CN220695196U - Mop with handle - Google Patents

Abstract

The utility model relates to a mop, which comprises a water squeezing component, a wiping component and a mop rod, wherein the wiping component comprises a wiping head, a middle piece connected with the mop rod and a mounting plate, the wiping head is mounted on the mounting plate, the mop rod moves upwards to drive the middle piece to move so as to enable the mounting plate to oppositely fold and squeeze the wiping head relative to the middle piece to enter a water squeezing state, and when in the water squeezing state, the mop rod moves downwards so as to enable the middle piece to drive the mounting plate to move to be in the same plane with the middle piece to enter a mopping state, and the mop further comprises the following components: the locking structure is used for limiting the relative movement of the squeezing component and the wiping component so that the middleware and the mounting plate are in the same plane in the mopping state, and the problem that the use experience of a user is affected due to the fact that the collodion mounting plate is folded in half relatively to the squeezing component due to the fact that ground friction is large in the mopping process of an existing mop is solved.

Description

Mop with handle

Technical Field

The utility model relates to the field of cleaning equipment, in particular to a mop.

Background

With the improvement of the living standard of people, the mop is indispensable in life, and the types of the mop on the market are more various, for example, when the existing collodion mop is usually used, a user can fold two collodion mounting plates in half by holding the mop rod and then pulling the wringing assembly or the wringing assembly and then pulling the mop rod so as to squeeze the collodion heads mounted on the two collodion mounting plates, so that the aim of cleaning or dewatering is fulfilled, namely, the wringing assembly and the mop rod need to move flexibly with each other for cleaning or dewatering.

But in daily in-service use, the collodion mop needs to be contacted with the ground, and frictional force exists between ground and the collodion head, and when frictional force is great, the user when pulling mop and ground friction and cleaning, can lead to appearing relative movement between mop pole and the squeezing subassembly, and this relative movement can lead to two collodion mounting panels to appear the fifty percent discount relative to the squeezing subassembly, and the collodion head produces the deformation promptly, influences user's normal use.

Disclosure of Invention

First, the technical problem to be solved

The utility model mainly solves the defects in the prior art, in particular relates to a mop, and solves the problems that a collodion mounting plate is folded in half relative to a wringing component, so that collodion heads are deformed and the use experience of users is affected when users pull the mop to clean with the ground friction with larger friction force in the prior art.

(II) technical scheme

The utility model relates to a mop, which comprises a water squeezing component, a wiping component and a mop rod, wherein the wiping component comprises a wiping head, a middle piece connected with the mop rod and a mounting plate movably connected with the middle piece, the wiping head is arranged on the mounting plate, the water squeezing component is sleeved on the mop rod, the mop rod moves upwards to drive the middle piece to move so as to enable the mounting plate to oppositely fold and squeeze the wiping head relative to the middle piece to enter a water squeezing state, and when the water squeezing state is achieved, the mop rod moves downwards so as to enable the middle piece to drive the mounting plate to move to be in the same plane with the middle piece to enter a mopping state, and the mop further comprises the following components: and the locking structure is used for limiting the relative movement of the wringing component and the wiping component so that the middle piece and the mounting plate are positioned on the same plane in a mopping state, one end of the locking structure is connected with the wringing component, and the other end of the locking structure is connected with the wiping component.

The mop has the advantages that the water squeezing component and the wiping component can be locked by the locking structure to limit the movement of the water squeezing component and the wiping component in the mopping state, so that the water squeezing component and the wiping component are in a relatively static state when the mop is in the mopping state, the middle piece and the mounting plate are kept on the same plane, the wiping head is kept horizontal so as to facilitate the cleaning of the ground by friction, when the user cleans, the wiping head cannot be folded due to the friction force of the ground, the user cannot be blocked in the mopping process, meanwhile, the mopping efficiency of the horizontal wiping head can be improved when the mop is mopped, and the user experience is better; and the locking structure is connected with the wringing component and the wiping component, and can quickly react and lock firmly when the wringing component and the wiping component move relatively.

In an alternative embodiment, the mop rod moves the wiping component relative to the wringing component to switch the mop between a wringing state and a mopping state.

The mop has the advantages that the mop rod drives the wiping component to move relative to the wringing component so as to switch the mop to the wringing state or the mopping state, the wiping component is not required to be manually pulled by a user, the dirty hands of the user are avoided, the switching mode is simple and sanitary, and the switching efficiency is higher.

In an alternative embodiment, the locking structure is driven by an external force to switch the mop from a mopping state to a wringing state.

The mop has the advantages that the mop can be converted into the squeezing state from the mopping state only by removing the limit of the locking structure on the wiping component and the squeezing component through specific external force, the deformation of the wiping head caused by the automatic switching of the mop to the squeezing state in the mopping process is avoided, the clamping case in the mopping process is caused, the mop is more reliable in the using process, and the user experience is better.

In an alternative embodiment, the locking mechanism has a return force that returns from an unlocked state in which the wringing assembly is held in relative motion with the wiping assembly to a locked state in which the wringing assembly is held in relative rest with the wiping assembly when the mop is converted from a wringing state to a mopping state.

The advantage is, when the locking structure resets to the locking state through manual or self characteristic of user, need not set up independent structure and reset for the structure of mop is simpler, and the assembly degree of difficulty reduces.

In an alternative embodiment, the wringing component comprises a wringing main body and a retainer connecting the wringing main body and the wiping component, wherein the wringing main body is sleeved on the mop rod, one end of the locking structure is connected with the retainer, and the other end of the locking structure is connected with the wiping component.

The advantage is, because clean the head can exert a reverse thrust to the mounting panel when the fifty percent discount and make the mounting panel have the trend of propping up, and then make the mounting panel weaken the pressure of cleaning the head, and crowded water efficiency reduces, and the holder can be along with the motion of wiping the subassembly and the motion, and the pressure to the mounting panel can be exerted with offset thrust to the holder for clean the head crowded water more thoroughly, improve crowded water efficiency.

In an alternative embodiment, the locking structure comprises a locking piece and a resetting structure for resetting the locking piece, one end of the resetting structure is connected with the retainer, the other end of the resetting structure is connected with the locking piece, and the locking piece is abutted with the wiping component.

