CN117122248A - Collodion mop - Google Patents

Abstract

The application provides a collodion mop which comprises a rod body, a sleeve and a mounting plate. Be equipped with the collodion mop head on the mounting panel, the mounting panel articulates and forms the articulated shaft with the body of rod, and the mounting panel can rotate around the articulated shaft to make the extending direction of collodion mop head and the axial parallel of the body of rod. The mounting plate is connected with the collodion mop head in a clamping way, and a switch device is arranged on the end face of the mounting plate, which faces the rod body. The sleeve is connected with the rod body in a sliding manner, and when the extending direction of the collodion mop head is parallel to the axial direction of the rod body, the sleeve slides along the extending direction of the collodion mop head and can be abutted with the switch device so as to separate the mounting plate from the collodion mop head. Based on this, the collodion mop head can be quickly detached through the sleeve.

Description

Collodion mop

The application relates to a Chinese patent application of a collodion mop, which is divided into a plurality of patent applications with the application date of 2018, 12-month and 06-date, the application number of 2018114884966 and the application and the creation name of the collodion mop.

Technical Field

The application relates to the technical field of cleaning products, in particular to a collodion mop.

Background

The collodion mop has the greatest characteristics that the mop head is made of polyvinyl alcohol collodion while the squeezing self-cleaning function of the mop is ensured, and the polyvinyl alcohol collodion has strong water absorbability, so that the cleaning requirement of the mop head can be fully ensured.

Disclosure of Invention

The application aims to provide a collodion mop, which solves the technical problem of lower water squeezing efficiency of the collodion mop in the prior art.

The collodion mop provided by the application comprises a rod body, a sleeve and a mounting plate;

the mounting plate is provided with a collodion mop head, the mounting plate is hinged with the rod body and forms a hinge shaft, and the mounting plate can rotate around the hinge shaft so that the extending direction of the collodion mop head is parallel to the axial direction of the rod body;

the sleeve is provided with a first side wall and a second side wall which are oppositely arranged, the first side wall is provided with a sleeve bracket, the sleeve bracket can be fixed with the first side wall, and the end face of the sleeve bracket, which faces the second side wall, and the second side wall form a first cavity;

the sleeve is in sliding connection with the rod body, and when the extending direction of the collodion mop head is parallel to the axial direction of the rod body, the first cavity can be sleeved on the collodion mop head and compress the collodion mop head.

Further, be equipped with a plurality of gyro wheels on the terminal surface of sleeve support towards the second lateral wall, a plurality of the gyro wheel is followed the circumference of the terminal surface of sleeve support towards the second lateral wall sets gradually, and every the axis rotation of self can all be followed to the gyro wheel.

Further, the end face of the sleeve bracket, which faces the second side wall, is a cambered surface protruding towards the second side wall, and two ends of the cambered surface are symmetrically arranged relative to the central line of the cambered surface.

Further, the sleeve bracket is connected with the first side wall through a telescopic assembly so that the sleeve bracket can move towards or away from the second side wall.

Further, the telescopic assembly comprises a gear rack, a telescopic rod, a sliding chute or a spring.

Further, a handle is arranged on the end face, far away from the second side wall, of the sleeve support, the handle extends out of the sleeve, and the handle can slide towards or away from the second side wall relative to the sleeve.

Further, the collodion mop further comprises a positioning piece, wherein the positioning piece is arranged on the rod body, the positioning piece can extend into or extend out of the rod body, and when the positioning piece extends out of the rod body, the positioning piece can support the sleeve.

Further, the positioning piece comprises a positioning block and a supporting piece;

the positioning block is provided with a third side wall and a fourth side wall which are oppositely arranged, a fifth side wall is connected between the third side wall and the fourth side wall, the supporting piece is fixed on the third side wall, and the positioning block is arranged in the rod body;

the fifth side wall is provided with a kidney-shaped through hole, the kidney-shaped through hole is inclined upwards towards one end of the supporting piece, and the positioning block can drive the supporting piece to extend into or extend out of the rod body;

the mounting plate is provided with a first connecting piece, the first connecting piece is sleeved on the hinge shaft, a second connecting piece is further arranged in the rod body, the first connecting piece is connected with the second connecting piece, and the first connecting piece can drive the second connecting piece to lift;

the second connecting piece is provided with a cavity, the cavity is sleeved on the supporting block, the supporting block can slide relative to the second connecting piece along the radial direction of the rod body, the side wall of the cavity is provided with a first bulge, and the first bulge stretches into the kidney-shaped through hole and can slide along the axial direction of the kidney-shaped through hole;

when the collodion mop head rotates from a position where the extending direction of the collodion mop head is vertical to the axial direction of the rod body to a position where the extending direction of the collodion mop head is parallel to the axial direction of the rod body, the first connecting piece can drive the second connecting piece to move upwards so as to drive the supporting piece to extend into the rod body;

when the collodion mop head rotates from the position where the extending direction of the collodion mop head is parallel to the axial direction of the rod body to the position where the extending direction of the collodion mop head is perpendicular to the axial direction of the rod body, the first connecting piece can drive the second connecting piece to move downwards so as to drive the supporting piece to extend out of the rod body.

