Mop

By incorporating a movable counterweight and guide structure on the mop board, the problem of mop board positioning failure caused by the spring-loaded locking method is solved, enabling automatic rotation and positioning of the mop board, improving user experience and reducing costs.

CN224320666UActive Publication Date: 2026-06-05XIAN AICHUANGJIA HELPER INTELLIGENT TECH CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
XIAN AICHUANGJIA HELPER INTELLIGENT TECH CO LTD
Filing Date
2025-02-25
Publication Date
2026-06-05

AI Technical Summary

Technical Problem

Existing mops use a spring-loaded snap-fit ​​mechanism to position the mop head during washing, which is prone to failure, resulting in a poor user experience. Furthermore, the high cost of springs hinders mass production.

Method used

A movable counterweight is installed on the mop board. Gravity causes the mop board to automatically rotate to the cleaning position when it is removed from the surface to be cleaned. Combined with a guide structure to guide the movement of the counterweight, the mop board can be automatically rotated and positioned, avoiding the use of springs.

Benefits of technology

It achieves automatic rotation and positioning of the mop board without additional operation, improving user experience, reducing costs, and making it suitable for mass production.

✦ Generated by Eureka AI based on patent content.

Smart Images

  • Figure CN224320666U_ABST
    Figure CN224320666U_ABST
Patent Text Reader

Abstract

The utility model relates to daily cleaning article technical field discloses mop, include: mop stick, mop board, counterweight, mop board has washing position and working position, counterweight movably sets up on mop board, when mop board separates from the surface to be cleaned, at least part counterweight can move to one side of mop board to drive mop board rotates from working position to washing position. The mop provided by the application can realize the rotation and positioning of the mop board without using the spring, and the rotation direction and positioning direction of the mop board are not limited, so that the user does not need to give way or perform additional operation for the rotation of the mop board, thereby improving the user experience and effectively solving the problem of failure of the spring clamping mode for positioning the mop board during the cleaning of the mop in the prior art.
Need to check novelty before this filing date? Find Prior Art

Description

Technical Field

[0001] This utility model relates to the field of daily cleaning products, specifically to mops. Background Technology

[0002] In existing technology, a spring is installed at the bottom of the mop handle, and a top block abuts against the spring. A cam is installed on the top surface of the mop plate, and a groove is provided on the cam where the mop plate needs to be positioned. When the user finishes using the mop and cleans it, the mop plate needs to be rotated until the top block engages with the groove on the cam. At this point, the engagement between the top block and the cam can position the mop plate and prevent the mop plate from rotating during cleaning.

[0003] However, since the mop board inevitably comes into contact with water when cleaning, the spring can rust and weaken after prolonged contact with water. This can cause the top block to fail to engage or disengage from the groove, resulting in a poor user experience. Furthermore, the high cost of springs hinders the large-scale production of mops. Utility Model Content

[0004] In view of this, the present invention provides a mop to solve the problem that the existing technology of positioning the mop board by spring clips during mop cleaning is prone to failure.

[0005] This utility model provides a mop, comprising:

[0006] Mop handle;

[0007] The mop board is rotatably mounted at one end of the mop handle; the mop board has a washing position and a working position, and the mop board can rotate between the washing position and the working position;

[0008] A counterweight is movably mounted on the mop board; when the mop board is detached from the surface to be cleaned, at least a portion of the counterweight can move to one side of the mop board to drive the mop board to rotate to a position where the counterweight is facing downwards, thereby causing the mop board to rotate from the working position to the cleaning position.

[0009] Beneficial effects: By incorporating a movable counterweight on the mop board, when the user lifts the mop from the ground and the mop board detaches from the surface to be cleaned, at least a portion of the counterweight can move to one side of the mop board under the influence of gravity, using the mop handle as a reference. This drives the mop board to automatically rotate back to the position where the counterweight faces downwards, meaning the mop board can automatically rotate from the working position to the cleaning position. This eliminates the need for springs to achieve the rotation and positioning of the mop board, and the direction of rotation and positioning is unrestricted. Users do not need to make way for the mop board's rotation or perform unnecessary operations, improving the user experience and effectively solving the problem of easy failure in existing technologies that use spring-loaded locking mechanisms to position the mop board during cleaning.

