extruding a flat mop head is arranged at the position of a bucket mouth of the inner bucket (2), the mouth smoothing extrusion device comprises a socket used for passing through the flat mop head and an extrusion piece (24) used for extruding a flat mop head wiping object and arranged on one side of the socket, a flow through hole communicated with the outer bucket (1) is formed in the middle-lower position of the inner bucket (2) in the bucket body, the single-opening-smoothing type mop bucket is characterized in that the outer bucket (1) is independently separated to form a clear water cavity (11) and a sewage cavity (12), the inner bucket (2) is arranged on one side of the clear water cavity (11), and a water pressing structure used for extruding water from the inner bucket (2) to the sewage bucket in a single direction is further arranged in the inner bucket (2).

2. The single stroke mop bucket of claim 1, wherein the flow holes have a diameter of 1-4 mm.

3. The single stroked mop bucket of claim 1, wherein the extrusion (24) is fitted with a water outlet structure that communicates with the bucket.

4. The single-stroked mop bucket according to claim 3, wherein the water outlet structure is an extrusion (24) and the extrusion (24) is arranged obliquely, the higher end of the extrusion (24) is positioned on the stroked side and the lower end is positioned in the area of the sewage cavity (12).

5. The single-stroked mop bucket according to claim 1, wherein the inner bucket (2) and the outer bucket (1) are detachably connected or integrally arranged.

6. The single-opening mop bucket according to claim 1, wherein the water pressing mechanism comprises a water pressing bin (23) arranged at the lower part of the inner bucket (2), the water pressing bin (23) is connected with the lower part of the inner bucket (2) through a connecting neck (231), a piston (31) is hermetically and slidably arranged in the connecting neck (231), one side of the piston (31) facing the inner bucket (2) is connected with a water pressing barrel (32), the upper part of the water pressing barrel (32) penetrates through the bottom of the inner bucket (2) and is positioned at the position of the inner bucket (2), the bottom of the water pressing barrel (32) and the piston (31) penetrate through the water pressing barrel (31), a first one-way valve (51) is arranged at the penetrating part, the conducting direction of the first one-way valve (51) is that the inner bucket (2) conducts towards the water pressing bin (23) in one way, and an elastic element for driving the piston (31) to move towards the top of the connecting neck (231) is further arranged between the bottom of the piston (31) and the bottom of the connecting neck (231), a second one-way valve (52) is also arranged between the pressurized water bin (23) and the sewage cavity (12), and the conduction direction of the second one-way valve (52) is that the pressurized water bin (23) conducts to the sewage cavity (12) in one way.

7. The single-stroked mop bucket according to claim 6, characterized in that the wall of the water pressing cylinder (32) is provided with a plurality of slots along its generatrix.