Mop bucket
阅读说明:本技术 拖把桶 (Mop bucket ) 是由 储飞 于 2019-11-18 设计创作,主要内容包括:本发明特别涉及一种拖把桶,包括水腔、滤水通道、挤水单元,所述的水腔用于容纳涮洗拖把的水,水腔的腔壁上设置有出水口和进水口,滤水通道连通出水口和进水口且滤水通道内设置有过滤单元用于滤除水中杂物,挤水单元设置在水腔内,挤水单元动作时将水腔内的水从出水口挤入滤水通道中并在过滤后从进水口流入水腔中。通过设置挤水单元和滤水通道后,可以将清洗过拖把的污水挤出至滤水通道中进行过滤,过滤后的水中不再含有毛发、瓜皮果屑等垃圾,并且过滤后的水洁净度有所提升,就可以保证下次能够可靠的清洁拖把了。(The invention particularly relates to a mop bucket which comprises a water cavity, a water filtering channel and a water squeezing unit, wherein the water cavity is used for containing water for washing a mop, a water outlet and a water inlet are formed in the wall of the water cavity, the water filtering channel is communicated with the water outlet and the water inlet, the filtering unit is arranged in the water filtering channel and used for filtering sundries in the water, the water squeezing unit is arranged in the water cavity, and when the water squeezing unit acts, the water in the water cavity is squeezed into the water filtering channel from the water outlet and flows into the water cavity from the water inlet after being filtered. After the water squeezing unit and the water filtering channel are arranged, sewage which is used for cleaning the mop can be squeezed out of the water filtering channel to be filtered, the filtered water does not contain garbage such as hair, melon peel and fruit scraps, and the cleanliness of the filtered water is improved to some extent, so that the next reliable mop can be guaranteed.)
1. A mop bucket which is characterized in that: including water cavity, drainage passageway, crowded water unit, the water cavity be used for holding the water of rinsing the mop, be provided with delivery port (21) and water inlet (22) on the chamber wall in water cavity, drainage passageway intercommunication delivery port (21) and water inlet (22) and drainage passageway are provided with the filter unit and are used for filtering aquatic debris, crowded water unit sets up in the water cavity, during crowded water unit action with the water of water cavity from delivery port (22) squeeze into the drainage passageway and in filtering back follow water inlet (22) inflow water cavity.
2. The mop bucket of claim 1, wherein: the water squeezing unit comprises a water squeezing plate (30) and a first power unit, wherein the water squeezing plate (30) is positioned in the water cavity and divides the water cavity into a sewage cavity (31) and a purified water cavity (32), the sewage cavity (31) is connected with the water outlet (21), the purified water cavity (32) is connected with the water inlet (22), the water squeezing plate (30) and the water inlet (22) are respectively provided with a one-way valve, and the two one-way valves enable water flow to flow in one direction only according to the sewage cavity (31) -a water filtering channel-the purified water cavity (32) -the sewage cavity (31); the first power unit drives the wringing plate (30) to translate in the water cavity for changing the sizes of the sewage cavity (31) and the purified water cavity (32).
3. The mop bucket of claim 2, wherein: the device comprises a square barrel body (10), wherein a first partition plate (20) is arranged in the square barrel body (10) to divide the square barrel body (10) into two chambers which are arranged left and right, and the surface of the first partition plate (21) is arranged in parallel with one side plate of the square barrel body (10); a second partition plate (23) is arranged in the right cavity to divide the right cavity into two cavities which are arranged up and down, and the surface of the second partition plate (23) is arranged in parallel with the bottom plate of the square barrel body (10); through holes or gaps are arranged above and below the first partition plate (20) to respectively form a water outlet (21) and a water inlet (22), and a filter screen is arranged on the second partition plate (23).
4. The mop bucket of claim 3, wherein: the two first partition plates (20) and the two second partition plates (23) are symmetrically arranged, the two first partition plates (20) divide the square barrel body (10) into a left cavity, a middle cavity and a right cavity, the middle cavity forms a water cavity, and the second partition plates (23) are respectively arranged in the left cavity and the right cavity.
5. The mop bucket of claim 4, wherein: a first flanging (24) is arranged on one side of the first partition plate (20) facing the water cavity, and an upright post (13) is fixedly arranged between the first flanging (24) and the bottom of the square barrel body (10); the water squeezing plate (30) is provided with a through hole for the upright post (13) to pass through, the surface of the water squeezing plate (30) is vertical to the upright post (13), and a first pressure spring (131) is arranged on the upright post (13) between the water squeezing plate (30) and the bottom of the square barrel body (10); a first locking unit (40) is arranged between the barrel bottom of the square barrel body (10) and the water squeezing plate (30), the water squeezing plate (30) moves upwards under the elastic action force of a first pressure spring (131) when the first locking unit (40) is unlocked, and the water squeezing plate (30) moves downwards until the water squeezing plate is locked by the first locking unit (40) when the water squeezing plate (30) is pressed by external force; the upright post (13), the first pressure spring (131) and the first locking unit (40) jointly form a first power unit.