[0010] In one alternative embodiment, a guide structure is provided on the mop board, extending from one side of the mop board to the other along the length of the mop board; a counterweight is movably disposed on the guide structure; when the mop board is removed from the surface to be cleaned, the guide structure can guide at least a portion of the counterweight to move to either side of the mop board, so as to drive the mop board to automatically rotate back to the position where the counterweight is facing downward.

[0011] Beneficial effects: By setting a guide structure on the mop board, and extending along the length of the mop board from one side to the other, with the counterweight movable on the guide structure, when the user lifts the mop from the ground and the mop board detaches from the surface to be cleaned, the guide structure can guide at least part of the counterweight to move to either side of the mop board, thereby driving the mop board to automatically rotate from the working position to the cleaning position. The guide structure can guide the movement of the counterweight, ensuring that the counterweight does not move randomly when the mop board detaches from the surface to be cleaned, but moves according to a preset motion trajectory, thus ensuring the automatic rotation effect of the mop board.

[0012] In one alternative embodiment, the guide structure includes a guide channel; the guide channel is disposed on the mop board; and a counterweight is movably disposed within the guide channel.

[0013] Beneficial effects: By adopting a guide channel design and placing the counterweight movably within the guide channel, the assembly of the counterweight and the guide structure can be achieved, making the assembly very simple and convenient.

[0014] In one optional embodiment, a partition structure is provided within the guide channel, dividing the guide channel into two chambers; the counterweight is movably disposed within the chambers.

[0015] And / or, each chamber is equipped with a counterweight.

[0016] Beneficial effects: By setting a partition structure in the guide channel, the guide channel can be divided into two chambers along the length of the mop board, and each chamber is equipped with a counterweight, which can effectively avoid the problem of uncertain rotation direction caused by the counterweight sliding left and right.

[0017] In one alternative implementation, the partition structure is detachably disposed within the guide channel.

[0018] Beneficial effects: The detachable design of the partition structure allows users to easily move the counterweights as needed. For example, users can remove the partition structure according to their personal habits, transferring all the counterweights to the same side of the chamber. This way, each time the mop is lifted from the ground, the counterweights will move and converge towards that side, causing the mop handle to face downwards, making it convenient for the user.

[0019] In one alternative implementation, the position of the partition structure corresponds to the position of the mop handle.

[0020] Beneficial effect: The divider structure is located in the middle of the guide channel, and the position of the divider structure is directly opposite the position of the mop handle, ensuring the balance and stability of the entire mop board.

[0021] In one alternative embodiment, the guide structure includes a mounting cylinder disposed on the mop board, the mounting cylinder being detachably disposed on the mop board; a guide channel is formed inside the mounting cylinder.

[0022] Beneficial effects: The guide structure adopts a detachable mounting cylinder on the mop board, which facilitates disassembly and assembly. During assembly, the counterweight is first installed in the guide channel of the mounting cylinder, and then the assembled mounting cylinder is assembled with the mop board. This not only facilitates later maintenance and replacement, but also makes it convenient for the mop board and mounting cylinder to be processed and manufactured separately.

[0023] In one alternative embodiment, the two ends of the mounting cylinder are respectively inserted and fixed to the mop board.

[0024] Beneficial effects: The two ends of the mounting tube are inserted and fixed to the mop board, which not only makes disassembly and disassembly convenient, but also ensures a firm and stable fixation.

[0025] In one alternative embodiment, the mop board includes a wiping surface and a board surface opposite to the wiping surface, with a mounting cylinder disposed on the board surface.

