CN211460076U - Self-squeezing mop - Google Patents

Abstract

The utility model discloses a self-squeezing mop, which comprises a mop rod, a water squeezing device, a mop head and a cleaning head, wherein the cleaning head comprises a wiping object and two mounting plates, and the wiping object is mounted on the mounting plates; the mop head comprises a mounting seat, and the two mounting plates are respectively connected to two sides of the mounting seat in a rotating manner through a pivoting shaft; the squeezer comprises a hand holding part sleeved outside the mop rod and a water squeezing part for squeezing water to the cleaning head, wherein a water squeezing opening is formed at the end part of the water squeezing part, and the water squeezing part is provided with an accommodating cavity capable of accommodating two mounting plates which are overlapped; when the mop is positioned in the containing cavity, the deformation of the lower part of the mop is greater than that of the upper part of the mop. The utility model discloses can realize wringing out the wiping article, wringing is effectual, and wringing process is smooth and easy.

Description

Self-squeezing mop

Technical Field

The utility model belongs to the technical field of burnisher, especially relate to a crowded water mop.

Background

With the increasing living standard, consumers have higher requirements on traditional cleaning products, and the household cleaning products are more and more applied in the current household cleaning work. After the traditional mop is used, the wiping objects need to be wrung by hands for standby, the hands are easy to be put on after long-term operation, and particularly, the injury is greater in cold seasons.

In order to avoid the problem of hand injury caused by wringing out the wiping materials by people, the automatic wringing mop in the prior art has the defects of larger and larger defects, unclean wringing, difficulty in cleaning and the like of the traditional self-wringing mop. The existing mop is often dirty after being used, and a user is mostly afraid of directly touching the mop in the cleaning process, so that the foaming cotton (mop) of the mop is not easy to wring out.

One of the common self-wringing mops has the structure: it is a pulling type handle, when it is pulled up with its pivot point as the axis, it is connected with the upper end of the pull rod, so that the lower end of the pull rod drives the connecting seat to lift up, and the cleaning element is forced to extrude, and the water can be wrung out. But still has the following disadvantages: 1. the number of components is large, the assembly procedure is complicated, and the cost is too high. 2. The parts are many, the cost is high, and the assembly is troublesome. 3. The volume is large, the packaging space is occupied, and the packaging and transportation cost is increased. 4. The design of the wringing device is unreasonable, and the wringing effect is not ideal.

SUMMERY OF THE UTILITY MODEL

To the problems existing in the prior art, the utility model provides a self-wringing mop, which can wring the wiping object with good wringing effect and smooth wringing process.

In order to solve the technical problem, the utility model discloses a technical scheme be: the mop comprises a mop rod, a water squeezer, a mop head and a cleaning head, wherein the mop rod is connected with the mop head, the cleaning head is arranged on the mop head, and the water squeezer is sleeved on the mop rod and can reciprocate along the mop rod;

the cleaning head comprises a wiper and two mounting plates, the wiper is mounted on the mounting plates;

the mop head comprises mounting seats, and the two mounting plates are respectively connected to two sides of the mounting seats in a rotating manner through pivot shafts;

the water squeezing device comprises a grip part sleeved outside the mop rod and a water squeezing part used for squeezing water to the cleaning head, wherein a water squeezing opening is formed at the end part of the water squeezing part, and the water squeezing part is provided with an accommodating cavity capable of accommodating two mounting plates when the two mounting plates are overlapped;

when the mop is used for squeezing water, the mop rod drives the cleaning head to move in a reciprocating mode, the squeezing portion squeezes water to the wiping object, and when the wiping object is located in the containing cavity, the deformation amount of the lower portion of the wiping object is larger than that of the upper portion of the wiping object.

In order to solve the technical problem, the utility model discloses a further technical scheme is: the amount of deformation of the lower portion of the wipe to the upper portion is progressively reduced.

Further, the specific structure that the deformation amount of the lower part of the wiper is larger than that of the upper part of the wiper when the wiper is positioned in the accommodating cavity is realized as follows: the thickness of the outer side of each mounting plate is larger than that of the inner side of each mounting plate.

Further, the specific structure that the deformation amount of the lower part of the wiper is larger than that of the upper part of the wiper when the wiper is positioned in the accommodating cavity is realized as follows: the width of the lower part of the containing cavity of the water squeezing part is smaller than that of the upper part.