Further, an elastic piece is further arranged in the rod body, the elastic piece, the second connecting piece and the first connecting piece are sequentially arranged, one end of the elastic piece is fixed with the rod body, and the other end of the elastic piece is fixed with the second connecting piece.

Further, the mounting plate is connected with the collodion mop head in a clamping mode, a switch device is arranged on the end face of the mounting plate, which faces the rod body, a protrusion is arranged on the sleeve, the protrusion and the first cavity are respectively located on two sides of the rod body, and the protrusion can be abutted to the switch device so that the mounting plate is separated from the collodion mop head.

The collodion mop provided by the application comprises a rod body, a sleeve and a mounting plate; the mounting plate is provided with a collodion mop head, the mounting plate is hinged with the rod body and forms a hinge shaft, and the mounting plate can rotate around the hinge shaft so that the extending direction of the collodion mop head is parallel to the axial direction of the rod body; the sleeve is provided with a first side wall and a second side wall which are oppositely arranged, the first side wall is provided with a sleeve bracket, the sleeve bracket can be fixed with the first side wall, and the end face of the sleeve bracket, which faces the second side wall, and the second side wall form a first cavity; the sleeve is in sliding connection with the body of rod, when the extending direction of collodion mop head with the axial of body of rod is parallel, first cavity can be overlapped and establish on the collodion mop head, and follow the extending direction of collodion mop head slides, in order to be used for in the lift in-process extrusion collodion mop head. When the collodion mop head needs to be cleaned, the mounting plate is driven to rotate around the hinge shaft, so that the extending direction of the collodion mop head is parallel to the axial direction of the rod body, then the sleeve is driven to move towards the collodion mop head, the first cavity is sleeved on the collodion mop head and compresses the collodion mop head, and finally the first cavity is driven to slide from one end of the collodion mop head to the other end, so that the first water squeezing is completed; then drive the sleeve and keep away from the collodion mop head and remove, make first cavity cover establish on the collodion mop head and compress the collodion mop head, drive first cavity at last and slide to one end by the other end of collodion mop head, accomplish the secondary and squeeze water promptly, slide to the other end by the one end of collodion mop head and slide to the in-process of one end by the other end of collodion mop head at the sleeve, homoenergetic squeeze water to collodion mop head, realize two-way squeezing water, improve water squeezing efficiency.

Drawings

In order to more clearly illustrate the embodiments of the present application 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 application, 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 structural view of a collodion mop according to an embodiment of the present application;

FIG. 2 is a cross-sectional view of a sleeve in a collodion mop provided by an embodiment of the present application;

FIG. 3 is a cross-sectional view of a rod body in a collodion mop provided by an embodiment of the present application;

FIG. 4 is a cross-sectional view of a mounting plate in a collodion mop provided by an embodiment of the present application;

fig. 5 is a schematic structural view of a positioning member in a collodion mop according to an embodiment of the present application;

fig. 6 is a schematic structural view of a positioning member in a collodion mop according to another embodiment of the present application.

Icon: 1-a rod body; 2-a sleeve; 21-a first cavity; 22-bump; 23-sleeve holder; 24-rolling wheels; 25-handle; 3-mounting plates; 31-switching means; 32-a transmission member; 4-collodion mop head; 41-a first incline; 42-a second incline; 5-cam; 6-connecting rods; 7-a spring; 8-a second connector; 81-a first bump; 82-a cavity; 9-positioning blocks; 91-kidney-shaped through holes; 10-a support; 11-a first V-shaped member; 12-first connector.

Detailed Description

The following description of the embodiments of the present application will be made apparent and fully in view of the accompanying drawings, in which some, but not all embodiments of the application are shown. All other embodiments, which can be made by those skilled in the art based on the embodiments of the application without making any inventive effort, are intended to be within the scope of the application.