The advantage is, sets up reset structure, and the timely reset of the locking piece of being convenient for, and then make things convenient for the locking structure to switch to the locking state by the unblock state automatically, does not need the manual operation of going of user, and the simple operation, user experience is better.

In an alternative embodiment, the locking structure comprises a locking member and a resetting structure for resetting the locking member, one end of the resetting structure is connected with the wiping component, the other end of the resetting structure is connected with the locking member, and the locking member is connected with the retainer.

The advantage is that the reset mechanism drives the locking piece to be connected with the retainer so as to lock or unlock the retainer by the locking piece,

in an alternative embodiment, the locking structure includes a switch that drives the locking member to lock or unlock the holder, the switch being connected to the locking member.

The advantage is, sets up the switch for the user can be manual through the locking of the accurate control locking structure of switch and unblock, avoids appearing the maloperation, improves user's use experience.

In an alternative embodiment, the surface of the switch contacting the locking member is a bevel, and the switch acts in a vertical direction to drive the locking member to move in a horizontal direction.

The advantage is, through the inclined plane cooperation between switch and the locking piece for the switch can move in order to drive the locking piece and lock or unblock in order to satisfy some in the locking piece direction of motion inconvenient setting up the condition of switch, simultaneously, the inclined plane makes the motion of the relative locking piece of switch gentler, and user's control experience is better.

In an alternative embodiment, the switch moves in the same direction as the locking member.

The advantage is that the switch and the locking piece move in the same direction, and the switch is more convenient when driving the locking piece to lock or unlock, so that interference is reduced, misoperation is avoided, and user experience is better.

In an alternative embodiment, the locking structure further comprises a secondary locking structure connecting the holder with the wringing body.

The advantage is, vice locking structure is used for locking wringing main part and holder for all keep the locking between holder and wringing main part and the wiping subassembly, promptly when mopping the floor the state, wringing main part, holder and wiping subassembly three remain relatively static, make the mop form double locking, when mopping the floor, wiping subassembly is more stable, difficult emergence is out of shape, and user experience is better.

In an alternative embodiment, the retainer is provided with a limiting hole, and in a locking state, the auxiliary locking structure penetrates through the wringing main body to be matched with the limiting hole; and in the unlocking state, the auxiliary locking structure moves to be separated from the cooperation of the limiting hole.

The advantage is that, plug-in locking mode, easy operation and efficient because the user is when operating the mop wringing, will grip the wringing subassembly with holding generally, and the cooperation position of vice locking structure is in the wringing main part, can be close to the position of holding of user's hand to the user of being convenient for is gone to control vice locking structure's locking and unblock.

In an alternative embodiment, the secondary locking structure comprises a secondary locking piece and a secondary resetting structure for resetting the secondary locking piece, one end of the secondary resetting structure is connected with the retainer, the other end of the secondary resetting structure is connected with the locking piece, and the secondary locking piece is abutted with the wringing main body.

The advantage is, sets up vice reset structure, and the timely reset of vice locking piece of being convenient for makes things convenient for vice locking structure to switch between locking state and unblock state, and the simple operation, user experience is better.

In an alternative embodiment, the locking structure further comprises a locking body mounted on the wringing assembly, the locking member and the reset structure are disposed in the locking body, and the locking member is reset in the locking body by the action of the reset structure.

The advantage is that the locking structure is modularized, so that the locking structure is formed as a single piece, facilitating the installation, removal and replacement of the locking piece.

In an alternative embodiment, the locking member includes a locking end extending out of the locking body, the locking end having a sliding surface adapted to slide.

The advantage is that, set up the slip surface and be convenient for wipe subassembly or squeeze the subassembly and extrude the locking piece to the locking piece slides to breaking away from the locked position, thereby releases the locking to wiping subassembly and squeeze the subassembly, does not need the manual unblock of user, and user experience is better.

In an alternative embodiment, the squeezing component comprises a first fork and a second fork, the first fork and the second fork are arranged on two sides of the end part of the mop rod in an inverted Y shape, and in a mopping state, the squeezing component and the wiping component are locked through the locking structure so that the first fork, the mop rod and the second fork are in three-point collineation on the wiping component.

The water squeezing assembly is arranged in an inverted Y shape, so that a user can conveniently grasp the first bracket or the second bracket when carrying out water squeezing operation, and meanwhile, the attractiveness of the mop is improved; the first support, the middleware and the second support are collinear at three points on the wiping component, so that the mounting plate connected with the first support, the mounting plate connected with the second support and the middle are in horizontal positions, namely the wiping component is in horizontal positions, and further, a triangle is formed among the first support, the second support and the wiping component.

In an alternative embodiment, the mounting plates include a first mounting plate and a second mounting plate, where the first mounting plate and the second mounting plate are respectively disposed on two sides of the intermediate member and rotate relative to the intermediate member, the first mounting plate is connected with the first fork frame, the second mounting plate is connected with the second fork frame, and in a mopping state, the first mounting plate, the intermediate member and the second mounting plate form a same plane so that the wiping head keeps horizontal.

The advantage is that the mounting panel is equipped with two, installs respectively in the middleware both sides for drive two mounting panels when the middleware removes and turn over, and then drive the mop head fifty percent discount extrusion of being connected with the mounting panel, in order to realize the purpose of squeezing water.

In an alternative embodiment, the wringing assembly includes a first holder and a second holder, the two ends of the first holder are respectively connected to the first fork and the first mounting plate, the two ends of the second holder are respectively connected to the second fork and the second mounting plate, and in a mopping state, the first holder, the intermediate member and the second holder are in line at three points on the wiping assembly.

The advantage is, when setting up two holders and being connected with two mounting panels respectively for two mounting panels when the fifty percent discount, two holders can apply force in the mounting panel of being connected rather than respectively in order to offset the mounting panel and receive the thrust that comes from the wiping head because of the fifty percent discount produces for the mounting panel is stable keeps the fifty percent discount wringing, thereby improves wringing efficiency.

In an alternative embodiment, the locking structure includes a first locking structure that limits the first holder and the first mounting plate from moving relative to each other and a second locking structure that limits the second holder and the second mounting plate from moving relative to each other.

