CN211022497U - Cleaning and squeezing barrel for flat mop - Google Patents

Abstract

The utility model provides a dull and stereotyped mop wash wringing bucket, including staving and the wringing ware of setting at the staving opening part, the staving is equipped with and separates into crowded water chamber and washing chamber divided partition portion with this staving, the wringing ware is including being equipped with the water conservancy diversion passageway that is used for leading-in washing chamber of water that will wringing ware is extruded, the wringing ware is including the support that is equipped with the socket, be equipped with the swing scraper who is used for extrudeing dull and stereotyped mop's cleaning part in this socket, this swing scraper and this support pivotal connection, this swing scraper is equipped with the spacing arm that extends dorsad to the socket center, this support is equipped with the first spacing supporting part that extends towards this swing scraper lower surface middle part, the spacing supporting part of second that corresponds with this spacing arm, can extrude swing scraper clockwise when dull and stereotyped mop pushes down and lean on first spacing supporting part to crowded water position and make the accessible clearance of socket diminish, can extrude swing scraper anticlockwise rotation to the Is large.

Description

Cleaning and squeezing barrel for flat mop

Technical Field

The utility model relates to the technical field of mops, in particular to a cleaning and squeezing barrel for a flat mop.

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.

Referring to fig. 4, chinese patent publication No. CN107456180A discloses a wheeled squeeze flat mop cleaning tool, wherein the mop bucket has an independent water squeezing area and an independent cleaning area; the mop bucket is provided with a smoothing-out extrusion device (corresponding to the water squeezer), the flat mop head is rotated to a state capable of being washed and squeezed during washing and squeezing, and the flat mop head can be kept in a washing and squeezing state through the positioning device between the flat mop head and the mop rod; when mopping, the flat mop head is separated from the control of the positioning device so as to rotate to the mopping state.

In order to ensure the effect, the water squeezed by the water squeezer in the water squeezing area 5 is prevented from contacting the mop head, an upward raised boss 48 is arranged in the water squeezing area 5, the raised boss 48 is generally arranged on the bottom surface of the water squeezing area 5, the flat mop corresponds to the raised boss 48 during water squeezing, a water accumulation interlayer is formed at the periphery of the raised boss 48 and is used for accommodating the water squeezed during water squeezing, and the flat mop head can only move downwards until the raised boss 48 is raised, so that the flat mop head cannot contact the water accumulation.

This has two disadvantages, firstly the volume of the water accumulation interlayer is limited, and the water can be drained even if the water accumulation interlayer is slow, and the water in the cleaning cavity can be drained at the same time, and secondly the height of the water squeezing device is higher, and the consumption of the material of the barrel wall of the water squeezing cavity is large.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a dull and stereotyped mop wash wringing bucket can utilize the mop head to lead in the washing chamber with the moisture in crowded water chamber, and wringing is effectual to can more conveniently take out dull and stereotyped mop.

In order to achieve the advantages, the utility model provides a washing and wringing barrel for a flat mop, which comprises a barrel body and a wringing device arranged at the opening of the barrel body, wherein the barrel body is provided with a partition part for separating the barrel body into a wringing cavity and a washing cavity, the wringing device comprises a flow guide channel for guiding water squeezed by the wringing device into the washing cavity, the wringing device comprises a bracket provided with a socket, a swing scraper for squeezing a cleaning part of the flat mop is arranged in the socket, the swing scraper is pivoted with the bracket and is provided with a limit arm extending back to the center of the socket, the bracket is provided with a first limit supporting part extending towards the middle part of the lower surface of the swing scraper and a second limit supporting part corresponding to the limit arm, when the flat mop is pressed down, the swing scraper can be squeezed to clockwise rotate to a wringing position and is abutted against the first limit supporting part to reduce the gap of the socket, when the flat mop is lifted up, the swinging scraper can be squeezed to rotate anticlockwise to a smooth position to abut against the second limiting and supporting part, so that the passing gap of the inserting opening is enlarged.

In an embodiment of the invention, the oscillating scraper is a plate-like structure.

In one embodiment of the present invention, the contact area of the oscillating scraper with the flat mop is gradually reduced in cross section toward the center of the socket.

In an embodiment of the invention, the cross-section of the contact area is triangular.