[0026] Beneficial effects: By placing the mounting tube on the back of the mop board, installation is not only convenient, but it also does not affect the normal cleaning operation of the mop.

[0027] In one alternative embodiment, the mop includes a rotating structure, through which the mop plate and the mop handle are rotatably connected. The rotating structure includes a pivot extending in a first direction and a guide structure extending in a second direction; wherein the first direction and the second direction are perpendicular to each other.

[0028] Beneficial effects: By setting the extension direction of the guide structure to be perpendicular to the extension direction of the rotating shaft, the direction of relative rotation between the mop board and the mop handle is consistent with the direction of movement of the counterweight, thus facilitating the rotation and positioning of the mop board through the movement of the counterweight when the mop board is removed from the surface to be cleaned.

[0029] In one alternative implementation, the guide structure is symmetrically arranged on both sides of the mop handle opposite to the mop handle.

[0030] Beneficial effects: By symmetrically arranging the guide structure on both sides of the mop handle, the overall balance and stability of the mop board are improved, and it is easier to guide the counterweight to move to either side of the mop board.

[0031] In one alternative embodiment, the mop board has a connecting block, a rotating structure is disposed on the connecting block, and a limit hole is provided on the connecting block; a guide structure passes through the limit hole.

[0032] Beneficial effects: By setting a connecting block on the mop board, and having a limiting hole on the connecting block for the guide structure to pass through, the guide structure can be fixed not only from both ends, but also limited from the middle, making the fixing of the guide structure more reliable and stable.

[0033] In one alternative embodiment, the counterweight includes any one or a mixture of several of the following: counterweight blocks, counterweight balls, counterweight particles, counterweight powder, and counterweight liquid.

[0034] In one alternative implementation, when the mop head is in the working position, there is an angle between the mop head and the mop handle; when the mop head is in the washing position, the mop head and the mop handle are parallel to each other. Attached Figure Description

[0035] To more clearly illustrate the specific embodiments of this utility model or the technical solutions in the prior art, the drawings used in the description of the specific embodiments or the prior art will be briefly introduced below. Obviously, the drawings described below are some embodiments of this utility model. For those skilled in the art, other drawings can be obtained from these drawings without creative effort.

[0036] Figure 1 This is a schematic diagram of the structure of the mop in the embodiment of this utility model;

[0037] Figure 2 for Figure 1 A schematic diagram of the structure of a mop after the connecting block has been removed;

[0038] Figure 3 for Figure 1 A close-up view of the mop;

[0039] Figure 4 for Figure 3 Axonometric sectional view;

[0040] Figure 5 for Figure 3 A planar sectional view.

[0041] Explanation of reference numerals in the attached figures:

[0042] 10. Mop handle; 11. Spindle;

[0043] 20. Mop board;

[0044] 21. Connecting block; 22. Mop board body; 23. Fixing frame; 231. Assembly part; 232. Insertion part;

[0045] 30. Guide structure; 301. Guide channel;

[0046] 40. Hinge seat; 41. Socket part; 42. Hinge part. Detailed Implementation

[0047] To make the objectives, technical solutions, and advantages of the embodiments of this utility model clearer, the technical solutions of the embodiments of this utility model will be clearly and completely described below with reference to the accompanying drawings. Obviously, the described embodiments are only some embodiments of this utility model, not all embodiments. Based on the embodiments of this utility model, all other embodiments obtained by those skilled in the art without creative effort are within the protection scope of this utility model.

[0048] In the description of this utility model, it should be noted that the terms "upper," "lower," "inner," and "outer," etc., indicate the orientation or positional relationship based on the orientation or positional relationship shown in the accompanying drawings. They are used only for the convenience of describing this utility model and simplifying the description, and do not indicate or imply that the device or element referred to must have a specific orientation, or be constructed and operated in a specific orientation. Therefore, they should not be construed as limitations on this utility model. Furthermore, the terms "first," "second," and "third" are used for descriptive purposes only and should not be construed as indicating or implying relative importance.

