CN218784423U - Mop bucket and cleaning assembly - Google Patents

Abstract

The utility model relates to a mop bucket and clean subassembly, the mop bucket includes: the top of the barrel body is provided with a smoothing opening for a mop to extend into, and a containing part for containing a mop rod is formed on the smoothing opening; the waterway structure is used for conveying cleaning water to the stroking opening; the water outlet switch is arranged at the accommodating part and used for controlling the water path structure to be conducted or blocked, the water outlet switch is suitable for being triggered by the mop rod, and when the water outlet switch is triggered to be started, the water path structure is conducted to convey cleaning water to the smoothing opening, so that the cleaning materials of the mop can be cleaned conveniently. When wanting to wash the mop, arrange the mop pole in holding portion and support and press the water switch just can realize triggering fast that water switch control waterway structure goes out water, easy operation is convenient to because holding portion guide and limiting displacement to the mop pole for the mop pole is more accurate high-efficient to the triggering operation of water switch, can not appear going out the problem that the water is continuous, uses and experiences better.

Description

Mop bucket and cleaning assembly

Technical Field

The utility model relates to a clean subassembly technical field, concretely relates to mop bucket and clean subassembly.

Background

The mop bucket is a tool for storing and cleaning a mop, one side of the existing mop bucket is a cleaning position, the other side of the existing mop bucket is a dewatering position, the cleaning position is provided with a water outlet switch triggered by a mop plate, when a user needs to clean the mop, the mop is inserted into a smoothing opening from the cleaning position, the mop plate triggers the water outlet switch at the moment, a water outlet hole starts to spray water, and the user can finish cleaning the mop by pulling the mop up and down; after cleaning, the user pulls the mop out of the smoothing opening, then inserts the mop into the smoothing opening from the dewatering position, and dewatering of the mop can be completed by pulling the mop up and down.

In the scheme, the water outlet switch is triggered through the mop plate, and the mop plate is generally hinged to the mop rod and has higher degree of freedom when moving in the stroking opening, namely the stroking opening of the mop plate has larger shaking amplitude and displacement. Consequently, when triggering out the water switch through the mop board, the mop board rocks easily, leads to out water switch trigger state unstable, and the operation requirement to the user probably is higher for guaranteeing the trigger effect, leads to the user to operate inconveniently, and whole operation process restriction is more, uses to experience not good.

SUMMERY OF THE UTILITY MODEL

Therefore, the to-be-solved technical problem of the utility model lies in overcoming the mop bucket among the prior art and triggering out the water switch through the mop board, and the operation of existence is inconvenient, uses and experiences not good defect to a user trigger operation is more accurate high-efficient, uses and experiences better mop bucket.

In order to solve the above problem, in a first aspect, the present invention provides a mop bucket, comprising:

the top of the bucket body is provided with a smoothing opening for a mop to extend into, and a containing part capable of containing a mop rod is formed on the smoothing opening;

the waterway structure is used for conveying cleaning water to the stroke opening;

the water outlet switch is arranged at the accommodating part and used for controlling the water path structure to be conducted or blocked, the water outlet switch is suitable for being triggered by the mop rod, and when the water outlet switch is triggered to be started, the water path structure is conducted to convey cleaning water to the stroking opening, so that the cleaning materials of the mop can be cleaned conveniently.

Optionally, the accommodating part comprises a limiting groove formed by recessing the inner peripheral wall part of the rake opening.

Optionally, the water outlet switch is disposed in the accommodating portion or at the bottom of the accommodating portion.

Optionally, the water outlet switch comprises:

the trigger piece comprises a trigger part protruding out of the inner wall of the accommodating part, and the trigger part has a non-trigger state protruding out of the inner wall of the accommodating part when not subjected to external force and a trigger state compressed and triggered under the action of the extrusion force of the mop rod.

Optionally, the trigger part is a roller structure adapted to be in rolling contact with the mop rod.

Optionally, the waterway structure includes:

the water storage tank is internally provided with a water storage cavity suitable for independently containing cleaning water and is provided with a clean water outlet;

one end of the water outlet pipeline is communicated with the clear water outlet, and the other end of the water outlet pipeline is positioned at the stroking opening;

the water outlet switch can switch on or off the water outlet pipeline under the triggering of the mop rod, so that the clear water contained in the water storage tank is conveyed to the stroking port through the water outlet pipeline when the water outlet pipeline is switched on.

Optionally, the water storage tank is of an annular structure arranged around the top opening of the barrel body, the clear water outlet is formed in the bottom of the water storage tank, and the stroking opening is formed in the middle of the annular water storage tank.

Optionally, the top of the water storage tank is open;

and/or a clear water inlet is arranged on the top wall or the side wall of the water storage tank.

Optionally, the mop bucket further comprises a scraping and washing part arranged at the smoothing opening and suitable for scraping and/or squeezing the wiping material of the mop when the mop extends into the smoothing opening;

the other end of the water outlet pipeline is matched with the scraping and washing part and is suitable for guiding the clean water in the water storage tank to the scraping and washing part;

the water outlet switch can open or close the clear water outlet under the triggering of the mop rod.

Optionally, the water outlet line comprises:

one end of the first pipeline is connected to the clear water outlet, and the other end of the first pipeline is provided with a communication port;

the second pipeline is connected between the communication port and the scraping and washing piece, and the water outlet switch further comprises a valve plug assembly movably arranged in the first pipeline;

the valve plug assembly is suitable for conducting the communication port and the clear water outlet when the trigger piece is in a trigger state, and sealing the communication port and the clear water outlet when the trigger piece is in a non-trigger state.

Optionally, the water outlet switch further comprises:

the mounting bracket is fixedly arranged at the bottom of the water storage tank and is arranged at a position close to the clear water outlet, and the valve plug assembly and/or the trigger piece are/is suitable for limiting and/or mounting on the mounting bracket.

Optionally, the mounting bracket comprises:

the bracket main body is fixedly arranged on the water storage tank;

the first mounting part is arranged on one side of the bracket main body close to the accommodating part and is suitable for limiting and/or mounting the trigger piece;

trigger still including be suitable for with the connecting portion that first installation department is connected, be equipped with on the first installation department and be suitable for spacing and/or installation the first mounting hole of connecting portion, first mounting hole is for being suitable for the guide the bar trompil of connecting portion motion, drive during the connecting portion motion trigger is in trigger state with switch between the non-trigger state.

Optionally, the connecting portion is a rotating shaft structure fixedly arranged on a side portion of the triggering portion, and the rotating shaft structure is adapted to pass through the first mounting hole and can rotate and/or move in the first mounting hole.

Optionally, the first mounting hole is a kidney-shaped hole extending in the horizontal direction.

Optionally, the stent body comprises:

first support and the second support of relative setting, be provided with respectively on first support and the second support first installation department, trigger member rotationally sets up between two first installation departments.

Optionally, the first bracket and the second bracket comprise two oppositely arranged mounting cylinders;

the water storage tank is characterized in that two connecting columns suitable for mounting and positioning the mounting barrel are correspondingly arranged on the bottom wall of the water storage tank, and the connecting columns are spliced and fixed in the mounting barrel.

Optionally, the first mounting portion is a first mounting plate fixedly disposed on the first bracket and the second bracket, and the first mounting plate is fixedly connected to the first bracket and the second bracket or integrally formed with the first bracket and the second bracket.

Optionally, the first mounting plate is a longitudinal plate, and an end portion of the first mounting plate extends in a direction close to the center of the accommodating portion.

Optionally, the mounting bracket further comprises:

and the second mounting part is fixedly connected between the first support and the second support, and a second mounting hole suitable for limiting and/or mounting the valve plug assembly is formed in the second mounting part.

Optionally, the second mounting part is fixedly connected or integrally formed between the first bracket and the second bracket;

and/or the second mounting part is a plate-shaped or rod-shaped or block-shaped structure connected between the first bracket and the second bracket;

and/or the second mounting hole is a through hole formed in the second mounting part along the vertical direction.

Optionally, the valve plug assembly comprises:

the valve plug is provided with an opening position suitable for communicating the communication port with the clean water outlet and a closing position suitable for closing the communication port with the clean water outlet;

and one end of the valve rod is connected with the valve plug, and the other end of the valve rod penetrates through the second mounting hole and is directly or indirectly limited or connected with the trigger piece, so that the trigger piece can drive the valve plug to move between an opening position and a closing position when being switched between a triggering state and a non-triggering state.

Optionally, the valve plug assembly comprises:

elasticity resets, sets up the valve plug with between the second installation department, be suitable for when triggering the piece and being in non-trigger state, drive the valve plug resets extremely closed position.

Optionally, the elastic reset piece is a compression spring sleeved on the valve rod, one end of the compression spring abuts against the valve plug, and the other end of the compression spring is limited and/or mounted on the second mounting portion.

Optionally, the water outlet switch further comprises:

the driving medium sets up trigger the piece with between the valve plug subassembly, the driving medium middle part is rotated and is connected on the installing support, and one end with trigger the articulated or spacing cooperation of piece, the other end with the articulated or spacing cooperation of valve plug subassembly.

Optionally, the transmission comprises:

the hinge part is rotatably connected to the mounting bracket;

the free end of the first extension part is suitable for being hinged or in limited fit with the connecting part of the trigger part, and the free end of the second extension part is suitable for being hinged or in limited fit with the end part of the valve rod.

Optionally, the first extending part abuts against the connecting part of the trigger part and is close to the inner side of the bracket main body;

and/or a stopping part is arranged on the peripheral wall of one end of the valve rod, which is far away from the valve plug, and the second extending part is pressed above the stopping part.

Optionally, the transmission comprises:

the two transmission connecting rods are distributed on two sides of the trigger piece and comprise a first rod section and a second rod section which are connected in a V shape, wherein the tip end of the V-shaped transmission connecting rod forms the hinged part, and the first rod section and the second rod section respectively form a first extending part and a second extending part;

the rotating connecting rods are fixedly connected or integrally formed between the hinged parts of the two transmission connecting rods, and rotating shaft holes suitable for being rotatably connected with the mounting bracket are respectively arranged in the hinged parts or the hinged parts and the rotating connecting rods.

Optionally, a rotating shaft is fixedly arranged on each of the inner sides of the first support and the second support, and two sides of the transmission member are rotatably connected to the two rotating shafts;

or a rotating shaft is fixedly connected between the first support and the second support and penetrates through the transmission piece, so that the transmission piece is rotatably connected to the rotating shaft.

Optionally, the rotating shaft is arranged at the bottom of the first bracket and the second bracket.

Optionally, the scraper comprises:

the scraper mounting frame is arranged and/or limited in the barrel body;

the water outlet roller is rotatably arranged and/or limited on the scraper mounting frame, a water spraying cavity suitable for being communicated with the water storage tank is arranged in the water outlet roller, and a water spraying hole is formed in the water outlet roller;

the water outlet pipeline is connected between the water spraying cavity and the clean water outlet and is suitable for feeding water into the water spraying cavity.

