CN212546843U - Foam cotton mop cleaning tool - Google Patents

Foam cotton mop cleaning tool Download PDF

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Publication number
CN212546843U
CN212546843U CN202020048875.XU CN202020048875U CN212546843U CN 212546843 U CN212546843 U CN 212546843U CN 202020048875 U CN202020048875 U CN 202020048875U CN 212546843 U CN212546843 U CN 212546843U
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squeezing
mop
supporting plate
foam
cleaning tool
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CN202020048875.XU
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Chinese (zh)
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不公告发明人
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Ningbo Deruntang Intelligent Technology Co Ltd
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Ningbo Deruntang Intelligent Technology Co Ltd
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Abstract

A cleaning tool for a foam cotton mop comprises a cleaning barrel and the mop, wherein the mop comprises a mop head connected to the lower end of a mop rod, the mop head comprises a mounting part and foam cotton, the cleaning barrel is provided with a squeezing frame, and a squeezing structure is arranged in the squeezing frame; the method is characterized in that: the water squeezing structure comprises two squeezing plates and a supporting plate, the outer side of each squeezing plate is formed on the squeezing frame through a first flexible connecting sheet, the left side and the right side of each supporting plate are formed on the squeezing plates on the corresponding sides through second flexible connecting sheets, and the bottom of each supporting plate is provided with an elastic structure; the foam cotton is provided with a first side extruded surface, a second side extruded surface and a bottom extruded surface which extend along the length direction, and the first side extruded surface and the second side extruded surface are respectively positioned on the left side and the right side of the bottom extruded surface. The cleaning tool based on the foaming cotton mop is simple and reasonable in structure, low in cost and capable of being squeezed out quickly, the cleaning barrel adopted by the cleaning tool can be made to be low, the overall structure is small and exquisite, and the cleaning tool is convenient to store and reduces cost.