In the description of the present application, it should be noted that, if terms such as "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", and the like are used, the indicated orientation or positional relationship is based on the orientation or positional relationship shown in the drawings, only for convenience of describing the present application and simplifying the description, and does not indicate or imply that the indicated apparatus or element must have a specific orientation, be configured and operated in a specific orientation, and thus should not be construed as limiting the present application. Furthermore, the terms "first," "second," and the like, as used herein, are used for descriptive purposes only and are not to be construed as indicating or implying relative importance. Wherein the terms "first position" and "second position" are two different positions.

In the description of the present application, it should be noted that, unless explicitly specified and limited otherwise, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be either fixedly connected, detachably connected, or integrally connected, for example; can be mechanically or electrically connected; can be directly connected or indirectly connected through an intermediate medium, and can be communication between two elements. The specific meaning of the above terms in the present application will be understood in specific cases by those of ordinary skill in the art.

The application provides a collodion mop, and a plurality of embodiments are provided below for describing the collodion mop in detail.

The collodion mop provided by the embodiment, as shown in fig. 1 to 6, comprises a rod body 1, a sleeve 2 and a mounting plate 3; the mounting plate 3 is provided with a collodion mop head 4, the mounting plate 3 is hinged with the rod body 1 to form a hinge shaft, and the mounting plate 3 can rotate around the hinge shaft so that the extending direction of the collodion mop head 4 is parallel to the axial direction of the rod body 1; the sleeve 2 is provided with a first side wall and a second side wall which are oppositely arranged, the first side wall is provided with a sleeve bracket 23, the sleeve bracket 23 can be fixed on the first side wall, and the end face of the sleeve bracket 23 facing the second side wall and the second side wall form a first cavity 21; the sleeve 2 is in sliding connection with the rod body 1, when the extending direction of the collodion mop head 4 is parallel to the axial direction of the rod body 1, the first cavity 21 can be sleeved on the collodion mop head 4 and slide along the extending direction of the collodion mop head 4 so as to be used for extruding the collodion mop head 4 in the lifting process.

The sleeve holder 23 may be engaged with the first side wall, or may be screwed with the first side wall.

When the collodion mop head needs to be cleaned, the mounting plate is driven to rotate around the hinge shaft, so that the extending direction of the collodion mop head is parallel to the axial direction of the rod body 1, then the sleeve 2 is driven to move towards the collodion mop head, the first cavity 21 is sleeved on the collodion mop head and compresses the collodion mop head, and finally the first cavity is driven to slide from one end of the collodion mop head to the other end, so that the first water squeezing is completed; then drive sleeve 2 and keep away from collodion mop head and remove, make first cavity 21 cover establish on collodion mop head and compress collodion mop head, drive first cavity 21 at last and slide to one end by the other end of collodion mop head, accomplish the secondary and squeeze water promptly, slide to the other end by the one end of collodion mop head and slide to the in-process of one end by the other end of collodion mop head at sleeve 2, homoenergetic squeeze water to collodion mop head, realize two-way squeezing water, improve squeezing water efficiency.

When the collodion mop head 4 is used for mopping the floor, the extension direction of the collodion mop head 4 is vertical to the axial direction of the rod body 1, and the rod body 1 and the mounting plate 3 can be provided with a clamping piece which can be matched and connected, so that when the extension direction of the collodion mop head 4 is vertical to the axial direction of the rod body 1, the collodion mop head 4 is clamped with the rod body 1 so as to keep clean stability.

Further, a plurality of rollers 24 are provided on the end face of the sleeve support 23 facing the second side wall, the plurality of rollers 24 are sequentially provided along the circumferential direction of the end face of the sleeve support 23 facing the second side wall, and each roller 24 can rotate along its own axis.

When the first cavity 21 is sleeved on the collodion mop head 4 and moves relative to the collodion mop head 4, the roller 24 can reduce the friction force between the two, so that the sleeve 2 moves more smoothly, and the squeezing efficiency is improved.

Further, the end surface of the sleeve bracket 23 facing the second side wall is a cambered surface protruding towards the second side wall, and two ends of the cambered surface are symmetrically arranged relative to the central line of the cambered surface.

Because the end face of sleeve support 23 towards the second lateral wall is the cambered surface, a plurality of gyro wheels 24 set gradually on this cambered surface along the circumference of sleeve support 23 towards the terminal surface of second lateral wall, consequently a plurality of gyro wheels 24 also form towards the bellied cambered surface of second lateral wall to the both ends of cambered surface set up for the central line symmetry of cambered surface, at sleeve 2 by the one end slip of collodion mop head 4 to the other end and by the other end slip of collodion mop head 4 to the in-process of one end, homoenergetic is squeezed water to collodion mop head 4, realizes two-way crowded water, improves crowded water efficiency.

