CN107518843B - Dull and stereotyped mop belt cleaning device - Google Patents

Abstract

The invention discloses a flat mop cleaning device which comprises a mop barrel and a flat mop, wherein the flat mop comprises a mop rod and a flat mop movably connected to the mop rod, the flat mop is provided with a wiping object, the mop barrel comprises a barrel body, the barrel body is provided with a cleaning mechanism for cleaning the flat mop and a high-level water storage tank, water carried by the flat mop and the wiping object on the flat mop is squeezed by the cleaning mechanism and then sent into the high-level water storage tank, when the flat mop goes down, the water in the high-level water storage tank flows onto the flat mop positioned on the upper part of the barrel body to be soaked and cleaned, and the flat mop is reciprocatingly moved and squeezed in the cleaning mechanism to clean the whole wiping object. The flat mop cleaning device can ensure that the flat mop is clean and thorough, the water surface in the barrel body is shallow, and the cleaned stains can be prevented from being mixed with clean water in the barrel under the condition of more stains, so that the waste of water resources and the splashing of water in the cleaning process are avoided.

Description

Dull and stereotyped mop belt cleaning device

Technical Field

The invention relates to the technical field of daily necessities, in particular to a device for cleaning a flat mop.

Background

The flat mop comprises a mop rod and a flat mop which are hinged together through a connecting plug, and the flat mop wiper is fixed on the flat mop in a sleeving, sticking or buckling mode; when in use, the wiper on the flat mop can be completely attached to the ground, so that the ground is very convenient to clean; in addition, the wiper is also easy to remove for cleaning, so that the wiper is favored by people. The traditional way for cleaning the flat mop is to disassemble the wiping material, clean the wiping material by hands, dry the wiping material and install the wiping material on the flat mop for use, so that the working efficiency is low and the labor intensity is high.

In order to solve the problem that the traditional cleaning mode of the flat mop is not changed for people, a cleaning device for cleaning the flat mop appears on the market, so that the hands of people do not need to be in contact with the wiping materials and are not stained with water in the cleaning process, the flat mop is clean and sanitary, and the cleaning efficiency is improved.

However, most of the existing flat mop cleaning devices adopt two independent areas for cleaning and squeezing respectively, and in order to achieve a good cleaning effect, the wiper in the flat mop should contact with the water in the cleaning area as much as possible during cleaning, which requires the water level in the cleaning area to be set higher; in order to achieve a better squeezing effect, the water cannot be stored in the dewatering area as much as possible, so that the cleaning device inevitably needs to be provided with two independent barrels for cleaning and squeezing respectively. That is, the conventional flat mop cleaning device is realized by adopting two conjoined and independent barrel bodies as a cleaning area and a dewatering area, and then respectively installing a cleaning device and a squeezing device at the tops of the cleaning barrel and the squeezing barrel to perform cleaning and squeezing operations. This structure has the following drawbacks: 1) because the cleaning device is usually arranged at the top of the barrel, a part of the flat mop can not be immersed in water all the time inevitably, and the flat mop can not be cleaned; if the part is cleaned, the flat plate can be rotated by 180 degrees and cleaned, which wastes time and labor; 2) the water in the cleaning area becomes turbid after being cleaned once, and the water is required to be changed when the water is cleaned again, so that the water resource waste is serious; 3) the higher of surface of water setting in the washing area, there is the splash staving in the cleaning process, and need set up two stavings, and the structure is comparatively complicated, and manufacturing cost is higher.

Disclosure of Invention

The technical problem to be solved by the invention is to provide the flat mop cleaning device which is simple and reasonable in structure and convenient to operate and use, the whole flat mop and the cleaning objects on the flat mop can be cleaned, the water surface in the barrel body is shallow, and the condition that water splash is splashed out can be avoided.

In order to solve the technical problems, the technical scheme adopted by the invention is as follows.

The utility model provides a dull and stereotyped mop belt cleaning device, includes mop bucket and dull and stereotyped mop, dull and stereotyped mop includes mop pole and swing joint dull and stereotyped on the mop pole drags, the flat board is dragged and is equipped with the wiper structure and the high-order tank that are used for clean dull and stereotyped to drag, the flat board drags the water that the wiper on it carried from the barrel head and is sent into the high-order tank after being extruded by wiper structure, when the flat board drags down going, the water in the high-order tank can flow into the flat board that is located staving upper portion and drag the soaking washing that goes on the flat board and drag upper portion, and the flat board drags to carry out reciprocating type removal extrusion in wiper structure and realizes the washing to whole wiper.

Above-mentioned dull and stereotyped mop belt cleaning device, the concrete structure of high-order tank is: the high-level water storage tank is of a structure capable of storing water, and one side of the high-level water storage tank, which faces the cleaning mechanism, is provided with an opening which is convenient for water to flow to the flat plate to drag the wiping materials; the high-level water storage tank is arranged on the cleaning mechanism or the barrel body.

In the above flat mop cleaning device, the wiper is preferably: the wiping material is a wiping material with strong water absorption, and the wiping material is arranged on the front surface, the back surface or the front surface and the back surface of the flat mop.

Above-mentioned dull and stereotyped mop belt cleaning device, the concrete structure that the dull and stereotyped was dragged is: the flat mop is provided with a water storage mechanism which raises water in the mop bucket to a high-level water storage tank.