Optionally, the scraper comprises:

the scraper mounting rack is arranged and/or limited in the barrel body;

the water spraying plate is arranged and/or limited above and/or below the scraper mounting frame, a water spraying cavity which is suitable for being communicated with the water storage tank is arranged in the water spraying plate, and a plurality of water spraying holes are formed in the water spraying plate;

the water outlet pipeline is connected between the water spraying cavity and the clear water outlet and is suitable for feeding water into the water spraying plate.

Optionally, an operating part is arranged at one end of the mop rod hinged with the mop plate, and when the mop plate is inserted into the smoothing opening, the operating part triggers the water outlet switch.

In a second aspect, the present invention provides a cleaning assembly comprising a mop and the mop bucket described above;

the mop comprises a mop rod and a mop plate, wherein the mop rod comprises a mop rod main body and a turnover connecting structure which is arranged on the end part of the mop rod main body and is suitable for being connected with the mop plate;

the mop plate is provided with a connecting seat, the connecting seat is provided with a connecting concave part suitable for mounting the turnover connecting structure, and the turnover connecting structure is rotatably connected to the side wall of the connecting concave part;

the mop rod is provided with a first position where the overturning connecting structure is located in the connecting concave portion and a second position where the overturning connecting structure drives the mop rod main body to overturn to one side of the connecting concave portion, and when the overturning connecting structure overturns to one side of the connecting concave portion, the mop rod main body is located at a position staggered with the connecting seat.

Optionally, the turnover connection structure is a turnover connection piece, one end of the turnover connection structure is hinged to the mop rod main body, the other end of the turnover connection structure is rotatably connected to the side wall of the connection concave portion, and the turnover connection piece can drive the mop rod main body to turn over around a rotation axis of the turnover connection piece, which is connected with the connection concave portion.

Optionally, the connecting concave part is a groove formed by sinking the top wall part of the connecting seat, or a notch groove formed by arranging a notch on the top of the connecting seat;

the turnover connecting piece is provided with a U-shaped connecting main body, and two free ends of the U-shaped connecting main body are respectively and rotatably connected to two opposite side walls of the connecting concave part.

Optionally, the connecting body comprises two connecting arms arranged oppositely;

the outer sides of the two connecting arms are respectively and fixedly provided with a rotating shaft which is suitable for being connected with the side wall of the connecting concave part, and the side wall of the connecting concave part is correspondingly provided with a shaft hole which is suitable for being matched with the rotating shaft.

Optionally, an avoiding portion adapted to avoid the mop rod in the axial direction of the mop rod when the mop rod is in the first position is further disposed on the top wall of the connecting seat.

Optionally, the avoiding portion is an avoiding groove disposed on both sides of the connecting concave portion and penetrating the inside of the connecting concave portion.

Optionally, an open slot adapted to accommodate installation of the turnover connection member is formed on an end of the mop rod body;

the end part of the turnover connecting piece is arranged in the open slot and is rotatably connected in the open slot through a hinge shaft.

Optionally, the open slot includes two slot walls disposed oppositely;

the hinge shaft is fixedly connected between the two groove walls, or the hinge shaft is integrally formed between the two groove walls.

Optionally, a hinge connection portion adapted to be connected to the hinge shaft is provided at a bent portion of the U-shaped connection body.

Optionally, the hinge connection portion is a connection hole formed in the bending portion and adapted to be in hinge fit with the hinge shaft.

Optionally, the hinge connection portion includes a limiting protruding rib fixedly disposed on an inner periphery of the bending portion, and an inner wall of the limiting protruding rib is recessed to form a clamping groove adapted to be in hinge fit with the hinge shaft.

Optionally, the limiting ribs comprise two ribs arranged on two opposite inner sides of the bending portion, and an assembly opening suitable for being matched with the hinge shaft is formed between the two ribs;

the limiting convex rib comprises a middle narrowing part, an arc-shaped inner concave part far away from the free end of the U-shaped connecting main body and an expanding guide part close to the free end of the U-shaped connecting main body, the arc-shaped inner concave part forms the clamping groove, and the inner diameter of the narrowing part is smaller than the outer diameter of the hinged shaft.

Optionally, the connecting seat is fixedly protruded from the middle position of the back of the mop plate along the length direction of the mop plate.

Optionally, the connecting seat is a strip-shaped connecting block extending along the width direction of the mop plate, and a top gap of the strip-shaped connecting block is formed into the connecting concave portion.

Optionally, the turnover connection structure is located in the connection recess, so that when one end of the turnover connection structure hinged to the mop rod main body is located above the connection recess, the mop rod is located at the first position;

the turnover connecting structure drives the mop rod main body to turn to one side of the connecting concave part, so that one end of the turnover connecting structure, which is hinged with the mop rod main body, is positioned on the side surface of the connecting concave part, and the mop rod is positioned at the second position.

Optionally, the connecting concave part is a groove structure penetrating through the connecting seat in the length direction.

The utility model has the advantages of it is following:

1. according to the mop bucket provided by the utility model, when a mop is wanted to be cleaned, the mop rod is arranged in the containing part and is pressed against the water outlet switch, so that the water outlet of the water path structure can be controlled by rapidly triggering the water outlet switch, on one hand, the water outlet switch is arranged at the containing part, and the freedom degree of the mop rod in the containing part during movement is smaller, so that the operation requirement of the water outlet switch in the containing part for a user is lower by triggering the mop rod, namely, the triggering of the water outlet switch can be completed without special attention of the user, and the operation is more convenient; on the other hand, because the holding part guides and limits the mop rod, the mop rod can trigger the water outlet switch more accurately and efficiently, the trigger state of the water outlet switch is more stable, the problem of intermittent water outlet can not occur, and the use experience is better.

2. According to the cleaning assembly provided by the utility model, the water outlet switch can be arranged at the side part of the accommodating part, when the mop rod is turned to the second position and the mop plate is inserted into the smoothing opening, the water switch is extruded from the end part of the mop rod, at the moment, the water path structure is conducted, and the cleaning water is sprayed on the mop cleaning material at the smoothing opening, so that the cleaning material can be cleaned conveniently; when the mop rod is turned to the first position and the mop plate is inserted into the smoothing opening, the end of the mop rod is not in contact with the water outlet switch, namely the end of the mop rod cannot be extruded out of the water outlet switch, the water path structure is blocked, and the mop plate can move up and down at the smoothing opening to dewater a wiper.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the embodiments or the technical solutions in the prior art will be briefly described below, and it is obvious that the drawings in the following description are some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

FIG. 1 is an external view showing a washing unit in the embodiment;

FIG. 2 shows a top view of FIG. 1;

FIG. 3 is a schematic view of the mop bucket of FIG. 1 with the bucket body removed;

FIG. 4 is a schematic view of a first angle of the water outlet switch in the embodiment;

FIG. 5 is a schematic view showing a second angle of the water outlet switch in the embodiment;

FIG. 6 is a schematic structural diagram of a third angle of the water outlet switch in the embodiment;

FIG. 7 is a sectional view showing the place where the fresh water outlet of the water storage tank is matched with the valve plug assembly in the embodiment;

FIG. 8 is a schematic structural view showing a water spray chamber above a scraper in the embodiment;

FIG. 9 is a schematic view showing the bottom structure of the water storage tank in the embodiment;

FIG. 10 shows a top view of the mop in a second position in an embodiment;

FIG. 11 shows a schematic view of an embodiment of the mop pole in a first position;

FIG. 12 shows an isometric view of the mop in a second position in an embodiment;

FIG. 13 shows a partial enlarged view of FIG. 12;

FIG. 14 is a block diagram showing another angle of FIG. 13;

FIG. 15 is a schematic structural view showing an inverted connecting structure in the embodiment;

FIG. 16 shows a top view of an inverted attachment structure in an embodiment;

FIG. 17 illustrates an enlarged partial view of an end of the main body of the mop pole in accordance with an embodiment;

fig. 18 shows a schematic structural view of the connection socket in the embodiment;

description of reference numerals:

1. a barrel body; 101. smoothing out the mouth; 102. a receptacle portion;

2. a mop;

21. a mop rod; 211. an open slot; 212. hinging a shaft;

22. a mop plate; 221. a connecting seat; 2211. a connecting recess; 22111. a shaft hole; 2212. an avoidance part;

23. a turnover connection structure; 231. a connecting body; 2311. a connecting arm; 23111. a rotating shaft; 2312. a bending section; 2313. limiting convex ribs; 23131. a narrowing portion; 23132. an arc-shaped concave part; 23133. an expanding guide part; 2301. a clamping groove;

3. a water outlet switch;

31. a trigger; 311. a roller structure; 312. a rotating shaft structure;

32. a valve plug assembly; 321. a valve plug; 322. a valve stem; 3221. a stopper portion; 323. an elastic reset member;

33. mounting a bracket; 331. a first mounting portion; 3311. a first mounting hole; 332. a second mounting portion; 33a, a first bracket; 33b, a second bracket;

34. a transmission member; 341. a hinge portion; 342. a first extension portion; 343. a second extension portion;

4. a water storage tank; 401. a clear water inlet; 402. a clear water outlet; 403. connecting columns;

41. a water outlet pipeline; 411. a first pipeline; 4111. a communication port; 4112. an interface structure; 412. a second pipeline; 413. connecting a joint;

5. a scraping and washing member; 51. a squeegee mounting frame; 52. a water outlet roller; 501. a water spray hole; 53. a water spray plate; 531. a water inlet.

Detailed Description

The technical solutions of the present invention will be described more clearly and completely with reference to the accompanying drawings, and it should be understood that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts all belong to the protection scope of the present invention.

In the description of the present invention, it should be noted that the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplification of description, but do not indicate or imply that the device or element referred to must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first," "second," and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it is to be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meaning of the above terms in the present invention can be understood according to specific situations by those skilled in the art.

Furthermore, the technical features mentioned in the different embodiments of the invention described below can be combined with each other as long as they do not conflict with each other.

Example one

As shown in fig. 1 to 9, the present embodiment provides a mop bucket including: the mop comprises a barrel body 1, a waterway structure and a water outlet switch 3, wherein the top of the barrel body 1 is provided with a smoothing opening 101 into which a mop 2 can extend, and a containing part 102 capable of containing a mop rod 21 is formed on the smoothing opening 101; the waterway structure is used for conveying cleaning water into the barrel body 1; the water outlet switch 3 is disposed at the accommodating portion 102 for controlling the water path structure to be turned on or off, and is adapted to trigger the water outlet switch 3 via the mop rod 21, and when the water outlet switch 3 is triggered to be turned on, the water path structure is turned on to deliver cleaning water to the smoothing opening 101, so as to clean the wiping material of the mop 2.