The cambered surface is protruded towards the second side wall, so that the sizes of the two ends of the first cavity 21 are larger than those of the middle part, the collodion mop head 4 can conveniently enter the first cavity 21, and the smoothness and reliability of squeezing water are improved.

Further, the sleeve holder 23 is connected to the first sidewall by a telescopic assembly. The telescopic assembly can drive the sleeve bracket 23 to move towards or away from the second side wall so as to adjust the squeezing water quantity.

The size of the first cavity 21 can be adjusted by driving the sleeve bracket 23 to move towards or away from the second side wall, so that the collodion mop can adjust the water squeezing amount according to the requirement.

Wherein, the telescopic component can comprise a telescopic rod, one end of the telescopic rod is fixed with the first side wall, and the other end of the telescopic rod is fixed with the sleeve bracket 23; the telescopic component can also comprise a gear rack, the sleeve bracket 23 is fixed on the gear rack, the gear is meshed with the gear rack, and the gear rack can be driven to stretch and retract by controlling the gear to rotate; the telescopic assembly may also comprise a chute, which is arranged on the first side wall, and a sleeve bracket 23, which is arranged on the chute and is capable of sliding along the chute; the telescopic assembly may further comprise a spring 7, one end of the spring 7 is fixed to the first side wall, the other end of the spring is fixed to the sleeve support 23, the distance between the sleeve support 23 and the second side wall is adjusted by compressing the spring 7, and in order to fix the sleeve support 23 at a suitable position, a clamping piece capable of being matched with is arranged on the inner wall of the sleeve 2 and the outer wall of the sleeve support 23, for example, a plurality of grooves are arranged on the inner wall of the sleeve 2 along the moving direction of the sleeve support 23 at intervals, protrusions are arranged on the outer wall of the sleeve support 23, the protrusions and the grooves can be clamped, and when the sleeve support 23 moves to a suitable position, the protrusions on the sleeve support 23 can be clamped with the corresponding grooves on the position.

When the sleeve support 23 is driven to move towards or away from the second side wall, for example, when the telescopic assembly comprises a gear rack, the motor can be used for driving the gear to rotate, the rotating angle of the gear is controlled by the controller so as to adjust the sliding length of the sleeve support 23, and the manual driving gear can also be used for rotating so as to adjust the sliding length of the sleeve support 23.

Further, a handle 25 is provided on an end surface of the sleeve holder 23 remote from the second side wall, the handle 25 extends out of the sleeve 2, and the handle 25 is slidable relative to the sleeve 2 toward or away from the second side wall.

When the sleeve support 23 is manually driven to move, the handle 25 can facilitate the user to grasp the sleeve support 23 outside the sleeve 2, and is convenient to operate.

Further, the collodion mop further comprises a positioning piece, the positioning piece is arranged on the rod body 1, the positioning piece can extend into or extend out of the rod body 1, and when the positioning piece extends out of the rod body 1, the positioning piece can support the sleeve 2.

When the positioning piece stretches into the rod body 1, the sleeve 2 can slide along the rod body 1, so that the sleeve moves towards or away from the collodion mop head 4 to squeeze water.

When the locating piece stretches out the body of rod 1 to when sleeve 2 is located the locating piece top, the locating piece can support sleeve 2, makes sleeve 2 blocked in the locating piece top unable removal towards collodion mop head 4, when using collodion mop to drag the ground, separates sleeve 2 and collodion mop head 4, prevents sleeve 2 and mounting panel 3 production and does the collision that involves.

The rod body 1 can be provided with a through hole, the positioning piece is plate-shaped, the positioning piece can extend into or extend out of the rod body 1 through the through hole, a spring 7 is arranged between the positioning piece and the rod body 1, one end of the spring 7 is fixed with the positioning piece, and the other end of the spring 7 extends into the through hole to be fixed with the side wall of the rod body 1. When the positioning piece is compressed towards the rod body 1, the spring 7 is compressed, the positioning piece stretches into the rod body 1, and after the compression of the positioning piece is stopped, the elastic force of the spring 7 drives the positioning piece to stretch out of the rod body 1. When the positioning device is used, the positioning piece can be stuck by using the adhesive tape, so that the positioning piece stretches into the rod body 1 to drive the sleeve 2 to pass through the position of the positioning piece, and the adhesive tape is torn when the positioning piece stretches out.