Above-mentioned dull and stereotyped mop belt cleaning device, dull and stereotyped improvement of dragging lies in: the flat mop comprises a back plate and a middle connecting plate, wherein the two ends of the back plate and the middle connecting plate are assembled through locking buckles, the wiper is sleeved on the middle connecting plate and is pressed tightly through the locking buckles, and the water storage mechanism is arranged between the back plate and the middle connecting plate.

Above-mentioned dull and stereotyped mop belt cleaning device, the concrete structure of water storage mechanism is: the water storage mechanism comprises a water suction hole and a water discharge hole which are arranged on the flat mop, and a water storage cavity which is arranged between the back plate and the middle connecting plate and is communicated with the water suction hole and the water discharge hole.

In the above flat mop cleaning device, the water storage mechanism is further improved in that: the inner side of the water discharge hole is provided with a flashboard for opening and closing the water discharge hole, and the flat mop is provided with a trigger mechanism for triggering the flashboard to open and close the water discharge hole; a one-way water inlet valve is arranged on the inner side of the water suction hole.

The improvement of the flat mop cleaning device is as follows: the barrel body is also provided with a squeezing mechanism for dehydrating the flat mop, and the bottom of the barrel body below the squeezing mechanism is provided with a flat mop limiting table; and the squeezing mechanism is provided with a flow guide mechanism for guiding out water squeezed out from the flat plate dragging.

Above-mentioned dull and stereotyped mop belt cleaning device, the further improvement of mop bucket lies in: the mop bucket at least comprises two independent single buckets, the mop bucket is at least provided with a cleaning mechanism and a squeezing mechanism, and the cleaning mechanism and the squeezing mechanism are respectively arranged in different single buckets.

The further improvement of the flat mop cleaning device is that: the squeezing mechanism and the cleaning mechanism are arranged in a barrel, and the water surface in the barrel is lower than the height of the flat dragging limiting table.

The structure of the flat mop cleaning device is preferably as follows: the squeezing mechanism and the cleaning mechanism form a cleaning squeezing unit, a cleaning area and a dehydration area are arranged in the barrel body, and the flat plate dragging limiting platform is positioned at the bottom of the barrel body of the dehydration area; and an inclined slide rail for moving the cleaning and squeezing unit from the cleaning area to the dewatering area is arranged on the inner wall of the barrel body.

The structure of the flat mop cleaning device is preferably as follows: the squeezing mechanism and the cleaning mechanism form a cleaning squeezing unit, a cleaning area and a dehydration area are arranged in the barrel body, and the flat plate dragging limiting platform is positioned at the bottom of the barrel body of the dehydration area; and the inner wall of the barrel body is provided with a turnover frame for moving the cleaning and squeezing unit from the cleaning area to the dewatering area.

The structure of the flat mop cleaning device is preferably as follows: a cleaning area and a dewatering area are arranged in the barrel body, the lower barrel body corresponding to the cleaning mechanism is the cleaning area, the lower barrel body corresponding to the squeezing mechanism is the dewatering area, and a longitudinal partition plate is arranged in the barrel body below the high-level water storage tank and divides the cleaning area in the barrel body into a sewage area and a rinsing area; a sewage discharge port is arranged on the side plate of the vertical surface of the high-level water storage tank corresponding to the upper part of the sewage area.

The structure of the flat mop cleaning device is preferably as follows: a cleaning area and a dewatering area are arranged in the barrel body, at least two cleaning mechanisms are arranged on the barrel body corresponding to the cleaning area, and a longitudinal partition plate is arranged in the barrel body between every two adjacent cleaning mechanisms.

The cleaning device for the flat mop is characterized in that the squeezing mechanism and the cleaning mechanism have the specific structures as follows: the squeezing mechanism and the cleaning mechanism have the same structure and at least comprise a squeezing frame assembled on the barrel body, a squeezing port for the flat mop to pass through is formed in the squeezing frame, and a squeezer for squeezing the flat mop is arranged below the squeezing frame on one side of the squeezing port.

Above-mentioned dull and stereotyped mop belt cleaning device, the improvement of extrusion frame lies in: one or more extruders can be arranged on one extrusion frame, and the plurality of extruders are arranged on the extrusion frame in a transverse parallel mode or a vertical parallel mode; and a high-level water storage tank is arranged beside at least one extruder in the cleaning mechanism.

In the flat mop cleaning device, the squeezer is improved as follows: the squeezer is an extrusion strip, an extrusion sheet, a rotatable water squeezing roller, a brush strip or a brush roller provided with bristles, the extrusion strip, the extrusion sheet, the water squeezing roller, the brush strip or the brush roller can be fixedly arranged in the extrusion opening, the extrusion strip, the extrusion sheet, the water squeezing roller, the brush strip or the brush roller can also be movably arranged in the extrusion opening through an elastic device, and the extrusion strip, the extrusion sheet, the brush strip or the brush roller can also be independently arranged or combined together to form the combined squeezer.

In the flat mop cleaning device, the squeezer is further improved in that: and a roller convenient for the flat plate to drag the flat plate to slide up and down is arranged below the other side of the extrusion frame opposite to the extruder.

Above-mentioned dull and stereotyped mop belt cleaning device, the improvement of mop bucket lies in: a buffer mechanism for buffering the downward-pressed flat plate mop is arranged in the barrel body below the corresponding squeezing mechanism and the cleaning mechanism.

