CN110772190A - Mop head, mop and mopping assembly - Google Patents

Abstract

The invention provides a mop head (1) which comprises a mop panel (11) and a wiping part (12) arranged on the mop panel (11), and is characterized in that at least one end of the wiping part (12) can slide along the length direction of the mop panel (11) so that the wiping part (12) can deform along the length direction of the wiping part. The mop head that this application provided can support by in washing bucket edge, pond edge, step edge etc. with wiping portion, presses the mop panel downwards for wiping portion produces deformation along the mop panel slides, can extrude the moisture in wiping portion. In addition, the application also provides a mop and floor mopping assembly comprising the mop head, and the mop and floor mopping assembly can easily help a user squeeze out water in the wiping part.

Description

Mop head, mop and mopping assembly

Technical Field

The invention relates to the field of daily necessities, in particular to a cleaning tool, and more particularly relates to a mop head, a mop and a mopping assembly.

Background

The mop is an indispensable cleaning tool in daily life. The collodion mops in the market at present have approximately the same structure, and the main structure comprises a mop rod, a mop head and a water squeezing device (the water squeezing device of the collodion mop is a transmission structure in essence). The squeezing device comprises a handle, a pull rod, a caliper seat (squeezing frame), a collodion clamp and a squeezing rod, wherein the collodion clamp is clamped by the collodion clamp, the collodion clamp is fixed at the bottom end of the pull rod, the top end of the pull rod is movably pinned with the middle part of the handle, and the rear end of the handle is pinned on the mop rod. The two ends of the oblate water squeezing rod are pinned at the lower end of the clamp seat (squeezing frame).

When the wringing operation is carried out, the pulling handle is pulled to drive the collodion head to move up horizontally through the pulling rod, the collodion head passes through the wringing rods arranged on the caliper seat (wringing frame), and the wringing rods have elasticity which keeps the clamping trend, so the collodion head passing through the wringing rods can be clamped by the wringing rods to realize wringing.

The dehydration mode has the defects that: the transverse length of the mop is long due to the fact that water squeezing needs to be matched through the transverse water squeezing rod, and the water squeezing component is always arranged on the mop rod, so that the weight of the mop is increased, and the mop is heavy when in use; the mop rod and the mop head are fixed, when the table bottom or the bed bottom is cleaned, a user needs to bend down or even crouch down to enable the mop to enter the table bottom or the bed bottom for cleaning, so that the mop is not suitable for cleaning corners. Chinese patent document CN208988754U in the prior art discloses a mop wringing device with a foam cotton head, which can utilize another barrel as a wringing device, and avoids the defect that a wringing part is always on the mop rod. However, when the foam is squeezed, the foam is required to be squeezed and slid over the foam head, so that the foam head is easily damaged and the water is not easily squeezed out.

Therefore, there is a need to further develop mops that have a faster way to wring water, are easier to wring water, or are more convenient to use.

Disclosure of Invention

In view of the shortcomings of the background art, the present invention develops mops with different wringing modes. The mop head comprises a mop panel and a wiping part arranged on the mop panel, wherein at least one end of the wiping part can slide along the length direction of the mop panel (called as a sliding end), so that the wiping part can deform along the length direction of the wiping part.

The wiping part is used for wiping the surface of the cleaned object, generally has water absorption property, and can deform under the condition of external force extrusion. The material of the wiping portion may have the above-mentioned characteristics, and the specific material is not particularly limited, and may be made of, for example, collodion, sponge, foam, cloth, or the like, or a combination thereof.

In some embodiments of the invention, the first end of the wiping part is fixedly arranged on the mop panel, or the mop panel is provided with a limiting part for blocking the first end of the wiping part, so as to prevent the first end from being deformed outwards by the mop panel when the second end of the wiping part slides along the length direction of the mop panel. In this case, the first end, if fixed, is the sliding end; when the mop panel is provided with the limiting part for blocking the first end of the wiping part, the first end or the second end can be designed into the sliding end, so that the wiping part is squeezed from any end to generate the deformation shortening in length.

In some embodiments of the invention, the first end and the second end of the wiping part can slide along the length direction of the mop panel, and the two ends of the mop panel are respectively provided with a limiting part for blocking the first end and the second end of the wiping part, so that when one end of the wiping part (12) is squeezed and shortened along the length direction of the mop panel (11), the other end of the wiping part (12) is deformed outwards by the mop panel (11). The limiting part can be a part (such as a plate) which is arranged on the mop panel and is attached to the first end and the second end of the wiping part, or a part which is fixed with the mounting block at the end part or integrally formed and can be attached to the end. The main purpose of the design of the limiting part is to avoid that the wiping part at the end which is not extruded deforms outwards to cause incomplete water extrusion or deformation after a period of use.

The mop head provided by the invention can wipe the ground, wall tiles and the like after the wiping part absorbs water, then the dust attached to the wiping part is washed clean under a water bucket, a water pool or a water faucet, and then the sliding end of the wiping part is abutted against the edge of the cleaning bucket, the edge of the water pool, the edge of a step and the like, so that the mop panel is pressed downwards, the sliding end of the wiping part slides along the mop panel to deform due to extrusion, and the water in the wiping part can be squeezed out. This eliminates the need for attaching wringing related components to the mop bar, thereby making the mop lighter.