[0049] In the description of this utility model, it should be noted that, unless otherwise explicitly specified and limited, the terms "connected" and "linked" should be interpreted broadly. For example, they can refer to a fixed connection, a detachable connection, or an integral connection; they can refer to a mechanical connection or an electrical connection; they can refer to a direct connection or an indirect connection through an intermediate medium; and they can refer to the internal connection of two components. Those skilled in the art can understand the specific meaning of the above terms in this utility model based on the specific circumstances.

[0050] Furthermore, the technical features involved in the different embodiments of this utility model described below can be combined with each other as long as they do not conflict with each other.

[0051] The following is combined Figures 1 to 5 The following describes embodiments of the present invention.

[0052] According to an embodiment of the present invention, a mop is provided, comprising: a mop handle 10, a mop plate 20, and a counterweight. The mop plate 20 is rotatably disposed at one end of the mop handle 10. The mop plate 20 has a cleaning position and a working position, and the mop plate 20 is rotatable between the cleaning position and the working position. The counterweight is movably disposed on the mop plate 20. When the mop plate 20 is detached from the surface to be cleaned, at least a portion of the counterweight can move to one side of the mop plate 20 to drive the mop plate 20 to rotate from the working position to the cleaning position.

[0053] In the above embodiments, by providing a movable counterweight on the mop board 20, when the user lifts the mop from the ground and the mop board 20 detaches from the surface to be cleaned, at least a portion of the counterweight can move to one side of the mop board 20 under the action of gravity, with the mop handle 10 as the reference. This drives the mop board 20 to automatically rotate from the working position to the cleaning position, allowing the mop board 20 to automatically rotate back to the position where the counterweight is facing downwards. Thus, the rotation and positioning of the mop board 20 can be achieved without the need for a spring, and the rotation and positioning directions of the mop board 20 are unrestricted. The user does not need to make way for the rotation of the mop board 20 or perform unnecessary operations, improving the user experience and effectively solving the problem of easy failure in the prior art where the mop board 20 is positioned by spring locking during mop cleaning.

[0054] Optionally, the mop board 20 is hinged to one end of the mop handle 10, and the counterweight is movably disposed inside the mop board 20 or movably installed outside the mop board 20. When the mop board 20 is removed from the surface to be cleaned, at least part of the counterweight can move to one side of the mop board 20 under the action of gravity, so that the mop board 20 automatically rotates to the position where the counterweight is downward, thereby automatically rotating to the cleaning position for the convenience of the user to clean.

[0055] It should be noted that, in this embodiment, with the mop handle 10 as the reference, the counterweight is located on one side or the other side of the mop board 20 relative to the mop handle 10, or it can be directly said that "the counterweight is located on one side or the other side of the mop board 20".

[0056] In some embodiments, a guide structure 30 is provided on the mop plate 20, the guide structure 30 extending from one side of the mop plate 20 to the other side along the length direction of the mop plate 20; a counterweight is movably disposed on the guide structure 30; when the mop plate 20 is removed from the surface to be cleaned, the guide structure 30 can guide at least a portion of the counterweight to move to either side of the mop handle 10 to drive the mop plate 20 to rotate from the working position to the cleaning position.

[0057] In the above embodiment, by providing a guide structure 30 on the mop board 20, and extending the guide structure 30 from one side of the mop board 20 to the other side, and the counterweight being movably disposed on the guide structure 30, when the user lifts the mop from the ground and the mop board 20 detaches from the surface to be cleaned, the guide structure 30 can guide at least a portion of the counterweight to move to either side of the mop board 20, thereby driving the mop board 20 to automatically rotate from the working position to the cleaning position. The guide structure 30 can guide the movement of the counterweight, ensuring that the counterweight does not move arbitrarily when the mop board 20 detaches from the surface to be cleaned, and can move according to a preset motion trajectory, thereby ensuring the automatic rotation effect of the mop board 20.

