CN212879185U - Foldable mop subassembly, foldable mop and drying bucket - Google Patents

Abstract

The utility model discloses a foldable mop subassembly, foldable mop and drying bucket, including mop pole connecting block, mop board axis of rotation and mop board connecting block, the mop pole is connected to mop pole connecting block, and the mop board axis of rotation is installed on mop pole connecting block, and the setting of mop board connecting block is in the mop board axis of rotation, and the mop board connecting block is connected with the mop board, and the mop board connecting block rotates around mop board axis of rotation, and under the mop board state of drawing in, the mop board laminating is on the mop pole. The mop rod connecting block is used for being disassembled and assembled with the mop rod or directly made into an integrated structure with the mop rod, thereby being convenient for the production and the manufacture of the folding mop. The mop plate connecting block is used for being connected with the mop plate to drive the mop plate to rotate around the mop plate rotating shaft, so that the mop plate can be folded or put down. The mop plate is attached to the outer wall of the mop rod after being folded, so that the mop plate is arranged along the axial direction of the mop rod, and the projection area of the mop plate on the plane perpendicular to the mop rod is reduced.

Description

Foldable mop subassembly, foldable mop and drying bucket

[ technical field ] A method for producing a semiconductor device

The utility model relates to a foldable mop subassembly, foldable mop and drying bucket belongs to the folding mop field.

[ background of the invention ]

Most of the foldable mops adopt the mop plate which is divided into a plurality of blocks for assembly, so that one of the mops is used as the center after being folded, and other mops are folded at the center edge, so that the folded mop plate still occupies a larger space, and the diameter of a barrel for cleaning and drying the mop is also greatly required.

[ Utility model ] content

The technical problem to be solved by the utility model is to overcome the defects of the prior art and provide a folding mop component, a folding mop and a drying barrel which have more reasonable structural design and occupy smaller space after folding.

Solve the technical problem, the utility model discloses a following technical scheme:

the utility model provides a foldable mop subassembly, includes mop pole connecting block, mop board axis of rotation and mop board connecting block, and the mop pole is connected to mop pole connecting block, and the mop board axis of rotation is installed on mop pole connecting block, and the setting of mop board connecting block is in mop board axis of rotation, and the mop board connecting block is connected with the mop board, and the mop board connecting block rotates around mop board axis of rotation, and under the mop board folded state, the mop board laminating is on the mop pole.

The utility model has the advantages that:

the mop rod connecting block is used for being disassembled and assembled with the mop rod or directly made into an integrated structure with the mop rod, thereby being convenient for the production and the manufacture of the folding mop. The mop plate connecting block is used for being connected with the mop plate to drive the mop plate to rotate around the mop plate rotating shaft, so that the mop plate can be folded or put down. The mop plate is folded and then attached to the outer wall of the mop rod, so that the mop plate is arranged along the axial direction of the mop rod, the projection area of the mop plate on the plane perpendicular to the mop rod is reduced, and the required diameter of a required drying cylinder is correspondingly reduced.

Foldable mop subassembly still includes mop pole rotation main shaft, and mop pole rotation main shaft rotates and sets up on mop pole connecting block, and the mop pole rotates the main shaft and has radially seted up the commentaries on classics hole, and mop board axis of rotation rotates and sets up in commentaries on classics hole department.

The U-shaped groove is arranged on the connecting block of the mop plate, the main shaft is rotated by the mop rod and arranged in the U-shaped groove, and the rotating shaft of the mop plate runs through the side wall of the U-shaped groove.

Foldable mop subassembly still includes mop pole rotation countershaft and universal rotatory piece, and the mop pole rotates the main shaft and rotates and install on universal rotatory piece, and universal rotatory piece rotates and installs on the mop pole rotates the countershaft, and the relative mop pole of mop pole rotation countershaft of mop pole rotates the main shaft slope setting, and the mop pole rotates the countershaft and installs on mop pole connecting block.