Further, the specific structure that the deformation amount of the lower part of the wiper is larger than that of the upper part of the wiper when the wiper is positioned in the accommodating cavity is realized as follows: the thickness of the outer side of each mounting plate is larger than that of the inner side of each mounting plate, and the width of the lower part of the containing cavity of the water squeezing part is smaller than or equal to that of the upper part of the containing cavity of the water squeezing part.

Furthermore, the left side and the right side of the mounting seat are both provided with a propping part and an interference part positioned below the propping part, and the rotating radius of the mounting plate rotating around the central axis of the pivot shaft is smaller than the distance between the edge of the interference part and the central axis of the pivot shaft; when the cleaning head is in a flattening state, the abutting part and the interference part of the mounting seat simultaneously abut against the mounting plate, so that the mounting seat and the mounting plate are relatively fixed; the mounting plate can rotate along the surface of the interference part by means of external force during the overturning process of the mounting plate.

Further, crowded water portion includes crowded water frame, crowded water frame is for corresponding the crowded water board that the mounting panel set up, the inboard of crowded water board has the protruding muscle of vertical setting, protruding muscle have with the spigot surface of mounting panel contact.

The mop rod is provided with a limit switch, the wringing device is provided with a through hole, the limit switch comprises a limit column, a return spring and a base, one end of the return spring abuts against the limit column, the other end of the return spring abuts against the inner wall of the mop rod, the base is fixed on the mop rod, and the mop rod and the wringing device can be fixed relatively through the matching of the limit switch and the through hole.

The mop head further comprises a connector and a connecting rod, the upper end of the connecting rod is connected with the mop rod, the lower end of the connecting rod is rotatably connected with the upper end of the connector through a first pin shaft, the lower end of the connector is rotatably connected with the upper end of the mounting seat through a second pin shaft, and the first pin shaft and the second pin shaft are perpendicular to each other.

Furthermore, the wringing plate on each side is provided with two convex ribs, the convex ribs extend from the wringing openings to the upper part of the wringing part, and the upper surface of the mounting plate is provided with two convex rib matched guide bulges.

Further, the mounting plate is a double-layer plate with a cavity in the middle, namely an upper panel and a lower panel.

The utility model has the advantages that:

the utility model discloses the portion of holding of wringing ware is held to well one hand, the mop pole is held to one hand, promote wringing ware or pulling mop pole, can drive mop head and cleaning head through crowded mouth of a river this moment, make the mounting panel of mop head both sides move up and buckle for the inner wall of wringing portion, accomodate in the holding cavity of wringing ware along with the mop head, thereby can receive the extrusion and wring out moisture, do not need the hand direct contact, also need not spend too much strength extrusion wringing cleaning head, and because when the wiper is located the holding cavity, the deflection of the lower part of wiper is greater than the deflection of the upper portion of wiper, the deflection is bigger explains that the wiper is extruded the more big more, water is also squeezed clean more easily, so improve wringing effect, and the wringing process is smooth and easy not hard;

furthermore, after the water squeezing of the utility model is completed, the cleaning head of the mop is pressed on the floor with force, the mounting plate can be unfolded upwards by taking the pin joint shaft as the center until the mounting plate is flattened, and the self-drying of the cleaning head can be realized; in addition, the wiping materials are accommodated into the accommodating cavity of the wringing device, so that the evaporation of the water of the wiping materials can be slowed down;

moreover, the mounting plate of the utility model can be a double-layer plate with a cavity in the middle, and compared with a solid single-layer plate, the mounting plate has high strength, is not easy to deform, saves materials and has low cost;

moreover, the novel mop rod can be provided with a limit switch, the limit switch can comprise a limit column, a reset spring and a base, the limit switch is clamped into the through hole of the wringing device to realize the relative fixation of the wringing device and the mop rod, and the smooth movement between the mop rod and the wringing device can be ensured in the wringing process;

moreover, the inner side of the water squeezing frame can be provided with a longitudinally arranged convex rib which is provided with a guide surface contacted with the mounting plate, so that the water squeezing frame not only can play a role in guiding and improve the smoothness of the water squeezing process, but also can extrude the cleaning head to a certain extent and improve the water squeezing effect;

moreover, the mop head of the utility model can also comprise a connector, a connecting rod and two pin shafts, and the two pin shafts are vertically arranged, so that the multi-directional rotation of the wiping body can be realized, further the all-round cleaning of the ground can be realized, and the cleaning of ground corners, narrow slits and the like is particularly facilitated; and the rotation process is flexible, labor-saving, simple and convenient to operate, and user experience is improved.