The advantage is, sets up two locking structure for the mop is locked more firmly when mopping the ground state, is difficult for taking place the condition that locks the inefficacy, simultaneously, when two locking structure are connected with two mounting panels of establishing in mop pole both sides respectively, can be with on sharing two locking structure because the resistance that ground frictional force made locking structure to receive, reduced the atress of single locking structure, reduce locking structure's damage rate, make locking structure's locking effect better.

In an alternative embodiment, the locking structure includes a first locking structure that limits the first fork and the first mounting plate to move relative to each other and a second locking structure that limits the second fork and the second mounting plate to move relative to each other.

The advantage is, sets up two locking structure for the mop is locked more firmly when mopping the ground state, the difficult condition that takes place the locking and lose efficacy, simultaneously, when two locking structure are connected with two mounting panels of establishing in mop pole both sides respectively, can be with on sharing two locking structure because the resistance that ground frictional force made locking structure to receive, reduced the atress of single locking structure, make locking structure's locking effect better, also reduce locking structure's damage rate simultaneously.

In an alternative embodiment, the wringing component is movably connected with the wiping component.

The advantage is, in mop wringing process, need wringing subassembly and the mutual normal running fit of wiping subassembly, so need more nimble connected mode between wringing subassembly and the wiping subassembly to avoid appearing the card shell between wringing subassembly and the wiping subassembly, influence user experience.

In an alternative embodiment, the first holder comprises a first squeezing head arranged on one side of the first holder, which is away from the mop rod, the second holder comprises a second squeezing head arranged on one side of the second holder, which is away from the mop rod, the first holder and the second holder move along with the turnover of the mounting plate, and the first squeezing head and the second squeezing head squeeze the wiping head when the mop is in a squeezing state.

The advantage is, when wiping the head and turning over and carry out the wringing because of turning over, sets up first wringing head and second wringing head, can carry out secondary wringing to wiping the head, improves the wringing efficiency of mop.

Drawings

In order to more clearly illustrate the embodiments of the present utility model or the technical solutions in the prior art, the drawings that are needed in the description of the embodiments or the prior art will be briefly described, and it is obvious that the drawings in the description below are some embodiments of the present utility model, and other drawings can be obtained according to the drawings without inventive effort for a person skilled in the art.

FIG. 1 is a schematic cross-sectional view of one embodiment of a mop of the present utility model;

FIG. 2 is an enlarged schematic view of portion A of FIG. 1;

FIG. 3 is a schematic cross-sectional view of another embodiment of the mop of the present utility model;

FIG. 4 is an enlarged schematic view of portion B of FIG. 3;

FIG. 5 is a schematic cross-sectional view of another embodiment of the mop of the present utility model;

FIG. 6 is an enlarged schematic view of portion C of FIG. 5;

FIG. 7 is a schematic cross-sectional view of a secondary locking structure of the mop of the present utility model;

FIG. 8 is a schematic cross-sectional view of another embodiment of a secondary locking structure in a mop in accordance with the present utility model;

reference numerals illustrate:

100: a mop rod;

200: a wringing assembly; 210: a first fork; 220: a second fork; 230: a first holder; 231: a first extrusion head; 240: a second holder; 241: a second extrusion head; 250: a wringing main body; 260: a limiting hole;

300: a wiping assembly; 310: a middleware; 320: a mounting plate; 321: a first mounting plate; 322: a second mounting plate; 330: a wiping head;

400: a locking structure; 410: a locking member; 411: a locking end; 420: a reset structure; 430: a locking body; 440: a switch; 450: a secondary locking structure; 451: a secondary locking member; 452: and a secondary reset structure.

Detailed Description

For the purpose of making the objects, technical solutions and advantages of the embodiments of the present utility model more apparent, the technical solutions of the embodiments of the present utility model will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present utility model, and it is apparent that the described embodiments are some embodiments of the present utility model, but not all embodiments of the present utility model. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Embodiments of the present utility model are described below with reference to fig. 1 to 8.

The utility model relates to a mop, comprising a squeezing assembly 200, a wiping assembly 300 and a mop rod 100, wherein the wiping assembly 300 comprises a wiping head 330, a middle piece 310 connected with the mop rod 100 and a mounting plate 320 movably connected with the middle piece 310, the wiping head 330 is arranged on the mounting plate 320, the squeezing assembly 200 is sleeved on the mop rod 100, the mop rod 100 moves upwards to drive the middle piece 310 to move so as to enable the mounting plate 320 to oppositely fold and squeeze the wiping head 330 relative to the middle piece 310 to enter a squeezing state, and when in the squeezing state, the mop rod 100 moves downwards to enable the middle piece 310 to drive the mounting plate 320 to be in the same plane with the middle piece 310 to enter a mopping state, and the mop further comprises the following components: and a locking structure 400 for limiting the relative movement of the wringer assembly 200 and the wiper assembly 300 so that the intermediate member 310 and the mounting plate 320 are in the same plane in the mopping state, wherein one end of the locking structure 400 is connected to the wringer assembly 200 and the other end is connected to the wiper assembly 300.