Be provided with the spacing of elasticity on the mop pole connecting block, on the spacing of lateral wall extrusion elasticity of mop board connecting block, the mop board connecting block rotates so that the spacing deformation of elasticity around mop board axis of rotation axis.

Spacing a quantity of elasticity has two, and the mop board connecting block has two, and two spacing of elasticity are located between two mop board connecting blocks, and two mop board connecting blocks extrude respectively on two spacing of elasticity, are provided with positioning spring between two spacing of elasticity.

The utility model discloses still be provided with middle stopper between two elasticity spacing, positioning spring quantity is two, and two positioning spring set up the both sides at middle stopper respectively.

Foldable mop subassembly still includes rolling gear and push-and-pull rack, and the mop board connecting block is fixed with rolling gear, and rolling gear meshing push-and-pull rack, push-and-pull rack set up on mop pole connecting block along axial activity.

The mop plate connecting block of the utility model has at least two connecting blocks and one push-pull rack.

Foldable mop subassembly still includes the push-and-pull rod, and the push-and-pull rod sets up on mop pole connecting block along axial activity, and the mop board connecting block rotates and sets up on the push-and-pull rod.

Be provided with the swinging arms on the mop pole connecting block, the upper end of swinging arms is rotated and is installed on the mop pole connecting block, and the lower extreme of swinging arms rotates and sets up on the mop board, and the mop board rotates and deformation on the mop pole connecting block in order to drive the swinging arms towards the mop pole.

A folding mop is characterized in that: the mop comprises a mop plate, a mop rod, a mop cloth and a folding mop component, wherein a connecting block of the mop rod is arranged on the mop rod, and the mop cloth is arranged on the bottom wall of the mop plate.

A drying barrel for drying a foldable mop comprises a barrel body, wherein a scraping block and/or a hair brush are/is arranged on the inner wall of the barrel body, or a centrifugal seat is arranged on the bottom wall of the barrel body.

Other features and advantages of the present invention will be disclosed in more detail in the following detailed description and the accompanying drawings.

[ description of the drawings ]

The invention will be further explained with reference to the drawings:

fig. 1 is a schematic view of a three-dimensional structure of a folding mop in an open state according to embodiment 1 of the present invention;

fig. 2 is a schematic structural view of the foldable mop of embodiment 1 of the present invention in a folded state;

fig. 3 is a front view of a foldable mop assembly according to embodiment 1 of the present invention;

fig. 4 is a left partial structure diagram of the folding mop assembly of embodiment 1 of the present invention;

fig. 5 is a front view of a foldable mop assembly according to embodiment 2 of the present invention;

fig. 6 is a front view of a foldable mop assembly according to embodiment 3 of the present invention;

fig. 7 is a front view of a foldable mop assembly according to embodiment 4 of the present invention;

fig. 8 is a front view of a foldable mop assembly according to embodiment 5 of the present invention;

fig. 9 is a front view of a foldable mop assembly according to embodiment 6 of the present invention;

fig. 10 is a front view of a foldable mop assembly according to embodiment 7 of the present invention;

fig. 11 is a front view of a foldable mop assembly according to embodiment 8 of the present invention;

fig. 12 is a first perspective view of a foldable mop assembly according to embodiment 9 of the present invention;

fig. 13 is a schematic perspective view of a second foldable mop assembly according to embodiment 9 of the present invention;

fig. 14 is an exploded view of a folding mop assembly according to example 9 of the present invention;

fig. 15 is a schematic front perspective structural view of a drying barrel according to embodiment 10 of the present invention;

fig. 16 is a front perspective structural schematic view of a drying barrel according to embodiment 11 of the present invention.

[ detailed description ] embodiments

The technical solutions of the embodiments of the present invention are explained and explained below with reference to the drawings of the embodiments of the present invention, but the embodiments described below are only preferred embodiments of the present invention, and not all embodiments. Based on the embodiments in the embodiment, other embodiments obtained by those skilled in the art without any creative work belong to the protection scope of the present invention.