6. The mop bucket of claim 4, wherein: a plurality of micropores (231) are formed in the second partition plate (23) to form a filter screen, and a cleaning unit (50) is arranged on the filter screen; the cleaning unit (50) comprises two push rods (51) which are arranged in parallel, a through hole is formed in the first partition plate (20), and the push rods (51) penetrate through the through hole and can move along the direction vertical to the first partition plate (20); one end that push rod (51) are arranged in the water cavity is wedge and is provided with second pressure spring (52) between wedge bottom and first baffle (20), fixed mounting has brush (53) between the other end of two push rods (51), push rod (51) drive brush (53) move towards the direction of keeping away from first baffle (20) when wringing board (30) extrude the wedge one end of push rod (51), push rod (51) drive brush (53) move towards the direction of being close to first baffle (20) under the elastic force of second pressure spring (52) when wringing board (30) do not extrude push rod (51).
7. The mop bucket of claim 6, wherein: the push rod (51) is arranged at the vertex angle position of the water squeezing plate (30), four vertex angles of the water squeezing plate (30) are provided with first notches (33), the barrel wall of the square barrel body (10) is provided with a first convex column (11), the section of the first convex column (11) along the direction vertical to the water squeezing plate (30) is matched with the outline of the first notch (33), and the edge of the first notch (33) is downwards provided with a second flanging (34); when the water squeezing plate (30) is located at the uppermost position, the lower end edge of the second flanging (34) is higher than the upper side face of the first convex column (11), and the second flanging (34), the square barrel body (10) and the first convex column (11) jointly form an area for accommodating the push rod (51) and the second pressure spring (52).
8. The mop bucket of claim 5, wherein: the square barrel body (11) is provided with articulated shafts (12) on side plates perpendicular to the two first partition plates (20), the first locking unit (40) comprises a rotating shaft (41), a shifting rod (42) and clamping jaws (43), the rotating shaft (41) and the articulated shafts (12) form a rotating fit, one end of the shifting rod (42) is fixedly connected with the rotating shaft (41), the other end of the shifting rod (42) extends to the outer side of the square barrel body (10) and is provided with a handle (421) convenient to hold, the clamping jaws (43) are arranged on the outer peripheral surface of the upper side of the rotating shaft (41), the lower side plate surface of the water squeezing plate (30) is provided with square bayonets (35), the clamping jaws (43) and the bayonets (35) form a clamping fit, an elastic piece (44) is arranged between the shifting rod (42) and the square barrel body (10), the elastic acting force of the elastic piece (44) keeps the clamping jaws (, the bayonet (35) can press the clamping jaw (43) or poke the poking rod (42) to enable the poking rod (42) to overcome the elastic force of the elastic piece (44) and drive the clamping jaw (43) to rotate around the center of the rotating shaft (41) to realize unlocking.
9. The mop bucket of any one of claims 2-8, wherein: the water squeezing plate (30) is provided with a plurality of water passing holes (36), the upper side of each water passing hole (36) is covered with a rubber pad (60), the profile of the rubber pad (60) is larger than that of each water passing hole (36), a mounting hole (361) is formed in the side of each water passing hole (36), a non-return convex column (61) is arranged on the rubber pad (60), the non-return convex column (61) is inserted into the mounting hole (361) and forms non-return fit, each non-return convex column (61) comprises a mounting section (611), a non-return section (612) and a guide-in section (613), the diameter of the mounting section (611) is matched with that of the mounting hole (361), the diameter of the non-return section (612) is larger than that of the mounting hole (361), the diameter of the guide-in section (613) is gradually reduced, the maximum diameter of the guide-in section is equal to that of the non-return section (612.
10. The mop bucket of any one of claims 3-8, wherein: the water squeezing device is characterized in that a guide rail (25) arranged in the vertical direction is arranged on one side of the first partition plate (20) facing the water squeezing plate (30), a baffle (26) capable of moving up and down is arranged in the guide rail (25), a notch used for avoiding the guide rail (25) and the baffle (26) is formed in the water squeezing plate (30), an upper stop block (261) and a lower stop block (262) are arranged on one side of the baffle (26) far away from the first partition plate (20), the water squeezing plate (30) is located between the upper stop block (261) and the lower stop block (262), the baffle (26) is driven to move down/up through the lower stop block (262)/the upper stop block (261 when the water squeezing plate (30) moves down/up, and the water inlet (22) is opened/closed by the baffle (26) when the water squeezing plate (30) moves to the lowest/highest position.