Wherein, the wiping head 330 is used for rubbing against the floor to clean, the preferred wiping head 330 is a collodion stick, which has the advantages of high cleaning efficiency and convenient cleaning and installation, and the wiping head 330 can also be other components with cleaning functions; the intermediate piece 310 is used for being connected with the mop rod 100 and is used as an intermediate connecting structure for indirectly driving the mop head 330 to move by the mop rod 100; the mounting plate 320 is used as a mounting substrate of the wiping head 330, and in order to facilitate replacement of the wiping head 330, the mounting plate 320 and the wiping head 330 are movably connected, such as adhesion, fastening, bolts, etc.; in order to facilitate the middle piece 310 to fold the mounting plate 320 in half, the middle piece 310 and the mounting plate 320 are movably connected, such as a buckle, a hinge and the like; the wringing component 200 is used for being matched with the mop rod 100 to enable the wiping component 300 to perform wringing operation and be sleeved on the mop rod 100, specifically, when one end of the mop rod 100, which is opposite to the axial direction of the mop rod 100, is defined to be the upper end of the mop rod 100, which is opposite to the mop component 300, and when the mop rod 100 moves upwards relative to the wringing component 200, the mop rod 100 drives the middle piece 310 to move upwards, and then drives the mounting plate 320 connected with the middle piece 310 to move, because the end of the mounting plate 320 is connected with the wringing component 200, the mounting plate 320 is folded in a U-shaped manner from the connection position with the middle piece 310 in an inclined direction towards the central axis direction of the mop rod 100, and then the wiping head 330 mounted on the mounting plate 320 is folded in a U-shaped manner towards the central axis direction of the mop rod 100, so that the wiping head 330 performs wringing operation, wherein the mop rod 100 moves relative to the wringing component 200, and the mop rod 100 can be held by one hand by a user, and the other hand by holding the mop rod 100 can also be held by the user, and the mop rod 100 can be held by the other hand, and the mounting plate 320 can be also held by the user, and the other hand by holding the mop rod 100 along the axial direction of the mop rod 100, and the mop rod 320, and the mounting plate 320, which moves in the direction of the first hand, and the middle piece 321 and the mop rod 100 are held by the opposite to the middle piece 310, and the middle piece and the opposite to the middle piece 322 are held by the first and the opposite to the middle piece 322, and the opposite to the first mounting plate 322; in another embodiment, the mounting plate 320 may be an elastic integral piece, and the middle piece 310 may drive the mounting plate 320 to shrink toward the central axis direction of the mop rod 100 during the upward movement process to achieve the purpose of squeezing the wiping head 330, when the mop is in the mopping state, the middle piece 310 abuts against the plane of the mounting plate 320, so that the mounting plate 320 is stretched to form a water plane, and further the wiping head 330 mounted on the mounting plate 320 is stretched to form a water plane, thereby improving the mopping efficiency.

As shown in fig. 1, 3 and 5, the mop rod 100 drives the mop assembly 300 to move relative to the wringing assembly 200 so as to switch the mop between a wringing state and a mopping state, specifically, an end of the mop rod 100, which is away from the mop assembly 300, is defined as an upper end, an end of the mop rod 100, which is towards the mop assembly 300, is defined as a lower end, and when the mop rod 100 moves from top to bottom, the mop head 330 is driven to be unfolded to a horizontal state so as to enable the mop to enter the mopping state; when the mop rod 100 moves from bottom to top relative to the wringing assembly 200, the wiping head 330 is driven to fold in half into a U shape for wringing operation, so that the mop enters into a wringing state.

As shown in fig. 1 to 8, the locking structure 400 is driven by an external force to change the mop from the mopping state to the wringing state, specifically, the locking structure 400 can be manually used to directly release the restriction of the locking structure 400, or can be manually used to indirectly release the restriction of the locking structure 400, for example, when the user holds the mop rod 100 to move up and down, the mop rod 100 touches the locking structure 400 to unlock the locking structure 400, which can be regarded as that the user manually and indirectly releases the restriction of the locking structure 400, and only when the mop is switched from the mopping state to the wringing state by the external force, the mop is prevented from automatically switching to the wringing state in the mopping process to cause the deformation of the wiping head 330, so that the occurrence of the clamping case in the mopping process is avoided, the mop is more reliable in the use process, and the user experience is better.

As shown in fig. 1 to 7, the locking structure 400 has a restoring force, when the mop is converted from the wringing state to the mopping state, the locking structure 400 is restored from the unlocked state in which the wringing assembly 200 and the wiping assembly 300 are kept relatively moving to the locked state in which the wringing assembly 200 and the wiping assembly 300 are kept relatively stationary, and in particular, the restoring force in this example is not limited to the force of the locking structure 400 due to its own nature, but also includes the force applied to the locking structure 400 by the user to restore the locking structure to the original position, and when the mop is converted from the wringing state to the mopping state, the locking structure 400 can lock the mop in the mopping state by the user manually or by the restoring force of the user, without setting a separate structural member for resetting, so that the structure of the mop is simpler, and the assembly difficulty is reduced.

As shown in fig. 1 to 6, in one embodiment, the wringing assembly 200 includes a wringing body 250 and a holder connecting the wringing body 250 and the wiping assembly 300, the wringing body 250 is sleeved on the mop rod 100, one end of the locking structure 400 is connected with the holder, and the other end is connected with the wiping assembly 300, in particular, the holder is connected with the wringing body 250 and the wiping assembly 300, because the wiping head 330 when folded in half will exert a pushing force on the mounting plate 320 away from the central axis of the mop rod 100, so that the pressure of the mounting plate 320 to the wiping head 330 is weakened, the wringing efficiency is reduced, and the holder moves along with the movement of the wiping assembly 300, and the holder can exert a pressing force on the mounting plate 320 to offset the pushing force, so that the wiping head 330 can squeeze water more thoroughly, and the wringing efficiency is improved; connecting the locking structure 400 to the holder and the wiper assembly 300 facilitates locking the holder and the wiper assembly 300 such that the locking structure 400 indirectly locks the wringer body 250 and the wiper assembly 300, and thus the wringer assembly 200 and the wiper assembly 300.

As shown in fig. 1 and 2, the locking structure 400 includes a locking member 410 and a reset structure 420 for resetting the locking member 410, one end of the reset structure 420 is connected with the retainer, the other end of the reset structure is connected with the locking member 410, the locking member 410 is abutted to the wiping component 300, and specifically, the reset structure 420 is provided, so that the locking member 410 is convenient to reset in time, and further the locking structure 400 is convenient to switch from an unlocking state to a locking state automatically, manual operation by a user is not required, the operation is convenient, and the user experience is better; the preferred return structure 420 of this embodiment is a spring, and has a simple structure and strong adaptability, and a stable return effect, and of course, the return structure 420 may also be other elastic structures, such as a flexible glue, a metal sheet with elasticity, etc., when the lock structure 400 is in an unlocked state, the lock member 410 is directly or indirectly driven by a user to be separated from the locked position of the wiping component 300, and drives the spring to be in a compressed state, when the lock structure 400 is in a locked state, the spring is converted from a compressed state to a relaxed state by the self elastic force, and the elastic force of the spring drives the lock member 410 to reach the locked position of the wiping component 300, so that a relatively flexible connection is required between the lock member 410 and the wiping component 300, and in this embodiment, the preferred abutment between the lock member 410 and the wiping component 300 is provided, such as a spherical structure, the position where the end of the wiping component 300 is matched with the end of the lock member 410 is a groove, and the end of the lock member 410 is inserted into the groove, and the abutment mode of the lock member 410 and the wiping component 300 is not limited thereto.