In some embodiments of the present invention, the original length of the wiping portion is L, the maximum amount of deformation is L ', and L/2 < L' < L is satisfied.

In some embodiments of the invention, the mop head comprises at least one sliding guide member disposed lengthwise of the mop panel; at least one mounting block which can be matched with the sliding guide component is fixedly arranged on the wiping part, so that the mounting block (15) can slide along the length direction of the mop panel (11) under the guide of the sliding guide component (14).

The number of the mounting blocks may be one, two, three, four, five or more, preferably three to five.

Further, in some embodiments of the present invention, the slide guide member is a T-shaped groove or an inverted L-shaped groove provided along a length direction of the mop panel; the mounting block has a T-shaped sliding end that mates with the T-shaped slot or an L-shaped sliding end that mates with an inverted L-shaped slot so that the mounting block can slide along the T-shaped slot or inverted L-shaped slot.

The slide rail of the mop head provided by the invention is arranged into a T-shaped groove or an L-shaped protrusion, and one part of the mounting block is provided with a T-shaped sliding end matched with the T-shaped groove or an L-shaped sliding end matched with the inverted L-shaped groove, so that the mounting block can move along the slide rail. The rest of the mounting block can be provided in any shape as long as a convenient and secure connection to the wiping portion is ensured.

In other embodiments, the sliding guide is a T-shaped protrusion or an L-shaped protrusion disposed along a length of the mop panel, and the mounting block has a T-shaped slot or an L-shaped slot matching the T-shaped protrusion or the L-shaped protrusion, so that the mounting block can slide along the T-shaped protrusion or the L-shaped protrusion.

More specifically, in some embodiments of the present invention, the mop panel comprises an upper panel and a lower panel with a gap formed therebetween at an inner portion, and the lower panel has a long through-hole arranged along a length direction thereof such that the T-shaped groove is formed between the upper panel and the lower panel; the T-shaped sliding end of the mounting block can be suspended from the lower panel through the long through hole so that the mounting block can slide along the long through hole.

In some embodiments of the invention, the sliding guide member is at least one bar fixedly disposed along a length direction of the mop panel; the mounting block has a hole or slot that can be sleeved over the rod to enable the mounting block to slide along the rod.

The rod may be one, two, three or more rods, and preferably two rods. In a preferred embodiment of the present invention, the sliding guide member is two parallel bars fixedly disposed along a length direction of the mop panel; the installation blocks are provided with through holes or grooves which can be sleeved on the two parallel rods, or corresponding installation blocks are arranged corresponding to each rod, the installation blocks are provided with through holes or grooves which can be sleeved on the corresponding rods, and the installation blocks are provided with two or more than two installation blocks which are arranged at intervals along the length direction of the wiping part (12).

The sliding rail of the mop head provided by the invention is provided with two parallel rods, and the mounting block is provided with holes matched with the parallel rods, so that the mounting block can move along the sliding guide part. The mop head can also be provided with a mounting block which slides along each rod, and the rest part of the mounting block can be set into any shape as long as the convenient and firm connection with the wiping part can be ensured.

In a preferred mode, a stress plate is arranged at the end head of at least one end of the wiping part capable of sliding, and the length and/or the width of the stress plate do not interfere with the wiping part in wiping the ground. The force-bearing plate can better generate a squeezing effect when the force-bearing plate is used for abutting against the squeezing sliding end, and the force-bearing plate can be integrally formed by a mounting block positioned at the end part in some embodiments. In some embodiments, for mop heads with a high limit stop, the limit stop can be the same part or the same structure as the force-bearing plate, but is referred to differently as to whether it is an abutting force-bearing portion when pressed.

In another aspect, the present invention provides a mop comprising: a mop head as described above; and a mop rod connected with the mop head. In some embodiments, the mop head and the mop rod can be connected, preferably movably, by means known in the art.

In a preferred embodiment of the invention, the mop head and the mop rod are pivotally connected such that the mop head can be rotated to a position parallel or perpendicular to the mop rod.

The mop provided by the invention can wipe the ground, wall tiles and the like after the wiping part absorbs water, then the dust attached to the wiping part is washed clean under a water bucket, a water pool or a water faucet, then the mop head is rotated to a position parallel to the mop rod, the wiping part (sliding end) abuts against the edge of the cleaning bucket, the edge of the water pool, the edge of a step and the like, and the mop rod is pressed downwards, so that the wiping part slides along the mop panel to deform, and then the water in the wiping part can be squeezed out, the mop can be wiped continuously, and the phenomenon that the excessive water stored in the wiping part drips is avoided. The mop enables a user to press downwards by means of the force of the upper half of the body so as to squeeze out water, and in the process, the user basically does not need to bend down or bend over so as to reduce the fatigue of the user.

In a more preferred embodiment of the present invention, further comprising a connector provided on the mop panel, the connector having a first recess and at least one second recess on a surface thereof;

the connecting rod is arranged on the mop rod and is hinged with the connecting piece;

the spring and the pressing piece are arranged inside the connecting rod, so that the pressing piece can be kept in contact with the connecting piece by virtue of the elasticity of the spring; when the pressing piece enters the first recess, the mop panel and the mop rod are perpendicular to each other; when the pressing piece enters the second recess, the mop panel and the mop rod are parallel to each other.