The positioning piece comprises a positioning piece 9 and a supporting piece 10 as one embodiment; the positioning block 9 is provided with a third side wall and a fourth side wall which are oppositely arranged, a fifth side wall is connected between the third side wall and the fourth side wall, the supporting piece 10 is fixed on the third side wall, and the positioning block 9 is arranged in the rod body 1; the fifth side wall is provided with a waist-shaped through hole 91, the waist-shaped through hole 91 is inclined upwards towards one end of the support piece 10, and the positioning block 9 can drive the support piece 10 to extend into or extend out of the rod body 1; the mounting plate is provided with a first connecting piece 12, the first connecting piece 12 is sleeved on the hinge shaft, the rod body 1 is internally provided with a second connecting piece 8, the first connecting piece 12 is connected with the second connecting piece 8, and the first connecting piece 12 can drive the second connecting piece 8 to lift; the second connecting piece 8 is provided with a cavity 82, the cavity 82 is sleeved on the supporting block, the supporting block can slide relative to the second connecting piece 8 along the radial direction of the rod body 1, the side wall of the cavity 82 is provided with a first bulge 81, and the first bulge 81 stretches into the kidney-shaped through hole 91 and can slide along the axial direction of the kidney-shaped through hole 91; when the collodion mop head rotates from a position where the extending direction of the collodion mop head is vertical to the axial direction of the rod body 1 to a position where the extending direction of the collodion mop head is parallel to the axial direction of the rod body 1, the first connecting piece 12 can drive the second connecting piece 8 to move upwards so as to drive the supporting piece 10 to extend into the rod body 1; when the collodion mop head rotates from the position where the extending direction of the collodion mop head is parallel to the axial direction of the rod body 1 to the position where the extending direction of the collodion mop head is perpendicular to the axial direction of the rod body 1, the first connecting piece 12 can drive the second connecting piece 8 to move downwards so as to drive the supporting piece 10 to extend out of the rod body 1.

Specifically, when the extending direction of the collodion mop head is vertical to the axial direction of the rod body 1, the bulge is positioned at the bottom end of the kidney-shaped through hole 91, the third side wall is level with the side wall of the second connecting piece 8, and the supporting piece 10 extends out of the rod body 1;

when the collodion mop head rotates from a position where the extending direction of the collodion mop head is vertical to the axial direction of the rod body 1 to a position where the extending direction of the collodion mop head is parallel to the axial direction of the rod body 1, the first connecting piece 12 can drive the second connecting piece 8 to move upwards, and the second connecting piece 8 drives the first bulge 81 to move upwards when moving upwards, so that the first bulge 81 is driven to move towards the top end of the kidney-shaped through hole 91, and further the third side wall of the positioning block 9 is driven to move towards the inside of the rod body 1 along the radial direction of the rod body 1, so that the supporting piece 10 is driven to extend into the rod body 1;

when the collodion mop head rotates from the position where the extending direction of the collodion mop head is parallel to the axial direction of the rod body 1 to the position where the extending direction of the collodion mop head is perpendicular to the axial direction of the rod body 1, the first connecting piece 12 can drive the second connecting piece 8 to move downwards, and the second connecting piece 8 drives the first bulge 81 to move downwards when moving downwards, so as to drive the first bulge 81 to move towards the bottom end of the kidney-shaped through hole 91, and further drive the third side wall of the positioning block 9 to move towards the outside of the rod body 1 along the radial direction of the rod body 1, so as to drive the supporting piece 10 to extend out of the rod body 1.

As another embodiment, the positioning piece comprises a first V-shaped piece 11 and two supporting pieces 10, the supporting pieces 10 are respectively arranged at two ends of the first V-shaped piece 11, the first V-shaped piece 11 is arranged in the rod body 1, the first V-shaped piece 11 has elasticity, and the first V-shaped piece 11 can drive the supporting pieces 10 to extend into or extend out of the rod body 1; the mounting plate 3 is provided with a first connecting piece 12, the first connecting piece 12 is sleeved on the hinge shaft, the rod body 1 is internally provided with a second connecting piece 8, the second connecting piece 8 penetrates through the first V-shaped piece 11, a gap is reserved between the second connecting piece 8 and the first V-shaped piece 11, the second connecting piece 8 is fixedly sleeved with a second V-shaped piece, the second V-shaped piece is positioned below the first V-shaped piece 11, and the shapes of the first V-shaped piece 11 and the second V-shaped piece are matched; in the process that the collodion mop head 4 rotates from the position where the extending direction of the collodion mop head 4 is vertical to the axial direction of the rod body 1 to the position where the extending direction of the collodion mop head 4 is parallel to the axial direction of the rod body 1, the first connecting piece 12 can drive the second connecting piece 8 to move upwards so as to enable the second V-shaped piece to be abutted with the first V-shaped piece 11; when the extending direction of the collodion mop head 4 is parallel to the axial direction of the rod body 1, the supporting piece 10 extends into the rod body 1; in the process that the collodion mop head 4 rotates from the position where the extending direction of the collodion mop head 4 is parallel to the axial direction of the rod body 1 to the position where the extending direction of the collodion mop head 4 is perpendicular to the axial direction of the rod body 1, the first connecting piece 12 can drive the second connecting piece 8 to move downwards so as to separate the second V-shaped piece from the first V-shaped piece 11; when the extension direction of the collodion mop head 4 is vertical to the axial direction of the rod body 1, the supporting piece 10 extends out of the rod body 1.