By utilizing the technical scheme of the utility model, when the mop 2 is wanted to be cleaned, the mop rod 21 is arranged in the containing part and is pressed against the water outlet switch, so that the water outlet of the water path structure can be controlled by rapidly triggering the water outlet switch, on one hand, the water outlet switch is arranged in the containing part, and the freedom degree of the mop rod 21 in the containing part during movement is smaller, therefore, the operation requirement of the water outlet switch in the containing part for a user is lower by triggering the mop rod 21, namely, the triggering of the water outlet switch can be completed without special attention of the user, and the operation is more convenient; on the other hand, because holding portion is to the guide and limiting displacement of mop pole 21 for mop pole 21 is more accurate high-efficient to the trigger operation of going out water switch, and the trigger state of going out water switch is comparatively stable, can not appear going out the problem that water is intermittent and continuous, and it is better to use experience. Alternatively, as shown in fig. 1 and 2, the receptacle 102 includes a limiting groove formed by recessing an inner peripheral wall portion of the nozzle 101. Through setting this water outlet switch 3 in holding portion 102, when triggering water outlet switch 3, holding portion 102 also can play certain guide, the effect of location for the user can find water outlet switch 3's position fast, and mop pole 21 is triggering this water outlet switch 3's in-process simultaneously, and holding portion 102 can play certain limiting displacement to mop pole 21, guarantees that it keeps steadily in predetermined trigger position.

Alternatively, in this embodiment, the receptacle 102 can be located at a middle position of one side of the stroking opening 101. The receptacle 102 is formed by an inner peripheral wall portion of the cuff 101 being recessed inwardly.

Optionally, the water outlet switch 3 is disposed in the accommodating portion 102 or at the bottom of the accommodating portion 102.

For example, the water outlet switch 3 may be disposed on an inner wall of the accommodating portion 102, when the mop 2 is inserted into the smoothing opening 101, the mop rod 21 is located in the accommodating portion 102, at this time, the mop rod 21 presses the water outlet switch 3 located on the inner wall of the accommodating portion 102, the water outlet switch 3 is triggered to conduct a water path structure, the water path structure may deliver cleaning water to the smoothing opening 101 of the bucket 1, that is, the cleaning water may be delivered to the mop 2 wiper located at the smoothing opening 101, and a user may clean the wiper by moving the mop 2 wiper up and down at the smoothing opening 101. The water outlet switch 3 is arranged on the inner wall of the accommodating part 102, so that when the end part of the mop rod 21 moves between the bottom of the accommodating part 102 and the water outlet switch 3, the water outlet switch 3 is always in a triggered state, namely cleaning water is always sprayed on the wiping object, and the wiping object is cleaned thoroughly.

Alternatively, the water outlet switch 3 may be disposed on the bottom of the accommodating portion 102, when the mop 2 is inserted into the smoothing opening 101, the end of the mop rod 21 presses the water outlet switch 3 located on the bottom of the accommodating portion 102, the water outlet switch 3 is triggered to conduct a water path structure, and the water path structure can deliver cleaning water to the smoothing opening 101 of the bucket 1, that is, the cleaning water can be delivered to the mop 2 wiper located at the smoothing opening 101 to flush the mop 2 wiper. The water outlet switch 3 is arranged at the bottom of the accommodating part 102, the water outlet switch 3 can be triggered by the mop rod 21 only when the mop 2 is completely inserted into the smoothing opening 101, when the mop 2 moves upwards at the smoothing opening 101, the mop rod 21 is separated from the water outlet switch 3, the water path structure stops conveying cleaning water, and a user can move the mop 2 up and down at the smoothing opening 101, so that the wiping can be dewatered, and the dewatering efficiency of the wiping is improved.

Preferably, in this embodiment, the water outlet switch 3 is installed at the bottom of the accommodating portion 102. Optionally, the water outlet switch 3 comprises a trigger 31, wherein the trigger 31 comprises a trigger portion protruding from the inner wall of the accommodating portion 102, and the trigger portion has a non-trigger state protruding from the inner wall of the accommodating portion 102 when not subjected to an external force and a trigger state triggered by being compressed under the squeezing force of the mop rod 21. When the mop 2 is to be cleaned, the trigger part is pressed by the mop rod 21, so that the water outlet switch 3 is triggered, the water outlet of the water path structure is controlled, and the mop 2 is cleaned.

For example, if the water outlet switch 3 is disposed on the inner wall of the accommodating portion 102, when the mop 2 is inserted into the smoothing opening 101, the mop rod 21 presses the trigger portion on the inner wall of the accommodating portion 102, so that the trigger portion moves towards the inner wall of the accommodating portion 102, and the water outlet switch 3 is triggered when the trigger portion moves to the triggering position or moves to be completely accommodated in the inner wall of the accommodating portion 102.

Alternatively, if the water outlet switch 3 is provided at the bottom of the accommodating part 102, when the mop 2 is inserted into the stroking opening 101, the end of the mop rod 21 presses the trigger part located at the bottom of the accommodating part 102, so that the trigger part moves in a direction approaching the inner wall of the accommodating part 102, and the water outlet switch 3 is triggered when the trigger part moves to the trigger position or moves to a position flush with the inner wall of the accommodating part 102.

Optionally, the trigger portion is a roller structure 311 adapted to be in rolling contact with the mop pole 21. Alternatively, the roller structure 311 can be freely rotated in the direction of movement of the mop 2 in the stroking opening 101. Alternatively, the roller structure 311 can be a guide roller abutting against the side of the mop plate 22 not provided with the wipes. In this embodiment, the trigger part is designed as a roller, and when the mop rod 21 and the trigger piece 31 are in abutting contact, the two can form rolling contact, so that the friction force between the mop rod and the mop plate 22 is reduced and the friction damage is reduced on the basis of triggering the water outlet switch 3.

Alternatively, as shown in fig. 3 and 9, the waterway structure includes: a water storage tank 4 and a water outlet pipeline 41, wherein a water storage cavity suitable for independently containing cleaning water is arranged in the water storage tank 4, and the water storage tank 4 is provided with a clean water outlet 402; one end of the water outlet pipeline 41 is communicated with the clean water outlet 402, and the other end is positioned at the stroking port 101; the water outlet switch 3 can be triggered by the mop rod 21 to enable the water storage tank 4 to be communicated with the water outlet pipeline 41, and when the water outlet pipeline 41 is communicated, the clean water stored in the water storage tank 4 is conveyed to the stroking port 101 through the water outlet pipeline 41.

In the above-mentioned scheme, can independently save clean water through the storage water tank 4 that sets up, compare in the mode with the direct water supply of outside water piping connection, the position of use of mop bucket is more nimble, and is unrestricted, improves user's use and experiences.

Of course, in some implementable modes, the water path structure of the mop bucket provided by the embodiment can also be directly connected with an external water pipe, so that a user does not need to frequently receive water when the using amount of the cleaning water is large.

In this embodiment, a design in which the waterway structure adopts a tank structure will be described in detail.

Specifically, the water storage tank 4 is an annular structure arranged around the top opening of the barrel 1, the clear water outlet 402 is arranged at the bottom of the water storage tank 4, the middle of the annular water storage tank 4 is penetrated to form the smoothing opening 101, and the mop plate 22 can extend into the smoothing opening 101.

It should be noted that, in the embodiment, the water storage tank 4 is an annular structure surrounding the opening of the tub body and adapted to the shape of the tub body 1, for example, if the tub body 1 is a square tub body, the water storage tank 4 is a square annular structure; if the barrel body 1 is a circular barrel body, the water storage tank 4 is of a circular ring-shaped structure; if the barrel body 1 is a rectangular barrel body, the water storage tank 4 is a rectangular annular structure.

Optionally, the top of the water storage tank 4 is open, and water can be directly added into the water tank through the opening by arranging the top of the water storage tank 4 open.

In other embodiments, a clean water inlet 401 is disposed on a top wall or a side wall of the water storage tank 4, and the clean water inlet 401 is connected to an external water pipe to fill the water storage tank 4 with cleaning water.

Preferably, in this embodiment, the water storage tank 4 comprises a tank body and a tank cover disposed on the top of the tank body, and the tank cover is provided with a clean water inlet 401. The water tank cover can be fixedly connected with the water tank main body or detachably connected with the water tank main body or integrally formed.

Preferably, the water tank cover and the water tank main body are detachably connected and fixed for facilitating later maintenance and cleaning. For example, the connection and fixation can be realized by means of buckling or snapping.

Optionally, the mop bucket further comprises a scraping and washing part 5 arranged at the smoothing opening 101 and suitable for scraping and/or squeezing the wiping materials of the mop 2 when the mop 2 extends into the smoothing opening 101. Optionally, the scraper 5 is located below the water storage tank 4. The other end of the water outlet pipeline 41 is matched with the scraping and washing part 5, and is suitable for guiding the clean water in the water storage tank 4 to the scraping and washing part 5, and then the scraping and washing part 5 cleans the wiping matters of the mop 2; the water outlet switch 3 can open the clean water outlet 402 under the trigger of the mop rod 21.

By way of example, the scraping and washing member 5 may be one or a combination of any two or more of a scraper, a roller, or a comb, and the embodiment of the present invention is not limited to this.

Alternatively, referring to fig. 3, 8 and 9, the water outlet pipeline 41 includes a first pipeline 411 and a second pipeline 412, wherein the first pipeline 411 is connected to the clean water outlet 402 at one end and is provided with a communication port 4111 at the other end, for example, the communication port 4111 may be provided at a side portion of the other end, and in practical applications, the position of the communication port 4111 of the first pipeline 411 may be properly set according to other components in the barrel 1 to avoid interference with the other components.

Preferably, in the present embodiment, the communication port 4111 is opened on a side wall of the first pipeline 411 to facilitate installation of the following components such as the valve plug assembly 32 of the water outlet switch 3.

Optionally, in this embodiment, the communication port 4111 is disposed on a side wall of the first pipeline 411, and an opening edge of the communication port 4111 extends outward in a circumferential direction to form an interface structure 4112.

Further, a second pipeline 412 is connected between the communication port 4111 and the scraper 5, the communication port 4111 is disposed on a side of the first pipeline 411 close to a water inlet end of the scraper 5, and a water inlet of the second pipeline 412 may be connected and fixed to an interface structure 4112 of the communication port 4111 through a connection joint 413, so as to connect the first pipeline 411 and the second pipeline 412.

Further, the water outlet switch 3 further comprises a valve plug assembly 32 movably disposed in the first pipeline 411; the valve plug assembly 32 is adapted to conduct the communication port 4111 and the clean water outlet 402 when the trigger 31 is in a triggered state, and close the communication port 4111 and the clean water outlet 402 when the trigger 31 is in an un-triggered state.

Preferably, in this embodiment, as shown in fig. 9, the first pipeline 411 is a hollow cylindrical interface structure integrally formed on the clean water outlet 402. In practical applications, the first pipe 411 may be detachably connected to the clean water outlet 402.