Above-mentioned dull and stereotyped mop belt cleaning device, buffer gear's specific structure is: the buffer mechanism is an elastic pad, an elastic block or a spring rebounding device; the spring rebounding device comprises an upper ejecting spring and a rebounding frame, the lower end of the upper ejecting spring is fixed, and the upper end of the upper ejecting spring is fixedly connected with the rebounding frame.

Above-mentioned dull and stereotyped mop belt cleaning device, the further improvement of mop bucket lies in: the top of the flat plate dragging limiting platform is provided with a surrounding baffle for preventing the flat plate dragging from effectively dehydrating when the water surface rocks to overflow the flat plate dragging limiting platform in the dehydration process.

Due to the adoption of the technical scheme, the technical progress of the invention is as follows.

According to the invention, the high-level water storage tank is arranged at the upper part of the barrel body, the water storage mechanism is arranged on the flat mop, and the staggered flat mop limiting tables are arranged at the bottom of the barrel body, so that less water can be arranged in the barrel body, the flat mop can be ensured to be clean and thorough, and no place which cannot be cleaned can be left; the water surface in the barrel body is shallow, so that the cleaned stains can be prevented from being mixed with the clean water in the barrel under the condition of too many stains, the waste of water resources is avoided, the situation that water splash is splashed in the cleaning process can be avoided, the cleaning of the flat mop and the ground around the mop barrel is ensured, and the advantages of time saving, labor saving and water saving are achieved.

Drawings

FIG. 1 is a sectional view of a washing wringing unit in example 1 above a washing zone;

FIG. 2 is a sectional view of the washing and wringing unit of example 1 above a dewatering zone;

FIG. 3 is a schematic view showing the structure of an extrusion frame in example 1;

FIG. 4 is a sectional view of the washing wringing unit of embodiment 2 above the washing zone;

FIG. 5 is a schematic view showing the structure of the washing and wringing unit and the high-order reservoir in accordance with example 2;

FIG. 6 is a schematic view showing the structure of the washing and wringing unit in embodiment 2 above the dewatering zone;

FIG. 7 is a sectional view showing the structure of the flat mop to be cleaned in accordance with embodiment 3;

FIG. 8 is a schematic structural view showing that the squeezing frame of the washing mechanism and the squeezing frame of the wringing mechanism are integrally provided in embodiment 3;

fig. 9 is a schematic structural view of an enclosure arranged on the flat plate dragging limiting table in embodiment 3;

FIG. 10 is a structural sectional view of embodiment 4;

FIG. 11 is a longitudinal sectional view of embodiment 5;

FIG. 12 is a sectional view showing the structure of the flat mop to be cleaned according to example 6;

FIG. 13 is a schematic view showing the structure of the mop plate for cleaning in the case of the mop bucket of embodiment 6;

FIG. 14 is a sectional view showing the structure of the flat mop of example 7 for washing;

FIG. 15 is a sectional view showing a longitudinal structure in which a plurality of rinsing zones are provided in example 7;

FIG. 16 is a schematic structural view of the extrusion frame according to the present invention;

FIG. 17 is a schematic structural view of an extruder mounted on the extrusion frame according to the present invention;

FIG. 18 is a schematic structural view of an extruder and a high-level water storage tank arranged on the extrusion frame according to the present invention;

FIG. 19 is a schematic view of the extruder of the present invention mounted on a high level water storage tank;

FIGS. 20 to 31 are schematic views of 12 structures of the extruder of the present invention;

FIG. 32 is a sectional view showing the structure of the flat mop according to the present invention;

fig. 33 is a schematic structural view of the flat mop according to the present invention.

Wherein: 1. the mop bucket comprises a mop bucket body 11, a bucket body 12, a cleaning mechanism 121, an extrusion frame 122, an extrusion opening 123, an extruder 124, a roller 125, a sliding chute 125, a high-level water storage tank 13, a sewage discharge opening 131, a flat plate dragging limiting table 14, a buffer mechanism 15, a flow guide mechanism 16, a longitudinal partition plate 17, a fence 18 and a squeezing mechanism 19; 2. the mop comprises an inclined slide rail, a 3-turning frame, 8-flat mop, 81-mop rod, 82-flat mop, 821-back plate, 822-middle connecting plate, 83-wiper, 84-water suction hole, 85-trigger mechanism and 86-water storage cavity;

A. a cleaning zone, a dewatering zone, a sewage zone and a rinsing zone.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

The flat mop cleaning device comprises a mop bucket 1 and a flat mop 8, wherein the flat mop 8 comprises a mop rod 81 and a flat mop 82 movably connected to the mop rod, and a wiping object 83 is arranged on the flat mop 82, as shown in fig. 32; the mop bucket 1 comprises a bucket body 11, a cleaning mechanism 12 and a high-level water storage tank 13 are assembled on the bucket body, the cleaning mechanism is used for cleaning the flat mop, and the high-level water storage tank is used for soaking the upper part of the flat mop.

In the cleaning state, water carried by the flat mop and the wipers on the flat mop from the bottom of the barrel is extruded by the cleaning mechanism and then is sent into the high-level water storage tank, when the flat mop goes down, the water in the high-level water storage tank can flow back to the wipers of the flat mop, and the flat mop is reciprocated and extruded in the cleaning mechanism to clean the whole flat mop and the wipers of the flat mop.