In an embodiment of the present invention, the limiting arm is a triangular plate-shaped structure perpendicular to the oscillating scraper, and the number of the limiting arms is plural.

In an embodiment of the present invention, the diversion channel is located under the swing scraper facing away from one side of the socket, and when the swing scraper is located at the wringing position, the upper surface of the swing scraper faces the diversion channel downward sloping.

In an embodiment of the present invention, the limiting arm and the swinging scraper are an integrally formed structure, and the swinging scraper is made of plastic.

In an embodiment of the present invention, a return spring for keeping the swing scraper in the unblocked position is provided between the swing scraper and the support.

In one embodiment of the present invention, the flat mop includes a mop head and a mop rod, the mop head includes a base plate and a cleaning portion.

In one embodiment of the present invention, the cleaning part is a cotton cloth or a collodion material.

The utility model discloses in, but clean portion disect insertion washs the soft washing of chamber bubble under dry hard condition. In the process of pressing the mop down, the swing scraper is squeezed by the front end of the cleaning part, the swing scraper rotates clockwise to a smooth position, the swing scraper is contacted with the front end of the cleaning part, and the gap between the swing scraper and the barrel body is smaller, so that the swing scraper extrudes water of the cleaning part. In the process of lifting the mop after the mop is cleaned, the spring enables the swing scraper to reset to a smooth position, the swing scraper is contacted with the rear end of the cleaning part, and the gap between the swing scraper and the side wall of the socket is larger.

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 a conventional universal flat collodion wringing mop and a rectangular cleaning wringing bucket.

Fig. 5 is a schematic structural view of a washing wringing bucket of a flat mop according to a first embodiment of the present invention.

Fig. 6 shows an enlarged view of the wringer of fig. 5.

Fig. 7 is a cross-sectional view of the wash wringing bucket of the flat mop of fig. 5.

Fig. 8 shows an enlarged view of the oscillating blade of fig. 7.

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.

Fig. 5 is a schematic structural view of a washing wringing bucket of a flat mop according to a first embodiment of the present invention. Fig. 6 shows an enlarged view of the wringer of fig. 5. Fig. 7 is a cross-sectional view of the wash wringing bucket of the flat mop of fig. 5. Fig. 8 shows an enlarged view of the oscillating blade of fig. 7. Referring to fig. 5 to 8, the bucket for washing and wringing a flat mop according to the first embodiment of the present invention includes a bucket body 1 and a wringing device 2 disposed at an opening of the bucket body 1, the bucket body 1 is provided with a partition 11 for partitioning the bucket body 1 into a wringing chamber 101 and a washing chamber 102, the wringing device 2 is provided with a flow guide channel 100 for guiding water squeezed by the wringing device 2 into the washing chamber 102, the lower portion of the wringing chamber 101 is provided with a liquid collection area 101a having a cross section slightly larger than that of a mop head 3 of the flat mop for accommodating the mop head 3, and the mop head 3 includes a base plate 31 and a cleaning portion 32. The cleaning portion 32 may be a cotton or collodion material. The tub 1 is preferably made of plastic.

The lower part of the water squeezing cavity 101 is fixed with a liquid collecting sleeve 12, and the liquid collecting sleeve 12 is hermetically connected with the peripheral side wall of the water squeezing cavity 101.

A trumpet-shaped guide part 121 with the section gradually increasing upwards is arranged between the liquid collecting sleeve 12 and the water squeezing cavity 101.

Above the washing chamber 102 is an opening B which allows the mop head 3 to be inserted into the washing chamber 102.

The wringer 2 includes a bracket 22 provided with a socket a in which is located a swinging blade 21 for squeezing the cleaning portion 32. The clear support 22 is provided with a first limit support part 221 extending towards the middle of the lower surface of the clear swing scraper and a second limit support part 222 corresponding to the limit arm 212.

The contact area 211 of the oscillating scraper 21 with the mop head 3 can be moved from the wringing position away from the centre of the receptacle a into the open position. The cross section of the contact area is triangular.