Technical Field
The invention relates to the technical field of daily necessities, in particular to a mop bucket.
Background
The mop is a long-handle cleaning tool for scrubbing the ground, also called a mop rag, and also widely called a long-handle cleaning tool, the mop is derived from the rag, the most traditional mop is formed by bundling a bundle of cloth strips at one end of a long wood rod, the mop is simple and cheap, and the working head is changed into the bundle of cloth strips from a rag block, so that the mop has strong dirt-removing capability. After long-term use, new problems come, the mop head, which is a working part of the mop, needs to be continuously cleaned, and the damage of the cleaning of the mop head to the hands of an operator is increased, so that the problem to be solved is solved. Along with the continuous growth of scientific trees, materials used by the mop head are gradually extensive, non-woven fabrics, superfine fibers and the like are developed from early cotton cloth strips, even a piece of collodion (collodion mop) is directly used, and the collodion mop is more suitable for clearing accumulated water on the ground such as a kitchen, a toilet and the like due to the strong hydroscopicity of the collodion and the matching of a convenient water squeezing device. The crank mop moves the head ribs on the mop rod, the crank component is additionally arranged on the traditional straight rod, so that the mop head can freely rotate on the ground, labor is saved, the problem that the straight rod mop is stood down to be labored and garbage scraps are pushed away to be stored under the mop head is solved, and meanwhile, the crank can provide power for the high-speed rotation and thorough cleaning of the mop.
So far, the functions of the mop are continuously expanded, and the auxiliary tools are diversified, which presents a situation of hundreds of flowers. The existing improvement is mainly carried out on a mop head and a mop rod, or a special barrel is provided to be matched with the mop head to realize the function of automatic spin-drying or wringing. At present, most mops are cleaned without matched mop barrels, and only the mops are cleaned in a common water container, so that when the mops are mopped and cleaned, water in the container is more and more dirty, floating objects such as hair and debris exist, the mops are difficult to clean again, the mops can be kept clean only by frequently changing water, water resources can be seriously wasted, and waste is caused.
Disclosure of Invention
The invention aims to provide a mop bucket which can be used for conveniently cleaning a mop without causing secondary pollution and ensuring reliable cleaning of the mop
In order to realize the purpose, the invention adopts the technical scheme that: a mop bucket comprises a water cavity, a water filtering channel and a water squeezing unit, wherein the water cavity is used for containing water for washing a mop, a water outlet and a water inlet are formed in the wall of the water cavity, the water filtering channel is communicated with the water outlet and the water inlet, the filtering unit is arranged in the water filtering channel and used for filtering sundries in water, the water squeezing unit is arranged in the water cavity, and when the water squeezing unit acts, water in the water cavity is squeezed into the water filtering channel from the water outlet and flows into the water cavity from the water inlet after being filtered.
Compared with the prior art, the invention has the following technical effects: after the water squeezing unit and the water filtering channel are arranged, sewage which is used for cleaning the mop can be squeezed out of the water filtering channel to be filtered, the filtered water does not contain garbage such as hair, melon peel and fruit scraps, and the cleanliness of the filtered water is improved to some extent, so that the next reliable mop can be guaranteed.
Drawings
FIG. 1 is a schematic perspective view of the present invention;
FIG. 2 is a schematic perspective view of the barrel body of FIG. 1 with the square barrel removed;
FIG. 3 is a schematic perspective view of a square tub;
FIG. 4 is a perspective view illustrating the structure of the square tub and the first locking unit;
FIG. 5 is a cross-sectional view of the present invention;
FIG. 6 is a schematic perspective view of a first separator plate;
FIG. 7 is a schematic perspective view of a baffle;
FIG. 8 is a perspective view of the cleaning unit;
FIG. 9 is a schematic perspective view of a wringing plate;
FIG. 10 is a schematic view of another angular perspective structure of the wringing plate;
fig. 11 is a perspective view of the first locking unit;
FIG. 12 is a perspective view of a rubber pad;
fig. 13-16 are corresponding structural schematic diagrams of the wringing plate in different positions.
Detailed Description
The present invention will be described in further detail with reference to fig. 1 to 16.
Referring to fig. 1-5, a mop bucket comprises a water cavity, a water filtering channel and a water squeezing unit, wherein the water cavity is used for containing water for washing a mop, a
The structure of the wringing unit is various, preferably, the wringing unit comprises a wringing
The arrangement schemes of the water filtering channel are various, and the water filtering channel preferably comprises a
There are many ways to implement the first power unit, in the present invention, preferably, a
Referring to fig. 2, 5, 6 and 8, a plurality of
Specifically, the
Referring to fig. 4 and 11, similarly, there are many implementation schemes for the structure of the
Referring to fig. 9, 10 and 12, there are various check valve structures on the wringing
Referring to fig. 6, 7, and 13-16, a
The
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