The high-level water storage tank is used for storing water brought up from the bottom of the barrel body so as to soak and clean the upper part of the flat mop, so that the structure of the high-level water storage tank adopts a structure capable of storing water, and the high-level water storage tank is preferably a dustpan-shaped structure; in order to conveniently soak the wipers dragged by the flat plate, one side of the high-position water storage tank, which faces the cleaning and squeezing mechanism, is provided with an opening for facilitating water to flow to the wipers dragged by the flat plate, and when the opening faces the squeezing mechanism, the water stored in the high-position water storage tank can flow to the wipers dragged by the flat plate. The high-level water storage tank can be arranged on the extrusion frame, also can be arranged on the inner wall of the barrel body, or is arranged on the top edge of the barrel body, and is arranged on the upper part of the barrel body in a word, so that water is conveniently fed to the upper part of the flat plate dragging wiping matter for cleaning.

In order to enable water at the bottom of the barrel body to be smoothly brought into the high-level water storage tank at the top of the barrel body, the flat mop wiper disclosed by the invention is made of a strong water-absorbing material, so that more water can be absorbed and brought into the high-level water storage tank, and the wiper is preferably arranged on the front surface of the flat mop, namely the surface contacted with the high-level water storage tank. Of course, the wiper can be arranged on the reverse side of the flat mop or on both the front side and the back side for cleaning.

Furthermore, in order to lift the water at the bottom of the barrel body into the high-level water storage tank as much as possible, a water storage mechanism can be arranged on the flat mop. In order to adapt to the arrangement of the water storage mechanism, the structure of the flat mop can be a two-layer assembly structure, as shown in fig. 33, that is, the flat mop 82 includes a back plate 821 and a middle connecting plate 822, both ends of which are assembled by locking fasteners, the back plate adopts a back plate with a frame structure, when the back plate is assembled with the middle connecting plate, the middle connecting plate can be embedded in the frame-shaped back plate, the wiper is sleeved on the middle connecting plate and is pressed tightly by the locking fasteners, and the water storage mechanism is arranged between the back plate and the middle connecting plate.

The water storage mechanism includes a water suction hole 84, a water discharge hole and a water storage cavity 86, and the water storage cavity is communicated with the water suction hole and the water discharge hole. The water suction hole is arranged on a flat mop back plate positioned at the bottom of the bucket body and is used for feeding water into the water storage cavity when the flat mop enters the bottom of the bucket body; in order to prevent the water sucking holes from flowing outwards in the lifting process of the flat mop, the inner sides of the water sucking holes are provided with the one-way water inlet valves, when the flat mop moves downwards and contacts the bottom of the water storage barrel, the one-way water inlet valves positioned on the flat mop automatically open under the action of external water pressure, and water flows into the water storage cavity through the water sucking holes; when the flat plate is dragged upwards, the one-way water inlet valve is closed. The water discharging hole is arranged on a middle connecting plate of the flat mop positioned at the bottom of the barrel body, and can also be arranged on the side walls at two sides of the frame-shaped back plate and used for feeding water into the high-level water storage tank when the flat mop is lifted to the top; in order to prevent the flat plate from dragging at the bottom of the barrel body or discharging water from the water discharging hole in the ascending process, a flashboard for opening and closing the water discharging hole is arranged on the inner side of the water discharging hole, a trigger mechanism 85 for triggering the flashboard to open and close the water discharging hole is arranged at the other end of the back plate opposite to the position of the water discharging hole, at the moment, the roller on the squeezer also can be used as a mechanism for triggering the trigger mechanism, when the flat plate drags and extends into the bottom of the barrel body, the trigger mechanism is not in contact with the roller, the flashboard closes the water discharging hole, and when the trigger mechanism 85 is in contact with the roller 124 in the process of dragging the flat plate upwards, as shown in figure 8, the flashboard at the water discharging hole is opened, and water in the water storage cavity flows into a high-level water storage tank or a wiping object through the water discharging hole. The space between the back plate and the middle connecting plate forms a water storage cavity which is used for storing water when the flat plate mop extends into the bottom of the barrel body, and discharging water to the high-level water storage tank when the lower end of the flat plate mop goes up to the high-level water storage tank, so that the water at the bottom of the barrel body is taken into the high-level water storage tank.

In order to facilitate the accurate direction of the flat mop during cleaning and dehydration and ensure that one end with the water storage mechanism automatically faces downwards, the invention arranges a balancing weight for assisting the flat mop to rotate at one end of the back plate of the flat mop corresponding to the water storage mechanism, namely, when cleaning or dehydration is needed, the flat mop can automatically rotate under the action of the balancing weight, and the end provided with the water storage mechanism automatically faces to the bottom of the barrel body.

The invention can also be provided with a squeezing mechanism at the top end of the barrel body, a flat plate mop limiting table is arranged at the bottom of the barrel body below the squeezing mechanism correspondingly, and the squeezing mechanism is matched with the flat plate mop limiting table for dehydrating the cleaned flat plate mop. Under the dehydration state, the flat plate drags to the flat plate dragging limiting table and does not move downwards any more, so that the flat plate drags are prevented from being soaked by the released water again, and the flat plate drags perform reciprocating movement extrusion in the cleaning and squeezing mechanism to realize the dehydration of the wiping materials. In order to effectively prevent the squeezing mechanism from flowing back the water squeezed out by the flat mop to the flat mop, a flow guide mechanism for guiding the water squeezed out from the flat mop out is arranged on the squeezing mechanism, and the flow guide mechanism guides the separated water to a barrel body away from the flat mop.

