CN223860815U - A bucket-shaped push-to-tight mop bucket - Google Patents

Abstract

This utility model discloses a funnel-shaped push-to-twist mop bucket, including a bucket body and a funnel-shaped squeezing chamber. The funnel-shaped squeezing chamber is located on one side edge of the bucket body and is generally trapezoidal in shape. The four walls of the squeezing chamber converge towards the center, forming a structure that is wider at the top and narrower at the bottom. The walls converge towards the center more noticeably closer to the bottom. The inner wall of the squeezing chamber has horizontal and vertical ribs evenly distributed along the walls. The top of the squeezing chamber is a large planar opening, and the bottom area is 1/3 to 1/4 of the top opening area. Water-permeable holes are evenly distributed on the side walls and bottom surface of the chamber. This utility model can dehydrate the mop by pressing and twisting. The product has a simple structure, is easy to use, has good effect, low cost, and wide applicability.

Description

Bucket-shaped squeezing mop bucket

Technical Field

The utility model belongs to the field of daily cleaning products, and particularly relates to a bucket-shaped squeezing mop bucket.

Background

The mop is a cleaning article which is frequently used in daily life, and the mop head needs to be cleaned frequently in the using process of the mop, and the mop head needs to be wrung by hands in the past when being cleaned and dried, so that the mop is not sanitary and is time-consuming and labor-consuming. In the prior art, in order to solve the problems of cleaning and drying the mop without being stained with water, spin-drying by a rotating wheel, pressing type drying and pressing type drying are common.

The spin-drying mode of the rotary wheel spin-drying is only suitable for disc-shaped short-hair mop heads, but the disc-shaped short-hair mop heads have short and sparse hair, low mopping speed and low efficiency, and are limited by the disc shape of the mop heads, so that narrow areas such as corners and the like cannot be cleaned, and cleaning dead angles can be generated. When the rotary wheel spin-dries, the mop needs to be continuously pressed, so that the mop is time-consuming and labor-consuming, relatively complex in structure and high in cost.

The squeezing type dewatering mode is adopted, the mop is dewatered through the pressing or pushing and pulling of the squeezing plate, the dewatering degree is moderate, the squeezing process is relatively laborious, the operation of the old is not very convenient, the structure complexity is moderate, and the cost is moderate.

The pressing type dewatering mode is adopted to dewater in a pressing mode, so that the operation is relatively simple, labor is saved, the operation is easy, the structure is simple, and the cost is low. At present, most squeezing bins of a pressing type squeezing mode are of semicircular structures, the pressing squeezing effect is general, and a slipping phenomenon exists when the mop is further dehydrated by screwing.

Disclosure of utility model

Aiming at the problems, the utility model provides a bucket-shaped squeezing mop bucket which saves labor and is squeezed to prevent skidding.

The bucket-shaped squeezing bin is located at one side edge of the bucket body, the bucket-shaped squeezing bin is integrally in a trapezoid shape, four walls of the squeezing bin are converged towards the center to form a structure with a large upper part and a small lower part, the closer the bin wall is to the bottom, the more obvious the degree of gathering towards the center is, transverse and longitudinal ribs are arranged on the inner wall of the squeezing bin, the ribs are uniformly distributed along the bin wall, the top is a larger plane opening, the bottom area is 1/3-1/4 of the top opening area, and water permeable holes are uniformly distributed on the side wall and the bottom surface of the bin.

Further, the bucket-shaped squeezing bin is connected with three sides of the barrel body, the upper cantilevers on the two sides of the upper edge of the bucket-shaped squeezing bin are respectively connected with the corresponding two sides of the barrel body, the upper area of one side surface of the bucket-shaped squeezing bin, which is not provided with the cantilevers, is connected with one side of the barrel body, and the rest one side surface is in a suspended state.

Further, the barrel body comprises a groove protruding out of the inner barrel wall, and the bottom of the bucket-shaped squeezing bin is connected with the groove of the barrel body through a lower cantilever.

Further, the bucket-shaped squeezing bin comprises a squeezing bin handle.

Further, protruding racks are evenly distributed on the inner side of the bottom of the bucket-shaped squeezing bin.

Further, the height of the rack is 2-25mm.

Further, the height of the ribs is 2-25mm.

The mop squeezing device has the beneficial effects that the mop squeezing device is efficient in dehydration, the special structure of the bucket-shaped squeezing bin is matched with the bottom rack and the side wall ribs, mop water can be squeezed out strongly, water stain residues on the ground are reduced, the mop squeezing device is convenient to operate, the mop squeezing device can be used for squeezing the mop head or the rotating handle rod while being pressed, the mop squeezing device is easy and labor-saving, is suitable for various people, is strong in cleaning capability, can effectively remove mop dirt when the inner wall ribs are dehydrated, ensures the mopping effect, is simple in structure, quick to use, good in effect, low in cost and strong in applicability, is particularly suitable for families with low income and old people, and can easily meet daily cleaning requirements.

The utility model is explained in detail below with reference to the attached drawing and the specific embodiments.

Drawings

FIG. 1 is a cross-sectional view of the overall structure of the present utility model;

FIG. 2 is a cross-sectional view of the structure A-A of the present utility model;

FIG. 3 is a front view of the bucket wringer cartridge of the present utility model;

FIG. 4 is a side view of the bucket wringer cartridge of the present utility model.

In the figure, a barrel body 1, a bucket-shaped squeezing bin 2, a groove 11, ribs 21, an upper cantilever 22, a lower cantilever 23, a rack 24 and a squeezing bin handle 25.