In the following description, the appearances of the indicating orientation or positional relationship, such as the terms "inner", "outer", "upper", "lower", "left", "right", etc., are only for convenience in describing the embodiments and for simplicity of description, and do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and are not to be construed as limiting the invention.

Example 1:

referring to fig. 1-4, the present embodiment provides a folding mop including a mop plate, a mop pole 1, a mop swab 2, and a folding mop assembly.

In this embodiment, the number of the mop plates is two, and the mop plates are respectively the first mop plate 31 and the second mop plate 32. The folding mop component is arranged at the lower end of the mop rod 1. The first mop plate 31 and the second mop plate 32 are both pivotally mounted to the folding mop assembly such that the first mop plate 31 and the second mop plate 32 are both able to pivot towards the mop pole 1 or away from the mop pole 1.

The number of the mop cloth 2 is two, and the two mop cloth 2 are respectively arranged on the bottom wall of the first mop plate 31 and the bottom wall of the second mop plate 32.

The first mop plate 31 and the second mop plate 32 both rotate towards the direction far away from the mop rod 1, when the first mop plate 31 and the second mop plate 32 both rotate to the limit positions, the folding mop is in an open state, and at the moment, the bottom wall of the first mop plate 31 and the bottom wall of the second mop plate 32 are spliced, so that the two mops 2 are spliced to form a whole mop 2. The splicing mode avoids the problems of mopping dead corners and low mopping efficiency caused by gaps among the mops 2 in the mopping process.

The first mop plate 31 and the second mop plate 32 both rotate towards the direction close to the mop rod 1, when the first mop plate 31 and the second mop plate 32 both rotate to the limit positions, the foldable mop is in a folded state, the top wall of the first mop plate 31 and the top wall of the second mop plate 32 are simultaneously attached to the mop rod 1, the projection area of the whole foldable mop in the axial direction of the mop rod 1 is the minimum, and the occupied area of the whole foldable mop is small correspondingly. Meanwhile, in the folded state, the two mops 2 are positioned at the outermost side of the folding mop in the radial direction of the mop rod 1, so that the mops 2 are very convenient to dry or clean.

In order to reduce the occupied space of the folding mop in the folded state as much as possible, in the embodiment, the first mop plate 31 and the second mop plate 32 are parallel to each other in the folded state, and meanwhile, grooves matched with the shape of the mop rod 1 are formed in the top wall of the first mop plate 31 and the top wall of the second mop plate 32, so that a part of the mop rod 1 in the folded state is accommodated in the grooves, and on the basis of reducing the occupied space, the first mop plate 31 and the second mop plate 32 are positioned by the mop rod 1.

Specifically, the folding mop assembly of the present embodiment includes a mop rod rotating spindle 42, a mop rod connecting block 41, a mop plate rotating shaft 43, and a mop plate connecting block 44.

A mop rod connection block 41 is installed at the lower end of the mop rod 1 to connect the folding mop assembly with the mop rod 1. The mop rod connecting block 41 can be directly fixedly connected with the mop rod 1 by adopting an integral forming mode or a screw mode, and can also be connected by adopting other movable connection relations.

The bottom of mop pole connecting block 41 is provided with the spacing strip 45 of elasticity, and the spacing strip 45 of elasticity can adopt metal or plastics that have certain mechanical strength, difficult fracture and can carry out certain degree of buckling to make. The mop rod rotating main shaft 42 penetrates through the elastic limiting strip 45, the mop rod rotating main shaft 42 can rotate on the elastic limiting strip 45 around the self axial direction, and the mop rod rotating main shaft 42 is rotatably installed on the mop rod connecting block 41 through the elastic limiting strip 45.

The mop rod rotating main shaft 42 is provided with a rotating hole in the radial direction, and the mop plate rotating shaft 43 is arranged at the rotating hole. The axial direction of the mop plate rotating shaft 43 is the rotating hole axial direction, and here, the rotating hole axial direction is not limited to the direction perpendicular to the axis of the mop rod rotating main shaft 42, and can be any direction inclined to the axis of the mop rod rotating main shaft 42.