In the above solution, the valve plug assembly 32 is movably disposed in the first pipeline 411 and is adapted to move between an open position capable of opening the communication port 4111 and a closed position blocking the communication port 4111, so as to achieve communication between the communication port 4111 and the clean water outlet 402 or close the communication port 4111 and the clean water outlet 402. Specifically, the closed position is a predetermined position of the valve plug assembly 32 between the communication port 4111 and the clean water outlet 402, and the open position is a predetermined position of the valve plug assembly 32 lower than the communication port 4111. Through adopting above-mentioned design, under initial condition, this valve plug subassembly 32 places the default position between this intercommunication mouth 4111 and this clear water export 402 in under effort such as self elasticity, shutoff clear water export 402, avoid clean water to flow to intercommunication mouth 4111 from clear water export 402, with the leakproofness of guaranteeing storage water tank 4, when this trigger piece 31 is extrudeed, trigger piece 31 removes and drives valve plug subassembly 32 and move down, until removing the default position to the intercommunication mouth 4111 below of first pipeline 411, clean water can flow to intercommunication mouth 4111 from clear water export 402 this moment, realize switching on of this outlet conduit 41. Meanwhile, the valve plug assembly 32 can be sealed in the first pipeline 411 between the communication port 4111 and the lower end opening of the first pipeline 411, so that water flow cannot flow out of the lower end opening of the first pipeline 411 when the clean water outlet 402 is opened.

Referring to fig. 1 to 7, when the trigger 31 is squeezed by the mop rod 21, the valve plug assembly 32 is driven to move downwards when the trigger 31 moves towards the direction close to the inner wall of the accommodating portion 102, and moves to the position below the communicating port 4111, so as to open the communicating port 4111, thereby realizing the communication between the clean water outlet 402, the first pipeline 411 and the second pipeline 412, and the water in the water storage tank 4 can flow out from the clean water outlet 402, the first pipeline 411 and the second pipeline 412 to the scraping member 5, so that the scraping member 5 can discharge water, and the wiping objects of the mop 2 can be cleaned. After the washing finishes, take out mop pole 21 from the container portion 102, trigger 31 resets, and valve plug subassembly 32 rebound under the effect of self elasticity resets to the position of intercommunication mouth 4111, shutoff intercommunication mouth 4111, perhaps rebound resets to the position that lies in between intercommunication mouth 4111 and the clear water export 402, seals the passageway between clear water export 402 and the intercommunication mouth 4111, and then realizes blocking of whole waterway structure, scrapes and washes a 5 and stop water.

Optionally, the water outlet switch 3 further comprises: a mounting bracket 33 fixed at the bottom of the storage tank 4 and disposed near the fresh water outlet 402, wherein the valve plug assembly 32 and/or the trigger 31 are adapted to be limited and/or mounted on the mounting bracket 33.

Alternatively, as shown with reference to fig. 3 to 6, the mounting bracket 33 includes: a bracket body and a first mounting portion 331, wherein the bracket body is fixedly arranged on the water storage tank 4; the first mounting portion 331 is disposed on a side of the bracket body close to the accommodating portion 102, and is adapted to limit and/or mount the trigger 31; the trigger 31 further includes a connecting portion adapted to be connected to the first mounting portion 331, a first mounting hole 3311 adapted to limit and/or mount the connecting portion is disposed on the first mounting portion 331, and the first mounting hole 3311 is a bar-shaped opening adapted to guide the connecting portion to move in a horizontal direction. The first mounting hole 3311, by adopting the design of the strip-shaped opening, can enable the mop rod 21 to push the trigger 31 to move inward when abutting against the trigger 31, so as to trigger the trigger 31, and the connecting portion drives the trigger 31 to switch between a trigger state and a non-trigger state when moving, that is, when the connecting portion moves to one end of the strip-shaped opening close to the inner wall of the accommodating portion 102 along the strip-shaped opening, the trigger 31 is in the trigger state, and at this time, the water outlet switch 3 is triggered; when the connecting portion moves along the strip-shaped opening to the end of the strip-shaped opening far away from the inner wall of the accommodating portion 102, the trigger 31 is in a non-triggered state, and the water outlet switch 3 is deactivated.

Optionally, the connecting portion is a rotating shaft structure 312 fixedly disposed at a side portion of the triggering portion, and the rotating shaft structure 312 is adapted to pass through the first mounting hole 3311 and can rotate and/or move in the first mounting hole 3311. In the above solution, the outer diameter of the rotating shaft structure 312 is smaller than the distance between two long sides of the first installation hole 3311, the rotating shaft structure 312 can drive the trigger 31 to rotate, and at the same time can drive the trigger 31 to move along the length direction of the first installation hole 3311, taking the mop bucket shown in the drawing as an example, the rotating shaft structure 312 can drive the trigger 31 to rotate, and at the same time can drive the trigger 31 to move along the horizontal direction.

Alternatively, taking the mop bucket shown in the drawings as an example, the first mounting hole 3311 is a horizontally extending kidney-shaped hole, and the first mounting hole 3311 extends from a position away from the inner wall of the accommodating part 102 to a position close to the inner wall of the accommodating part 102 in a direction parallel to the bottom of the mop bucket.

Alternatively, as shown in fig. 4 to 6, the stand main body includes: the first and second brackets 33a and 33b are oppositely arranged, the first mounting portions 331 are respectively arranged on the first and second brackets 33a and 33b, and the trigger 31 is rotatably arranged between the two first mounting portions 331. The two first mounting portions 331 are respectively provided with a first mounting hole 3311, the two sides of the trigger 31 are respectively and fixedly provided with the rotating shaft structures 312, and the rotating shaft structures 312 on the two sides of the trigger 31 are disposed in the two first mounting holes 3311, so that the trigger 31 is erected between the first bracket 33a and the second bracket 33b, and the stability is higher.

Alternatively, as shown in fig. 5 and 6, one end of the first bracket 33a and the second bracket 33b close to the water storage tank 4 comprises two oppositely arranged mounting cylinders; as shown in fig. 7 and 9, two connecting posts 403 suitable for installing and positioning the installation cylinder are correspondingly disposed on the bottom wall of the water storage tank 4, and the connecting posts 403 are inserted and fixed in the installation cylinder.

In the above scheme, the connecting column 403 and the mounting cylinder may be connected and fixed in an interference fit manner, or the connecting column 403 is connected and fixed through a connecting piece such as a screw after being inserted into the mounting cylinder, so as to realize the connection and fixation of the mounting bracket 33 and the water storage tank 4.

Alternatively, the first mounting portion 331 is a first mounting plate fixedly disposed at the side portions of the first and second brackets 33a and 33b, and the first mounting plate is fixedly connected to or integrally formed with the first and second brackets 33a and 33 b.

Alternatively, the first mounting plate is a vertical plate, and the end portion of the first mounting plate extends toward the center of the accommodating portion 102. Preferably, in this embodiment, the first mounting plate is a horizontal longitudinal plate, i.e. a long strip-shaped plate-shaped structure disposed along the horizontal direction. The first mounting holes 3311 are formed along the length direction of the first mounting plate.

Optionally, the mounting bracket 33 further comprises: a second mounting portion 332 fixedly coupled between the first bracket 33a and the second bracket 33b, the second mounting portion 332 defining a second mounting hole adapted to retain and/or mount the valve plug assembly 32.

Alternatively, the second mounting portion 332 may be fixedly coupled or integrally formed between the first and second brackets 33a and 33b, and the second mounting portion 332 may be configured to fixedly couple the first and second brackets 33a and 33b while mounting the valve plug assembly 32; the second mounting portion 332 is a plate-like or rod-like or block-like structure connected between the first bracket 33a and the second bracket 33b; and/or the second mounting hole is a through hole vertically formed on the second mounting portion 332 for mounting the plug assembly 32.

Illustratively, as shown in fig. 5, the second mounting portion 332 is a mounting block fixedly disposed between the first bracket 33a and the second bracket 33 b. This installation piece has certain thickness in vertical direction, and valve plug assembly 32 installs on the installation piece, is located between first support 33a and the second support 33b, and two supports that are located both sides like this can provide more balanced, stable support to middle valve plug assembly 32, guarantee the balanced stability of valve plug assembly 32 in the motion process.

As shown in fig. 5 to 7, the second mounting hole is a vertical through hole penetrating through the upper surface and the lower surface of the second mounting portion 332, and the second mounting hole can both mount the valve plug assembly 32 and play a certain guiding role, so as to guide the valve plug assembly 32 to move only in the vertical direction, thereby avoiding the valve plug assembly 32 from deflecting to one side during the movement.

Optionally, the valve plug assembly 32 includes: a valve plug 321 and a valve stem 322, the valve plug 321 having an open position adapted to communicate the communication port 4111 with the fresh water outlet 402 and a closed position adapted to close the communication port 4111 with the fresh water outlet 402, the valve plug 321 moving between the open position and the closed position; optionally, the valve plug 321 is a rubber valve. One end of the valve rod 322 is connected to the valve plug 321, and the other end passes through the second mounting hole and is directly or indirectly limited or connected to the triggering member 31, so that when the triggering member 31 is switched between a triggering state and a non-triggering state, the valve rod 321 can be driven to move between an open position and a closed position.

Referring to fig. 3 to 7, the lower end of the valve rod 322 passes through the second mounting hole and is connected to the trigger 31 in a limiting manner, the upper end of the valve rod is fixedly provided with the valve plug 321, the valve plug 321 is located above the second mounting portion 332 and located in the first pipeline 411, and the valve plug 321 and the first pipeline are in interference sealing fit to ensure that water cannot flow out from the opening at the lower end of the first pipeline 411. When trigger 31 is pressed to mop pole 21, valve rod 322 is by the lapse, drives valve plug 321 downstream, moves to the position that is located intercommunication mouth 4111 below, opens intercommunication mouth 4111, and then realizes switching on between clear water export 402, first pipeline 411, the second pipeline 412, and water in the storage water tank 4 then can be flowed to scraping and washing 5 by clear water export 402, first pipeline 411, second pipeline 412, scrapes washing 5 and goes out water to wash the wiper of mop 2. After the washing finishes, take out mop pole 21 from container portion 102, trigger 31 resets, and valve plug subassembly 32 is released, and valve plug 321 upwards moves under the effect of self elasticity and resets to the position of intercommunication mouth 4111, shutoff intercommunication mouth 4111, or moves to the position that is located between intercommunication mouth 4111 and the clear water export 402, seals the passageway between clear water export 402 and the intercommunication mouth 4111, and then realizes blocking of whole waterway structure, scrapes and washes a 5 and stop out water.

Optionally, the valve plug assembly 32 includes: an elastic restoring member 323 disposed between the valve plug 321 and the second mounting portion 332 is adapted to drive the valve plug 321 to restore to the closed position when the triggering member 31 is in the non-triggering state. The valve plug 321 can be kept in a closed position without external force by the elastic restoring member 323, so as to seal the clean water outlet 402.