The mop provided by the invention realizes the pivoting of the mop panel relative to the mop rod by mutually hinging the connecting piece arranged on the mop panel and the connecting rod arranged on the mop rod. When the pressing piece enters the first recess, the mop head and the mop rod are kept perpendicular to each other. When the pressing piece enters the second recess, the mop head and the mop rod are kept horizontal to each other. The first and second recesses provide a stop for the compression member, but movement of the compression member therebetween can be achieved with a slight application of force by the user. Therefore, the mop head and the mop rod cannot rotate randomly, and the stability of wiping by the wiping part and wringing of the wiping part can be ensured.

In some embodiments of the invention, the connecting rod is provided with an elastic projection; the mop rod is sleeved on the outer side of the connecting rod, and a positioning hole matched with the elastic bulge is formed in the mop rod.

In another aspect, the mop provided by the present invention further includes a water squeezing frame slidably disposed on the mop rod, so that when the mop head and the mop rod are in a parallel position, the water squeezing frame is slid to squeeze the sliding end of the wiping portion to generate deformation.

The mop provided by the invention can wipe the ground, wall tiles and the like after the wiping part absorbs water, then the dust attached to the wiping part is washed clean under a water bucket, a water pool or a water faucet, and then the mop head and the mop rod are rotated to be parallel, so that a user can more conveniently slide the wiping part along the mop panel to generate deformation by sliding the water squeezing frame arranged on the mop rod, and the water in the wiping part is squeezed out. The mop does not need to clean the edge of a bucket, the edge of a pool or the edge of a step when squeezing water. The mop rod can be kept horizontally horizontal during wringing, and a user basically does not need to bend down or bend over, so that the fatigue of the user is reduced.

In some embodiments of the invention, the wringing rack is provided with a through opening for the mop panel to longitudinally pass through and an abutting part capable of blocking the wiping part.

In a preferred embodiment of the present invention, the wringing rack is U-shaped, two tail ends of the wringing rack are slidably connected to the mop rod, and enclose with the mop rod to form a through opening, and a front end of the wringing rack is used as an abutting portion for squeezing the wiping portion to deform.

In some embodiments of the invention, the abutting part is a water squeezing column which extends from the front end of the water squeezing frame to the direction of the mop rod and is used for squeezing the wiping part to generate deformation.

In some embodiments of the present invention, the mop further comprises a squeezing sleeve rod slidably sleeved on the mop rod, the squeezing frame is fixedly disposed on the squeezing sleeve rod, a guide groove is disposed on an inner wall of the squeezing sleeve rod along a length direction thereof, and an elastic buckle is disposed at an end of the guide groove; the surface of the mop rod is provided with a guide screw matched with the guide groove, so that when the wringing sleeve rod slides to the uppermost end relative to the mop rod, the guide screw enters the elastic buckle.

The mop provided by the invention is provided with the water squeezing sleeve rod capable of sliding along the mop rod, and the water squeezing frame is fixedly arranged on the water squeezing sleeve rod, so that a user can drive the water squeezing frame to move by means of the water squeezing sleeve rod to squeeze the wiping part. The wringing sleeve rod can enable a user to finish wringing actions without bending down or bending over when the mop rod is vertically arranged, so that the fatigue of the user is reduced. In addition, the guide groove in the water squeezing loop bar can provide guide for the guide screw on the mop bar, so that the water squeezing loop bar can move linearly along the mop bar all the time. The elastic buckle provides a fixed position for the guide screw, and the wringing loop bar is prevented from sliding relative to the mop bar randomly. When water is accumulated, a user needs to apply a certain force to separate the guide screw from the elastic buckle, and then the water squeezing operation is completed.

In yet another aspect, the present invention provides a mopping assembly comprising: a mop as described above; and the water squeezing barrel is provided with a water squeezing opening, the water squeezing opening can be used for the mop panel to pass through along the length direction of the mop panel, and one edge of the water squeezing opening forms a leaning part for blocking the wiping part.

In a preferred embodiment of the invention, the squeezing opening can only allow the mop panel and the mop rod to pass through together along the length direction of the mop panel and the mop rod, and one edge of the squeezing opening forms an abutting part for blocking the wiping part.

In some embodiments of the invention, the water squeezing barrel is further provided with a cleaning opening through which the whole mop head can pass, and the cleaning opening is preferably provided with a hairbrush. In some forms, the purge port is shared with the flush port and the brush is positioned against the opposite edge of the flush port.

The floor mopping assembly provided by the invention is provided with the water squeezing bucket matched with the mop. The water squeezing bucket is provided with a water squeezing opening. The user can squeeze the wiping part through the water squeezing opening to generate deformation. More conveniently, the water squeezing barrel is provided with the cleaning opening, so that a user can complete water squeezing at the water squeezing opening after the cleaning opening cleans the wiping part, and the use is more convenient.