The mop plate rotating shaft 43 can rotate around the self-axial direction at the rotating hole, meanwhile, the mop plate rotating shaft 43 is positioned on the mop rod rotating main shaft 42 in the self-axial direction, and the mop plate rotating shaft 43 is arranged on the mop rod connecting block 41 through the mop rod rotating main shaft 42.

The mop plate connecting block 44 is generally fixedly connected to the mop plate rotating shaft 43, and the mop plate connecting block 44 is directly and fixedly connected to the mop plate. The mop plate can rotate with the mop plate connecting block 44 about the axis of the mop plate rotating shaft 43, and simultaneously the mop plate can also rotate with the mop plate rotating shaft 43 about the axis of the mop rod rotating main shaft 42. In this embodiment, the recess is aligned with the mop rod 1 after the mop plate rotates a certain angle around the axis of the mop rod rotating spindle 42, and the mop plate is switched between the open state and the closed state by rotating around the axis of the mop plate rotating shaft 43.

The mop plate rotational axis 43 and the mop rod rotational axis 42 cooperate to increase the rotational freedom of the mop plate, and in order to maximize the incremental degree of freedom, the mop plate rotational axis 43 and the mop rod rotational axis 42 are in a generally perpendicular relationship to one another.

In order to reduce the mutual interference between the freedom of rotation of the mop plate around the axis of the mop plate rotating shaft 43 and the freedom of rotation around the axis of the mop rod rotating main shaft 42, the present embodiment adopts the following structural design: the mop plate connecting block 44 is provided with a U-shaped groove 46, the mop rod rotating main shaft 42 is arranged in the U-shaped groove 46, and the U-shaped groove 46 extends along the axial direction of the mop rod rotating main shaft 42. The mop plate rotating shaft 43 penetrates through the side walls of the two sides of the U-shaped groove 46, and the two ends of the mop plate rotating shaft 43 are fixed on the mop plate connecting blocks 44 through nuts. At this time, when the mop plate connecting block 44 and the mop plate rotating shaft 43 rotate around the axis of the rotating hole on the mop rod rotating main shaft 42, the U-shaped groove 46 can avoid the mop rod rotating main shaft 42 within a certain rotating angle. In addition, when the mop plate attachment block 44 is rotated about the axis of the mop rod rotation main shaft 42, the mop plate rotation shaft 43 and the mop rod rotation main shaft 42 can be rotated together as a unit.

Compared with the number of the mop plates, the number of the elastic limit strips 45, the number of the mop plate rotating shafts 43 and the number of the mop plate connecting blocks 44 in the embodiment are two, and the number of the mop rod rotating main shafts 42 is one. Two elasticity spacing strips 45 are controlled along the axial plane symmetry of mop pole 1, and mop pole rotation main shaft 42 runs through two mop pole rotation main shafts 42 simultaneously, and two mop board axis of rotation 43 set up respectively at the both ends of mop pole rotation main shaft 42, and two mop board axis of rotation 43 are fixed with two mop board connecting blocks 44 respectively, and two mop board connecting blocks 44 are then fixed with first mop board 31 and second mop board 32 respectively.

When the mop rod rotating main shaft 42 rotates, the two mop plate rotating shafts 43 can be driven to rotate synchronously, so that the first mop plate 31 and the second mop plate 32 can rotate around the axis of the mop rod rotating main shaft 42 synchronously in an opening state, and the splicing state of the two mops 2 in a use state is prevented from being influenced.