The above description is only an overview of the technical solution of the present invention, and in order to make the technical means of the present invention clearer and can be implemented according to the content of the description, the following detailed description is made with reference to the preferred embodiments of the present invention and accompanying drawings.

Drawings

Fig. 1 is a schematic view of the external structure of the present invention (when the mounting plate is in a flat state);

FIG. 2 is a schematic diagram comparing two deformations of a wipe of the present invention when positioned in a receiving cavity;

FIG. 3 is a front view of a cleaning head of one embodiment of this embodiment (the dashed lines indicate the shape of the wipe when not compressed);

FIG. 4 is a front view of a wringer of another embodiment of the present invention;

FIG. 5 is a schematic structural view of the wringer of the present invention;

fig. 6 is a schematic structural diagram of the mounting seat and the mounting plate of the present invention;

fig. 7 is a schematic structural diagram of the present invention;

fig. 8 is a cross-sectional view of the limit switch of the present invention;

figure 9 is a cross-sectional view of the mounting plate of the present invention;

fig. 10 is a front view (in the storage state) of the present invention;

the parts in the drawings are marked as follows:

the mop comprises a mop rod 1, a limiting column 11, a return spring 12, a base 13, a water squeezing device 2, a hand holding portion 21, a water squeezing portion 22, a water squeezing frame 221, a convex rib 2221, a water squeezing port 23, a containing cavity 24, a water scraping strip 25, a through hole 26, a mop head 3, a mounting seat 31, a butting portion 311, an interference portion 312, a connecting head 32, a connecting rod 33, a first pin shaft 34, a second pin shaft 35, a pivot shaft 36, a cleaning head 4, a mounting plate 41, a cavity 411, an upper panel 412, a lower panel 413, a reinforcing rib 414, a guide protrusion 42, a wiper 43, a turning radius R, a distance D between the edge of the interference portion and the central axis of the pivot shaft, a deformation amount delta h1 of the lower portion of the wiper, a deformation amount delta h2 of the upper portion of the wiper, a thickness W1 of the outer side, a thickness W2 of the inner side, a width W3 of the lower portion of the containing cavity.

Detailed Description

The following description is provided for illustrative embodiments of the present invention, and the advantages and effects of the present invention will be readily apparent to those skilled in the art from the disclosure of the present invention. The present invention can also be implemented in other different ways, i.e. different modifications and changes can be made without departing from the scope of the present invention.

Example (b): a self-squeezing dry mop is shown in figures 1 to 10 and comprises a mop rod 1, a water squeezer 2, a mop head 3 and a cleaning head 4, wherein the mop rod is connected with the mop head, the cleaning head is installed on the mop head, and the water squeezer is sleeved on the mop rod and can reciprocate along the mop rod;

the cleaning head 4 comprises a wipe 43 and two mounting plates 41 to which the wipe is mounted;

the mop head 3 comprises a mounting seat 31, and the two mounting plates are respectively connected to two sides of the mounting seat in a rotating manner through a pivot shaft 36;

the wringing device 2 comprises a grip part 21 sleeved outside the mop rod and a wringing part 22 used for wringing the cleaning head, the end part of the wringing part forms a wringing opening 23, and the wringing part is provided with an accommodating cavity 24 which can accommodate two mounting plates when the two mounting plates are superposed;

as shown in fig. 2 to 4, when squeezing water, the mop rod drives the cleaning head to reciprocate, and the squeezing port squeezes water to the cleaning head; and the amount of deformation ah 1 of the lower portion of the wipe is greater than the amount of deformation ah 2 of the upper portion of the wipe when the wipe is positioned in the receptacle.

Preferably, the amount of deformation of the lower portion of the wipe to the amount of deformation of the upper portion is progressively reduced.

The first implementation manner of this embodiment is: as shown in fig. 2 and 3, in the process of moving the wiper upward relative to the water squeezing unit, the amount of deformation Δ h1 of the lower portion of the wiper is greater than the amount of deformation Δ h2 of the upper portion of the wiper, and the specific structure is as follows: the thickness W1 of the outer side of each mounting plate is larger than the thickness W2 of the inner side of each mounting plate.