When the extension direction of the collodion mop head 4 is vertical to the axial direction of the rod body 1, the second V-shaped piece is separated from the first V-shaped piece 11, the two supporting pieces 10 respectively extend out of the rod body 1, and the sleeve 2 is blocked by the supporting pieces 10 and cannot slide downwards.

In the process that the collodion mop head 4 rotates from the position, perpendicular to the axial direction of the rod body 1, of the extension direction of the collodion mop head 4 to the position, parallel to the axial direction of the rod body 1, of the collodion mop head 4, the first connecting piece 12 can drive the second connecting piece 8 to move upwards, so that the second V-shaped piece is abutted with the first V-shaped piece 11, under the action of the second V-shaped piece, the two ends of the first V-shaped piece 11 shrink inwards respectively, so that the supporting piece 10 is driven to extend into the rod body 1, and when the extension direction of the collodion mop head 4 is parallel to the axial direction of the rod body 1, the supporting piece 10 extends into the rod body 1 completely, and at the moment, the sleeve 2 can be driven to move towards the collodion mop head 4.

In the process that the collodion mop head 4 rotates from the position where the extending direction of the collodion mop head 4 is parallel to the axial direction of the rod body 1 to the position where the extending direction of the collodion mop head 4 is perpendicular to the axial direction of the rod body 1, the first connecting piece 12 can drive the second connecting piece 8 to move downwards so as to separate the second V-shaped piece from the first V-shaped piece 11, and the first V-shaped piece 11 restores to the initial state under the action of the re-elastic force, so that the supporting piece 10 is driven to extend out of the rod body 1.

Can stretch into the body of rod 1 with support piece 10 when the extending direction of glued membrane mop head 4 is parallel with the axial of body of rod 1 to accomplish crowded water, when the extending direction of glued membrane mop head 4 is perpendicular with the axial of body of rod 1, stretch out support piece 10 in the body of rod 1, with the support sleeve, prevent that the sleeve from falling, compare in the glued membrane mop among the prior art, can prevent that sleeve 2 from buckling when push-and-pull crowded water.

Wherein, first connecting piece 12 can include the gear, and second connecting piece 8 can include the rack, drives the gear rotation when mounting panel 3 rotates, and the gear meshes with the rack to drive gear and rack to reciprocate.

The first connecting piece 12 may also include a cam 5, the second connecting piece 8 may include a connecting rod 6, when the mounting plate 3 rotates, the cam 5 is driven to rotate, when the extending direction of the collodion mop head 4 is perpendicular to the axial direction of the rod body 1, the outer surface of the cam 5 closest to the hinge axis contacts with the connecting rod 6, when the extending direction of the collodion mop head 4 is parallel to the axial direction of the rod body 1, the outer surface of the cam 5 farthest from the hinge axis contacts with the connecting rod 6, so that in the process that the collodion mop head 4 rotates from the position where the extending direction of the collodion mop head 4 is perpendicular to the axial direction of the rod body 1 to the position where the extending direction of the collodion mop head 4 is parallel to the axial direction of the rod body 1, the connecting rod 6 moves upwards under the action of gravity and is attached to the outer surface of the cam 5.

Preferably, an elastic piece is further arranged in the rod body 1, the elastic piece, the second connecting piece 8 and the first connecting piece 12 are sequentially arranged, one end of the elastic piece is fixed with the rod body 1, and the other end of the elastic piece is fixed with the second connecting piece 8.