The two mop plate attachment blocks 44 are identical in shape and are generally rectangular blocks, ignoring the U-shaped channel 46. Taking the mop plate connecting block 44 connected to the second mop plate 32 as an example, when the second mop plate 32 is in an open state, the left side wall of the mop plate connecting block 44 presses the elastic limiting strip 45 to form surface contact. When the mop plate connecting block 44 fixed with the second mop plate 32 rotates around the axis of the mop plate rotating shaft 43 towards the mop rod 1, before the rotating angle reaches 45 degrees, the contact area between the mop plate connecting block 44 and the elastic limiting strips 45 is gradually reduced, the contact area is gradually changed into line contact between the top lateral edge of the mop plate connecting block 44 and the elastic limiting strips 45, meanwhile, the elastic limiting strips 45 are enabled to deform, and the resistance of the elastic limiting strips 45 to the rotation of the mop plate connecting block 44 is gradually increased. When the rotation angle exceeds 45 degrees, the contact area between the mop plate connecting block 44 and the elastic limiting strip 45 begins to increase again, the surface contact is gradually changed, meanwhile, the elastic limiting strip 45 gradually recovers until the rotation angle reaches 90 degrees, the second mop plate 32 is attached to the mop rod 1, and the mop rod is changed into a furled state. The second mop plate 32 is transformed from the folded state to the unfolded state.

As can be seen from the above process, when the acting force between the elastic limiting strip 45 and the mop plate connecting block 44 is minimum, the second mop plate 32 is in the folded or unfolded state, so the elastic limiting strip 45 can lock the folded or unfolded state of the second mop plate 32, and the state switching needs to be performed manually.

In other embodiments, the shapes of the elastic limit strips 45 and the mop plate connecting blocks 44 can be changed, and the acting force between the mop plate connecting blocks 44 and the elastic limit strips 45 is changed when the mop plate connecting blocks 44 rotate around the axis of the mop plate rotating shaft 43, so that the two positions with the minimum acting force are respectively used as the folding position and the unfolding position of the mop plate.

In the axial direction of the mop rod rotating main shaft 42, two elastic limit strips 45 are positioned between two mop plate connecting blocks 44, the mop plate connecting block 44 connected with the first mop plate 31 is pressed on the elastic limit strip 45 positioned on the left side from left to right, and the mop plate connecting block 44 connected with the second mop plate 32 is pressed on the elastic limit strip 45 positioned on the right side from right to left.

In this embodiment, the mop rod rotating main shaft 42 is arranged along the left-right direction, and taking the elastic limiting strip 45 located on the right side as an example, when the elastic limiting strip 45 presses the mop plate connecting block 44 rightwards, the mop plate rotating shaft 43 fixed with the mop plate connecting block 44 also tends to move rightwards, and the mop plate rotating shaft 43 and the mop rod rotating main shaft 42 are positioned in the axial direction of the mop rod rotating main shaft 42, so that the elastic limiting strip 45 located on the right side can generate a right thrust to the mop rod rotating main shaft 42. But the pushing force is transmitted to the mop plate rotating shaft 43 on the left side via the mop rod rotating main shaft 42, and is pressed to the elastic limit strip 45 on the left side via the mop plate connecting block 44 connected to the first mop plate 31, and the elastic limit strip 45 on the left side reacts to the mop rod rotating main shaft 42. By the above mode, the first mop plate 31 and the second mop plate 32 are ensured to be in stress balance in the opened or folded state at the same time, and the locking effect in the opened and folded states is ensured.

Preferably, the positioning spring 410 is arranged between the two elastic limiting strips 45, the positioning spring 410 is always in an extrusion state, and two ends of the positioning spring 410 are respectively extruded on the two elastic limiting strips 45, so that the acting force of the elastic limiting strips 45 on the mop plate connecting block 44 is supplemented, and the locking effect is further improved. Meanwhile, the positioning spring 410 can also limit the deformation amount of the elastic limiting strip 45, so that the damage of the elastic limiting strip 45 is avoided.

Example 2:

referring to fig. 5, this embodiment is different from embodiment 1 in that the folding mop assembly further includes a mop rod turning sub-shaft 47 and a universal swivel block 48.