The present invention also provides another mopping assembly, comprising: a water squeezing bucket with a protruding component in the bucket is used as an abutting part for supporting the wiping part. Preferably, the protrusion is a protrusion protruding upward from the bottom of the tub or protruding inward from the wall of the tub.

The mop component can be used for cleaning the wiping part in the water squeezing barrel, when the water level in the barrel is low, or the water in the water squeezing barrel is poured, and the wiping part is squeezed by the convex component in the barrel to generate deformation, so that the mop component is more convenient to use.

Drawings

FIG. 1 is a schematic view of a mop head according to example 1 of the present invention;

FIG. 2 is an exploded view of a mop head provided in example 1 of the present invention;

FIG. 3 is a schematic cross-sectional view of a mop head provided in example 1 of the present invention;

FIG. 4 is a schematic cross-sectional view of the mating of the upper and lower panels of a mop head provided in example 1 of the present invention;

FIG. 5 is a schematic view of a mop head according to example 2 of the present invention;

FIG. 6 is an exploded view of a mop provided in accordance with example 3 of the present invention;

FIG. 7 is a schematic view showing a state of use of a mop in accordance with example 3 of the present invention in preparation for squeezing water;

FIG. 8 is a schematic view of a pivoting structure of a mop provided in example 3 of the present invention with the mop head and mop pole in an upright position;

FIG. 9 is a schematic view of a pivoting structure of a mop provided in example 3 of the present invention with the mop head and the mop rod in a parallel position;

FIG. 10 is a schematic structural view of a mop provided in example 4 of the present invention (the left view is a schematic view showing a squeezing state before squeezing water and the right view);

FIG. 11 is a schematic structural view of a mop with a wringing rack provided in example 4 of the present invention;

FIG. 12 is a schematic view of a structure with a wringing rack provided in embodiment 5 of the invention (the left view is a wringing sleeve rod, the right view is a mop rod)

FIG. 13 is a schematic structural view of a mopping assembly provided in embodiment 6 of the present invention;

FIG. 14 is a schematic view of a mopping assembly according to embodiment 6 of the present invention in a wringing state (section);

fig. 15 is a schematic structural view of a squeezing barrel according to embodiment 8 of the present invention;

FIG. 16 is a schematic view of the use of the floor mopping assembly according to embodiment 8 of the present invention (the left view is a schematic view of the water squeezing state before water squeezing, and the right view is a schematic view of the water squeezing state);

fig. 17 is a schematic view of a mop head and a cylindrical body of a floor mopping assembly according to the present invention in a length comparison or cleaning state.

Description of reference numerals:

a mop head 1;

a mop panel 11; an upper panel 111; a lower panel 112; a long through hole 113; (ii) a

A wiping section 12; a stress plate 121;

a stopper 13;

a slide guide member 14;

a mounting block 15; a T-shaped sliding end 151; a through hole 151' of the mounting block; a mounting plate 152;

a connecting member 16; the first recess 161; a second recess 162;

a mop 2;

a mop rod 21; a guide screw 211;

a connecting rod 22; the pressing piece 221; a spring 222; the elastic projection 223;

a wringing rack 23; a through-hole 231; an abutting portion 232;

a wringing loop bar 24; a guide groove 241; an elastic buckle 242;

a mopping assembly 3;

a squeezing tub 31;

a squeezing port 32;

a cleaning port 33;

a protruding member 34.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention will be described in further detail with reference to the accompanying drawings and specific embodiments. While exemplary embodiments of the present disclosure are shown in the drawings, it should be understood that the present disclosure may be embodied in various forms and should not be limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete, and will fully convey the concept of the invention to those skilled in the art.

Mop head

Example 1

As shown in fig. 1, the present embodiment provides a mop head 1 comprising a mop panel 11 and a wiping portion 12. The wiping part 12 is provided on the mop panel 11, and at least one end of the wiping part 12 can slide along the length direction of the mop panel 11, so that the wiping part 12 can deform along the length direction thereof.

In this embodiment, the first end (left end as shown in the figure) of the wiping portion 12 is fixed on the mop panel 11, or the first end of the mop panel 11 is provided with a limiting portion 13 to prevent the first end from deforming outwards towards the mop panel 11 when the second end (right end as shown in the figure) of the wiping portion 12 is squeezed and deformed along the length direction of the mop panel 11.

It will be understood by those skilled in the art that the two ends of the mop panel 11 may be provided with the stoppers 13, respectively, so that when the first end or the second end of the one-side sliding wiping part 12 is slid, the opposite end will not deform outward toward the mop panel 11.

Thereby, the moisture in the wiping portion 12 can be squeezed out by its own compression set. The original length of the wiping part 12 is L, the maximum deformation amount is L ', and the deformation amount satisfies L/2 < L' < L, namely the deformation amount of the wiping part 12 is more than half of the length thereof and less than the length thereof.

As shown in fig. 2, the mop panel 11 is provided with a sliding guide member 14, and the wiping portion 12 is fixedly provided with at least one mounting block 15 (three mounting blocks 15 are shown in fig. 2) capable of cooperating with the sliding guide member 14, so that the mounting block 15 can slide along the length direction of the mop panel 11 under the guidance of the sliding guide member 14.