The squeezing mechanism and the cleaning mechanism can be arranged in one barrel or different barrels, and when the squeezing mechanism and the cleaning mechanism are arranged in one barrel, the water surface in the barrel is lower than the height of the flat plate dragging limiting table. Of course, one or more cleaning mechanisms and/or wringing mechanisms can be provided in a single mop bucket, or a plurality of cleaning mechanisms and/or wringing mechanisms can be provided in a plurality of buckets, respectively.

The squeezing mechanism and the cleaning mechanism have the same structure, and both at least comprise a squeezing frame 121 assembled at the top edge of the barrel body, and a squeezing opening 122 for the flat mop to pass through is formed in the squeezing frame, as shown in fig. 16; an extruder 123 is arranged below the extrusion frame on one side of the extrusion port and is used for extruding the wipers dragged by the flat plate, as shown in FIG. 17; the high-level water storage tank is arranged at one side of the lower part of the extrusion frame where the extruder is arranged, as shown in figure 18. Of course, the extruder of the present invention can also be fitted with a high level tank, as shown in figure 19.

In the invention, one cleaning mechanism at least comprises one extrusion frame, and when the cleaning mechanism is formed by combining a plurality of extrusion frames, the plurality of extrusion frames can be arranged into an integral structure; also, one pressing mechanism includes at least one pressing frame, and when one pressing mechanism is formed by combining a plurality of pressing frames, the plurality of pressing frames may be provided as an integrated structure. Of course, the pressing frame of the adjacent washing mechanism and the pressing frame of the pressing mechanism may be provided as an integral mechanism, as shown in fig. 9.

One extrusion frame can be provided with one or more extruders, and the plurality of extruders are arranged on the extrusion frame in a transverse parallel mode or a vertical parallel mode; and at least one extruder is provided with a high-level water storage tank beside. When a plurality of extruders are vertically arranged, a high-level water storage tank is arranged beside at least one extruder, certainly, no high-level water storage tank can be arranged beside an entire row of extruders, or a plurality of parallel high-level water storage tanks are arranged beside an entire row of extruders; when a plurality of extruders are transversely arranged, a high-position water storage tank is arranged beside the extruder at least one end, or the extruders at two ends are respectively provided with a high-position water storage tank.

The structure of the squeezer of the invention is shown in fig. 20-31, and can be a squeezing strip, a squeezing sheet, a rotatable squeezing roller, a brush strip with bristles or a brush roller, and the squeezing strip, the squeezing sheet, the squeezing roller, the brush strip or the brush roller can be fixedly arranged in the squeezing opening or can be movably arranged in the squeezing opening through an elastic device. The extrusion strips, the extrusion sheets, the brush strips or the brush rolls can be independently used as extruders to be installed, and can also be combined together to form a combined extruder to be installed on the extrusion frame; the single extrusion or combined extrusion can be fixedly arranged in the extrusion opening or movably arranged in the extrusion opening. In the installation process of the squeezer, the force requirements of cleaning extrusion and dehydration extrusion on the squeezer are different, so that the squeezer can be assembled and installed according to the extrusion force as required.

In order to facilitate the flat mop to move up and down smoothly in the squeezing opening during the cleaning or dewatering process and reduce the labor intensity during use, the invention is provided with a roller 124 which facilitates the flat mop to slide up and down under the other side of the squeezing frame opposite to the squeezer, and the roller is connected with the squeezer through a connecting bracket, as shown in fig. 19. Of course, the rollers may be directly disposed on the pressing frame.

In the application process of the invention, a buffer mechanism 15 can be arranged in the barrel body below the squeezer of the corresponding cleaning and squeezing mechanism and is used for buffering the downward-pressed flat mop and playing a role in assisting the upward flat mop, thereby reducing the labor intensity of a user.

The buffer mechanism can be an elastic pad, an elastic block or a spring rebound device; the spring rebounding device comprises an upper ejecting spring and a rebounding frame sleeved outside the upper ejecting spring, as shown in fig. 7, the lower end of the upper ejecting spring is fixed, and the upper end of the upper ejecting spring is fixedly connected with the rebounding frame.

In order to adapt to the position change of the cleaning area and the dewatering area in the mop bucket, the bottom of the mop bucket can be transversely provided with a track for the flat plate dragging limiting table to move left and right in the bucket body, as shown in figure 1, the track and the flat plate dragging limiting table are provided with positioning pins for limiting the flat plate dragging limiting table, and when the flat plate dragging limiting table moves to a required position, the flat plate dragging limiting table and the track are fixed and limited through the positioning pins.

In order to facilitate the discharge of water in the mop bucket, a water drain valve can be arranged at the bottom of the side wall of the bucket body, so that the bucket does not need to be lifted and toppled, and the physical strength is saved.

The foregoing is a description of the principles of the present invention, and reference will now be made in detail to the embodiments illustrated in the accompanying drawings.

Example 1

The structure of the embodiment is as shown in fig. 1 to 2, the mop bucket only comprises a bucket body, a cleaning area and a dehydration area are arranged in the bucket body, and a flat plate dragging limiting table is arranged at the bottom of the bucket body of the dehydration area; the top of the barrel body is only provided with an extrusion frame and an extruder, the extruder is arranged on one side of an extrusion opening below the extrusion frame, the extrusion frame and the extruder are a cleaning mechanism when located in a cleaning area, and the extrusion frame and the extruder are an extruding mechanism when located in a dewatering area, and the cleaning mechanism and the extruding mechanism are a cleaning and extruding unit at the moment.