As shown in fig. 2 and 3, it is preferable that the deformation amount of the lower portion of the wipe is gradually reduced to the deformation amount of the upper portion, that is, the thickness of both the installation plates is gradually reduced from the outer side to the inner side.

The second implementation manner of this embodiment is: as shown in fig. 4, the width W3 of the lower portion of the containing cavity of the wringing part is smaller than the width W4 of the upper portion, and preferably, the width of the containing cavity of the wringing part is gradually increased from bottom to top, and the deformation amount of the same portion of the wiper is gradually increased in the process of moving the wringing relative to the wringing part upward, and when the wiper is entirely located in the containing cavity, the deformation amount Δ h1 of the lower portion of the wiper is larger than the deformation amount Δ h2 of the upper portion of the wiper.

The third embodiment of this embodiment is: the thickness of the outer side of each mounting plate is larger than that of the inner side of each mounting plate, and meanwhile, the width W3 of the lower part of the containing cavity of the water squeezing part is smaller than or equal to that of the upper part of the containing cavity of the water squeezing part. The technical effect can be achieved in the mode.

Of course, it is preferable to adopt the first embodiment, as in fig. 4, for example, the thickness of the outer side of the mounting plate is 9.0mm and the thickness of the inner side is 7.8 mm; preferably, the wipe is a foam, but is not limited thereto.

When the wiper is positioned in the accommodating cavity, the deformation of the lower part of the wiper is greater than that of the upper part of the wiper, and the greater the deformation indicates that the wiper is squeezed to a greater extent, so that water is squeezed more easily, and the water squeezing effect is improved; if the mounting plate is integrally made thicker, although water is easy to squeeze completely, the water squeezing process is laborious and unsmooth.

As shown in fig. 6, a resisting portion 311 and an interference portion 312 located below the resisting portion are formed on both the left side and the right side of the mounting seat 31, and a turning radius R of the mounting plate rotating around the central axis of the pivot shaft is smaller than a distance D between an edge of the interference portion and the central axis of the pivot shaft; when the cleaning head is in a flattening state, the abutting part and the interference part of the mounting seat simultaneously abut against the mounting plate, so that the mounting seat and the mounting plate are relatively fixed; the mounting plate can rotate along the surface of the interference part by means of external force during the process that the mounting plate is turned upwards or downwards; the interference part is interfered with the inner side of the mounting plate, the mounting plate cannot automatically turn over without external force, and the mounting plate can turn over by taking the pivot shaft as the center by means of external force, such as manually turning the mounting plate.

In this embodiment, the edge of the interference portion is a rounded surface, and the abutting portion is a vertical plane, but not limited thereto.

In this embodiment, the edge of the interference portion is a rounded surface, and the abutting portion is a vertical plane, but not limited thereto.

When the mounting plate is required to be in a flat state, the mounting plate cannot be turned up or turned down, the abutting part of the mounting seat is required to abut against the upper part of the inner side of the mounting plate, so that the mounting plate cannot be turned up, and meanwhile, the part of the interference part is required to abut against the lower part of the inner side of the mounting plate, so that the mounting plate cannot be turned down. Therefore, the interference portion in the "abutting portion and interference portion of the mounting seat abut against the mounting plate at the same time" herein does not mean the entire interference portion, but a partial position of the interference portion.

As shown in fig. 5, the water squeezing portion includes a water squeezing frame 221, the water squeezing frame is a water squeezing plate disposed corresponding to the mounting plate, the inner side of the water squeezing plate is provided with a longitudinally disposed rib 2221, and the rib is provided with a guide surface contacting with the mounting plate.

As shown in fig. 1, the squeezing opening is provided with a wiper strip 25 capable of scraping the wiper. When water is squeezed, the side surface of the wiping object can be scraped through the water scraping strip, so that the scraping and water squeezing effects are improved; of course, the wiper strip may not be provided.

As shown in fig. 1 and 8, the mop rod is provided with a limit switch, the wringer is provided with a through hole 26, the limit switch comprises a limit column 11, a return spring 12 and a base 13, one end of the return spring abuts against the limit column and the other end abuts against the inner wall of the mop rod, the base is fixed on the mop rod, and the mop rod and the wringer can be relatively fixed through the matching of the limit switch and the through hole.