Description

Foam cotton mop cleaning tool
Technical Field
The present invention relates to a cleaning tool, and more particularly to a cleaning tool suitable for cleaning and drying a foam mop, wherein the foam mop is a wiper made by a foam molding process, such as a rubber foam, a sponge, a synthetic material containing foam, or the like.
Background
The traditional collodion mop comprises a mop rod, a mop head and a water squeezing mechanism, wherein the water squeezing device in the collodion mop is a transmission structure and comprises a handle, a pull rod, a caliper seat (squeezing frame), a collodion clamp and a water squeezing rod, the caliper seat is approximately U-shaped, the collodion clamp is clamped by the collodion clamp, the collodion clamp is fixed at the bottom end of the pull rod, the top end of the pull rod is movably pinned with the middle part of the handle, the rear end of the handle is pinned on the mop rod, and the two ends of the water squeezing rod are pinned at the lower end of the caliper seat. When the wringing operation is performed, the pulling handle is pulled to drive the collodion head to move up horizontally through the pulling rod, and the wringing rod wrings water from the upper part to the lower part in the thickness direction of the collodion. The mop rod of the mop is additionally provided with a plurality of components, and has complex structure, heavy weight and laborious operation. Some inventions are directed to a cleaning barrel of a collodion mop, such as the Chinese patent application with the application number of CN201710920255.3, namely a cleaning barrel and a collodion mop for cleaning the collodion mop, and the Chinese patent application with the application number of CN201811267670.4, namely a collodion mop squeezing barrel, and the like. A squeezing device is arranged on the barrel body, and a squeezing part in the squeezing device squeezes the bottom surface of the foaming cotton head only along the length direction of the foaming cotton head. The water squeezing stroke is long (longer than the mop head), the time consumption is high, the height of the cleaning barrel must be increased, the cost is increased, the mop head needs to be rotated to be basically parallel to the mop rod during water squeezing, and the operation is inconvenient.
Therefore, how to design a cleaning tool for a foam cotton mop, which has a small and reasonable structure, low cost and capability of being quickly squeezed, is a problem to be solved by the technical personnel in the field.
SUMMERY OF THE UTILITY MODEL
The utility model aims to solve the technical problem that a burnisher based on foaming cotton mop that simple structure is reasonable, with low costs and can quick wringing is provided to above-mentioned prior art current situation, the height that can be done to the clean bucket that this burnisher adopted, overall structure is small and exquisite, is convenient for deposit and reduce cost.
The utility model provides a technical scheme that above-mentioned technical problem adopted does: a cleaning tool for a foam cotton mop comprises a cleaning barrel and the mop, wherein the mop comprises a mop head connected to the lower end of a mop rod, the mop head comprises an installation part and foam cotton arranged at the bottom of the installation part, the cleaning barrel is provided with a squeezing frame, and a squeezing structure used for squeezing the foam cotton is arranged in the squeezing frame; the method is characterized in that: the squeezing structure comprises two squeezing plates which are oppositely arranged at left and right intervals and a supporting plate which is positioned between the two squeezing plates, the supporting plate is used for supporting foamed cotton, the two squeezing plates and the supporting plate form a squeezing channel during squeezing, the outer side of each squeezing plate is formed on a squeezing frame through a first flexible connecting sheet and can swing, the left side and the right side of the supporting plate are respectively formed on the squeezing plates at the corresponding sides through second flexible connecting sheets and can enable the supporting plate and the squeezing plates to swing relatively, and the bottom of the supporting plate is provided with an elastic structure which enables the supporting plate to keep moving upwards; the foamed cotton is provided with a first side extruded surface, a second side extruded surface and a bottom extruded surface which extend along the length direction, and the first side extruded surface and the second side extruded surface are respectively positioned at the left side and the right side of the bottom extruded surface; when water is squeezed, the length directions of the extrusion plates and the supporting plate and the length direction of the foaming cotton are both transverse, and in the process of pressing the mop rod downwards, the supporting plate moves downwards, and the two extrusion plates swing downwards, so that the extruded surfaces of the first side, the second side and the bottom are extruded.
Preferably, the extrusion plate is provided with an inclined surface and a vertical surface, the bottom of the inclined surface is connected with the inner side surface of the extrusion frame through the first flexible connecting sheet, the bottom of the vertical surface is connected with the side edge of the supporting plate through the second flexible connecting sheet, and after the extrusion plate swings, the vertical surface forms an extrusion surface which inclines outwards from top to bottom, so that the width of the upper port of the extrusion channel is reduced, and the extrusion is further performed on the first side and the second side by the extrusion surface. This stripper plate structure can form good crowded water effect to the foaming cotton, and at the beginning, vertical two sides that face the foaming cotton are formed by the compressive plane and extrude in advance, and the foaming cotton gets into extrusion passageway light, pushes down the back, and the stripper plate swings along with the moving down of backup pad, and the last port of extrusion passageway diminishes, forms big end down's extrusion passageway, further forms the extrusion to two sides of foaming cotton, and the extrusion is more abundant.