As shown in fig. 3, in the present embodiment, the slide guide member 14 is embodied as a T-shaped groove provided along the longitudinal direction of the mop panel 11. The mounting block 15 has a T-shaped sliding end 151 that mates with the T-shaped slot, thereby enabling the mounting block 15 to slide along the T-shaped slot.

Still further, referring to FIG. 4, the mop panel 11 includes an upper panel 111 and a lower panel 112. The lower panel 112 and the upper panel 111 are provided with a clearance groove formed therebetween, and the lower panel 112 has a long through-hole 113 arranged along the length direction thereof. The T-shaped sliding end 151 of the mounting block 15 can be suspended from the lower panel 112 through the elongated through hole 113 so that it can slide along the elongated through hole 113.

In this embodiment, both ends of the lower panel 112 and the upper panel 111 are fixedly connected so that the upper panel 111 and the lower panel 112 can enclose a space for accommodating the T-shaped sliding end 151. It will be appreciated by those skilled in the art that the manner of enclosing the space for accommodating the T-shaped sliding end 151 can be varied, for example, two "L" shaped lower panels 112 are fixed to the two ends of the upper panel 111, and the inventor is not limited thereto, as long as the installation block 15 can slide along the length direction of the mop panel 11 via the T-shaped sliding end 151.

As shown in fig. 1, for better wringing effect, a stress plate 121 is provided on the end of at least one end of the wiping part 12 capable of sliding, and the length and/or width of the stress plate does not prevent the wiping part 12 from wiping the ground, preferably, in order to make the connection between the mounting block and the wiping part 12 more firm, the stress plate is fixed integrally or integrally formed with the mounting block at the end.

Thus, when it is desired to squeeze out the moisture in the mop head 1, the first end or the second end of the wiping part 12 is pushed to move along the sliding guide 14 of the mop panel 11, so that the compression deformation of the wiping part 12 can be realized.

As a modification, in a similar manner, the slide guide member 14 is a T-shaped projection provided along the length direction of the mop panel 11, and the mounting block 15 has a T-shaped groove matching the T-shaped projection so that the mounting block 15 can slide along the T-shaped projection.

Example 2

Referring to fig. 5, the present embodiment is different from embodiment 1 in that the slide guide 14 is embodied as at least one bar fixedly provided in a longitudinal direction of the mop panel 11. The mounting block 15 has a through hole 151' that can be sleeved on the rod so that the mounting block 15 can slide along the rod.

Preferably, the sliding guide member 14 is embodied as two parallel rods fixedly provided along the length direction of the mop panel 11, and the mounting block 15 has a plurality of (two or more) through holes 151' capable of being fitted over the two parallel rods, and the mounting block 15 is arranged at intervals along the length direction of the wiping part 12. The sum of the pitches of the plurality of mounting blocks 15 in the longitudinal direction of the mop panel 11 is equal to the maximum deformation amount L' of the wiping part 12.

The rods shown in fig. 5 are circular in section and the through holes 151' have two holes which cooperate with the two rods, respectively, to enable the mounting block 15 to slide along the rods. It will be appreciated by those skilled in the art that the cross-sectional shape of the rod may be varied and is not limited to a circular shape or a groove that is not completely enclosed. For example, the through-holes 151 'may be elongated so that two rods can pass through one through-hole 151', as well as allowing the mounting block 15 to slide along the rods. Furthermore, two sets of mounting blocks 15 may be slidably disposed on each rod, each set of mounting blocks 15 being slidable along a respective rod.

Mop with handle

Example 3

Referring to fig. 6 and 7, the present embodiment provides a mop 2 including any one of the mop heads 1 described above and a mop rod 21 connected to the mop head 1.

Preferably, the mop rod 21 is pivotally connected to the mop head 1 such that the mop head 1 can be rotated to a position parallel or perpendicular to the mop rod 21.

Further, referring to fig. 8 and 9, the mop 2 includes a connecting member 16 provided on the mop panel 11, the connecting member 16 having a first recess 161 (high-position stopper) and at least one second recess 162 (low-position stopper) on its surface; the connecting rod 22 is arranged at the tail end of the mop rod 21, and the connecting rod 22 is hinged with the connecting piece 16; a spring 222 and a pressing member 221 provided inside the link 22, the pressing member 221 being capable of being held in contact with the link 16 by the elasticity of the spring 222.

When the mop rod 21 and the mop panel 11 are perpendicular to each other, at least a portion of the pressing member 221 enters the first recess 161. When the mop rod 21 is rotated to be parallel to the mop panel 11, at least a portion of the pressing member 221 enters the second recess 162.

In the present embodiment, the surface of the connecting member 16 is arc-shaped, and the first recess 161 (high-position limiting portion) and the second recess 162 (low-position limiting portion) are disposed on the arc-shaped surface. As will be appreciated by those skilled in the art, the arcuate shape of the surface of the connector 16 is provided to facilitate smooth rotation of the mop rod 21 relative to the mop panel 11. The surface of the connecting piece 16 may have other shapes, such as trapezoidal. In addition, the second recess 162 may have two and be respectively disposed at both sides of the first recess 161, so that the mop rod 21 and the mop panel 11 can be parallel to each other when at least a portion of the pressing piece 221 enters any one of the second recesses 162.