[0058] In this embodiment, the guide structure 30 is installed and fixed on the mop board 20; or, the guide structure 30 can also be a part of the structure of the mop board 20 and be integrally set with the mop board 20.

[0059] In some embodiments, the guide structure 30 includes a guide channel 301; the guide channel 301 is disposed on the mop board 20; and a counterweight is movably disposed within the guide channel 301.

[0060] In the above embodiments, the guide structure 30 adopts the design of the guide channel 301, and the counterweight is movably placed in the guide channel 301, so that the counterweight and the guide structure 30 can be assembled, which is very simple and convenient.

[0061] Optionally, in this embodiment, the guide channel 301 can be directly formed inside the mop board 20, or the guide structure 30 can be installed separately on the mop board 20, with the guide structure 30 hollow inside to form the guide channel 301.

[0062] Preferably, in this embodiment, the guide structure 30 is separately installed and fixed on the mop board 20, so that the structure of the mop board 20 does not need to be modified, thus reducing mold costs.

[0063] Furthermore, the extension direction of the guide channel 301 is parallel to the length direction of the mop board 20, and the guide channel 301 extends from one end of the mop board 20 to the other end along the length direction of the mop board 20.

[0064] In other alternative embodiments, the guide structure 30 may also take the form of a guide rail or guide groove, and the counterweight is slidably connected to the guide rail or guide groove.

[0065] In some embodiments, a partition structure is provided in the guide channel 301, which divides the guide channel 301 into two chambers; the counterweight can be movably disposed in any one of the chambers, or the counterweight can be movably disposed in each chamber.

[0066] In the above embodiment, by providing a partition structure in the guide channel 301, the partition structure can divide the guide channel 301 into two chambers along the length of the mop board 20, and each chamber is provided with a counterweight, thereby effectively avoiding the problem of uncertain rotation direction caused by the left and right sliding of the counterweight.

[0067] Specifically, the partition structure can take the form of a partition or a block. Preferably, in this embodiment, the partition structure is a partition.

[0068] In some embodiments, the partition structure is detachably disposed within the guide channel 301.

[0069] In the above embodiments, the partition structure is designed to be detachable, making it easy for users to transfer the counterweights as needed. For example, users can disassemble the partition structure according to their personal usage habits, so that all the counterweights are transferred to the same side of the chamber. In this way, every time the mop is lifted from the ground, the counterweights will move and converge to that side, causing the mop board 20 to face downwards, making it convenient for users to use.

[0070] Optionally, the guide structure 30 is provided with a disassembly port, through which the partition structure can be inserted into the guide channel 301 or pulled out. The partition structure is installed on the guide structure 30 in a pull-out manner, making disassembly and assembly very convenient and quick.

[0071] In some embodiments, the position of the partition structure corresponds to the position of the mop handle 10.

[0072] In the above embodiment, the partition structure is located in the middle of the guide channel 301, and the position of the partition structure is directly opposite the position of the mop handle 10, so as to ensure the balance and stability of the entire mop board 20.

[0073] Optionally, the weight of the counterweights in the two chambers is the same to avoid the mop board 20 being able to only tilt and rotate to one side due to uneven distribution of the counterweights in the two chambers, which would be inconvenient for users with different hand habits.

[0074] In some embodiments, the guide structure 30 includes a mounting cylinder disposed on the mop plate 20, the mounting cylinder being detachably disposed on the mop plate 20; a guide channel 301 is formed inside the mounting cylinder.

[0075] In the above embodiments, the guide structure 30 adopts a detachable mounting cylinder on the mop plate 20, which facilitates disassembly and assembly. During assembly, a counterweight is first installed in the guide channel 301 of the mounting cylinder, and then the assembled mounting cylinder is assembled with the mop plate 20. This not only facilitates later maintenance and replacement, but also makes it convenient for the mop plate 20 and the mounting cylinder to be processed and manufactured separately.