Optionally, the elastic restoring member 323 is a compression spring sleeved on the valve rod 322, one end of the compression spring abuts against the valve plug 321, and the other end of the compression spring is limited and/or mounted on the second mounting portion 332. Alternatively, one end of the compression spring abuts against the bottom surface of the valve plug 321, and the other end of the compression spring is limited and mounted on the top wall of the second mounting part 332 at the periphery of the second mounting hole and abuts against the second mounting part 332, and the compression spring is suitable for applying force to the valve plug 321 to seal the valve plug at the clean water outlet 402.

As shown in fig. 4 to 7, the elastic restoring member 323 is disposed between the valve plug 321 and the second mounting portion 332, and the elastic restoring member 323 applies a force to the valve plug 321 and the second mounting portion 332, so that the valve plug 321 can be in a closed position for closing the communication port 4111 in a natural state, i.e., a state in which the mop rod 21 does not press the trigger 31. Specifically, when a user needs to clean the mop 2, the mop plate 22 can be inserted into the stroking opening 101, the mop rod 21 squeezes the trigger piece 31 at the moment, the trigger piece 31 drives the valve plug 321 to move downwards, the water path structure is conducted, the cleaning water is sprayed onto the wiping materials of the mop plate 22, and the elastic resetting piece 323 is compressed to store force in the process. After cleaning, when the user takes the mop rod 21 out of the container 102, the elastic restoring member 323 releases the force and applies an upward moving force to the valve plug 321, so that the valve plug 321 moves upward to block the communicating port 4111, block the whole waterway structure, and stop the continuous water outlet of the scraping and washing member 5, and meanwhile, the lower end of the valve rod 322 also moves upward along with the upward movement, so as to drive the triggering member 31 to restore to the position to be triggered and wait for the next triggering action.

Optionally, the water outlet switch 3 further includes a transmission member 34 disposed between the trigger member 31 and the valve plug assembly 32, wherein the middle of the transmission member 34 is rotatably connected to the mounting bracket 33, and one end of the transmission member is hinged or in a limit fit with the trigger member 31, and the other end of the transmission member is hinged or in a limit fit with the valve plug assembly 32. By adopting the above design, the transmission member 34 is similar to a lever structure, and the end engaged with the trigger member 31 is a power end, and the end engaged with the valve plug assembly 32 is a resistance end.

Optionally, the transmission member 34 comprises a hinge portion 341 and a first extension portion 342 and a second extension portion 343, wherein the hinge portion 341 is rotatably connected to the mounting bracket 33; a first extension 342 and a second extension 343 are disposed on the hinge 341 at a predetermined angle, wherein the free end of the first extension 342 is adapted to be hinged or engaged with the connecting portion of the trigger 31, and the free end of the second extension 343 is adapted to be hinged or engaged with the end of the valve rod 322. The hinge portion 341 and the first and second extension portions 342 and 343 form a structure similar to a V-shape. The hinge portion 341 and the first and second extension portions 342 and 343 may be fixedly connected or integrally formed.

Optionally, the first extending portion 342 abuts against the connecting portion of the triggering component 31 near the inner side of the bracket main body, that is, the rotating shaft structure 312 presses on the outer side of the first extending portion 342; and/or, a stopping portion 3221 protruding outward is disposed on an end peripheral wall of the valve rod 322 away from the valve plug 321, and the second extending portion 343 presses against the stopping portion 3221. By adopting the above design, when the trigger 31 is squeezed by the mop rod 21, the first extension portion 342 is pushed to rotate, the free end of the first extension portion 342 moves upward, and under the action of the lever, the free end of the second extension portion 343 moves downward, and the second extension portion 343 is clamped above the stopping portion 3221, so that the valve rod 322 is pulled downward, and the valve plug 321 is pulled downward to move to the open position.

Optionally, the transmission member 34 includes two transmission links and a rotation link connected between the two transmission links, the two transmission links are distributed on two sides of the trigger 31, the transmission links include a first rod segment and a second rod segment connected in a V shape, wherein a tip of the V-shaped transmission link forms the hinge portion 341, and the first rod segment and the second rod segment form a first extension portion 342 and a second extension portion 343, respectively; the rotation link is fixedly connected or integrally formed between the hinge portions 341 of the two transmission links, and a rotation shaft hole adapted to be rotatably connected to the mounting bracket 33 is provided in the hinge portion 341 or in each of the hinge portion 341 and the rotation link.

Optionally, as shown in fig. 5, an end of the second extending portion 343 is bent slightly downward to form a bent portion, and the bent portion abuts against and presses on the stopping portion 3221, so that the stability of the engagement between the second extending portion 343 and the stopping portion 3221 can be further improved by the provision of the bent portion, and the contact is not easily broken away.

In the above solution, two transmission links respectively abut against and cooperate with two rotation shaft structures 312 located at two sides of the trigger 31, two stopping portions 3221 are symmetrically disposed on the outer peripheral wall of the lower end of the valve rod 322, optionally, the stopping portions 3221 are stopping rods fixedly disposed on the outer peripheral wall of the valve rod 322, and the stopping rods are adapted to extend along the radial direction of the valve rod 322. The two first extending portions 342 of the two transmission links are correspondingly abutted against the two rotating shaft structures 312 at two sides of the trigger 31, and the two second extending portions 343 of the two transmission links are correspondingly abutted against the stop rods. Through adopting above-mentioned design for opening the in-process of this valve plug subassembly 32, holistic balance and stability are better, avoid valve plug 321 to pull down the phenomenon that the in-process appears the lateral deviation, influence sealed effect.

In other alternative embodiments of the present embodiment, the first extension 342 and the second extension 343 may be connected to the trigger 31 and the valve rod 322 via hinges, respectively. Preferably, the first extension 342 and the second extension 343 provide a positive fit between the trigger 31 and the valve stem 322 to simplify assembly, reduce parts to install, and facilitate disassembly.

In this embodiment, the transmission member 34 is rotatably connected to the mounting bracket 33 via a rotating shaft.

Specifically, in the first embodiment, a rotating shaft is fixedly disposed inside each of the first bracket 33a and the second bracket 33b, and rotating shaft holes matched with the rotating shafts are disposed on both sides of the transmission member 34, so as to realize the rotating connection between the two rotating shafts.

In the second embodiment, a rotating shaft is fixedly connected between the first bracket 33a and the second bracket 33b, and the rotating shaft penetrates through the transmission member 34, so that the transmission member 34 is rotatably connected to the rotating shaft.

Preferably, in order to facilitate the assembly and disassembly, in the present embodiment, the transmission member 34 and the mounting bracket 33 are connected by the method of the first embodiment.

Alternatively, the rotating shaft is disposed at the bottom of the first bracket 33a and the second bracket 33b, i.e. the transmission member 34 is rotatably connected to the bottom of the mounting bracket 33.

As shown in fig. 4 to 7, when the mop rod 21 presses the trigger 31 to trigger the water outlet switch 3, the rotating shaft structure 312 of the trigger 31 pushes the first extending portion 342 of the transmission member 34 in a direction away from the accommodating portion 102, the first extending portion 342 rotates upward, the second extending portion 343 on the other side moves downward with the hinge point of the hinge portion 341 connected to the mounting bracket 33 as a rotation center, and since the end of the second extending portion 343 abuts against the stopper portion 3221 of the valve rod 322, the valve rod 322 is pressed downward, so that the valve rod 322 is pulled downward, the valve plug 321 is driven to move downward, the valve plug is moved to a position below the communicating port 4111, the communicating port 4111 is opened, and the communication between the clean water outlet 402, the first pipeline 411 and the second pipeline 412 is realized, water in the water storage tank 4 can flow out to the cleaning member 5 through the clean water outlet 402, the first pipeline 411 and the second pipeline 412, and the cleaning member 5 discharges water to clean the cleaning object to be cleaned by the mop 2.

After cleaning, when the user takes the mop rod 21 out of the accommodating portion 102, as shown in fig. 4 to 7, the elastic restoring member 323 applies an upward moving force to the valve plug 321, so as to block the communicating opening 4111, block the entire waterway structure, and stop the continuous water discharge of the cleaning member 5, and at the same time, the lower end of the valve rod 322 also moves upward, and further drives the second extending portion 343 of the transmission member 34 to rotate upward, the first extending portion 342 rotates downward with the hinge point of the hinge portion 341 connected to the mounting bracket 33 as a rotation center, and pushes the trigger member 31 outward through the blocking cooperation of the first extending portion 342 and the rotation shaft structure 312 of the trigger member 31, so that the trigger member 31 is restored to the initial position to be triggered, and waits for the next triggering action.

Alternatively, in one embodiment of the present embodiment, as shown in fig. 2 and 8, the scraper 5 comprises: a scraper mounting frame 51 and a water outlet roller 52, wherein the scraper mounting frame 51 is arranged and/or limited in the barrel body 1; the water outlet roller 52 is rotatably arranged and/or limited on the scraper mounting frame 51, a water spraying cavity suitable for being communicated with the water storage tank 4 is arranged in the water outlet roller 52, and a water spraying hole 501 is arranged on the water outlet roller 52; the water outlet pipe 41 is connected between the water spraying chamber and the clean water outlet 402, and is adapted to feed water into the water spraying chamber.

As shown in fig. 2 and 3, in the above solution, the water outlet roller 52 is located at the middle upper part of the whole cleaning member 5, and the water spraying cavity is also located at the middle upper part of the whole cleaning member 5, so that water can be discharged from the water spraying cavity directly facing the wiping material of the mop 2, the water flow is strong, and the washing effect is good.

In the above solution, the scraping and washing member 5 is located in the bucket body 1 below the containing part 102, the water outlet roller 52 is suitable for freely rotating along the vertical direction, the water outlet roller 52 can both discharge water and roll and squeeze the wiping material of the mop 2, when the wiping material of the mop 2 is washed, the wiping material of the mop 2 can cling to the water outlet roller 52, and the mop 2 can be repeatedly pulled up and down to wash the wiping material.

Alternatively, as shown in fig. 3, a plurality of rollers are provided on the squeegee mount 51, one of which is a water outlet roller 52 and the other of which is used to squeeze the wipes of the mop 2. The water outlet roller 52 is provided with a plurality of water spraying holes 501, when the mop rod 21 triggers the water outlet switch 3, and the water path structure is switched on, the purified water in the water storage tank 4 flows to the water outlet roller 52 through the water outlet pipeline 41 and is sprayed out from the water spraying holes 501 of the water outlet roller 52, so that the wiping materials of the mop 2 can be cleaned conveniently.

Alternatively, in another embodiment of the present embodiment, as shown in fig. 2 and 8, the scraper 5 includes: a scraper mounting frame 51 and a water spraying plate 53, wherein the scraper mounting frame 51 is arranged and/or limited in the barrel body 1; the water spraying plate 53 is arranged and/or limited above and/or below the scraper mounting frame 51, a water spraying cavity suitable for being communicated with the water storage tank 4 is arranged in the water spraying plate 53, and a plurality of water spraying holes 501 are arranged on the water spraying plate 53; the water outlet pipe 41 is connected between the water spraying chamber and the clean water outlet 402, and is adapted to feed water into the water spraying plate 53.