As shown in fig. 7, the mop head further includes a connector 32 and a connecting rod 33, the upper end of the connecting rod is connected to the mop rod, the lower end of the connecting rod is rotatably connected to the upper end of the connector through a first pin shaft 34), the lower end of the connector is rotatably connected to the upper end of the mounting base through a second pin shaft 35, and the first pin shaft is perpendicular to the second pin shaft.

As shown in fig. 5 and 9, the water squeezing plates on each side are provided with two convex ribs, the convex ribs extend from the water squeezing openings to the upper side of the water squeezing portions, and the upper surface of the mounting plate is provided with guide protrusions 42 matched with the two convex ribs. The water squeezing device has the advantages that the guiding effect is achieved, the smoothness of the water squeezing process is improved, certain squeezing can be formed on the cleaning head, and the water squeezing effect is improved.

As shown in fig. 9, in this embodiment, the mounting plate is a double-layer plate with a cavity 411 in the middle, and is an upper plate 412 and a lower plate 413 respectively. This structure can guarantee that the mounting panel has sufficient intensity, again can material saving, and preferably, can also set up strengthening rib 414 between the double-deck board, further improves the intensity of mounting panel. In this embodiment, the upper panel, the connecting rod and the wringing device are made of ABS, the lower panel is made of PP, the mounting seat is made of PC, and the connector is made of POM.

The holding part and the water squeezing part are connected integrally or separately, and in the embodiment, the holding part and the water squeezing part are connected integrally.

As shown in fig. 10, in this embodiment, during storage, the mounting plate is stored in the storage cavity, the mop can stand by contacting the water squeezing opening with the ground, i.e., the cleaning head can be completely stored in the storage cavity, and after storage, the mop can stand, i.e., has the storage and standing functions, and can stand without leaning against the wall.

The utility model discloses a working process and theory of operation as follows:

when the mop is used for mopping the floor normally, the angle between the mop rod and the cleaning head can be adjusted by rotating the mop rod, so that the floor, dead corners, side seams and the like can be cleaned, the cleaning effect is improved, and the mop is also suitable for cleaning glass windows;

when water is squeezed, the holding part of the water squeezing device is held by one hand, the mop rod is held by the other hand, the water squeezing device is pushed or pulled, the mop head and the cleaning head are driven at the moment, the water squeezing device generates downward force, the force acts on the upper surface of the mounting plate, the mounting plate is turned downwards by taking the pivot shaft as a central axis, the mounting plates on the two sides of the mop head move upwards along the inner wall of the squeezing frame and are bent, and the mop is pushed or pulled for several times in a reciprocating mode; after the cleaning head is used, the cleaning head and the mounting plate are pulled into the accommodating cavity, and then the cleaning head and the mounting plate can be accommodated; as shown in fig. 6, since the turning radius R of the mounting plate rotating around the central axis of the pivot shaft is smaller than the distance D between the edge of the interference portion and the central axis of the pivot shaft, the movement track a of the mounting plate when the mounting plate is turned over with the pivot shaft as the center is shown in fig. 6, in addition, the mounting plate and the mounting seat are made of plastic materials and have certain elasticity, so that the mounting plate and the mounting seat can be relatively fixed and relatively rotated, that is, after the water squeezing is completed, the cleaning head of the mop is pressed or pulled upwards by hand, the mounting plate can be unfolded upwards until being flattened with the pivot shaft as the central axis, after the cleaning head is in a flattened state, the abutting portion and the interference portion of the mounting seat simultaneously abut against the mounting plate, so that the mounting seat and the mounting plate are relatively fixed, and then the floor can be.

The above is only the embodiment of the present invention, not so above only is the embodiment of the present invention, not so limiting the patent scope of the present invention, all of which utilize the equivalent structure made by the contents of the specification and the drawings, or directly or indirectly applied to other related technical fields, all of which are included in the patent protection scope of the present invention.