The high-level water storage tank is assembled on the top edge of the barrel body, and can be fixedly arranged on the inner wall of the barrel body, and the opening side of the high-level water storage tank faces the extruder; an inclined slide rail 2 for moving the cleaning and squeezing unit from the cleaning area to the dewatering area is arranged on the inner wall of the barrel body, and a chute 125 which is in sliding fit with the inclined slide rail and is used for installing the squeezing unit on the barrel body is arranged on the side wall of the squeezing frame corresponding to the inclined slide rail, as shown in fig. 3.

In this embodiment, when the washing and squeezing unit is located in the washing area, the washing and squeezing unit cooperates with the high-level water storage tank to realize the washing function, as shown in fig. 1; when the cleaning and squeezing unit moves to the dewatering area, the dewatering function is realized corresponding to the flat plate dragging limiting table at the bottom, as shown in figure 2.

In addition, the high-position water storage tank in the embodiment can also be arranged on the extrusion frame, under the condition, when the cleaning and squeezing unit moves, the high-position water storage tank can move along with the extrusion frame, the water outlet can be arranged on the high-position water storage tank, and the high-position water storage tank can be used as a flow guide mechanism on the squeezing mechanism in the moving process of the high-position water storage tank.

Example 2

The structure of the embodiment is as shown in fig. 4 to 6, the mop bucket only comprises a bucket body, a cleaning area and a dehydration area are arranged in the bucket body, and a flat plate dragging limiting table is arranged at the bottom of the bucket body of the dehydration area; the cleaning mechanism and the extruding mechanism are arranged at the top of the barrel body, the cleaning mechanism and the extruding mechanism are identical in structure and respectively comprise an extruding frame and an extruder, the extruder is arranged on one side of an extruding opening below the extruding frame, the two extruding frames and the two extruders are symmetrically arranged from top to bottom, the two extruding frames can also adopt an integrated structure, and the cleaning mechanism and the extruding mechanism are formed into a cleaning and extruding unit.

The high-level water storage tank is assembled between the two extrusion frames, is assembled with one of the extruders and is fixed on the extrusion frames, as shown in figure 4; the inner wall of the barrel body is provided with a turnover frame 3 for turning the cleaning and squeezing unit from the cleaning area to the dewatering area.

In this embodiment, when the washing and squeezing unit is located in the washing area, the washing and squeezing unit cooperates with the high-level water storage tank to realize the washing function, as shown in fig. 4; when the washing and squeezing unit turns over to the dehydration area, the dehydration function is realized corresponding to the flat plate dragging limiting table at the bottom, as shown in fig. 6. When the washing and squeezing unit is turned over, the high-level water storage tank is turned over along with the washing and squeezing unit, and the top of the high-level water storage tank faces downwards at the moment, so that the water storage function is omitted, as shown in fig. 5.

Of course, the high-level water storage tank in the embodiment can also be arranged on the top edge of the barrel body or the inner wall of the barrel body and does not turn over along with the cleaning and squeezing unit.

In addition, the embodiment can also be provided with an extrusion frame and an extruder, wherein the extrusion frame is provided with a pair of extrusion openings which are vertically and symmetrically arranged, and the extruder is arranged between the two extrusion openings; under this kind of structure, the dull and stereotyped of washing wringing unit upset back is dragged and also can be convenient pass the extrusion mouth and extrude, and the structure is comparatively simple.

Example 3

The structure of the embodiment is as shown in fig. 7, the mop bucket only comprises a bucket body, the mop bucket is set to be in a high-low bucket structure form, a cleaning area and a dewatering area are arranged in the bucket body, and the height of the bucket body corresponding to the cleaning area is lower than that of the bucket body corresponding to the dewatering area; the barrel body is provided with a cleaning mechanism, a squeezing mechanism, a flow guide mechanism, a high-level water storage tank and a flat plate dragging limiting table, the cleaning mechanism and the high-level water storage tank are arranged above a cleaning area, and the squeezing mechanism and the flow guide mechanism are arranged above a dehydration area; when in normal use, the water level in the barrel body is lower than the height of the flat dragging limit table. The state of this embodiment for cleaning the flat mop is shown in fig. 7.

The embodiment has simple structure, does not need to move a cleaning mechanism or a squeezing mechanism in the using process, and is very suitable for household cleaning. Of course, the squeezing frame of the cleaning mechanism and the squeezing frame of the squeezing mechanism in this embodiment may be manufactured as an integral structure, and at this time, the barrel body may be configured as a flat barrel structure, as shown in fig. 8.

In order to prevent the problem that the flat mop cannot effectively dewater when the water surface shakes and overflows the flat mop limiting table in the flat mop dewatering process, the top of the flat mop limiting table is provided with the enclosure 18, as shown in fig. 9.

Example 4

The structure of the present embodiment is shown in fig. 10, and the difference from embodiment 3 is that: the mop bucket comprises two independent single buckets, the tops of the two single buckets are connected together, one single bucket is a cleaning bucket, the inner cavity of the bucket body is a cleaning area, and a cleaning mechanism and a high-level water storage tank are assembled at the top of the bucket body; the other single barrel is a squeezing barrel, the inner cavity of the barrel body is a dewatering area, a squeezing mechanism is assembled at the top of the barrel body, and a flat plate mop limiting table is arranged at the bottom of the squeezing barrel.