[0076] Specifically, the mounting cylinder is a hollow, elongated cylindrical structure. The axial direction of the mounting cylinder is consistent with the length direction of the mop board 20, that is, the mounting cylinder extends along the length direction of the mop board 20. The mounting cylinder can be installed and fixed on the mop board 20 by means of screws, snap-fit, plug-in, etc.

[0077] Preferably, the mounting cylinder is located in the middle of the width direction of the mop plate 20. This design ensures that the entire guide structure 30 is in the middle of the mop plate 20, improving the balance and stability of the entire mop during use.

[0078] Furthermore, a partition is provided in the middle of the mounting cylinder. The partition has an obstruction state for inserting the mounting cylinder and a conduction state for pulling out the mounting cylinder. When the partition is in the obstruction state, the guide channel 301 is divided into two independent chambers. When the partition is in the conduction state, the two chambers are interconnected.

[0079] In some embodiments, the two ends of the mounting cylinder are respectively inserted and fixed onto the mop board 20.

[0080] In the above embodiment, the two ends of the mounting cylinder are respectively inserted and fixed on the mop plate 20, which is not only easy to disassemble, but also secure and stable.

[0081] Specifically, the mop board 20 includes a mop board body 22 and two fixing brackets 23, which are detachably installed and fixed at both ends of the mop board body 22 along its length. Each fixing bracket 23 includes an assembly part 231 and a plug-in part 232. The two plug-in parts 232 are arranged opposite to each other, and each plug-in part 232 is provided with a plug-in groove, in which the two ends of the mounting cylinder are respectively plugged and fixed.

[0082] Furthermore, the insertion part 232 protrudes from the back of the mop board body 22, and the assembly part 231 is detachably connected to the mop board body 22 and together with the mop board body 22 to form a plate-shaped mop board 20. The insertion part 232 is integrally formed and fixedly mounted on the assembly part 231. During assembly, one side of the fixing bracket 23 can be installed on the mop board body 22 first, and one end of the mounting tube can be inserted and fixed in the insertion groove in the fixing bracket 23 on that side. Then, the fixing bracket 23 on the other side is aligned with the other end of the mounting tube, and then the fixing bracket 23 on the other side is fixed to the mop board body 22, thereby realizing the installation and fixation of the mounting tube. When you want to disassemble, you can first remove the fixing bracket 23 on either side, and then remove the mounting tube from that side to achieve disassembly.

[0083] In some embodiments, the mop board 20 includes a wiping surface and a board surface opposite to the wiping surface, and a mounting cylinder is disposed on the board surface.

[0084] In the above embodiment, by placing the mounting cylinder on the back of the mop board 20, installation is not only convenient, but it also does not affect the normal cleaning operation of the mop.

[0085] In some embodiments, the mop includes a rotating structure, through which the mop plate 20 and the mop handle 10 are rotatably connected. The rotating structure includes a rotating shaft 11 extending in a first direction and a guide structure 30 extending in a second direction; wherein the first direction and the second direction are perpendicular to each other.

[0086] In the above embodiment, by setting the extension direction of the guide structure 30 to be perpendicular to the extension direction of the rotating shaft 11, the direction of relative rotation between the mop plate 20 and the mop handle 10 is consistent with the direction of movement of the counterweight, thereby facilitating the rotation and positioning of the mop plate 20 by the movement of the counterweight when the mop plate 20 is removed from the surface to be cleaned.

[0087] Specifically, the first direction is parallel to the radial direction of the mop handle 10, and the second direction is consistent with the longitudinal direction of the mop plate 20. When the mop plate 20 is removed from the surface to be cleaned, the counterweight can guide the mop plate 20 to automatically rotate around the pivot 11 of the mop handle 10 and the mop plate 20 to a position where the mop plate 20 and the mop handle 10 are collinear.