The main shaft 42 is rotatably mounted on a universal rotating block 48, the universal rotating block 48 is rotatably mounted on a secondary shaft 47, and the secondary shaft 47 is fixedly mounted on the connecting block 41. The mop rod rotating main shaft 42 does not directly rotate on the mop rod connecting block 41, but indirectly rotates and is installed on the mop rod connecting block 41 through the universal rotating block 48, and the elastic limiting strip 45 is arranged at the bottom of the universal rotating block 48 and is arranged on the mop rod connecting block 41. The universal rotation block 48 and the auxiliary shaft 47 can further improve the freedom of movement of the first mop plate 31 and the second mop plate 32 on the mop rod connecting block 41, so that the mopping is more flexible.

In order that the degree of freedom of the first mop plate 31 and the second mop plate 32 in rotation about the axis of the mop rod rotation sub shaft 47 and the degree of freedom in rotation about the axis of the mop rod rotation main shaft 42 do not completely overlap, the mop rod rotation sub shaft 47 is disposed obliquely with respect to the mop rod rotation main shaft 42.

Preferably, the secondary shaft 47 is perpendicular to the primary shaft 42.

Example 3:

referring to fig. 6, the present embodiment is different from embodiment 2 in that an intermediate limiting block 49 is further disposed between the two elastic limiting strips 45, and the intermediate limiting block 49 is also disposed at the bottom of the universal rotation block 48, and thus disposed on the mop rod connecting block 41. The number of the positioning springs 410 is two, and the two positioning springs 410 are respectively arranged on two sides of the middle limiting block 49. The end portions of the positioning spring 410 are pressed against the elastic stopper strip 45 and the intermediate stopper 49, respectively. Middle stopper 49 can be the elasticity material, also can be the rigidity material, and middle stopper 49 has reduced the deformation pressure of single positioning spring 410, has strengthened positioning spring 410's life.

Example 4:

referring to fig. 7, the present embodiment is different from embodiment 2 in that the switching between the folded and unfolded states of the mop plate is not performed by the deformation of the elastic limit strip.

The folding mop assembly further comprises two rotating gears 411 and a push-pull rack 412, the two rotating gears 411 are respectively fixed at the upper ends of the two mop plate connecting blocks 44, the two rotating gears 411 are simultaneously meshed with the push-pull rack 412, and the push-pull rack 412 is positioned between the two rotating gears 411. The push-pull rack 412 replaces the resilient stop strip.

The universal rotating block 48 is further provided with a rack guide block 413, a rack guide groove 414 is formed in the rack guide block 413, a limiting block is fixed at the upper end of the push-pull rack 412 and arranged in the rack guide groove 414, and the inner wall of the rack guide groove 414 limits and guides the limiting block, so that the push-pull rack 412 is limited in axial movement of the push-pull rack 412 along the axial movement of the rack guide groove 414. The push-pull rack 412 is disposed on the mop rod connection block 41 through the rack guide block 413.

Taking the first mop plate 31 as an example, the first mop plate 31 rotates axially around the mop plate rotating shaft 43 connected to itself, so as to drive the rotating gears 411 connected to the first mop plate 31 to rotate, and the two rotating gears 411 are linked by the push-pull rack 412, so as to control the second mop plate 32 to rotate around the mop plate rotating shaft 43 connected to itself. Through the linkage matching of the two rotating gears 411 and the push-pull rack 412, the first mop plate 31 and the second mop plate 32 can synchronously realize the opening or closing action, and meanwhile, the self-locking of the opening or closing state is realized by the tooth matching between the rotating gears 411 and the push-pull rack 412.

Example 5:

referring to fig. 8, the present embodiment is different from embodiment 4 in that the number of the rotating gear 411 and the push-pull rack 412 is two. The two rotating gears 411 are respectively engaged with one push-pull rack 412, the push-pull racks 412 are arranged in parallel, the upper ends of the two push-pull racks 412 are connected through a connecting rod, and the connecting rod is arranged in the rack guide groove 414, so that the rack guide groove 414 guides and limits the movement of the connecting rod.