Detailed Description

Example 1:

A bucket-shaped squeezing mop bucket comprises a bucket body 1 and a bucket-shaped squeezing bin 2. The bucket-shaped squeezing bin 2 is positioned at one side edge of the barrel body 1, the whole of the bucket-shaped squeezing bin is in a trapezoid shape, an included angle formed by the bin wall and the bottom plate is about 100 degrees, four walls of the squeezing bin are converged towards the center to form a structure with wide upper part and narrow lower part, and the degree of folding towards the center is more obvious when the bin wall is closer to the bottom. The inner wall of the bin wall is provided with transverse and longitudinal ribs 21, the ribs 21 are uniformly distributed along the bin wall, friction force on the mop cloth is enhanced, water can be better extruded in the dehydration process, and the height of the ribs is 2-25mm.

The protruding racks 24 are uniformly distributed on the inner side of the bottom of the bucket-shaped squeezing bin 2, the height range of the racks 24 is controlled to be 2-25mm, cotton thread strips of a mop can be effectively clamped, the cotton thread strips are prevented from rotating along with the mop head in an unobstructed manner, the top of the squeezing bin is a large plane opening, the bottom area is 1/3-1/4 of the opening area of the top, so that the mop can be subjected to stronger extrusion force gradually when being pressed to be rotationally dehydrated, and the dehydration effect is improved. In addition, the side wall and the bottom surface of the bin are uniformly provided with water permeable holes, and the water permeable holes can timely discharge extruded water out of the bucket-shaped squeezing bin 2, so that the water is prevented from accumulating in the bin, and the dewatering effect and the subsequent use are prevented from being influenced.

The upper cantilever arms 22 on the two sides of the upper edge of the bucket-shaped squeezing bin 2 are overlapped on the barrel body 1, the joint of the two sides and the barrel body 1 is fixed with the barrel body 1 through screws, the upper part of the side surface of one non-cantilever arm of the bucket-shaped squeezing bin 2 is overlapped on the barrel body 1, and the joint of the bucket-shaped squeezing bin and the barrel body 1 is fixed with the barrel body 1 through screws.

The bucket-shaped squeezing bin 2 comprises a squeezing bin handle 25 for lifting a mop bucket or a squeezing bin.

The barrel body 1 comprises a groove 11 protruding from the inner barrel wall, and a cantilever 23 at the bottom of the bucket-shaped squeezing bin 2 is embedded into the groove 11.

The bucket-shaped squeezing mop bucket is characterized in that after a mop head is directly placed in a bucket bin, the mop head is rotated while being pressed downwards, the volume of the mop head gradually enters the lower half part with smaller caliber from the initial larger value in the downward rotation process of the mop head, and water in the mop is extruded in the process of reducing the volume of the mop. In addition, the mop head can be dehydrated by rotating the mop rod. When the mop rod is rotated, the mop head rotates along with the mop rod, cotton thread cloth strips below the mop head are clamped by the rack 24 at the bottom of the squeezing bin in the rotation process, so that the cotton thread cloth strips cannot rotate along with the mop head, when the mop head continues to rotate, the cotton thread cloth strips of the mop head can also rub with the ribs on the side wall of the squeezing bin, the effect of further dehydration is achieved, and the ribs on the inner wall can also effectively remove mop dirt during dehydration, so that the mopping effect is ensured.

The foregoing is only illustrative of the technical solution of the present utility model and not limiting, and although the present utility model has been described in detail with reference to the preferred arrangement, it will be understood by those skilled in the art that modifications and equivalent substitutions can be made in the technical solution of the present utility model (such as the connection manner, the shape of each element, etc.) without departing from the spirit and scope of the technical solution of the present utility model.

Claims (7)

1. The utility model provides a bucket shape is according to twisting formula mop bucket, includes staving (1) and bucket shape squeezing bin (2), its characterized in that, bucket shape squeezing bin (2) are located staving (1) one side border, bucket shape squeezing bin (2) are whole to be the terrace form, and squeezing bin's four walls all converge to the center, form big-end-up's structure for the bin wall is close to the bottom, and the degree of gathering towards the center is more obvious, and squeezing bin inner wall is equipped with horizontal and vertically rib (21), rib (21) are along the even distribution of bin wall, and the top is a great plane opening, and the bottom area is 1/3-1/4 of top opening area, and bin lateral wall and bottom surface equipartition have the hole of permeating water.

2. The bucket-shaped wringing mop bucket according to claim 1, wherein the bucket-shaped wringing bin (2) is connected with three sides of the bucket body (1), upper cantilevers (22) on two sides of the upper edge of the bucket-shaped wringing bin (2) are respectively connected with two corresponding sides of the bucket body (1), an upper area of one side surface of the bucket-shaped wringing bin (2) where one non-cantilever is located is connected with one side of the bucket body (1), and the rest one surface is in a suspended state.

3. Bucket-shaped wringing mop bucket according to claim 1, characterized in that the bucket body (1) comprises a groove (11) protruding from the inner bucket wall, and a lower cantilever (23) at the bottom of the bucket-shaped wringing bin (2) is connected with the groove (11) of the bucket body (1).

4. Bucket-shaped wringing mop bucket according to claim 1, characterized in that the bucket-shaped wringing bin (2) is provided with a wringing bin handle (25).

5. Bucket wringing mop bucket according to claim 1, characterized in that the inner side of the bottom of the bucket wringing bin (2) is evenly distributed with protruding racks (24).

6. Bucket-shaped wringing mop bucket according to claim 5, characterized in that the rack (24) has a height of 2-25mm.

7. Bucket-shaped wringing mop bucket according to claim 1, characterized in that the height of the ribs (21) is 2-25mm.