Furthermore, the connecting rod 22 is provided with an elastic protrusion 223, the mop rod 21 is sleeved outside the connecting rod 22, and a positioning hole (not shown) matched with the elastic protrusion 223 is formed on the connecting rod. The elastic projection 223 may be integrally formed with the connection rod 22. In a normal state, the elastic protrusion 223 is located in the positioning hole on the mop rod 21, so that the connecting rod 22 and the mop rod 21 are firmly connected. When the elastic projection 223 is moved toward the inside of the mop rod 21 by an external force, the connection rod 22 and the mop rod 21 can be separated from each other.

The mop provided by the embodiment can be as shown in fig. 7, the mop head 1 is rotated to a position parallel to the mop rod 21, the first end or the second end of the wiping part 12 abuts against the edge of a common water bucket, and then the wiping part 12 is pressed downwards to deform so as to squeeze out the water in the wiping part 12.

Example 4

As shown in fig. 10, the mop 2 provided in this embodiment further includes a water squeezing frame 23 slidably disposed on the mop rod 21 based on embodiment 3, so that when the mop head 1 is in a parallel position with the mop rod 21, the water squeezing frame 23 slides downward to squeeze the second end of the wiping portion 12 to deform, thereby discharging the water in the wiping portion 12.

As shown in fig. 11, the water squeezing frame 23 is provided with a through hole 231 for the mop panel 11 to longitudinally pass through and an abutting part 232 capable of blocking the wiping part. When the wringing rack 23 is slid downward, the mop panel 11 is passed through the through opening 231, and the first end or the second end of the wiping portion 12 is stopped by the abutting portion 232 of the wringing rack 23. The opposite end of the wiping part 12 is restricted by the wringing bracket 23 so that the first end or the second end of the wiping part 12 moves along the slide guide member 14 of the mop panel 11 (the wiping part 12 is deformed), squeezing out the water in the wiping part 12.

Further, the wringing frame 23 is U-shaped, two tail ends of the frame are slidably connected to the mop rod 21, and enclose with the mop rod 21 to form a through hole 231, and a front end of the frame is used as an abutting part for squeezing the wiping part 12 to deform. It will be appreciated by those skilled in the art that the shape of the wringing rack 23 is dependent upon the mop panel 11 and the wiping portion 12, and therefore the wringing rack 23 can take other shapes as long as it is sufficient that the mop panel 11 can pass through while the wiping portion 12 is blocked when sliding downwardly.

Further, the abutting portion 232 is a column shape extending from the front end of the wringing bracket 23 toward the mop rod 21 for pressing the wiping portion 12 to deform. When the mop panel 11 passes through the through hole 231, the wiping part 12 is blocked by the abutting part 232 to be deformed.

Example 5

Referring to fig. 12, the present embodiment is different from embodiment 4 in that the mop 2 includes a wringing sleeve 24 slidably fitted over the mop rod 21. The wringing bracket 23 is fixedly provided on the wringing sleeve rod 24. The inner wall of the water squeezing loop bar 24 is provided with a guide groove 241 along the length direction, and the tail end of the guide groove 241 is provided with an elastic buckle 242. The surface of the mop rod 21 is provided with a guide screw 211 matching with the guide groove 241 so that the guide screw 211 enters the elastic catch 242 when the wringing sleeve rod 24 slides to the uppermost end with respect to the mop rod 21.

Based on the above arrangement, in a normal state, the guide screw 211 is located in the elastic buckle 242, so that the wringing sleeve rod 24 does not slide arbitrarily relative to the mop rod 21. When water is squeezed, the water squeezing sleeve rod 24 can always keep moving linearly along the mop rod 21 by means of the matching of the guide groove 241 and the guide screw 211, so that the possibility of friction and blockage between the water squeezing sleeve rod and the mop rod is reduced. When the squeezing is completed, the guide screw 211 enters the elastic buckle 242 again (returns to the normal state).

Mopping assembly

Example 6

Referring to fig. 13 and 14, the present embodiment provides a floor mopping assembly 3 including any one of the mops 2 as described above and a water squeezing tub 31. The upper cover of the water squeezing barrel 31 is provided with a water squeezing opening 32, the water squeezing opening 32 can be used for the mop panel 11 to pass through along the length direction, and one edge of the water squeezing opening 32 forms an abutting part for blocking the wiping part 12.

Based on this, the mop head 1 is rotated to a position parallel to the mop rod 21, and is pressed downwards in alignment with the water squeezing opening 32, so that the mop panel 11 longitudinally (downwards as shown in fig. 14) passes through the water squeezing opening 32, the wiping part 12 is blocked by the abutting part of the upper cover of the water squeezing bucket 31 to generate deformation, and the water in the wiping part 12 is squeezed out.

Further, the squeezing opening 32 can only allow the mop panel 11 and the mop rod 21 to pass through together along the length direction of the two, and one edge of the squeezing opening 32 forms an abutting part for blocking the wiping part 12.

It will be appreciated by those skilled in the art that when mop 2 is used in conjunction with a wringing bucket 31 having a wringing slot 32, mop 2 may or may not include a wringing rack 23.