In order to make the downward movement easy, the above-mentioned inclined plane is equipped with water-permeable hole. And the first flexible connecting sheet and/or the second flexible connecting sheet are/is provided with water permeable holes. The supporting plate is provided with a water permeable hole. The water after extrusion can be got rid of fast through the hole of permeating water, reduces the resistance, can further strengthen crowded water effect.
Preferably, the support plate has an upwardly arched cross section. The arched surface of the supporting plate can squeeze water from the middle part to the two sides of the squeezed surface at the bottom of the foam cotton, and the squeezing effect is better.
Further improve, the bottom surface of above-mentioned cleaning bucket has boss portion, the bottom of backup pad has downwardly extending and is annular extension wall, extends the wall and encloses into the direction chamber that matches with boss portion appearance, boss portion can lead the chamber relatively and slide from top to bottom, elastic construction is the spring, the bottom of backup pad has downwardly extending's promotion post, it has the guiding hole to open on the boss portion, is equipped with the spring holder that can slide from top to bottom in the guiding hole, the spring holder keeps the trend of moving upwards when locating spring holder below and, promote the conflict of post and spring holder. This structure ensures that the backup pad axial slides from top to bottom, and the direction chamber provides suitable installation position to the spring simultaneously, and elastic construction equipment is convenient, installs spring holder and spring to the direction intracavity in advance, will crowd the frame again and install and accomplish the equipment on the cleaning barrel promptly.
In order to ensure that the cleaning operation and the squeezing operation of the cleaning barrel are not interfered with each other, the cleaning barrel is internally divided into a squeezing area and a cleaning area, the squeezing frame is arranged in the squeezing area, and the cleaning area is used for the mop head to enter.
Compared with the prior art, the utility model has the advantages of: when water is squeezed, the length direction of the squeezing component and the length direction of the foaming cotton are both transverse, the mop head is placed on the supporting plate, in the process of pressing the mop rod downwards, the foaming cotton at the bottom of the mop head pushes the supporting plate to move downwards, the supporting plate moves downwards to drive the two squeezing plates to swing, and the supporting plate and the squeezing plates on the two sides squeeze the foaming cotton together to form water squeezing. The squeezing device is completely different from the traditional downward squeezing mode, the whole squeezing stroke is ensured to be close to the size of the collodion in the thickness direction, the squeezing stroke is short, rapid squeezing can be realized, the water squeezing operation is simple, the time spent is short, only one rapid pressing action is needed, and the user experience is good; compared with the traditional foam cotton cleaning tool, the cleaning bucket can be made to be short, and the cost is reduced. The elastic structure makes the supporting plate keep moving upwards, and after the downward pressure on the mop rod is removed, the elastic structure can assist the mop head 3 to move upwards to be separated from the extrusion channel P. In addition, the outer sides of the extrusion plates are formed on the extrusion frame through the first flexible connecting sheets and can swing, the left side and the right side of the supporting plate are formed on the extrusion plates on the corresponding sides through the second flexible connecting sheets respectively and can enable the supporting plate and the extrusion plates to swing relatively, so that the extrusion plates, the supporting plate and the extrusion frame are formed in one step by an injection molding method, the processing is more convenient, and the cost is greatly reduced.
Drawings
Fig. 1 is a schematic perspective view (not in use) of a preferred embodiment of the present invention;
FIG. 2 is a cross-sectional view of a preferred embodiment of the present invention (not in use);
fig. 3 is a schematic perspective view of the preferred embodiment of the present invention (starting to wring);
fig. 4 is a cross-sectional view of a preferred embodiment of the present invention (starting to flush);
FIG. 5 is a schematic perspective view of a wringing rack according to a preferred embodiment of the present invention;
FIG. 6 is a schematic perspective view of a cleaning bucket according to a preferred embodiment of the present invention;
fig. 7 is a schematic perspective view (maximum wringing state) of the preferred embodiment of the present invention;
fig. 8 is a cross-sectional view (maximum wringing condition) of a preferred embodiment of the present invention.
Detailed Description
The present invention will be described in further detail with reference to the following embodiments.
As shown in fig. 1 to 8, it is a preferred embodiment of the present invention.
The utility model provides a foam cotton mop burnisher, includes clean bucket 1 and mop, and the mop is including connecting mop head 3 at mop pole lower extreme, and the mop pole does not show in the drawing, and mop head 3 includes mounting means 31 and locates the foam cotton 32 of the bottom of mounting means 31, and 1 installation of clean bucket is crowded frame 4, is equipped with in crowded frame 4 to be used for carrying out crowded dry crowded water structure to foam cotton 32, and the foam cotton has certain thickness, and the hydroscopicity is strong. The interior of the cleaning bucket 1 is divided into a wringing zone Q1 and a cleaning zone Q2, the wringing is arranged in the wringing zone Q1, the cleaning zone is used for the entry of the mop head 3, and the mop head 3 can be cleaned in the cleaning zone Q2.