As shown in fig. 3 to 6, in another embodiment, the locking structure 400 includes a locking member 410 and a restoring structure 420 restoring the locking member 410, one end of the restoring structure 420 is connected to the wiper assembly 300, the other end is connected to the locking member 410, the locking member 410 is connected to the holder, in particular, the restoring structure 420 is connected to the wiper assembly 300, the locking member 410 is connected to the restoring structure 420 and the holder, so that the locking member 410 can move in a designated direction by the restoring structure 420, thereby locking or unlocking the holder,

as shown in fig. 3 to 6, the locking structure 400 includes a switch 440 for driving the locking member 410 to lock or unlock the retainer, where the switch 440 is connected to the locking member 410, and specifically, the switch 440 is provided, so that a user can precisely control locking and unlocking of the locking structure 400 through the switch 440, avoiding misoperation, improving the user experience, and in this example, the preferred switch 440 is a push type switch 440, the switch 440 is connected to the locking member 410, so that the switch 440 directly drives the locking member 410 to lock or unlock, and in consideration of installation and use convenience, a movable connection mode, such as sliding connection, snap connection, etc., is preferably adopted between the switch 440 and the locking member 410; of course, the switch 440 may be integrally formed with the locking member 410.

As shown in fig. 4, the surface of the switch 440, which contacts the locking member 410, is an inclined surface, the switch 440 acts in a vertical direction to drive the locking member 410 to move in a horizontal direction, specifically, the switch 440 and the locking member 410 are matched through the inclined surface, so that the switch 440 can move in different directions relative to the locking member 410 to drive the locking member 410 to lock or unlock, so as to meet the condition that the switch 440 is inconvenient to set in the moving direction of the locking member 410, and meanwhile, the inclined surface makes the movement of the switch 440 relative to the locking member 410 more gentle, so that the user operation experience is better; the angle between the projection of the inclined plane and the inclined plane on the wiping component 300 is defined as an inclined plane angle, the preferred inclined plane angle is 45 degrees, so that the movement speeds of the switch 440 and the locking piece 410 are basically consistent on the premise of ensuring the movement smoothness, the user experience is better, the angle of the inclined plane can be any angle between 10 degrees and 80 degrees, the switch 440 moves vertically, the movement direction of the switch 440 is parallel to the wiping component 300, the user can tread the switch 440 or manually press the switch 440 by referring to the general use habit of the mop, the user can operate conveniently, the locking piece 410 moves along the horizontal direction, the wiping component 300 does not need to reserve the movement space of the locking piece 410 in the vertical direction, the thickness of the wiping component 300 is thinner, the cleaning of some spaces with lower heights is facilitated, and the attractiveness of the mop is greatly enhanced; more specifically, the mounting plate 320 is provided with a mounting shaft for mounting the locking member 410, the locking member 410 is provided with a mounting hole matched with the mounting shaft, one end of the locking member 410 is sleeved on the mounting shaft, the other end of the locking member 410 is provided with a limiting block, the limiting block is connected with the retainer and limits the locking member 410 to rotate relative to the retainer in a locking state, the mounting plate 320 is further limited to rotate relative to the retainer, the side part of the locking member 410 is provided with an inclined surface matched with the switch 440, the inclined surface faces the direction of the retainer, so that when a user presses the switch 440, the locking member 410 can move to a position separated from the limit of the retainer, and meanwhile, the mounting shaft is provided with a reset structure 420, so that the switch 440 can be reset and rebounded through the reset structure 420 after being pressed.

As shown in fig. 6, the switch 440 and the locking member 410 move in the same direction, and in particular, the same direction movement, so that the switch 440 is more convenient when the locking member 410 is driven to perform locking or unlocking operation, interference is reduced, misoperation is avoided, and user experience is better; the switch 440 is preferably integrally formed with the locking member 410, however, the switch 440 may be fixed to the locking member 410 by some connecting structure, so that the switch 440 and the locking member 410 can move in the same direction; more specifically, a first opening through which the switch 440 passes and a second opening through which the locking member 410 passes are formed in the mounting plate 320 of the wiping assembly 300, the switch 440 and the locking member 410 form a "U" shape, the switch 440 passes through the first opening to a side of the mounting plate 320 away from the wiping head 330, so that a user can conveniently operate the switch 440, the locking member 410 passes through the second opening to a side of the mounting plate 320 away from the wiping head 330 and is connected with the retainer, a sliding groove is formed in a side of the mounting plate 320 away from the wiping head 330, a sliding block matched with the sliding groove is formed in the retainer, when the mounting plate 320 rotates relative to the retainer, the sliding block can move in the sliding groove, a clamping groove is formed in a side of the sliding block opposite to the locking member 410, the locking member 410 is matched with the clamping groove to limit the sliding block to slide in the sliding groove, when the switch 440 is driven to press down, the locking member 410 is separated from the clamping groove, and then the sliding block can slide in the sliding groove, and at the same time, a side of the switch 440 facing the wiping head 330 is connected with the reset structure 420, so that the reset structure 420 can reset after the switch 440 is pressed down; it will be appreciated that a slot may also be provided on the locking member 410, with the slider cooperating with the slot to limit movement of the slider in the chute; it will be appreciated that the holder may also be rotatably coupled to the mounting plate 320 via a shaft.

As shown in fig. 7 and 8, in another embodiment, the locking structure 400 further includes a secondary locking structure 450, where the secondary locking structure 450 connects the holder with the wringing body 250, and in particular, the secondary locking structure 450 is used to lock the wringing body 250 and the holder, and the combination of the locking member 410 keeps the holder and both the wringing body 250 and the wiping component 300 locked, that is, in the mopping state, the wringing body 250, the holder and the wiping component 300 remain relatively stationary, so that the mop forms a double locking, and in the mopping state, the wiping component 300 is more stable, is not easy to deform, and has better user experience.

