CN222565724U - Cloth clamping type mop device - Google Patents

Abstract

The utility model provides a cloth clamping type mop device which comprises a mop main body, a clamping assembly and a driving mechanism, wherein at least one first magnetic component is arranged in the mop main body, the clamping assembly is movably connected with the mop main body, a second magnetic component matched with the first magnetic component is arranged on the clamping assembly, the driving mechanism is electrically connected with the first magnetic component and/or the second magnetic component and used for controlling the magnetic pole direction of the first magnetic component and/or the second magnetic component to change the interaction force between the first magnetic component and the second magnetic component, or is in transmission connection with the first magnetic component and used for driving the first magnetic component to move so as to change the interaction force between the first magnetic component and the second magnetic component, so that when the first magnetic component and the second magnetic component repel each other, the clamping assembly is far away from the mop main body so as to loosen the clamped mop, and when the first magnetic component and the second magnetic component attract each other, the clamping assembly is close to the mop main body so as to clamp the mop to be clamped. The cloth clamping type mop device simplifies the operation process of a user so as to be convenient for the user to use, and improves the use experience of the cloth clamping type mop device.

Description

Cloth clamping type mop device

Technical Field

The utility model relates to the technical field of articles for daily use, in particular to a cloth clamping type mop device.

Background

The mop is clamped on the mop head and then mopped, so that a user can clamp the mop on the mop head when using the mop, and the mop after mopping is cleaned by taking off the used mop.

The existing cloth clamping mop generally requires a user to manually open a clamping part on the mop head for clamping the mop, place the mop at the position of the clamping part for clamping the mop, and then close the clamping part for clamping the mop to clamp the mop, so that the operation process of the user is complicated, and the use is inconvenient.

Disclosure of utility model

Therefore, the technical problem to be solved by the utility model is to overcome the defect that the operation of the cloth clamping mop is complex when the mop is loosened and clamped, and the use experience of a user is affected.

To this end, the utility model provides a cloth clamping type mop cleaning device which comprises a cleaning main body, a clamping assembly and a driving mechanism, wherein at least one first magnetic member is arranged in the cleaning main body, the clamping assembly is movably connected with the cleaning main body, a second magnetic member matched with the first magnetic member is arranged on the clamping assembly, the driving mechanism is electrically connected with the first magnetic member and/or the second magnetic member and used for controlling the magnetic pole direction of the first magnetic member and/or the second magnetic member to change the interaction force between the first magnetic member and the second magnetic member, or the driving mechanism is in transmission connection with the first magnetic member and used for driving the first magnetic member to move to change the interaction force between the first magnetic member and the second magnetic member, so that the clamping assembly is far away from the cleaning main body to be clamped and loosened when the first magnetic member and the second magnetic member repel each other, and the mop cleaning assembly is close to the clamping main body to be clamped when the first magnetic member and the second magnetic member repel each other.

In an alternative embodiment, the driving mechanism is in driving connection with the first magnetic member for driving the first magnetic member in rotation to change the interaction force between the first magnetic member and the second magnetic member.

In an alternative embodiment, the driving mechanism comprises a driving member and a transmission member, the driving member is arranged on the mop main body, one end of the transmission member is rotationally connected with the driving member, the other end of the transmission member is fixedly connected with the first magnetic member, and the transmission member drives the first magnetic member to rotate under the driving of the driving member.

In an alternative embodiment, the transmission member includes a first transmission member and a second transmission member, a first end of the first transmission member is rotatably connected to the driving member, a second end of the first transmission member is rotatably connected to a first end of the second transmission member, and a second end of the second transmission member is fixedly connected to the first magnetic member.

In an alternative embodiment, the driving member is configured as a driving rod, the first end of the first transmission member includes a first through hole, the driving rod is movably inserted into the first through hole, one of the second end of the first transmission member and the first end of the second transmission member includes a second through hole, the other includes two arms, each arm is provided with a corresponding third through hole, the second end of the first transmission member and the first end of the second transmission member are sleeved and connected with the second through hole and the third through hole through a pin, and the second end of the second transmission member is fixedly connected with the first magnetic member.