For example, when the first connecting piece 12 includes the cam 5 and the second connecting piece 8 includes the connecting rod 6, the first connecting piece 12 compresses the elastic piece when the first connecting piece 12 moves upwards, and in the process that the collodion mop head 4 rotates from the position where the extending direction of the collodion mop head 4 is parallel to the axial direction of the rod body 1 to the position where the extending direction of the collodion mop head 4 is perpendicular to the axial direction of the rod body 1, the elastic force of the spring 7 can also drive the connecting rod 6 to move downwards, so that the downward moving process of the connecting rod 6 is smoother.

The elastic member may be a compression spring 7, a torsion spring, an elastic pad, or any other suitable form.

Further, the mounting plate 3 is connected with the collodion mop head 4 in a clamping way, a switch device 31 is arranged on the end face, facing the rod body 1, of the mounting plate 3, a protrusion 22 is arranged on the sleeve 2, the protrusion 22 and the first cavity 21 are respectively located on two sides of the rod body 1, and the protrusion 22 can be abutted with the switch device 31 so that the mounting plate 3 is separated from the collodion mop head 4.

Through pressing switch device 31, can make mounting panel 3 and collodion mop head 4 separation to change collodion mop head 4, when needing to dismantle collodion mop head 4, rotate mounting panel 3 to the opposite direction of wringing, until after the extending direction of collodion mop head 4 is parallel with the axial of body of rod 1, protruding 22 and switch butt, mounting panel 3 and collodion mop head 4 separation.

The switch device 31 may be any suitable type, such as a slide switch, a push switch, a knob switch, a pinch switch, or a toggle switch.

For example, the collodion mop head 4 is clamped with the mounting plate 3 through the first inclined plane 41 and the second inclined plane 42, after the protrusion 22 abuts against the switch device 31, the switch device 31 is pressed down to drive the transmission piece 32 to move towards the first inclined plane 41 to squeeze the first inclined plane 41, and under the action of squeezing, the first inclined plane 41 and the second inclined plane 42 slide out of the groove of the mounting plate 3 due to elasticity of the first inclined plane 41 and the second inclined plane 42, so that the mounting plate 3 and the collodion mop head 4 are separated.

The collodion mop provided by the embodiment can squeeze water from the collodion mop head in the process that the sleeve 2 is slid from one end to the other end of the collodion mop head and from the other end of the collodion mop head to one end, so that bidirectional water squeezing is realized, and water squeezing efficiency is improved. When the extending direction of the collodion mop head 4 is parallel to the axial direction of the rod body 1, the supporting piece 10 automatically stretches into the rod body 1 to finish squeezing water, and when the extending direction of the collodion mop head 4 is perpendicular to the axial direction of the rod body 1, the supporting piece 10 automatically stretches out of the rod body 1 to support the sleeve and prevent the sleeve from falling; the size of the first cavity 21 can be adjusted by driving the sleeve bracket 23 to move towards or away from the second side wall, so that the water squeezing amount of the collodion mop can be adjusted according to the requirement; and the mounting plate 3 is rotated in the opposite direction of water squeezing until the extension direction of the collodion mop head 4 is parallel to the axial direction of the rod body 1, the bulge 22 is abutted with the switch, and the mounting plate 3 is separated from the collodion mop head 4, so that the collodion mop head 4 automatically falls off.

In addition, the rod body 1 and the mounting plate 3 of the collodion mop can be made of antirust materials, so that the collodion mop is prevented from rusting, the collodion mop head 4 can rotate to be parallel to the axial direction of the rod body 1, and the space is not occupied during storage.

Finally, it should be noted that: the above embodiments are only for illustrating the technical solution of the present application, and not for limiting the same; although the application has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical scheme described in the foregoing embodiments can be modified or some or all of the technical features thereof can be replaced by equivalents; such modifications and substitutions do not depart from the spirit of the application.

Claims (14)

1. The collodion mop is characterized by comprising a rod body, a sleeve and a mounting plate;

the mounting plate is provided with a collodion mop head, the mounting plate is hinged with the rod body and forms a hinge shaft, and the mounting plate can rotate around the hinge shaft so that the extending direction of the collodion mop head is parallel to the axial direction of the rod body;

the sleeve is provided with a first side wall and a second side wall which are oppositely arranged, the first side wall is provided with a sleeve bracket, the sleeve bracket can be fixed with the first side wall, and the end face of the sleeve bracket, which faces the second side wall, and the second side wall form a first cavity;

the sleeve is in sliding connection with the rod body, and when the extending direction of the collodion mop head is parallel to the axial direction of the rod body, the first cavity can be sleeved on the collodion mop head and slide along the extending direction of the collodion mop head so as to be used for extruding the collodion mop head in the lifting process;

the mounting plate is connected with the collodion mop head in a clamping way, and a switch device is arranged on the end face of the mounting plate, which faces the rod body;

when the collodion mop head is disassembled, the mounting plate is rotated in the opposite direction of water squeezing until the extending direction of the collodion mop head is parallel to the axial direction of the rod body, and the switch device is pressed to separate the mounting plate from the collodion mop head.