As shown in fig. 8, the retainer is provided with a limiting hole 260, and in the locked state, the secondary locking structure 450 passes through the wringing body 250 to be matched with the limiting hole 260; in the unlocking state, the auxiliary locking structure 450 moves to be separated from the cooperation of the limiting hole 260, specifically, the auxiliary locking structure 450 is arranged on the wringing main body 250, a first limiting piece for preventing the auxiliary locking structure 450 from being separated from the wringing main body 250 is arranged on the auxiliary locking structure 450, the first limiting piece is arranged on one side of the wringing main body 250 facing the retainer, the limiting hole 260 is arranged on the retainer at the same level as the auxiliary locking structure 450, so that the auxiliary locking structure 450 is conveniently inserted into the retainer to limit the relative movement between the retainer and the wringing main body 250, a second limiting piece is further arranged on the auxiliary locking structure 450, the first limiting piece and the second limiting piece are respectively arranged on two sides of the wringing main body 250, so that the moving range of the auxiliary locking structure 450 is limited between the first limiting piece and the second limiting piece, the plug-in locking mode of the auxiliary locking structure 450 is easy to operate and high in efficiency, and because a user can hold the wringing assembly 200 tightly by hand when operating the mop, when the auxiliary locking structure 450 is matched with the retainer on the wringing main body 250, the auxiliary locking structure 450 can be close to the holding position of the user hand, so that the user can conveniently control the auxiliary locking structure 450.

As shown in fig. 7, the secondary locking structure 450 includes a secondary locking member 451 and a secondary resetting structure 452 for resetting the secondary locking member 451, one end of the secondary resetting structure 452 is connected to the retainer, the other end of the secondary resetting structure 452 is connected to the secondary locking member 451, the secondary locking member 451 is abutted to the wringing main body 250, and specifically, the secondary resetting structure 452 is provided, so that the secondary locking member 451 can be reset in time, the secondary locking structure 450 can be switched between a locking state and an unlocking state conveniently, and the operation is convenient and the user experience is better; the secondary return structure 452 may be the same as the return structure 420 or may be different from the return structure 420 as long as the secondary return structure 452 is capable of performing a return function to the secondary lock 451.

As shown in fig. 1, 2 and 7, in another embodiment, the locking structure 400 further includes a locking body 430, the locking body 430 is mounted on the wringer assembly 200, the locking member 410 and the reset structure 420 are disposed in the locking body 430, the locking member 410 is reset in the locking body 430 by the effect of the reset structure 420, specifically, the locking body 430 is a structure having a cavity, one end of the cavity has an opening, the locking member 410 and the reset structure 420 are disposed in the cavity, one end of the locking member 410 is connected with the wiping assembly 300 through the opening of the cavity, the other end is connected with the reset structure 420, so that the locking member 410 moves in the locking body 430 by the effect of the reset structure 420, the width of the end, to which the locking member 410 is connected with the reset structure 420, is larger than the width of the opening, so that the locking member 410 cannot be separated from the locking body 430, the locking body 430 and the wringer assembly 200 can be mounted by means of snap, screw, etc., so long as the connection means can be fixed on the wringer assembly 200; it will be appreciated that the secondary lock 451 and secondary return structure 452 may also be disposed within the cavity of the lock body 430, where the secondary lock 451 is connected to the wringer body 250 through an opening of the cavity, and the lock structure 400 is modularized such that the lock structure 400 is formed as a single piece, facilitating installation, removal and replacement of the lock 410.

As shown in fig. 1, 2 and 7, the locking member 410 includes a locking end 411 extending out of the locking main body 430, where the locking end 411 has a sliding surface suitable for sliding, specifically, the preferred sliding surface is a spherical surface, so that the retainer and the wiping component 300 or the retainer and the wringer main body 250 can be locked even if the retainer deviates from the standard locking position, and meanwhile, the wiping component 300 or the wringer component 200 can be convenient to squeeze the locking member 410, so that the locking member 410 slides to be out of the locking position, thereby unlocking the wiping component 300 and the wringer component 200, and the user experience is better without manual unlocking of the user; it will be appreciated that the sliding surface may be other arcuate surfaces as long as the locking member 410 is facilitated to be disengaged from the locked position.

As shown in fig. 1, 3 and 5, the wringing assembly 200 includes a first fork 210 and a second fork 220, the first fork 210 and the second fork 220 are disposed on both sides of the end of the mop rod 100 in an inverted Y shape, and in a mopping state, the wringing assembly 200 and the wiping assembly 300 are locked by the locking structure 400 so that three points of the first fork 210, the mop rod 100 and the second fork 220 on the wiping assembly 300 are collinear, specifically, the wringing assembly 200 is formed into an inverted Y shape by the first fork 210 and the second fork 220, so that a triangle is formed between the first fork 210, the second fork 220 and the wiping assembly 300, the triangle has stability, the inverted Y-shaped wringing component 200 drives the wiping component 300 to be more stable in the mopping process, the wiping component 300 is not easy to deform, the three points of the first fork frame 210, the mop rod 100 and the second fork frame 220 on the wiping component 300 are collinear, namely the connecting end of the first fork frame 210 and the mounting plate 320, the connecting end of the second fork frame 220 and the mounting plate 320 and the three points of the intermediate piece 310 are collinear, so that the intermediate piece 310 and the mounting plate 320 are positioned on the same plane, and the wiping head 330 connected with the mounting plate 320 can also be positioned on the plane in a horizontal state for mopping, namely the wiping component 300 is positioned in a horizontal position, the wiping component 300 is not easy to be folded in half in the mopping process, and the user experience is good

As shown in fig. 1, 3 and 5, the mounting plates 320 include a first mounting plate 321 and a second mounting plate 322, where the first mounting plate 321 and the second mounting plate 322 are respectively disposed at two sides of the middle piece 310 and rotate relative to the middle piece 310, the first mounting plate 321 is connected to the first fork frame 210, the second mounting plate 322 is connected to the second fork frame 220, and in a mopping state, the first mounting plate 321, the middle piece 310 and the second mounting plate 322 form a same plane so that the wiping head 330 keeps horizontal, specifically, the first mounting plate 321 is movably connected to the first fork frame 210, so that the first mounting plate 321 and the first fork frame 210 can rotate relatively, and the second mounting plate 322 is movably connected to the second fork frame 220, so that the second mounting plate 322 and the second fork frame 220 can rotate relatively, and the two mounting plates 320 are respectively mounted at two sides of the middle piece 310, so that when the middle piece 310 moves, the two mounting plates 320 are driven to be folded in half, and the wiping head 330 connected to the mounting plates 320 is driven to be squeezed in half, thereby realizing squeezing.