The water squeezing structure comprises two squeezing plates 5 which are oppositely arranged at left and right intervals and a supporting plate 6 which is positioned between the two squeezing plates 5, the cross section of the supporting plate 6 is in an upwards arched shape, and the supporting plate 6 is used for supporting the foam cotton 32. The two extrusion plates 5 and the support plate 6 form an extrusion channel P during water extrusion, the outer side of each extrusion plate 5 is formed on the extrusion frame 4 through a first flexible connecting sheet 7a and can swing, the left side and the right side of the support plate 6 are respectively formed on the extrusion plate 5 on the corresponding side through a second flexible connecting sheet 7b and can enable the support plate 6 and the extrusion plate 5 to swing relatively, and the bottom of the support plate 6 is provided with an elastic structure which enables the support plate 6 to keep moving upwards. The foam 32 has a first side extruded surface 3a, a second side extruded surface 3b, and a bottom extruded surface 3c extending in the longitudinal direction, the bottom extruded surface 3c may have a certain curvature, and the first side extruded surface 3a and the second side extruded surface 3b are respectively located on the left and right sides of the bottom extruded surface 3 c.
During wringing, the length direction L of the extrusion plates 5 and the support plate 6 and the length direction L of the foam cotton 32 are horizontal, the mop rod is pressed downwards, the support plate 6 moves downwards, the two extrusion plates 5 swing downwards, the vertical surface 52 forms an extrusion surface which inclines outwards from top to bottom, the width of the upper end opening of the extrusion channel P is reduced, the extrusion channel P which is small in size is formed, the extrusion channel P is further opposite to the extrusion surface 3a of the first side and the extrusion surface 3b of the second side, and the extrusion channels are shown in figures 7 and 8.
The extrusion plate 5 is provided with an inclined surface 51 and a vertical surface 52, the included angle between the inclined surface 51 and the vertical surface 52 is smaller than 70 degrees, the bottom of the inclined surface 51 is connected with the inner side surface of the extrusion frame 4 through the first flexible connecting sheet 7a, the bottom of the vertical surface 52 is connected with the side edge of the support plate 6 through the second flexible connecting sheet 7b, and after the extrusion plate 5 swings, the inclined surface 51 can be opposite to the first side extruded by the extrusion surface 3a and the second side extruded by the extrusion surface 3 b. The inclined surface 51 is provided with water permeable holes 2. The first flexible connecting sheet 7a and the second flexible connecting sheet 7b are provided with water permeable holes 2. The supporting plate 6 is provided with a water permeable hole 2.
The bottom surface of cleaning barrel 1 has boss portion 11, and the bottom of backup pad 6 has downwardly extending to be annular extension wall, extends the wall and encloses into the direction chamber 61 that matches with boss portion 11 appearance, and boss portion 11 can lead chamber 61 relatively and slide from top to bottom, and elastic construction is spring 8, the bottom of backup pad 6 has downwardly extending's promotion post 62, and it has guiding hole 12 to open on boss portion 11, is equipped with the spring holder 9 that can slide from top to bottom in the guiding hole 12, and spring 8 locates spring holder 9 below and spring holder 9 and the trend of keeping moving up when, promote the conflict of post 62 and spring holder 9.
The up-down direction in this embodiment refers to the direction along the length of the mop rod when preparing to wring water or wring water, i.e. the vertical direction; lateral refers to a direction parallel or substantially parallel to the floor or plane of the opening of the cleaning bucket (see fig. 1, both L directions are lateral in preparation for wringing).
The working process and principle of the preferred embodiment of the cleaning tool are as follows:
when squeezing water, the mop head 3 is still kept in a state of being basically vertical to the mop rod, namely a normal cleaning working state, then the bottom of the foam cotton 32 is placed on the supporting plate 6, the length directions L of the supporting plate 6 and the squeezing plates 5 are both transverse to the length direction L of the foam cotton 32, the foam cotton 32 is placed in the squeezing channel P formed by the two squeezing plates 5 and the supporting plate 6 in the squeezing water process along the length direction L, the mop rod is pressed downwards to drive the mop head 3 to move downwards, the foam cotton 32 at the bottom of the mop head 3 pushes the supporting plate 6 to move downwards, the supporting plate 6 moves downwards to drive the two squeezing plates 5 to swing, and the supporting plate 6 and the squeezing plates 5 on the two sides jointly squeeze the foam cotton 32 to form squeezing water. At the beginning, the vertical face 52 of stripper plate 5 is to the first side of foam 32 by extrusion face 3a, first side by extrusion face 3b forms the preliminary extrusion, foam 32 gets into extrusion passageway P light, after pushing down, stripper plate 5 swings along with the moving down of backup pad 6, vertical face 52 forms the extrusion face that top-down leaned out, make the upper end mouth width of extrusion passageway P diminish, form big-end-up's extrusion passageway P, stripper plate 5 further receives extrusion face 3a to foam 32's first side, first side by extrusion face 3b forms the extrusion, the extrusion is more abundant.
After extrusion, the supporting plate 6 moves up and resets under the action of the spring 8, the power-assisted mop head 3 upwards breaks away from the extrusion channel P, and meanwhile, the extrusion plate 5 is driven to swing upwards and reset so as to wait for next water extrusion operation.
It should be noted that in the description of the present embodiment, the terms "front, back", "left, right", "up, down", etc. indicate the orientation or positional relationship based on the orientation or positional relationship shown in the drawings, which is only for convenience of description of the present invention and simplification of description, but does not indicate or imply that the device or element referred to must have a specific orientation, be constructed in a specific orientation, and be operated, and thus, should not be construed as limiting the present invention.