2. The collodion mop of claim 1, wherein when the extension direction of the collodion mop head is parallel to the axial direction of the shaft body, the sleeve slides along the extension direction of the collodion mop head, and the second side wall abuts the switch device so that the switch device is pressed to separate the mounting plate from the collodion mop head.

3. The collodion mop of claim 2, wherein the second side wall is provided with a protrusion, and when the extending direction of the collodion mop head is parallel to the axial direction of the rod body, the sleeve slides along the extending direction of the collodion mop head, and the protrusion abuts against the switch device, so that the switch device is pressed to separate the mounting plate from the collodion mop head.

4. A collodion mop as claimed in claim 3, wherein the projection and the first cavity are located on either side of the wand body.

5. The collodion mop of any one of claims 1-4, wherein the switch device is a slide switch, a push switch, a knob switch, a pinch switch or a toggle switch.

6. The collodion mop of any one of claims 1-4, wherein a plurality of rollers are provided on the end face of the sleeve holder facing the second side wall, the plurality of rollers are provided in sequence along the circumference of the end face of the sleeve holder facing the second side wall, and each roller is rotatable along its own axis.

7. The collodion mop of claim 6, wherein the end face of the sleeve holder facing the second side wall is a cambered surface protruding toward the second side wall, and both ends of the cambered surface are symmetrically arranged relative to the central line of the cambered surface.

8. The collodion mop of any one of claims 1-4, 7, wherein said sleeve-holder is secured to said first side wall.

9. The collodion mop of any one of claims 1-4, 7, wherein said sleeve-holder is connected to said first side wall by a telescoping assembly to enable said sleeve-holder to move toward or away from said second side wall.

10. The collodion mop of claim 9, wherein said telescoping assembly comprises a rack and pinion, telescoping rod, chute or spring.

11. The collodion mop of claim 9, wherein a handle is provided on an end face of the sleeve holder remote from the second side wall, the handle extends out of the sleeve, and the handle is capable of sliding relative to the sleeve towards or away from the second side wall.

12. The collodion mop of any one of claims 1-4, 7, 10 and 11, further comprising a positioning member disposed on the shaft, wherein the positioning member is capable of extending into or out of the shaft, and wherein the positioning member is capable of supporting the sleeve when the positioning member is out of the shaft.

13. The collodion mop of claim 12, wherein said positioning member comprises a positioning block and a support member;

the positioning block is provided with a third side wall and a fourth side wall which are oppositely arranged, a fifth side wall is connected between the third side wall and the fourth side wall, the supporting piece is fixed on the third side wall, and the positioning block is arranged in the rod body;

the fifth side wall is provided with a kidney-shaped through hole, the kidney-shaped through hole is inclined upwards towards one end of the supporting piece, and the positioning block can drive the supporting piece to extend into or extend out of the rod body;

the mounting plate is provided with a first connecting piece, the first connecting piece is sleeved on the hinge shaft, a second connecting piece is further arranged in the rod body, the first connecting piece is connected with the second connecting piece, and the first connecting piece can drive the second connecting piece to lift;

the second connecting piece is provided with a cavity, the cavity is sleeved on the supporting piece, the supporting piece can slide relative to the second connecting piece along the radial direction of the rod body, the side wall of the cavity is provided with a first bulge, and the first bulge stretches into the kidney-shaped through hole and can slide along the axial direction of the kidney-shaped through hole;

when the collodion mop head rotates from a position where the extending direction of the collodion mop head is vertical to the axial direction of the rod body to a position where the extending direction of the collodion mop head is parallel to the axial direction of the rod body, the first connecting piece can drive the second connecting piece to move upwards so as to drive the supporting piece to extend into the rod body;

when the collodion mop head rotates from the position where the extending direction of the collodion mop head is parallel to the axial direction of the rod body to the position where the extending direction of the collodion mop head is perpendicular to the axial direction of the rod body, the first connecting piece can drive the second connecting piece to move downwards so as to drive the supporting piece to extend out of the rod body.

14. The collodion mop of claim 13, wherein an elastic member is further provided in the rod body, the elastic member, the second connecting member and the first connecting member are sequentially provided, one end of the elastic member is fixed to the rod body, and the other end of the elastic member is fixed to the second connecting member.