As shown in fig. 1, 3 and 5, the wringing assembly 200 includes a first holder 230 and a second holder 240, where two ends of the first holder 230 are respectively connected with the first fork 210 and the first mounting plate 321, two ends of the second holder 240 are respectively connected with the second fork 220 and the second mounting plate 322, when in a mopping state, the first holder 230, the middle piece 310 and the second holder 240 are co-linear at three points on the wiping assembly 300, specifically, the first holder 230 is movably connected with the first fork 210, the second holder 240 is movably connected with the second fork 220, when the mop rod 100 drives the middle piece 310 to move and further drives the mounting plate 320 to rotate relative to the wringing assembly 200, the mounting plate 320 drives the holders to rotate, so that the holders apply a force to the mounting plate 320 to offset the thrust to the mounting plate 320 generated by the mop head 330, when the two holders are respectively connected with the two mounting plates 320, the first mounting plate 321 and the second mounting plate 322 are in a folded shape, and the second holder 321 is in a U shape, and the second holder 322 is in a U shape, when the first holder 321 is folded over the first holder is in a U shape, and the first mounting plate 322 is stably squeezed, and the water is stably applied to the first mounting plate 322 is in a U shape, and the water is stably squeezed.

As shown in fig. 1, 3 and 5, the locking structure 400 includes a first locking structure and a second locking structure, the first locking structure limits the first holder 230 and the first mounting plate 321 to move mutually, the second locking structure limits the second holder 240 and the second mounting plate 322 to move mutually, specifically, two locking structures 400 are provided, so that the mop is locked more firmly in a mopping state, and is not easy to cause a locking failure, meanwhile, the two locking structures 400 are preferably symmetrically arranged, and when the two locking structures 400 are respectively connected with the two mounting plates 320 arranged at two sides of the mop rod 100, the resistance force applied by the locking structures 400 due to the friction force of the ground can be distributed to the two locking structures 400, so that the stress of a single locking structure 400 is reduced, the damage rate of the locking structures 400 is reduced, and the locking effect of the locking structures 400 is better.

In another embodiment, the locking structure 400 includes a first locking structure and a second locking structure, the first locking structure limits the first fork frame 210 and the first mounting plate 321 to move mutually, the second locking structure limits the second fork frame 220 and the second mounting plate 322 to move mutually, specifically, the first fork frame 210 is rotationally connected with the first mounting plate 321, the second fork frame 220 is rotationally connected with the second mounting plate 322, when in a wringing state, the mop rod 100 is pulled to move, the mop rod 100 drives the first mounting plate 321 to rotate relative to the first fork frame 210 and the second mounting plate 322 to rotate relative to the second fork frame 220, so that the wiping head 330 mounted on the first mounting plate 321 and the second mounting plate 322 can be folded to squeeze water, the first mounting plate 321 can be limited to rotate relative to the first fork frame 210 by setting the first locking structure in a mopping state, and the second locking structure can be limited to rotate relative to the second fork frame 220 in a mopping state, so that when in the mopping state, the first fork frame 210, the second fork frame 220 and the second mounting plate 322 are pulled to move, and the second mounting plate 322 are kept stationary relatively, so that the user does not feel an interruption to the mopping process during the mopping process.

As shown in fig. 1, 3 and 5, the wringing assembly 200 is movably connected with the wiping assembly 300, specifically, a rotating shaft is provided on the wringing assembly 200, and a base matched with the rotating shaft is provided on the mounting plate 320, so that the wringing assembly 200 rotates relative to the mounting seat; it can be understood that the mounting plate 320 is provided with a rotating shaft, and the wringing assembly 200 is provided with a base matched with the rotating shaft so as to enable the mounting plate 320 to rotate relative to the wringing assembly 200; it can be understood that the wringing assembly 200 is provided with a moving shaft, and the mounting plate 320 is provided with a sliding groove matched with the moving shaft so as to enable the wringing assembly 200 to move or rotate relative to the mounting seat; it can be understood that the mounting plate 320 is provided with a moving shaft, and the wringing assembly 200 is provided with a sliding groove matched with the moving shaft so as to enable the mounting plate 320 to rotate relative to the wringing assembly 200; in the process of squeezing the mop, the squeezing assembly 200 and the wiping assembly 300 are required to be in mutual rotation fit, so that a flexible connection mode is required between the squeezing assembly 200 and the wiping assembly 300, and the phenomenon that the squeezing assembly 200 and the wiping assembly 300 are blocked is avoided, so that the user experience is affected.

As shown in fig. 1, the first holder 230 includes a first squeezing head 231 disposed on a side of the first holder 230 facing away from the mop rod 100, the second holder 240 includes a second squeezing head 241 disposed on a side of the second holder 240 facing away from the mop rod 100, the first holder 230 and the second holder 240 move along with the turnover of the mounting plate 320, the first squeezing head 231 and the second squeezing head 241 squeeze the mop head 330 when the mop is in a water squeezing state, specifically, the first squeezing head 231 extends from the side of the first holder 230 facing away from the mop rod 100, so that the first holder 230 forms a substantially L shape, the second holder 240 forms a substantially L shape, and when the mounting plate 320 is driven by the intermediate member 310 to turn over, the first holder 230 and the second holder 240 can form a clamping trend with respect to the fork frame 320 along with the turnover of the mounting plate 320, so that the first squeezing head 231 and the second squeezing head 241 cooperate to form a second turnover of the mop head 330, thereby achieving a higher water squeezing efficiency.

Although embodiments of the present utility model have been described in connection with the accompanying drawings, various modifications and variations may be made by those skilled in the art without departing from the spirit and scope of the utility model, and such modifications and variations fall within the scope of the utility model as defined by the appended claims.

Claims (22)

1. The utility model provides a mop, includes wringing subassembly (200), wiping subassembly (300) and mop pole (100), wiping subassembly (300) include clean head (330), with middleware (310) that mop pole (100) are connected and with mounting panel (320) of middleware (310) swing joint, clean head (330) install on mounting panel (320), wringing subassembly (200) cover is located mop pole (100), mop pole (100) upward movement drives middleware (310) remove so that mounting panel (320) are relative middleware (310) fifty percent discount extrusion clean head (330) and get into the wringing state, in the wringing state, mop pole (100) remove so that middleware (310) drive mounting panel (320) move to with middleware (310) are in the coplanar and get into the mopping state, its characterized in that: further comprises:

and the locking structure (400) is used for limiting the relative movement of the wringing component (200) and the wiping component (300) so as to enable the middleware (310) and the mounting plate (320) to be in the same plane in a mopping state, one end of the locking structure (400) is connected with the wringing component (200), and the other end is connected with the wiping component (300).