Illustratively, as shown in FIG. 8, when the water spray plate 53 is mounted above the squeegee mount 51, the water spray holes 501 spray water downward. Alternatively, when the water spray plate 53 is installed below the blade mounting frame 51, the water spray holes 501 spray water upward. Alternatively, the water spray plates 53 are provided above and below the squeegee mount 51, the upper water spray plate 53 sprays water downward, the lower water spray plate 53 sprays water upward, and the cleaning water is sprayed to the mop 2 in the middle, thereby improving the cleaning effect.

Preferably, as shown in fig. 8, the water spraying plate 53 is located above the whole scraping and washing member 5, the water spraying cavity is also located above the whole scraping and washing member 5, a water inlet 531 communicated with the internal water spraying cavity is arranged in the middle of the water spraying plate 53, the water inlet 531 is connected with a water outlet of the water outlet pipeline 41, water is fed from the middle of the whole water spraying plate 53, the water spraying hole 501 is formed in one side of the water spraying plate 53, water is sprayed downwards from the top of the whole scraping and washing member 5, the water flow coverage is larger, and the washing effect is good.

In the above solution, the scraper mounting frame 51 is also provided with a plurality of rollers, except that all the rollers are used for squeezing the wiping material of the mop 2, the water spraying plate 53 is arranged above the scraper mounting frame 51, a water spraying channel is arranged in the water spraying plate 53, the water spraying channel is connected with the water outlet pipeline 41, and a plurality of water spraying holes 501 are arranged, so that the water flowing out from the water outlet pipeline 41 enters the water spraying channel and is sprayed to the wiping material through the water spraying holes 501, and the wiping material is cleaned.

The cleaning process of the mop 2 in the embodiment is as follows:

as shown in fig. 1 to 7, after the mop 2 is inserted into the receiving portion 102 of the nozzle 101, the mop rod 21 presses the trigger 31, and the roller structure 311 of the trigger 31 moves along the first mounting hole 3311 in a direction away from the receiving portion 102. The fixed pivot structure 312 that sets up on this gyro wheel structure 311 promotes the first extension 342 of driving medium 34 and upwards rotates, driving medium 34 wholly rotates as the center of rotation around its hinge point of being connected with installing support 33, the second extension 343 of driving medium 34 rotates downwards, cooperation through second extension 343 and backstop portion 3221 drives the whole downstream of valve rod 322, thereby pulling valve plug 321 and moving downwards and dodging to the position that is located intercommunication mouth 4111 below, water in the storage water tank 4 can be through clear water export 402, first pipeline 411, second pipeline 412 gets into scraping and washing piece 5, scraping and washing piece 5 goes out water, in order to wash the wiping thing of mop 2. In the process, the elastic restoring element 323 compresses to accumulate force.

After cleaning, after the user pulls the mop rod 21 out of the container 102, the mop rod 21 stops squeezing the roller structure 311, the valve plug 321 moves upward to close the communicating port 4111 under the action of the releasing force of the elastic restoring member 323, the water outlet pipeline 41 is blocked, the scraping member 5 stops discharging water, so as to facilitate dewatering of the mop 2, the valve rod 322 moves upward while the valve plug 321 moves upward, and further the second extending portion 343 of the transmission member 34 is pulled to rotate upward, the first extending portion 342 rotates downward with the hinge point of the hinge portion 341 connected with the mounting bracket 33 as a rotation center, and the trigger member 31 is pushed outward by the abutting fit of the first extending portion 342 and the rotating shaft structure 312 of the trigger member 31, so that the trigger member 31 is restored to the initial position to be triggered, and waits for the next triggering action.

Optionally, an operating part may be disposed at one end of the mop rod 21 hinged to the mop plate 22, and when the mop plate 22 is inserted into the opening, the operating part disposed at the end of the mop rod 21 may trigger the water outlet switch 3. The operating part can be an operating bulge arranged at the end part of the mop rod 21, when the mop plate is inserted into the smoothing opening, the operating bulge can trigger the water outlet switch, specifically, the operating bulge can rotate around the axial direction of the mop rod 21 or move up and down along the axial direction of the mop rod 21, when the operating bulge rotates or moves to a preset triggering position, the mop plate is inserted into the smoothing opening, and the operating bulge can trigger the water outlet switch; when the operation bulge rotates or moves to a preset holding position, the mop plate is inserted into the smoothing opening, the operation bulge avoids the water outlet switch, and at the moment, the mop plate 22 moves up and down at the smoothing opening to realize the dehydration of the wiping material.

Example two

As shown in fig. 1-18, this embodiment provides a cleaning assembly comprising a mop 2 and a mop bucket as described in any of the above embodiments.

As shown in fig. 1 to 3 and 10 to 18, the mop 2 comprises a mop rod 21 and a mop plate 22, wherein the mop rod 21 comprises a mop rod main body and a turnover connecting structure 23 arranged at the end part of the mop rod main body and suitable for being connected with the mop plate 22; the mop plate 22 is provided with a connecting seat 221, and the connecting seat 221 is provided with a connecting concave portion 2211 suitable for mounting the turnover connecting structure 23; the turning connection structure 23 is rotatably connected to the side wall of the connection recess 2211, the mop rod 21 has a first position where the turning connection structure 23 is located in the connection recess 2211 and a second position where the turning connection structure 23 drives the mop rod main body to turn to one side of the connection recess 2211, wherein when the turning connection structure 23 is turned to the outside of the connection recess 2211, the mop rod main body is located at a position staggered from the connection seat 221. When the mop rod 21 rotates to the second position, the water outlet switch 3 is triggered to clean the wiping materials of the mop 2, and when the mop rod 21 rotates to the first position, the wiping materials can be dewatered by moving up and down in the mop bucket.

The mop rod 21 of the mop 2 included in the cleaning assembly provided by the embodiment can be rotatably connected with the connecting seat 221 of the mop plate 22 through the turning connecting structure 23, and can avoid the turning of the turning connecting structure 23 through the arranged connecting concave portion 2211, so that the mop rod 21 can be turned left and right relative to the connecting seat 221 to rotate to a position dislocated from the connecting seat 221. On one hand, the degree of freedom of the mop rod 21 is increased, namely, the mop rod 21 can freely turn left and right according to the condition of an obstacle encountered during cleaning so as to avoid the obstacle. Specifically, if a user cleans a gap, a protrusion is exactly arranged on the upper side of the gap, and if the mop rod 21 is located at the first position, the protrusion interferes with the user and the user cannot avoid the gap, and at the moment, the user can turn the mop rod 21 to the second position to avoid the obstacle, so that the gap is cleaned.

On the other hand also makes the limit height of mop 2 reduce, and the limit height of mop 2 among the prior art is mop plate 22 thickness, connecting seat 221 height and the accumulation of the diameter of the mop pole 21 that is located above connecting seat 221, and the limit height of mop 2 that this application discloses is mop plate 22 in addition the height of connecting seat 221 only, is convenient for the user to the cleanness in narrow gap area. Specifically, if the user cleans a narrow gap and the mop rod 21 is located at the first position, the mop 2 has a larger limit height and cannot extend into the gap. In order to clean the gap conveniently, the user can turn the mop rod 21 to the second position, at the moment, the limit height of the mop 2 is reduced, and the mop can extend into the gap to be cleaned, so that the cleaning thoroughness of the user is further improved.

The mop 2 provided by the embodiment comprises: the mop comprises a mop rod 21 and a mop plate 22, wherein the mop rod 21 comprises a mop rod main body and an overturning connecting structure 23 which is arranged at the end part of the mop rod main body and is suitable for being connected with the mop plate 22; the mop plate 22 is provided with a connecting seat 221, and the connecting seat 221 is provided with a connecting concave portion 2211 suitable for mounting the turnover connecting structure 23; the turning connecting structure 23 is rotatably connected to the side wall of the connecting recess 2211, the mop rod 21 has a first position (as shown in fig. 11) where the turning connecting structure 23 is located in the connecting recess 2211, and the main body of the mop rod is located right above the connecting seat 221, that is, the mop rod 21 and the mop plate 22 are located at the upper and lower sides of the connecting seat 221; and the turning connecting structure 23 drives the mop rod main body to turn to a second position (as shown in fig. 12) at one side of the connecting recess 2211, wherein when the turning connecting structure 23 turns to the outside of the connecting recess 2211, the mop rod main body is in a position staggered with the connecting seat 221, that is, the mop rod 21 is adjacent to the mop plate 22, and preferably, the mop rod 21 can be tightly attached to the mop plate 22.

In the mop 2 provided by this embodiment, the mop rod 21 is rotatably connected to the connecting seat 221 of the mop plate 22 through the turning connection structure 23, and the connection concave portion 2211 is disposed to avoid the turning of the turning connection structure 23, so that the mop rod 21 can be turned left and right relative to the connecting seat 221 to rotate to a position dislocated from the connecting seat 221. On one hand, the degree of freedom of the mop rod 21 is increased, namely, the mop rod 21 can freely turn left and right according to the condition of an obstacle encountered during cleaning so as to avoid the obstacle. Specifically, if a user cleans a gap, a protrusion is exactly arranged on the upper side of the gap, and if the mop rod 21 is located at the first position, the protrusion interferes with the user and the user cannot avoid the gap, and at the moment, the user can turn the mop rod 21 to the second position to avoid the obstacle, so that the gap is cleaned.

On the other hand, the limit height of the mop 2 is also reduced, that is, the limit height of the mop 2 in the prior art is the sum of the thickness of the mop plate 22, the height of the connecting seat 221 and the diameter of the mop rod 21 above the connecting seat 221, while the limit height of the mop 2 disclosed in the present application is only the thickness of the mop plate 22 plus the height of the connecting seat 221, or the thickness of the mop plate 22 plus the diameter of the mop rod 21, so that the user can clean narrow gap areas conveniently. Specifically, as shown in fig. 11, if the mop rod 21 is in the first position when the user is cleaning a narrow gap, the mop 2 has a large limit height and cannot extend into the gap. As shown in fig. 10, 12 to 14, in order to clean the gap, the user can turn the mop rod 21 to the second position, and the limit height of the mop 2 is lowered, so that the mop can extend into the gap for cleaning, thereby further improving the cleaning thoroughness of the user.

Optionally, in this embodiment, the turning connection structure 23 is a turning connection member with one end hinged to the mop rod body and the other end rotatably connected to the side wall of the connection recess 2211, and the turning connection member can drive the mop rod body to turn around the rotation axis of the mop rod body connected to the connection recess 2211, so that the mop rod 21 can turn left and right relative to the connection seat 221, that is, can turn to two sides of the connection seat 221.