[0088] In some embodiments, the guide structure 30 is symmetrically arranged on both sides of the mop handle 10.

[0089] In the above embodiment, by symmetrically arranging the guide structure 30 on both sides of the mop handle 10, the balance and stability of the entire mop board 20 are improved, and it is easier to guide the counterweight to move to either side of the mop board 20.

[0090] In this embodiment, the guide structure 30 is symmetrically distributed on both sides of the mop board 20 relative to the rotating shaft 11, so that the counterweight can guide either end of the mop board 20 to flip downward relative to the rotating shaft 11.

[0091] In some embodiments, the mop plate 20 has a connecting block 21, a rotating structure is disposed on the connecting block 21, and a limiting hole is provided on the connecting block 21; the guide structure 30 passes through the limiting hole.

[0092] In the above embodiment, by providing a connecting block 21 on the mop board 20, and by providing a limiting hole on the connecting block 21 for the guide structure 30 to pass through, the guide structure 30 can be fixed not only from both ends, but also limited from the middle, making the fixing of the guide structure 30 more reliable and stable.

[0093] Specifically, along the length of the mop plate 20, the connecting block 21 is fixedly installed on the back of the mop plate 20. The connecting block 21 has a through limiting hole, the axis of which is consistent with the length of the mop plate 20. The mounting cylinder passes through the limiting hole and is limited in the middle of the limiting hole of the connecting block 21.

[0094] Preferably, there are two connecting blocks 21, which are spaced apart on the mop plate 20. Each of the two connecting blocks 21 has a limiting hole through which the mounting cylinder can pass. The stability of the mounting cylinder structure can be further improved by using the two spaced connecting blocks 21.

[0095] More preferably, the two connecting blocks 21 are symmetrically distributed on both sides of the mop handle 10, which improves the overall balance and stability of the mop.

[0096] In some embodiments, a hinge seat 40 is provided in the middle of the mounting cylinder, and the mop handle 10 is hinged to the connecting seat via a pivot 11. The hinge seat 40 has a through hole through which the mounting cylinder passes. The hinge seat 40 is sleeved on the mounting cylinder, and the through hole can be clearance-fitted with the mounting cylinder. The hinge seat 40 is axially confined between the two connecting blocks 21 on the mounting cylinder to prevent slippage and instability. Alternatively, in other alternative embodiments, the through hole can also be interference-fitted with the mounting cylinder.

[0097] Furthermore, the hinge seat 40 includes a sleeve portion 41 and a hinge portion 42. The sleeve portion 41 is sleeved on the middle part of the mounting cylinder. The hinge portion 42 is fixedly disposed on the sleeve portion 41. The end of the mop handle 10 is provided with an opening groove that can accommodate the hinge portion 42. The hinge portion 42 is provided with a first shaft hole, and a second shaft hole is provided on the side wall of the opening groove corresponding to the first shaft hole. The first shaft hole and the second shaft hole are connected by a rotating shaft 11.

[0098] In this embodiment, the hinge seat 40 provided on the mounting cylinder and the mop and the hinge seat 40 are connected by the rotating shaft 11, thereby enabling the hinge connection between the mop handle 10 and the mop board 20.

[0099] In some embodiments, the counterweight includes any one or a mixture of several of the following: counterweight blocks, counterweight balls, counterweight particles, counterweight powder, and counterweight liquid.

[0100] Preferably, in this embodiment, the counterweight is made of counterweight particles, counterweight powder or counterweight liquid. Compared with counterweight blocks and counterweight balls, this allows the mop board 20 to move more smoothly to the cleaning position when it is removed from the surface to be cleaned, thus improving the user experience.

[0101] Even better, the counterweight can be made of materials such as water or sand, which is inexpensive.

[0102] In some embodiments, when the mop plate 20 is in the working position, there is an angle between the mop plate 20 and the mop handle 10; when the mop plate 20 is in the cleaning position, the mop plate 20 and the mop handle 10 are parallel to each other.