2. The mop of claim 1, wherein the mop rod (100) moves the wiper assembly (300) relative to the wringer assembly (200) to switch the mop between a wringing state and a mopping state.

3. A mop according to claim 1, wherein the locking structure (400) is actuated by an external force to switch the mop from a mopping state to a wringing state.

4. The mop of claim 1, wherein the locking structure (400) has a return force, and wherein the locking structure (400) returns from an unlocked state in which the wringing assembly (200) is held in relative motion with the wiping assembly (300) to a locked state in which the wringing assembly (200) is held in relative rest with the wiping assembly (300) when the mop is converted from a wringing state to a mopping state.

5. The mop of any of claims 1 to 4, wherein the wringing assembly (200) comprises a wringing body (250) and a holder connecting the wringing body (250) with the wiping assembly (300), the wringing body (250) is sleeved on the mop rod (100), and the locking structure (400) is connected to the holder at one end and the wiping assembly (300) at the other end.

6. The mop of claim 5, wherein the locking structure (400) comprises a locking member (410) and a return structure (420) for returning the locking member (410), wherein the return structure (420) is connected to the holder at one end and to the locking member (410) at the other end, and wherein the locking member (410) abuts the wiping assembly (300).

7. The mop of claim 5, wherein the locking structure (400) comprises a locking member (410) and a return structure (420) for returning the locking member (410), wherein the return structure (420) is connected to the wiping element (300) at one end and to the locking member (410) at the other end, and wherein the locking member (410) is connected to the holder.

8. The mop of claim 7, wherein the locking structure (400) includes a switch (440) that drives the locking member (410) to lock or unlock the holder, the switch (440) being connected to the locking member (410).

9. The mop of claim 8, wherein the surface of the switch (440) contacting the locking member (410) is a sloped surface, and wherein the switch (440) is operated in a vertical direction to drive the locking member (410) to move in a horizontal direction.

10. A mop according to claim 8, wherein the switch (440) is co-directional with the locking member (410).

11. A mop according to any of claims 6 to 10, wherein the locking structure (400) further comprises a secondary locking structure (450), the secondary locking structure (450) connecting the holder with the wringing body (250).

12. A mop according to claim 11, wherein the holder is provided with a limiting aperture (260), and wherein the secondary locking structure (450) is adapted to engage the limiting aperture (260) through the wringing body (250) in the locked state; in the unlocked state, the secondary locking structure (450) moves out of engagement with the limiting aperture (260).

13. A mop according to claim 11, wherein the secondary locking structure (450) comprises a secondary locking member (451) and a secondary resetting structure (452) for resetting the secondary locking member (451), wherein one end of the secondary resetting structure (452) is connected to the holder, the other end is connected to the locking member (410), and the secondary locking member (451) abuts against the wringing body (250).

14. The mop of claim 6 or 13, wherein the locking structure (400) further comprises a locking body (430), the locking body (430) being mounted on the wringing assembly (200), the locking element (410) and the return structure (420) being provided within the locking body (430), the locking element (410) being returned within the locking body (430) by the action of the return structure (420).

15. A mop according to claim 14, wherein the locking member (410) comprises a locking end (411) extending out of the locking body (430), the locking end (411) having a sliding surface adapted to slide.

16. The mop of any of claims 1 to 4, 6 to 10, 12, 13, 15, wherein the wringing assembly (200) comprises a first fork (210) and a second fork (220), the first fork (210) and the second fork (220) being disposed on opposite sides of the end of the mop rod (100) in an inverted "Y" shape, the wringing assembly (200) and the wiping assembly (300) being locked by the locking structure (400) in a mopping condition such that the first fork (210), mop rod (100) and second fork (220) are co-linear at three points on the wiping assembly (300).

17. The mop of claim 16, wherein the mounting plate (320) comprises a first mounting plate (321) and a second mounting plate (322), the first mounting plate (321) and the second mounting plate (322) are respectively disposed on two sides of the middle piece (310) and rotate relative to the middle piece (310), the first mounting plate (321) is connected with the first fork (210), the second mounting plate (322) is connected with the second fork (220), and in a mopping state, the first mounting plate (321), the middle piece (310) and the second mounting plate (322) form the same plane so that the wiping head (330) is kept horizontal.

18. The mop of claim 17, wherein the wringing assembly (200) comprises a first holder (230) and a second holder (240), both ends of the first holder (230) being connected to the first fork (210) and the first mounting plate (321), respectively, and both ends of the second holder (240) being connected to the second fork (220) and the second mounting plate (322), respectively, the first holder (230), the intermediate member (310), and the second holder (240) being collinear at three points on the wiping assembly (300) in the mopping state.

19. The mop of claim 18, wherein the locking structure (400) comprises a first locking structure (400) and a second locking structure (400), the first locking structure (400) limiting the first holder (230) and the first mounting plate (321) from moving relative to each other, the second locking structure (400) limiting the second holder (240) and the second mounting plate (322) from moving relative to each other.

20. The mop of claim 17, wherein the locking structure (400) includes a first locking structure (400) and a second locking structure (400), the first locking structure (400) limiting the first fork (210) and the first mounting plate (321) from moving relative to each other, the second locking structure (400) limiting the second fork (220) and the second mounting plate (322) from moving relative to each other.

21. The mop of claim 18, wherein the first holder (230) includes a first squeeze head (231) disposed on a side thereof facing away from the mop pole (100), the second holder (240) includes a second squeeze head (241) disposed on a side thereof facing away from the mop pole (100), the first holder (230) and the second holder (240) move with the mounting plate (320) being folded over, the first squeeze head (231) and the second squeeze head (241) squeezing the wiping head (330) when the mop is in a squeeze state.

22. A mop according to any of claims 1 to 4, 6 to 10, 12, 13, 15, 17 to 21, wherein the wringing assembly (200) is movably connected to the wiping assembly (300).