Of course, the mop bucket can also be formed by combining a plurality of single buckets, and each single bucket is provided with at least one squeezing mechanism or cleaning mechanism.

Example 5

The structure of the present embodiment is shown in fig. 11, and the difference from embodiment 3 is that: a longitudinal clapboard 17 is arranged in the barrel body below the high-level water storage tank, so that a cleaning area A in the barrel body is divided into a sewage area C and a rinsing area D; meanwhile, a sewage discharge port 131 is formed in the side plate of the vertical surface of the high-level water storage tank above the corresponding sewage area, and a discharge switch valve is arranged in the sewage discharge port.

This embodiment is used for dragging the spot when many at the flat board, discharges the sewage that washs out to the sewage district, prevents that the water in clear water district from becoming dirty very fast, reduces water and changes the number of times, improves the utilization ratio of staving internal water.

Example 6

The structure of the present embodiment is shown in fig. 12, and the difference from embodiment 5 is that: a cleaning mechanism is additionally arranged between the cleaning mechanism and the squeezing mechanism, and a high-level water storage tank is also arranged below the squeezing frame of the cleaning mechanism. When the number of the dirty stains dragged by the flat plate is particularly large, a cleaning mechanism arranged above the sewage area is used for cleaning for the first time, and the cleaned dirty stains can flow into the sewage area; when the washing is almost carried out, the flat plate is dragged to the washing mechanism above the washing area to be rinsed.

In this embodiment, the mop bucket may also be configured as a flat bucket structure, and at this time, the squeezing frame of the washing mechanism and the squeezing frame of the squeezing mechanism in the rinsing area may be integrated into a whole, as shown in fig. 13.

Of course, a plurality of cleaning mechanisms can be additionally arranged between the cleaning mechanism and the squeezing mechanism, and in this state, the squeezing frame of the cleaning mechanism in the rinsing area can be arranged as an integrated structure.

Example 7

This example differs from example 3 in that: a cleaning mechanism is arranged on the barrel body on the other side opposite to the squeezing mechanism, and a longitudinal clapboard 17 which divides the cleaning area into a sewage area and a rinsing area is arranged in the barrel body between the two cleaning mechanisms. In this embodiment, the squeezing frame of the squeezing mechanism and the squeezing frame of the cleaning mechanism adjacent thereto are of an integrated structure, and the state when used for cleaning the mop is shown in fig. 14.

In this state, the cleaning mechanism above the sewage area is provided with a high-level water storage tank, and the water surface of the sewage area can be arranged lower; certainly, the cleaning mechanism above the sewage area can be not provided with a high-level water storage tank, and the water surface of the sewage area can be set higher, so that strong stain cleaning is realized.

In addition, a plurality of longitudinal partition plates can be arranged in the barrel body of the invention, the longitudinal partition plates can be arranged in a crossed manner or in a parallel manner to form a plurality of sewage areas or rinsing areas, a cleaning mechanism is correspondingly arranged above each sewage area and above each rinsing area respectively, and fig. 15 is a barrel body structure provided with two rinsing areas and one sewage area. In the multiple cleaning mechanisms of the embodiment, some cleaning mechanisms are provided with high-level water storage tanks, and some cleaning mechanisms are not provided with high-level water storage tanks; the structure is more suitable for cleaning the ground with more stains in public places.

The above embodiments are preferred embodiments of the present invention, and are not intended to limit the present invention. However, the flat mop cleaning device provided with the high-level water storage tank, the extrusion unit and the flat mop limiting table in the barrel body is within the protection scope of the invention.

Claims (18)

1. The utility model provides a dull and stereotyped mop belt cleaning device, includes mop bucket and dull and stereotyped mop, dull and stereotyped mop includes mop pole and swing joint dull and stereotyped on the mop pole is dragged, the dull and stereotyped is dragged and is equipped with wiper, its characterized in that: the mop bucket comprises a bucket body, wherein a cleaning mechanism and a high-position water storage tank for cleaning the flat mop are assembled on the bucket body, water carried by the flat mop and the mop on the flat mop are squeezed by the cleaning mechanism and then sent into the high-position water storage tank, when the flat mop goes down, the water in the high-position water storage tank flows into the flat mop positioned on the upper part of the bucket body to be soaked and cleaned on the upper part of the flat mop, and the flat mop is reciprocated and squeezed in the cleaning mechanism to clean the whole mop;

the flat mop is provided with a water storage mechanism for lifting water in the mop bucket to a high-level water storage tank;

the flat mop comprises a back plate and a middle connecting plate, wherein two end parts of the back plate and the middle connecting plate are assembled through locking buckles, the wiper is sleeved on the middle connecting plate and is pressed through the locking buckles, and the water storage mechanism is arranged between the back plate and the middle connecting plate;

the water storage mechanism comprises a water suction hole and a water discharge hole which are arranged on the flat mop, and a water storage cavity which is arranged between the back plate and the middle connecting plate and is communicated with the water suction hole and the water discharge hole.