Example 7

Still referring to fig. 14, this embodiment is different from embodiment 6 in that the water squeezing barrel 31 is further provided with a cleaning opening 33 through which the entire mop head 1 can pass, preferably the cleaning opening is provided with a brush.

Therefore, when in use, the mop head 1 can firstly extend out of the water squeezing barrel 31 through the cleaning opening 33 for cleaning, and then the water squeezing opening 32 is used for squeezing water.

Example 8

As shown in fig. 15 to 17, the floor mopping assembly 3 provided by the present embodiment includes any one of the mops 2 and the water squeezing bucket 31. The bottom of the squeezing tub 31 has a protruding part 34, and the protruding part 34 serves as an abutting part for supporting the wiping part 12. When squeezing, the mop 12 is pressed down after being aligned with the protruding component 34, the mop panel 11 and the mop rod 21 continue to move downwards, and the mop 12 is prevented from deforming after being stopped by the protruding component 34, so as to squeeze water.

It will be appreciated by those skilled in the art that the height of the protruding part 34 is greater than the length of the mop panel 11 to prevent the mop panel 11 from touching the bottom of the water squeezing tub 31, so that it has a better water squeezing effect and the bottom can have a certain level of water when washing. Of course, it is also possible that the height of the protruding member 34 is less than or equal to the length of the mop panel 11. In addition, a protruding member may be formed inward of the side wall of the tub as an abutting portion.

Finally, it should be noted that the above examples are only used to illustrate the technical solutions of the present invention and are not limitative. Although the present invention has been described in detail with reference to the embodiments, it will be understood by those skilled in the art that various changes may be made and equivalents may be substituted without departing from the spirit and scope of the invention as defined in the appended claims.

Claims (26)

1. A mop head (1) comprising a mop panel (11), a wiping part (12) arranged on the mop panel (11), characterized in that at least one end of the wiping part (12) is slidable along the length direction of the mop panel (11) so that the wiping part (12) can deform along its own length direction.

2. The mop head (1) according to claim 1, wherein a first end of the wiping part (12) is fixedly arranged on the mop panel (11), or the mop panel (11) is provided with a stopper (13) blocking the first end of the wiping part (12), so as to prevent the first end from being deformed outward by the mop panel (11) when the second end of the wiping part (12) is pressed and deformed along the length direction of the mop panel (11).

3. The mop head (1) according to claim 1, wherein the first end and the second end of the wiping part (12) can slide along the length direction of the mop panel (11), and the two ends of the mop panel (11) are respectively provided with a limiting part (13) for blocking the first end and the second end of the wiping part (12), so that when one end of the wiping part (12) is squeezed and deformed along the length direction of the mop panel (11), the other end of the wiping part (12) is deformed outwards from the mop panel (11) by the mop panel.

4. A mop head (1) according to any of claims 1 to 3,

the original length of the wiping part (12) is L, the maximum deformation amount is L ', and L/2 < L' < L is satisfied.

5. A mop head (1) according to any of claims 1 to 3,

at least one sliding guide member (14) is arranged in the length direction of the mop panel (11);

at least one mounting block (15) matched with the sliding guide component (14) is fixedly arranged on the wiping part (12), so that the mounting block (15) can slide along the length direction of the mop panel (11) under the guide of the sliding guide component (14).

6. The mop head (1) according to claim 5, characterized in that:

the sliding guide part (14) is a T-shaped groove or an inverted L-shaped groove arranged along the length direction of the mop panel (11); the mounting block (15) has a T-shaped sliding end (151) matching the T-shaped slot or an L-shaped sliding end matching the inverted L-shaped slot, such that the mounting block (15) can slide along the T-shaped slot or in the inverted L-shaped slot

Or the sliding guide member (14) is a T-shaped or L-shaped protrusion provided along the length direction of the mop panel (11), and the mounting block (15) has a T-shaped or L-shaped groove matching the T-shaped or L-shaped protrusion so that the mounting block (15) can slide along the T-shaped or L-shaped protrusion.

7. The mop head (1) according to claim 6, characterized in that the mop panel (11) comprises an upper panel (111) and a lower panel (112) with a gap formed therebetween and the lower panel (112) has a through-long hole (113) arranged along its length direction so that the T-shaped groove is formed between the upper panel (111) and the lower panel (112);

the T-shaped sliding end (151) of the mounting block (15) can be suspended from the lower panel (112) through the elongated through hole (113) such that it can slide along the elongated through hole (113).

8. The mop head (1) according to claim 5, characterized in that:

the sliding guide part (14) is at least one rod fixedly arranged along the length direction of the mop panel (11);

the mounting block (15) has a hole or slot (151) that can be sleeved on the rod to enable the mounting block (15) to slide along the rod.

9. The mop head (1) according to claim 8, characterized in that:

the sliding guide part (14) is two parallel rods fixedly arranged along the length direction of the mop panel (11);

the mounting blocks (15) are provided with through holes or grooves (151 ') capable of being sleeved on the two parallel rods or corresponding mounting blocks (15) corresponding to each rod, the mounting blocks (15) are provided with through holes or grooves (151') capable of being sleeved on the corresponding rods, and the mounting blocks (15) are provided with two or more than two through holes or grooves arranged at intervals along the length direction of the wiping part (12).