[0103] Specifically, when the mop board 20 is in the working position, the included angle between the mop board 20 and the mop handle 10 is less than or equal to 90°. When the mop board 20 is in the cleaning position, the surface of the mop board 20 is parallel to the mop handle 10, so as to facilitate inserting the mop into the wringing mechanism for cleaning.

[0104] Although embodiments of the present invention have been described in conjunction with the accompanying drawings, those skilled in the art can make various modifications and variations without departing from the spirit and scope of the present invention, and such modifications and variations all fall within the scope defined by the appended claims.

Claims

1. A mop, characterized in that, include: Mop handle (10); A mop plate (20) is rotatably disposed at one end of the mop handle (10); the mop plate (20) has a cleaning position and a working position, and the mop plate (20) is rotatable between the cleaning position and the working position; A counterweight is movably disposed on the mop board (20); when the mop board (20) is detached from the surface to be cleaned, at least a portion of the counterweight can move to one side of the mop board (20) to drive the mop board (20) to rotate to the position where the counterweight is downward, thereby causing the mop board (20) to rotate from the working position to the cleaning position.

2. The mop according to claim 1, characterized in that, The mop board (20) is provided with a guide structure (30), which extends from one side of the mop board (20) to the other side along the length direction of the mop board (20); the counterweight is movably disposed on the guide structure (30); when the mop board (20) is removed from the surface to be cleaned, the guide structure (30) can guide at least part of the counterweight to move to either side of the mop board (20) to drive the mop board (20) to rotate to the position where the counterweight is downward.

3. The mop according to claim 2, characterized in that, The guide structure (30) includes a guide channel (301); the guide channel (301) is disposed on the mop board (20); the counterweight is movably disposed within the guide channel (301).

4. The mop according to claim 3, characterized in that, The guide channel (301) is provided with a partition structure, which divides the guide channel (301) into two chambers; the counterweight is movably disposed in the chamber; And / or, each of the chambers is provided with the counterweight.

5. The mop according to claim 4, characterized in that, The partition structure is detachably disposed within the guide channel (301); And / or, the position of the partition structure corresponds to the position of the mop handle (10).

6. The mop according to any one of claims 3-5, characterized in that, The guide structure (30) includes a mounting cylinder disposed on the mop plate (20), the mounting cylinder being detachably disposed on the mop plate (20); the guide channel (301) is formed inside the mounting cylinder.

7. The mop according to claim 6, characterized in that, The two ends of the mounting cylinder are respectively inserted and fixed onto the mop board (20); And / or, the mop board (20) includes a wiping surface and a board surface opposite to the wiping surface, and the mounting cylinder is disposed on the board surface.

8. The mop according to any one of claims 2-5, characterized in that, The mop includes a rotating structure, the mop plate (20) and the mop handle (10) are rotatably connected by the rotating structure, the rotating structure includes a rotating shaft (11) extending in a first direction, and the guide structure (30) extending in a second direction; wherein the first direction and the second direction are perpendicular to each other; And / or, the guide structure (30) is symmetrically arranged on both sides of the mop plate (20) opposite to the mop handle (10).

9. The mop according to claim 8, characterized in that, The mop plate (20) has a connecting block (21), the rotating structure is disposed on the connecting block (21), and the connecting block (21) is provided with a limiting hole; the guide structure (30) passes through the limiting hole.

10. The mop according to any one of claims 1 to 5, 7 or 9, characterized in that, The counterweight includes any one or a mixture of several of the following: counterweight blocks, counterweight balls, counterweight particles, counterweight powder, and counterweight liquid; And / or, when the mop plate (20) is in the working position, there is an angle between the mop plate (20) and the mop handle (10); when the mop plate (20) is in the cleaning position, the mop plate (20) and the mop handle (10) are parallel to each other.