2. The flat mop cleaning device of claim 1, further comprising: the high-level water storage tank is of a structure capable of storing water, and one side of the high-level water storage tank, which faces the cleaning mechanism, is provided with an opening which is convenient for water to flow to the flat plate to drag the wiping materials; the high-level water storage tank is arranged on the cleaning mechanism or the barrel body.

3. The flat mop cleaning device of claim 1, further comprising: the wiping material is a wiping material with strong water absorption, and the wiping material is arranged on the front surface, the back surface or the front surface and the back surface of the flat mop.

4. The flat mop cleaning device of claim 1, further comprising: the inner side of the water discharge hole is provided with a flashboard for opening and closing the water discharge hole, and the flat mop is provided with a trigger mechanism for triggering the flashboard to open and close the water discharge hole; a one-way water inlet valve is arranged on the inner side of the water suction hole.

5. The flat mop cleaning device of claim 1, further comprising: the barrel body is also provided with a squeezing mechanism for dehydrating the flat mop, and the bottom of the barrel body below the squeezing mechanism is provided with a flat mop limiting table; and the squeezing mechanism is provided with a flow guide mechanism for guiding out water squeezed out from the flat plate dragging.

6. The flat mop cleaning device of claim 5, wherein: the mop bucket at least comprises two independent single buckets, the mop bucket is at least provided with a cleaning mechanism and a squeezing mechanism, and the cleaning mechanism and the squeezing mechanism are respectively arranged in different single buckets.

7. The flat mop cleaning device of claim 5, wherein: the squeezing mechanism and the cleaning mechanism are arranged in a barrel, and the water surface in the barrel is lower than the height of the flat dragging limiting table.

8. The flat mop cleaning device of claim 7, further comprising: the squeezing mechanism and the cleaning mechanism form a cleaning squeezing unit, a cleaning area and a dehydration area are arranged in the barrel body, and the flat plate dragging limiting platform is positioned at the bottom of the barrel body of the dehydration area; and an inclined slide rail for moving the cleaning and squeezing unit from the cleaning area to the dewatering area is arranged on the inner wall of the barrel body.

9. The flat mop cleaning device of claim 7, further comprising: the squeezing mechanism and the cleaning mechanism form a cleaning squeezing unit, a cleaning area and a dehydration area are arranged in the barrel body, and the flat plate dragging limiting platform is positioned at the bottom of the barrel body of the dehydration area; and the inner wall of the barrel body is provided with a turnover frame for moving the cleaning and squeezing unit from the cleaning area to the dewatering area.

10. The flat mop cleaning device of claim 7, further comprising: a cleaning area and a dewatering area are arranged in the barrel body, and a longitudinal partition plate is arranged in the barrel body below the high-level water storage tank and divides the cleaning area in the barrel body into a sewage area and a rinsing area; a sewage discharge port is arranged on the side plate of the vertical surface of the high-level water storage tank corresponding to the upper part of the sewage area.

11. The flat mop cleaning device of claim 7, further comprising: a cleaning area and a dewatering area are arranged in the barrel body, at least two cleaning mechanisms are arranged on the barrel body corresponding to the cleaning area, and a longitudinal partition plate is arranged in the barrel body between every two adjacent cleaning mechanisms.

12. The flat mop cleaning device of claim 5, wherein: the squeezing mechanism and the cleaning mechanism have the same structure and at least comprise a squeezing frame assembled on the barrel body, a squeezing port for the flat mop to pass through is formed in the squeezing frame, and a squeezer for squeezing the flat mop is arranged below the squeezing frame on one side of the squeezing port.

13. The flat mop cleaning device of claim 12, further comprising: one or more extruders can be arranged on one extrusion frame, and the plurality of extruders are arranged on the extrusion frame in a transverse parallel mode or a vertical parallel mode; and a high-level water storage tank is arranged beside at least one extruder in the cleaning mechanism.

14. The flat mop cleaning device of claim 13, further comprising: the squeezer is an extrusion strip, an extrusion sheet, a rotatable water squeezing roller, a brush strip or a brush roller provided with bristles, the extrusion strip, the extrusion sheet, the water squeezing roller, the brush strip or the brush roller can be fixedly arranged in the extrusion opening, the extrusion strip, the extrusion sheet, the water squeezing roller, the brush strip or the brush roller can also be movably arranged in the extrusion opening through an elastic device, and the extrusion strip, the extrusion sheet, the brush strip or the brush roller can also be independently arranged or combined together to form the combined squeezer.

15. The flat mop cleaning device of claim 12, further comprising: and a roller convenient for the flat plate to drag the flat plate to slide up and down is arranged below the other side of the extrusion frame opposite to the extruder.

16. The flat mop cleaning device of claim 5, wherein: a buffer mechanism for buffering the downward-pressed flat plate mop is arranged in the barrel body below the corresponding squeezing mechanism and the cleaning mechanism.

17. The flat mop cleaning device of claim 16, wherein: the buffer mechanism is an elastic pad, an elastic block or a spring rebounding device; the spring rebounding device comprises an upper ejecting spring and a rebounding frame, the lower end of the upper ejecting spring is fixed, and the upper end of the upper ejecting spring is fixedly connected with the rebounding frame.

18. The flat mop cleaning device of claim 5, wherein: the top of the flat plate dragging limiting platform is provided with a surrounding baffle for preventing the flat plate dragging from effectively dehydrating when the water surface rocks to overflow the flat plate dragging limiting platform in the dehydration process.

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