10. The mop head (1) according to claim 9, characterized in that:

the sum of the distances between the mounting blocks (15) in the length direction of the mop panel (11) is equal to the maximum deformation of the wiping part (12).

11. The mop head (1) according to claim 5, characterized in that:

the end of at least one end of the wiping part (12) capable of sliding is provided with a stress plate (121), and the length and/or the width of the stress plate do not prevent the wiping part (12) from wiping the ground.

12. A mop head (1) according to any of claims 1 to 3, characterized in that the wiping part (12) is a water-absorbing wipe formed by one of or a combination of collodion, sponge, foam, cloth.

13. A mop (2), characterized in that it comprises:

a mop head (1) according to any of claims 1 to 12; and

a mop rod (21) connected with the mop head (1).

14. A mop (2) as defined in claim 13 wherein:

the mop head (1) and the mop rod (21) are pivotally connected so that the mop head (1) can be rotated to a position parallel or perpendicular to the mop rod (21).

15. A mop (2) as claimed in claim 14, comprising:

a connector (16) disposed on the mop panel (11), the connector (16) having a first recess (161) and at least one second recess (162) on a surface thereof;

the connecting rod (22) is arranged on the mop rod (21), and the connecting rod (22) is hinged with the connecting piece (16);

a spring (222) and a pressing piece (221) provided inside the connecting rod (22) such that the pressing piece (221) can be held in contact with the connecting piece (16) by virtue of the elasticity of the spring (222);

when the pressing piece (221) enters the first recess (161), the mop panel (11) and the mop rod (21) are perpendicular to each other;

when the pressing piece (221) enters the second recess (162), the mop panel (11) and the mop rod (21) are parallel to each other.

16. A mop (2) as defined in claim 14 wherein:

an elastic bulge (223) is arranged on the connecting rod (22);

the mop rod (21) is sleeved on the outer side of the connecting rod (22), and a positioning hole matched with the elastic bulge (223) is formed in the mop rod.

17. A mop (2) as claimed in any one of claims 13 to 16 further comprising:

the water squeezing frame (23) is slidably arranged on the mop rod (21), so that when the mop head (1) and the mop rod (21) are in parallel positions, the water squeezing frame (23) is slid to squeeze the wiping part (12) to deform.

18. A mop (2) as defined in claim 17 wherein:

the water squeezing frame (23) is provided with a penetrating opening (231) for the mop panel (11) to longitudinally penetrate through and an abutting part (232) capable of blocking the wiping part (12).

19. A mop (2) as defined in claim 18 wherein:

the water squeezing frame (23) is U-shaped, two tail ends of the water squeezing frame are connected to the mop rod (21) in a sliding mode, the water squeezing frame and the mop rod (21) are enclosed to form a through hole (231), and the front end of the water squeezing frame is used as an abutting portion and used for squeezing the wiping portion (12) to deform.

20. A mop (2) as defined in claim 19 wherein:

the abutting part is a column (232) which is formed by extending the front end of the wringing frame (23) towards the direction of the mop rod (21) and is used for extruding the wiping part (12) to generate deformation.

21. A mop (2) as claimed in claim 20, comprising:

the mop comprises a mop rod (21), a wringing sleeve rod (24) which is slidably sleeved on the mop rod (21), a wringing frame (23) is fixedly arranged on the wringing sleeve rod (24), a guide groove (241) is formed in the inner wall of the wringing sleeve rod (24) along the length direction of the wringing sleeve rod, and an elastic buckle (242) is arranged at the tail end of the guide groove (241);

the surface of the mop rod (21) is provided with a guide screw (211) matched with the guide groove (241), so that when the wringing sleeve rod (24) slides to the uppermost end relative to the mop rod (21), the guide screw (211) enters the elastic buckle (242).

22. A mopping assembly (3), characterized in that it comprises:

a mop (2) according to any of claims 13 to 21; and

a water squeezing bucket (31) with a water squeezing opening (32), wherein the water squeezing opening (32) can be used for the mop panel (11) to pass through along the length direction of the water squeezing opening, and one edge of the water squeezing opening (32) forms an abutting part for blocking the wiping part (12).

23. A mopping assembly (3) according to claim 22, characterized in that:

the water squeezing opening (32) can only allow the mop panel (11) and the mop rod (21) to pass through together along the length direction of the mop panel and the mop rod, and one edge of the water squeezing opening (32) forms an abutting part for blocking the wiping part (12).

24. A mopping assembly (3) according to claim 23, wherein:

the water squeezing barrel (31) is also provided with a cleaning opening (33) through which the whole mop head (1) can pass, and optionally the cleaning opening is provided with a brush.

25. A mopping assembly (3), characterized in that it comprises:

a mop (2) according to any of claims 13 to 21; and

a squeezing barrel (31) having a protruding member (34) inside the barrel, the protruding member (34) serving as an abutment for supporting the wiping portion (12).

26. A mopping assembly (3) according to claim 25, characterized in that:

the protruding part (34) is a part protruding upwards from the bottom of the barrel or protruding inwards from the barrel wall.

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