The connecting rod makes the two push-pull racks 412 move synchronously, so that the two rotating gears 411 rotate synchronously around the respective mop plate rotating shafts 43, thereby controlling the first mop plate 31 and the second mop plate 32 to be folded or unfolded synchronously.

Example 6:

referring to fig. 9, this embodiment is different from embodiment 3 in that the folding mop assembly further includes two push-pull rods 415 disposed parallel to each other instead of the elastic stopper bars. The upper ends of the two push-pull rods 415 are fixed by a push-pull rod connecting block. The universal rotation block 48 is provided with a push-pull rod guide block 416, a push-pull rod guide groove 417 is formed in the middle of the push-pull rod guide block 416, the push-pull rod connection block is movably arranged in the push-pull rod guide groove 417 along the axial direction of the push-pull rod 415, and the push-pull rod guide groove 417 guides and limits the movement of the push-pull rod 415, so that the push-pull rod 415 is movably arranged on the mop rod connection block 41 along the axial direction. The two mop plate connecting blocks 44 are respectively and rotatably arranged at the lower ends of the two push-pull rods 415.

When the first mop plate 31 rotates around the axis of the mop plate rotating shaft 43 connected with the first mop plate 31, the mop plate connecting block 44 fixed with the first mop plate 31 drags the push-pull rod 415 rotatably arranged with the mop plate connecting block 44 to move downwards, so that the other push-pull rod 415 moves downwards through the push-pull rod connecting block, and the other push-pull rod 415 drives the second mop plate 32 to rotate in the process of moving downwards, thereby controlling the first mop plate 31 and the second mop plate 32 to be synchronously folded or unfolded.

In this embodiment, the two push-pull rods 415 are located between the two mop plate rotating shafts 43, the first mop plate 31 and the second mop plate 32 are synchronously folded when the push-pull rods 415 move downwards, and the first mop plate 31 and the second mop plate 32 are synchronously unfolded when the push-pull rods 415 are pulled upwards.

Example 7:

referring to fig. 10, the present embodiment is different from embodiment 6 in that two mop plate rotating shafts 43 are located between two push-pull rods 415, the first mop plate 31 and the second mop plate 32 are simultaneously closed when the push-pull rods 415 are pulled up, and the first mop plate 31 and the second mop plate 32 are simultaneously opened when the push-pull rods 415 are moved down.

Example 8:

referring to fig. 11, the present embodiment is different from embodiment 1 in that an elastic stopper bar 45 is mounted on a mop rod connecting block 41 through a shaft. The two shafts are sleeved with positioning springs 410, and two ends of each positioning spring 410 are extruded on the bottom walls of the elastic limiting strips 45 and the mop rod connecting blocks 41 respectively. Left mop board connecting block 44 can receive the extrusion of left elasticity spacing strip 45 when first mop board 31 rotates around the mop board axis of rotation 43 axis of being connected with it, and similarly, the mop board connecting block 44 on right side can receive the extrusion of the elasticity spacing strip 45 on right side when second mop board 32 rotates around the mop board axis of rotation 43 axis of being connected with it, thereby rely on two elasticity spacing strips 45 to restrict two mop board connecting blocks 44, thereby lock second mop board 32 and the state of opening or drawing in of first mop board 31.

The second mop plate 32 and the first mop plate 31 are independently controlled in the closed state or the open state in the present embodiment.

Example 9:

referring to fig. 12-14, the folding mop assembly of this embodiment still includes a mop rod attachment block 41, a mop plate pivot shaft 43, and a mop plate attachment block 44. The number of the mop plate rotating shaft 43 and the number of the mop plate connecting blocks 44 are two, so as to control the second mop plate 32 and the first mop plate respectively, and since the second mop plate 32 and the first mop plate are symmetrical in structure, the first mop plate is omitted in the figure, and only the second mop plate 32 is used for explanation in the embodiment.