Claims (11)

1. A self-squeezing mop is characterized in that: the mop comprises a mop rod (1), a water squeezer (2), a mop head (3) and a cleaning head (4), wherein the mop rod is connected with the mop head, the cleaning head is installed on the mop head, and the water squeezer is sleeved on the mop rod and can reciprocate along the mop rod;

the cleaning head (4) comprising a wipe (43) and two mounting plates (41) to which the wipe is mounted;

the mop head (3) comprises mounting seats (31), and the two mounting plates are respectively connected to the two sides of the mounting seats in a rotating manner through pivot shafts (36);

the water squeezer (2) comprises a hand holding part (21) sleeved outside the mop rod and a water squeezing part (22) used for squeezing water to the cleaning head, wherein a water squeezing opening (23) is formed at the end part of the water squeezing part, and the water squeezing part is provided with an accommodating cavity (24) capable of accommodating two mounting plates when the two mounting plates are overlapped;

when water is squeezed, the mop rod drives the cleaning head to reciprocate, the water squeezing part squeezes water to the wiping object, and when the wiping object is positioned in the accommodating cavity, the deformation amount (delta h1) of the lower part of the wiping object is larger than the deformation amount (delta h2) of the upper part of the wiping object.

2. The self-wringing mop of claim 1, wherein: when the wiper is located in the accommodating cavity, the deformation amount of the lower part of the wiper to the deformation amount of the upper part of the wiper is gradually reduced.

3. The self-wringing mop of claim 1, wherein: the specific structure that the deformation amount (delta h1) of the lower part of the wiper is larger than the deformation amount (delta h2) of the upper part of the wiper when the wiper is positioned in the accommodating cavity is realized as follows: the thickness (W1) of the outer side of each mounting plate is larger than that (W2) of the inner side of each mounting plate.

4. The self-wringing mop of claim 1, wherein: the specific structure that the deformation amount (delta h1) of the lower part of the wiper is larger than the deformation amount (delta h2) of the upper part of the wiper when the wiper is positioned in the accommodating cavity is realized as follows: the width (W3) of the lower part of the containing cavity of the water squeezing part is smaller than the width (W4) of the upper part.

5. The self-wringing mop of claim 1, wherein: the specific structure that the deformation amount (delta h1) of the lower part of the wiper is larger than the deformation amount (delta h2) of the upper part of the wiper when the wiper is positioned in the accommodating cavity is realized as follows: the thickness (W1) of the outer side of each mounting plate is larger than the thickness (W2) of the inner side of each mounting plate, and the width (W3) of the lower part of the containing cavity of the water squeezing part is smaller than or equal to the width (W4) of the upper part of the containing cavity of the water squeezing part.

6. The self-wringing mop of claim 1, wherein: a tight abutting part (311) and an interference part (312) positioned below the tight abutting part are formed on the left side and the right side of the mounting seat (31), and the rotating radius (R) of the mounting plate rotating around the central axis of the pivot shaft is smaller than the distance (D) between the edge of the interference part and the central axis of the pivot shaft; when the cleaning head is in a flattening state, the abutting part and the interference part of the mounting seat simultaneously abut against the mounting plate, so that the mounting seat and the mounting plate are relatively fixed; the mounting plate can rotate along the surface of the interference part by means of external force during the overturning process of the mounting plate.

7. The self-wringing mop of claim 1, wherein: crowded water portion is including crowded water frame (221), crowded water frame is for corresponding the crowded water board that the mounting panel set up, the inboard of crowded water board has protruding muscle (2221) of vertical setting, protruding muscle have with the spigot surface of mounting panel contact.

8. The self-wringing mop of claim 1, wherein: the mop pole is equipped with limit switch, the wringing ware is equipped with through-hole (26), limit switch includes spacing post (11), reset spring (12) and base (13), reset spring's one end supports spacing post and the other end supports the inner wall of mop pole, the base is fixed in the mop pole, through limit switch with the cooperation of through-hole can realize the relative fixation of mop pole and wringing ware.

9. The self-wringing mop of claim 1, wherein: the mop head further comprises a connector (32) and a connecting rod (33), the upper end of the connecting rod is connected with the mop rod, the lower end of the connecting rod is rotatably connected with the upper end of the connector through a first pin shaft (34), the lower end of the connector is rotatably connected with the upper end of the mounting seat through a second pin shaft (35), and the first pin shaft is perpendicular to the second pin shaft.

10. The self-wringing mop of claim 7, wherein: the wringing plate of each side all is equipped with two protruding muscle, protruding muscle is followed wringing mouth department extends to the top of wringing portion always, the upper surface of mounting panel have with two protruding muscle assorted direction arch (42).

11. The self-wringing mop of claim 1, wherein: the mounting plate is a double-layer plate with a cavity (411) in the middle, namely an upper plate (412) and a lower plate (413).

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