The contact region 211 is in the wringing position when the mop head 3 is inserted downwardly into the receptacle. The mop head 3 is moved upwards to press the oscillating blade 21 and move the contact area 211 to the open position. The swinging scraper 21 is a plate-shaped structure pivotally connected to the bracket 22, and when the contact region 211 is located at the wringing position, the upper surface of the swinging scraper 21 is inclined downward toward the diversion channel 100. The oscillating blade 21 may be a rectangular blade. The trailing portion of the oscillating blade 21 has a stopper arm 212, the stopper arm 212 abutting against the support 22 when the contact area 211 is in the wringing position, and the middle lower surface of the oscillating blade 21 abutting against the support 22 when the contact area 211 is in the open position. The stopper arm 212 is a triangular plate-like structure perpendicular to the swinging scraper 21, and the number of the stopper arms is plural.

The water squeezer comprises a support provided with a socket, a swing scraper used for squeezing a cleaning part of the flat mop is arranged in the socket, the swing scraper is in pivot connection with the support and is provided with a limiting arm extending back to the center of the socket, the support is provided with a first limiting supporting part extending towards the middle of the lower surface of the swing scraper and a second limiting supporting part corresponding to the limiting arm, when the flat mop is pressed downwards, the swing scraper can be squeezed to clockwise rotate to a water squeezing position to be propped against the first limiting supporting part to enable the accessible gap of the socket to be reduced, when the flat mop is lifted, the swing scraper can be squeezed to anticlockwise rotate to a smooth position to be propped against the second limiting supporting part to enable the accessible gap of the socket to be increased.

When in use, the cleaning part can be directly inserted into the cleaning cavity for soft cleaning under the condition of dry and hard. In the process of pressing the mop down, the swing scraper is squeezed by the front end of the cleaning part, the swing scraper rotates clockwise to a smooth position, the swing scraper is contacted with the front end of the cleaning part, and the gap between the swing scraper and the barrel body is smaller, so that the swing scraper extrudes water of the cleaning part. In the process of lifting the mop after the mop is cleaned, the spring enables the swing scraper to reset to a smooth position, the swing scraper is contacted with the rear end of the cleaning part, and the gap between the swing scraper and the side wall of the socket is larger.

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. A cleaning and wringing barrel of a flat mop comprises a barrel body and a wringing device arranged at the opening of the barrel body, wherein the barrel body is provided with a partition part for partitioning the barrel body into a wringing cavity and a cleaning cavity, and the wringing device is characterized by comprising a flow guide channel for guiding water squeezed by the wringing device into the cleaning cavity, the wringing device comprises a support provided with a socket, a swing scraper for squeezing a cleaning part of the flat mop is arranged in the socket and is pivotally connected with the support, the swing scraper is provided with a limit arm extending back to the center of the socket, the support is provided with a first limit supporting part extending towards the middle part of the lower surface of the swing scraper and a second limit supporting part corresponding to the limit arm, when the flat mop is pressed down, the swing scraper can be squeezed to rotate clockwise to a wringing position and abut against the first limit supporting part to enable the gap of the socket to be reduced, when the flat mop is lifted up, the swinging scraper can be squeezed to rotate anticlockwise to a smooth position to abut against the second limiting and supporting part, so that the passing gap of the inserting opening is enlarged.

2. A washing wringing bucket for a flat mop as in claim 1, wherein the oscillating squeegee blade is of a plate-like construction.

3. A bucket as claimed in claim 2 in which the area of contact of the oscillating squeegee blade with the flat mop is progressively reduced in cross-section towards the centre of the socket.

4. A bucket as claimed in claim 3 in which the contact zone is triangular in cross-section.

5. A bucket for washing and wringing a flat mop as in claim 1, wherein the arm is a triangular plate-like structure perpendicular to the oscillating squeegee blade, and the number of the arm is plural.

6. A bucket for washing and wringing a flat mop as in claim 1, wherein the flow directing channel is located on a side of the lower end of the oscillating blade facing away from the socket, and wherein the upper surface of the oscillating blade is inclined downwardly towards the flow directing channel when the oscillating blade is in the wringing position.

7. A bucket as claimed in claim 1 in which the arm is integrally formed with the oscillating scraper, the oscillating scraper being made of plastic.

8. A bucket as claimed in claim 7 in which a return spring is provided between the oscillating scraper and the support to maintain the oscillating scraper in an open position.

9. The bucket of any one of claims 3 to 8, wherein the flat mop includes a mop head comprising a base plate and a cleaning portion, and a mop rod.

10. The bucket of claim 9 wherein the cleaning portion is a cotton cloth or a collodion material.

Images