Mop pole is connected to mop pole connecting block 41, and mop board rotation axis 43 installs on mop pole connecting block 41, and mop board connecting block 44 is connected with second mop board 32, and mop board connecting block 44 rotates and sets up on mop board rotation axis 43, and then makes second mop board 32 rotate around mop board rotation axis 43 axis, and second mop board 32 is through rotating in order being close to or keeping away from the mop pole. The first mop plate is symmetrically arranged on the mop rod connecting block 41 by adopting the same structure, when the second mop plate 32 and the first mop plate are attached to the mop rod at the same time, the mop is in a folded state, and when the second mop plate 32 and the first mop plate are unfolded at the same time, the mop is in a working state.

The mop rod connecting block 41 of the present embodiment is provided with a swing rotating shaft 4181 and two swing rods 418, the swing rotating shaft 4181 is parallel to the mop plate rotating shaft 43, the upper ends of the two swing rods 418 are rotatably disposed on the swing rotating shaft 4181, and the lower ends of the two swing rods 418 are rotatably disposed on the second mop plate 32 and the first mop plate, respectively.

Taking the second mop plate 32 as an example, the second mop plate 32 is provided with a driving boss 321, and the lower end of one of the swing levers 418 is rotatably provided on the driving boss 321. In the process of rotating the second mop plate 32 around the mop plate rotating shaft 43, the lower end of the swing lever 418 is driven to rotate together through the transmission boss 321, so that the swing lever 418 can also rotate around the swing rotating shaft 4181, and meanwhile, the second mop plate 32 can also deform the swing lever 418 in the process of rotating towards the mop rod, so that the second mop plate 32 is clamped on the mop rod. When the second mop plate 32 is flipped open from the mop pole, the swing lever 418 is gradually returned and rotated so that the second mop plate 32 is re-extended.

The operation of the first mop plate is symmetrical to that of the second mop plate 32, and is not described in detail in this embodiment.

Example 10:

referring to fig. 15, the present embodiment provides a drying bucket for drying the folding mop of the embodiment 1-8, which comprises a bucket body 5, wherein a centrifugal seat 51 is arranged on the bottom wall of the bucket body 5. After the folding mop is folded, the lower end of the folding mop is inserted into the centrifugal seat 51 so as to rotate around the axis of the folding mop, and water on the mop 2 can be smoothly thrown out of the barrel body 5 because the mop 2 is the outermost part of the folding mop.

Example 11:

referring to fig. 16, the present embodiment provides a drying bucket for drying the foldable mops in embodiments 1 to 8, which includes a bucket body 5, a baffle is disposed in the middle of the bucket body 5, the baffle divides the bucket body 5 into two cavities, the bottom walls of the two cavities are both provided with a limiting device 54, and the lower ends of the two foldable mops are respectively extruded on the two limiting devices 54. The inner wall of one cavity is provided with a scraping block 52, and the inner wall of the other cavity is provided with a brush 53. The scraping block 52 and brush 53 allow the outermost portion of the swab 2 of the foldable mop to be dried and cleaned.

The above description is only for the specific embodiments of the present invention, but the protection scope of the present invention is not limited thereto, and those skilled in the art should understand that the present invention includes but is not limited to the contents described in the drawings and the above specific embodiments. Any modification which does not depart from the functional and structural principles of the present invention is intended to be included within the scope of the claims.

Claims (1)

1. A folding mop assembly characterized in that: including mop pole connecting block, mop board axis of rotation and mop board connecting block, mop pole connecting block is connected the mop pole, the mop board axis of rotation is installed on the mop pole connecting block, the mop board connecting block sets up in the mop board axis of rotation, the mop board connecting block is connected with the mop board, the mop board connecting block wind mop board axis of rotation axis rotates to make the mop board rotate towards or keep away from mop pole direction, is provided with the swinging arms on the mop pole connecting block, and the upper end of swinging arms is rotated and is installed on mop pole connecting block, and the lower extreme of swinging arms rotates and sets up on the mop board, and the mop board rotates in order to drive the swinging arms to rotate and deform on mop pole connecting block towards the mop pole.

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