Claims (8)

1. A cleaning tool for a foam cotton mop comprises a cleaning barrel (1) and the mop, wherein the mop comprises a mop head (3) connected to the lower end of a mop rod, the mop head (3) comprises a mounting part (31) and foam cotton (32) arranged at the bottom of the mounting part (31), a squeezing frame (4) is arranged on the cleaning barrel (1), and a squeezing structure used for squeezing the foam cotton (32) is arranged in the squeezing frame (4); the method is characterized in that: the squeezing structure comprises two squeezing plates (5) which are oppositely arranged at left and right intervals and a supporting plate (6) which is positioned between the two squeezing plates (5), the supporting plate (6) is used for supporting foamed cotton (32), the two squeezing plates (5) and the supporting plate (6) form a squeezing channel (P) during squeezing, the outer side of each squeezing plate (5) is formed on a squeezing frame (4) through a first flexible connecting sheet (7a) and can swing, the left side and the right side of the supporting plate (6) are formed on the squeezing plates (5) on the corresponding sides through second flexible connecting sheets (7b) respectively and can enable the supporting plate (6) and the squeezing plates (5) to swing relatively, and the bottom of the supporting plate (6) is provided with an elastic structure which enables the supporting plate (6) to keep moving upwards;
the foam cotton (32) is provided with a first side extruded surface (3a), a second side extruded surface (3b) and a bottom extruded surface (3c) which extend along the length direction, and the first side extruded surface (3a) and the second side extruded surface (3b) are respectively positioned at the left side and the right side of the bottom extruded surface (3 c);
when squeezing water, the length directions (L) of the squeezing plates (5) and the supporting plate (6) and the length direction (L) of the foam cotton (32) are both horizontal, and in the process of pressing the mop rod downwards, the supporting plate (6) moves downwards, the two squeezing plates (5) swing downwards, so that the first side squeezed surface (3a), the second side squeezed surface (3b) and the bottom squeezed surface (3c) are squeezed.
2. The foam mop cleaning tool of claim 1, wherein: stripper plate (5) have inclined plane (51) and vertical face (52), the bottom of inclined plane (51) is passed through first flexible connection piece (7a) is connected with crowded frame (4) medial surface, the bottom of vertical face (52) is passed through second flexible connection piece (7b) is connected with the side of backup pad (6), stripper plate (5) swing back, vertical face (52) form the extrusion face that top-down leaned out for the upper end mouth width of extrusion passageway (P) diminishes, and is further right first side is extruded by extrusion face (3a), second side by extrusion face (3 b).
3. The foam mop cleaning tool of claim 2, wherein: the inclined surface (51) is provided with water permeable holes (2).
4. The foam mop cleaning tool of claim 1, wherein: the first flexible connecting sheet (7a) and/or the second flexible connecting sheet (7b) are/is provided with water permeable holes (2).
5. The foam mop cleaning tool of claim 1, wherein: the supporting plate (6) is provided with water permeable holes (2).
6. The foam mop cleaning tool of claim 1, wherein: the cross section of the supporting plate (6) is in an upward arched shape.
7. The foam mop cleaning tool of claim 1, wherein: the bottom surface of clean bucket (1) has boss portion (11), the bottom of backup pad (6) has downwardly extending and is annular extension wall, extends the wall and encloses into direction chamber (61) that matches with boss portion (11) appearance, boss portion (11) can lead chamber (61) relatively and slide from top to bottom, elastic construction is spring (8), the bottom of backup pad (6) has downwardly extending's promotion post (62), it has guiding hole (12) to open on boss portion (11), is equipped with spring holder (9) that can slide from top to bottom in guiding hole (12), spring holder (9) keep moving up the trend when spring holder (9) below is located in spring (8) and, promote the conflict of post (62) and spring holder (9).
8. The foam mop cleaning tool of claim 1, wherein: the interior of the cleaning barrel (1) is divided into a wringing area (Q1) and a cleaning area (Q2), the wringing frame is arranged in the wringing area (Q1), and the cleaning area is used for the mop head (3) to enter.
CN202020048875.XU 2020-01-10 2020-01-10 Foam cotton mop cleaning tool Active CN212546843U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN202020048875.XU CN212546843U (en) 2020-01-10 2020-01-10 Foam cotton mop cleaning tool

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN202020048875.XU CN212546843U (en) 2020-01-10 2020-01-10 Foam cotton mop cleaning tool

Publications (1)

Publication Number Publication Date
CN212546843U true CN212546843U (en) 2021-02-19

Family

ID=74619186

Family Applications (1)

Application Number Title Priority Date Filing Date
CN202020048875.XU Active CN212546843U (en) 2020-01-10 2020-01-10 Foam cotton mop cleaning tool

Country Status (1)

Country Link
CN (1) CN212546843U (en)

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