Of course, the connection structure 23 and the main body of the mop rod are not limited to be connected in a hinged manner, and the connection structure 23 may also be fixedly connected with the main body of the mop rod or integrally disposed with the main body of the mop rod.

Preferably, the flip-up connection 23 is hingedly connected to the mop pole body for improved flexibility and adaptability of the overall mop 2.

Illustratively, as shown in fig. 11, the mop pole 21 is in the first position when the flip-up connection structure 23 is positioned in the connection recess 2211 such that the end of the flip-up connection structure 23 that is hinged to the main body of the mop pole is positioned above the connection recess 2211.

As shown in fig. 12 to 14, the turnover connection structure 23 drives the mop rod main body to turn to one side of the connection recess 2211, so that when the end of the turnover connection structure 23 hinged to the mop rod main body is located at the side of the connection recess 2211, the mop rod 21 is located at the second position.

Alternatively, the flip-up connection 23 may be flipped 90 ° from the first position to the second position.

Alternatively, as shown in fig. 13 to 15, the connecting concave portion 2211 is a groove formed by recessing the top wall portion of the connecting seat 221, or a notch groove formed by disposing the top notch of the connecting seat 221; the flip connector has a U-shaped connecting body 231, and both free ends of the U-shaped connecting body 231 are rotatably connected to both opposite sidewalls of the connecting recess 2211, respectively, so that the flip connector can be flipped along its rotational axis connected to the connecting recess 2211.

Alternatively, in this embodiment, as shown in fig. 18, the connecting recess 2211 is a u-shaped groove formed at the top of the connecting base 221, and the right and left sides of the u-shaped groove are through-formed.

Alternatively, as shown in fig. 14 to 16 and 18, the connecting body 231 includes two connecting arms 2311 which are oppositely arranged; the outer sides of the two connecting arms 2311 are respectively and fixedly provided with a rotating shaft 23111 suitable for being connected with the side wall of the connecting recess 2211, and the side wall of the connecting recess 2211 is correspondingly provided with a shaft hole 22111 suitable for being matched with the rotating shaft 23111, so that the rotating connection of the turnover connecting piece and the connecting seat 221 can be realized.

Alternatively, as shown in fig. 13 and 18, the top wall of the connecting seat 221 is further provided with an escape portion 2212 adapted to escape the mop rod 21 in the axial direction of the mop rod 21 when the mop rod 21 is in the first position. The avoidance part 2212 can effectively avoid the friction damage between the mop rod 21 and the connecting seat 221 when the mop rod 21 is in the first position, and can also avoid the serious extrusion deformation of the mop rod 21 and the connecting seat 221 in some emergency situations.

Alternatively, as shown in fig. 18, the escape portion 2212 is an escape groove provided on both sides of the connecting concave portion 2211 and penetrating the inside of the connecting concave portion 2211. The avoiding portion 2212 is disposed at a connecting corner between the side wall of the connecting recess 2211 and the top wall of the connecting seat 221, that is, the side wall of the connecting recess 2211 and the connecting corner between the top wall of the connecting seat 221 are recessed to form the avoiding portion 2212, and the two opposite side walls of the connecting recess 2211 are both provided with the avoiding portion 2212.

Specifically, the avoiding grooves include a first avoiding groove and a second avoiding groove which are arranged at the tops of two opposite side walls of the connecting concave portion 2211, and a connecting line of the first avoiding groove and the second avoiding groove is parallel to the rotation axis of the turnover connecting structure 23.

Alternatively, as shown in fig. 14 and 17, the end of the mop pole body is formed with an open slot 211 adapted to receive the mounting flipping link; the end of the turnover connection piece is arranged in the open slot 211 and is rotatably connected in the open slot 211 through a hinge shaft 212, so that the mop rod main body is rotatably connected with the turnover connection piece.

In this embodiment, the mop rod main body is connected with the turnover connecting piece in the above manner, so that the mop 2 has high flexibility and high adaptability.

Optionally, the open slot 211 comprises two slot walls arranged oppositely; the hinge shaft 212 is fixedly connected between the two groove walls, or the hinge shaft 212 is integrally formed between the two groove walls.

Alternatively, a hinge connection portion adapted to be connected with the hinge shaft 212 is provided on the bent portion 2312 of the U-shaped connection body 231.

Alternatively, in one embodiment, the hinge connection is a connection hole opened at the bending portion 2312 to be adapted to be hinge-coupled with the hinge shaft 212.

Alternatively, as shown in fig. 14 to 17, the hinge connection portion includes a limiting rib 2313 fixedly disposed on an inner circumference of the bending portion 2312, and an inner wall of the limiting rib 2313 is recessed to form a latch groove 2301 adapted to be in hinge fit with the hinge shaft 212. Hinge shaft 212 is rotatably retained in engagement groove 2301.

Alternatively, the stopper rib 2313 includes two ribs provided on opposite inner sides of the bent portion 2312, and a fitting opening adapted to be fitted with the hinge shaft 212 is formed between the two ribs.

As shown in fig. 15 and 16, the stopper rib 2313 includes a narrowed portion 23131 in the middle, an arc-shaped inner concave portion 23132 away from the free end of the U-shaped link body 231, and an enlarged diameter guide portion 23133 close to the free end of the U-shaped link body 231, the arc-shaped inner concave portion 23132 forms an engaging groove 2301, and the narrowed portion 23131 has an inner diameter smaller than the outer diameter of the hinge shaft 212.

Through the design, the hinge shaft 212 on the end part of the mop rod main body can enter the assembly opening through the diameter-expanding guide part 23133, the narrowing part 23131 is extruded outwards to deform to enter the clamping groove 2301 formed by the two arc-shaped inner concave parts 23132, when the hinge shaft 212 enters the clamping groove 2301, the narrowing part 23131 resets and narrows, the hinge shaft 212 is limited in the clamping groove 2301, the hinge shaft 212 is prevented from being separated from the clamping groove 2301, the rapid assembly and the hinge of the turnover connecting piece and the mop rod main body are realized, and the disassembly and the assembly are more convenient and rapid.

In this embodiment, through the above-mentioned spacing protruding muscle structure that sets up in upset connection structure 23, directly will connect main part 231 the cartridge on the articulated shaft 212 of mop pole main part tip when the assembly, can realize the articulated of upset connection structure 23 and mop pole main part, need not to connect fixedly with the help of other connecting pieces, assembly efficiency is higher.

Alternatively, the connecting base 221 is protrudingly fixed to the mop plate 22 at a middle position of the back thereof along the length direction of the mop plate 22 for balancing and stabilizing the entire mop 2 in use.

In this embodiment, the mop plate 22 is a strip-shaped plate structure, a connecting seat 221 is protruded from one side surface of the mop plate 22, and a wiper is disposed on the other side surface. Optionally, the wipe may be removably mounted to the mop plate 22 to facilitate cleaning and replacement.

Optionally, the connecting seat 221 is a strip-shaped connecting block extending along the width direction of the mop plate 22, a top gap of the strip-shaped connecting block is provided to form a connecting concave portion 2211, and two ends of a top wall of the strip-shaped connecting block are arc-shaped, so as to avoid the problem that other parts are easy to scratch when the mop 2 is used.

Alternatively, the connection recess 2211 is a groove structure penetrating through the connection seat 221 in the length direction, so that the mop rod 21 can be turned to the left and right sides of the connection seat 221 when turned.

Illustratively, referring to fig. 11, the mop rod 21 is in the first position when the U-shaped connecting body 231 is positioned in the connecting recess 2211 such that the curved portion 2312 of the U-shaped connecting body 231 is positioned above the connecting recess 2211.

Referring to fig. 13 to 15, the U-shaped connecting body 231 rotates the mop rod body to the side of the connecting recess 2211, so that the mop rod 21 is located at the second position when the bending portion 2312 of the U-shaped connecting body 231 is located at the side of the connecting recess 2211.

Alternatively, from the first position to the second position, the U-shaped connecting body 231 can be turned 90 ° from a state where the two connecting arms 2311 of the U-shaped connecting body 231 are substantially perpendicular to the mop plate 22 to a state where the two connecting arms 2311 are substantially parallel to the mop plate 22.

The mop 2 that this embodiment provided, when not using, also can rotate mop pole 21 to one side of connecting seat 221 for mop pole 21 misplaces with connecting seat 221, and occupation space is littleer, more convenient storage. Moreover, the user can rotate the mop rod 21 to the left side or the right side of the connecting seat 221 according to the use habits of the left hand and the right hand, so that the use of the user with different use habits is facilitated, and the use experience of the user is improved.

Optionally, in this embodiment, the mop pole 21 is a multi-stage telescopic rod, and the length of the mop pole 21 can be adjusted as required when in use, so as to conveniently stretch into the bed bottom or the dead angle area of the equal gap under the sofa for cleaning, thereby providing certain convenience for the user to use, and simultaneously, the mop pole 21 can be retracted when not in use, thereby reducing the occupied space and facilitating storage.

It should be understood that the above examples are only for clarity of illustration and are not intended to limit the embodiments. Other variations and modifications will be apparent to persons skilled in the art in light of the above description. And are neither required nor exhaustive of all embodiments. And obvious variations or modifications therefrom are within the scope of the invention.

Claims (33)

1. A mop bucket, comprising:

the mop bucket comprises a bucket body (1), wherein the top of the bucket body (1) is provided with a smoothing opening (101) into which a mop (2) can extend, and a containing part (102) capable of containing a mop rod (21) is formed on the smoothing opening (101);

the waterway structure is used for conveying cleaning water to the stroking opening (101);

the water outlet switch (3) is arranged at the accommodating part (102) and used for controlling the conduction or the blockage of the water path structure, the water outlet switch (3) is suitable for being triggered through the mop rod (21), and the water path structure is conducted when the water outlet switch (3) is triggered and started.

2. The mop bucket according to claim 1, wherein the receptacle (102) comprises a retaining groove formed by recessing an inner peripheral wall portion of the mouth (101).

3. A mop bucket according to claim 2, characterised in that the outlet switch (3) is provided in the receptacle (102) or in the bottom of the receptacle (102).

4. A mop bucket according to any one of claims 1 to 3, characterised in that the water outlet switch (3) comprises:

the trigger piece (31) comprises a trigger part protruding out of the inner wall of the accommodating part (102), and the trigger part has a non-trigger state protruding out of the inner wall of the accommodating part (102) when not subjected to external force and a trigger state triggered by compression under the action of the extrusion force of the mop rod (21).

5. A mop bucket according to claim 4, characterised in that the trigger portion is a roller structure (311) adapted to make rolling contact with the mop rod (21).

6. The mop bucket of claim 4, wherein the waterway structure comprises:

the water storage tank (4) is internally provided with a water storage cavity suitable for independently containing cleaning water, and the water storage tank (4) is provided with a clear water outlet (402);

one end of the water outlet pipeline (41) is communicated with the clean water outlet (402), and the other end of the water outlet pipeline (41) is positioned at the stroke opening (101);

the water outlet switch (3) can be triggered by the mop rod (21) to conduct or block the water outlet pipeline (41), so that when the water outlet pipeline (41) is conducted, clean water contained in the water storage tank (4) is conveyed to the smoothing opening (101) through the water outlet pipeline (41).