In an alternative embodiment, the mop body is provided with a first limiting structure for limiting the maximum displacement of the driving mechanism in a direction parallel to the clamping assembly.

In an alternative embodiment, the driving mechanism comprises a transmission member, and a limiting groove is arranged on the mop main body along the direction perpendicular to the clamping assembly so as to limit the maximum displacement of the transmission member along the direction parallel to the clamping assembly.

In an alternative embodiment, the first end of the first transmission member includes a limiting portion having a first through hole, and the limiting portion is clamped on the limiting groove, so as to limit the transmission member to move in the limiting groove when the driving mechanism is driven.

In an alternative embodiment, a second limiting structure is arranged in the mop body and is used for limiting the maximum displacement of the driving mechanism in the direction perpendicular to the mop body.

In an alternative embodiment, the driving mechanism includes a second transmission member, the second limiting structure includes at least a first limiting platform disposed in the mop body, and the second transmission member is mounted on the first limiting platform to limit the maximum displacement of the second transmission member in a direction perpendicular to the mop body.

In an alternative embodiment, a mounting assembly is disposed within the mop body, the first magnetic member is disposed on the mounting assembly, and the drive mechanism is in driving connection with the mounting assembly for driving the mounting assembly in motion to vary the interaction force between the first magnetic member and the second magnetic member.

In an alternative embodiment, the end of the mounting assembly is rotatably coupled to the mop body.

In an alternative embodiment, a third limiting structure is provided in the mop body for supporting the mounting assembly and limiting movement of the mounting assembly relative to the mop body in a direction perpendicular to the gripping assembly.

In an alternative embodiment, the third limiting structure includes at least a second limiting table, and the mounting assembly is mounted on the second limiting table.

In an alternative embodiment, the mounting assembly is provided with a first mounting slot in which the first magnetic member is removably mounted.

In an alternative embodiment, the number of the first magnetic members and the number of the second magnetic members are two, the two first magnetic members are respectively arranged at the positions of the adjacent ends of the mop main body, and the two second magnetic members are respectively arranged at the positions of the adjacent ends of the clamping assembly.

In an alternative embodiment, the clamping assembly is disposed on both sides of the long side of the mop body, the first magnetic member is disposed adjacent the end of the long side of the mop body, and the second magnetic member is disposed adjacent the end of the clamping assembly.

In an alternative embodiment, the clamping assembly includes a clamping tooth and a connector, the second magnetic member being disposed on the connector.

In an alternative embodiment, the connector is provided with a second mounting groove in which the second magnetic member is detachably mounted.

In an alternative embodiment, the mop body is provided with a guide along which the connection member moves.

In an alternative embodiment, the mop body includes a top cover and a base, the top cover and the base forming a receiving space, the first magnetic member being disposed within the receiving space.

In an alternative embodiment, the mop body is provided with a limit groove, and the limit groove is arranged on the top cover.

In an alternative embodiment, the mop device further comprises a mop rod movably arranged on the top cover, the driving mechanism comprises a driving rod and a transmission member, and the driving rod is arranged on one side of the mop rod to drive the transmission member to move in the limiting groove.

In an alternative embodiment, a bending part is arranged in the middle of the driving rod, so that the driving rod avoids the towing rod when moving.

According to the cloth clamping type mop device, based on the principle that like poles repel and opposite poles attract each other between the magnetic components, the first magnetic component and the second magnetic component are respectively arranged on the mop main body and the clamping component, so that the interaction force between the first magnetic component and the second magnetic component is changed to drive the clamping component to be far away from or close to the mop main body, and further the clamped mop is loosened or clamped, the operation process of a user is simplified, the user can use the cloth clamping type mop device conveniently, and the use experience of the cloth clamping type mop device is improved.

Drawings

In order to more clearly illustrate the embodiments of the present utility model 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 utility model, 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 perspective view of a cloth clamping type mop device according to an embodiment of the present application.

Fig. 2 is a schematic perspective view of a cloth clamping type mop device according to an embodiment of the present application in a mop loosening state.