7. The mop bucket according to claim 6, wherein the water storage tank (4) is an annular structure arranged around the top opening of the bucket body (1), the clear water outlet (402) is arranged at the bottom of the water storage tank (4), and the stroking opening (101) is formed in the middle of the annular water storage tank (4).

8. The mop bucket according to claim 6, characterized in that the top of the water storage tank (4) is open;

and/or a clear water inlet (401) is arranged on the top wall or the side wall of the water storage tank (4).

9. The mop bucket according to claim 7, further comprising a scraping element (5) provided at the opening (101) and adapted to scrape and/or squeeze the wipes of the mop (2) when the mop (2) is inserted into the opening (101);

the other end of the water outlet pipeline (41) is matched with the scraping and washing part (5) and is suitable for guiding the clean water in the water storage tank (4) to the scraping and washing part (5);

the water outlet switch (3) can open or close the clean water outlet (402) under the triggering of the mop rod (21).

10. The mop bucket of claim 9, wherein the water outlet conduit (41) comprises:

one end of the first pipeline (411) is connected to the clean water outlet (402), and the other end of the first pipeline is provided with a communicating port (4111);

a second pipeline (412) connected between the communication port (4111) and the scraper (5), the water outlet switch (3) further comprising a valve plug assembly (32) movably arranged in the first pipeline (411);

the valve plug assembly (32) is suitable for conducting the communication port (4111) and the clean water outlet (402) when the trigger piece (31) is in a trigger state, and sealing the communication port (4111) and the clean water outlet (402) when the trigger piece (31) is in a non-trigger state.

11. The mop bucket according to claim 10, wherein the water outlet switch (3) further comprises:

the mounting bracket (33) is fixedly arranged at the bottom of the water storage tank (4) and is arranged at a position close to the clean water outlet (402), and the valve plug assembly (32) and/or the trigger piece (31) are/is suitable for limiting and/or mounting on the mounting bracket (33).

12. The mop bucket of claim 11, wherein the mounting bracket (33) comprises:

the bracket main body is fixedly arranged on the water storage tank (4);

the first mounting part (331) is arranged on one side of the bracket main body close to the accommodating part (102) and is suitable for limiting and/or mounting the trigger piece (31);

trigger piece (31) still including be suitable for with the connecting portion that first installation department (331) is connected, be equipped with on first installation department (331) and be suitable for spacingly and/or installation first mounting hole (3311) of connecting portion, first mounting hole (3311) is for being suitable for the guide the bar trompil of connecting portion motion, the drive during the connecting portion motion trigger piece (31) are in trigger state with switch between the non-trigger state.

13. The mop bucket of claim 12, wherein the connecting portion is a pivot structure (312) fixed to a side of the triggering portion, the pivot structure (312) being adapted to pass through the first mounting hole (3311) and to be rotatable and/or movable within the first mounting hole (3311).

14. The mop bucket of claim 12, wherein the first mounting hole (3311) is a horizontally extending kidney-shaped hole.

15. The mop bucket of any one of claims 12-14, wherein the bracket body comprises:

the first support (33 a) and the second support (33 b) that set up relatively, be provided with respectively on first support (33 a) and the second support (33 b) first installation department (331), trigger piece (31) rotationally sets up between two first installation departments (331).

16. The mop bucket of claim 15, wherein the first bracket (33 a) and the second bracket (33 b) comprise two oppositely disposed mounting tubes;

the water storage tank is characterized in that two connecting columns (403) suitable for installing and positioning the installation barrel are correspondingly arranged on the bottom wall of the water storage tank (4), and the connecting columns (403) are spliced and fixed in the installation barrel.

17. The mop bucket according to claim 16, wherein the first mounting portion (331) is a first mounting plate fixedly disposed at the side of the first bracket (33 a) and the second bracket (33 b), and the first mounting plate is fixedly connected with or integrally formed with the first bracket (33 a) and the second bracket (33 b).

18. The mop bucket of claim 17, wherein the first mounting plate is a longitudinal plate with ends extending in a direction proximate a center of the receptacle (102).

19. The mop bucket of claim 15, wherein the mounting bracket (33) further comprises:

the second installation part (332) is fixedly connected between the first support (33 a) and the second support (33 b), and a second installation hole suitable for limiting and/or installing is formed in the second installation part (332) of the valve plug assembly (32).

20. A mop bucket according to claim 19, wherein the second mounting portion (332) is fixedly attached or integrally formed between the first bracket (33 a) and the second bracket (33 b);

and/or the second mounting part (332) is a plate-shaped or rod-shaped or block-shaped structure connected between the first bracket (33 a) and the second bracket (33 b);

and/or the second mounting hole is a through hole which is arranged on the second mounting part (332) along the vertical direction.

21. The mop bucket of claim 19, wherein said valve plug assembly (32) comprises:

a valve plug (321) having an open position adapted to conduct the communication port (4111) and the clear water outlet (402) and a closed position adapted to close the communication port (4111) and the clear water outlet (402);

and one end of the valve rod (322) is connected with the valve plug (321), and the other end of the valve rod passes through the second mounting hole and is directly or indirectly limited or connected with the trigger piece (31), so that the trigger piece (31) can drive the valve plug (321) to move between an opening position and a closing position when being switched between a trigger state and a non-trigger state.

22. The mop bucket of claim 21, wherein the valve plug assembly (32) comprises:

the elastic resetting piece (323) is arranged between the valve plug (321) and the second mounting part (332), and is suitable for driving the valve plug (321) to reset to the closed position when the triggering piece (31) is in a non-triggering state.

23. The mop bucket according to claim 22, wherein the elastic restoring member (323) is a compression spring sleeved on the valve rod (322), one end of the compression spring abuts against the valve plug (321), and the other end of the compression spring is limited and/or mounted on the second mounting portion (332).

24. A mop bucket according to any one of claims 21 to 23, characterised in that the water outlet switch (3) further comprises:

the transmission part (34) is arranged between the trigger part (31) and the valve plug assembly (32), the middle part of the transmission part (34) is rotatably connected onto the mounting bracket (33), one end of the transmission part is hinged to the trigger part (31) or in limited fit, and the other end of the transmission part is hinged to the valve plug assembly (32) or in limited fit.

25. The mop bucket of claim 24, wherein the transmission member (34) comprises:

a hinge portion (341) rotatably connected to the mounting bracket (33);

a first extension part (342) and a second extension part (343) which are arranged on the hinge part (341) at a set included angle, wherein the free end of the first extension part (342) is suitable for being in hinged or limit fit with the connecting part of the trigger piece (31), and the free end of the second extension part (343) is suitable for being in hinged or limit fit with the end part of the valve rod (322).

26. The mop bucket according to claim 25, characterized in that the first extension (342) abuts against the inside of the bracket body on the connection of the trigger (31);

and/or a stopping part (3221) is arranged on the peripheral wall of one end of the valve rod (322) far away from the valve plug (321), and the second extending part (343) is pressed above the stopping part (3221).

27. A mop bucket according to claim 25, wherein the drive member (34) comprises:

the two transmission connecting rods are distributed on two sides of the trigger piece (31) and comprise a first rod section and a second rod section which are connected in a V shape, wherein the tip end of the V-shaped transmission connecting rod forms the hinge (341), and the first rod section and the second rod section respectively form a first extending part (342) and a second extending part (343);

the rotating connecting rods are fixedly connected or integrally formed between the hinge parts (341) of the two transmission connecting rods, and rotating shaft holes suitable for being in rotating connection with the mounting bracket (33) are respectively arranged in the hinge parts (341) or the hinge parts (341) and the rotating connecting rods.

28. The mop bucket according to claim 24, wherein a rotating shaft is fixedly arranged at the inner side of each of the first bracket (33 a) and the second bracket (33 b), and two sides of the transmission member (34) are rotatably connected to the two rotating shafts;

or a rotating shaft is fixedly connected between the first support (33 a) and the second support (33 b), and the rotating shaft penetrates through the transmission piece (34), so that the transmission piece (34) is rotatably connected to the rotating shaft.

29. The mop bucket of claim 28, wherein said pivot axis is provided at the bottom of said first (33 a) and second (33 b) brackets.

30. The mop bucket according to any one of claims 9 to 14, 16 to 23, 25 to 29, wherein the scraper (5) comprises:

the scraper mounting rack (51) is mounted and/or limited in the barrel body (1);

the water outlet roller (52) is rotatably arranged and/or limited on the scraper mounting rack (51), a water spraying cavity suitable for being communicated with the water storage tank (4) is arranged in the water outlet roller (52), and a water spraying hole (501) is formed in the water outlet roller (52);

the water outlet pipeline (41) is connected between the water spraying cavity and the clean water outlet (402) and is suitable for feeding water into the water spraying cavity.

31. The mop bucket according to any one of claims 9 to 14, 16 to 23, 25 to 29, wherein the scraper (5) comprises:

the scraper mounting rack (51) is mounted and/or limited in the barrel body (1);

the water spraying plate (53) is arranged and/or limited above and/or below the scraper mounting frame (51), a water spraying cavity which is suitable for being communicated with the water storage tank (4) is arranged in the water spraying plate (53), and a plurality of water spraying holes (501) are formed in the water spraying plate (53);

the water outlet pipeline (41) is connected between the water spraying cavity and the clean water outlet (402) and is suitable for feeding water into the water spraying plate (53).

32. A mop bucket according to any one of claims 1 to 3, 5 to 14, 16 to 23 and 25 to 29, wherein an operating part is arranged at one end of the mop rod (21) hinged with a mop plate (22), and when the mop plate (22) is inserted into the stroking opening (101), the operating part triggers the water outlet switch (3).

33. A cleaning assembly, characterized in that the cleaning assembly comprises a mop (2) and a mop bucket according to any one of claims 1 to 32;

the mop (2) comprises a mop rod (21) and a mop plate (22), wherein the mop rod (21) comprises a mop rod main body and a turnover connecting structure (23) which is arranged at the end part of the mop rod main body and is suitable for being connected with the mop plate (22);

the mop plate (22) is provided with a connecting seat (221), the connecting seat (221) is provided with a connecting concave part (2211) suitable for mounting the overturning connecting structure (23), and the overturning connecting structure (23) is rotatably connected to the side wall of the connecting concave part (2211);

the mop rod (21) is provided with a first position where the overturning connecting structure (23) is located in the connecting concave portion (2211) and a second position where the overturning connecting structure (23) drives the mop rod main body to overturn to one side of the connecting concave portion (2211), wherein when the overturning connecting structure (23) overturns to one side of the connecting concave portion (2211), the mop rod main body is located at a position staggered with the connecting seat (221).

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