Fig. 3a and 3b are simplified schematic illustrations of the arrangement of magnetic members in a cloth-clamping mop device provided in an embodiment of the present application.

Fig. 4a and 4b are simplified schematic diagrams of an arrangement of magnetic members in a cloth clamping mop device according to another embodiment of the present application.

Fig. 5 is an exploded view of the structure in the accommodating space of the mop body in fig. 1.

Fig. 6 is an exploded view of the structure in the accommodating space of the mop body in fig. 2.

Fig. 7 is a schematic view of a partial explosion of a cloth clamping mop device according to an embodiment of the present application.

Fig. 8 is a schematic structural view of the first transmission member in fig. 5.

Fig. 9 is a schematic structural view of the second transmission member in fig. 5.

Reference numerals illustrate:

1-mop body, 2-clamping assembly, 3-mop rod, 11-top cover, 12-base, 111-limit slot, 121-guide, 6-first magnetic member, 7-second magnetic member, 21-clip tooth, 22-connector, 221-second mounting slot, 41-drive rod, 42-transmission member, 421-first transmission member, 422-second transmission member, 4211-first through hole, 4212-spherical structure, 4213-second through hole, 4221-arm, 4222-third through hole, 61-mounting assembly, 611-first mounting slot, 612-end, 122-first limit table, 123-second limit table, 124-third limit table.

Detailed Description

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

In the description of the present utility model, it should be noted that the directions or positional relationships indicated by the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", etc. are based on the directions or positional relationships shown in the drawings, are merely for convenience of describing the present utility model and simplifying the description, and do not indicate or imply that the devices or elements referred to must have a specific orientation, be configured and operated in a specific orientation, and thus should not be construed as limiting the present utility model. Furthermore, the terms "first," "second," and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present utility model, unless explicitly stated or limited otherwise, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected, mechanically connected, electrically connected, directly connected, indirectly connected via an intervening medium, or in communication between two elements. The specific meaning of the above terms in the present utility model will be understood in specific cases by those of ordinary skill in the art.

In addition, the technical features of the different embodiments of the present utility model described below may be combined with each other as long as they do not collide with each other.

The cloth clamping mop is widely used because the cloth can be taken off for cleaning. When the existing cloth clamping mop is used for removing or clamping cloth, a user is usually required to manually open the clamping component used for clamping the mop head, put the mop at the position of the clamping component used for clamping the mop, and then close the clamping component used for clamping the mop to clamp the mop, so that the operation process of the user is complicated, and the use is inconvenient.

Therefore, the application provides a cloth clamping type mop device, which utilizes the principle that like poles repel and opposite poles attract each other between magnetic components, and the first magnetic component and the second magnetic component are respectively arranged on the mop main body and the clamping component, so that the interaction force between the first magnetic component and the second magnetic component is changed to drive the clamping component to be far away from or close to the mop main body, and further the clamped mop is loosened or the mop to be clamped is clamped, thereby simplifying the operation process of a user so as to facilitate the use of the user.

Referring to fig. 1 and 2, fig. 1 is a schematic perspective view of a cloth clamping type mop device according to an embodiment of the present application in a mop clamping state, and fig. 2 is a schematic perspective view of a cloth clamping type mop device according to an embodiment of the present application in a mop loosening state. As shown in the figure, the cloth clamping type mop device comprises a mop main body 1, a clamping component 2 and a driving mechanism (not shown), wherein at least one first magnetic component is arranged in the mop main body 1, the clamping component 2 is movably connected with the mop main body 1, and a second magnetic component matched with the first magnetic component is arranged on the clamping component 2. The drive mechanism is electrically connected with the first magnetic member and/or the second magnetic member and is used for controlling the magnetic pole direction of the first magnetic member and/or the second magnetic member to change the interaction force between the first magnetic member and the second magnetic member, or is in transmission connection with the first magnetic member and is used for driving the first magnetic member to move so as to change the interaction force between the first magnetic member and the second magnetic member, so that the clamping assembly is far away from the mop body to loosen the clamped mop when the first magnetic member and the second magnetic member repel each other, and the clamping assembly is close to the mop body to clamp the mop to be clamped when the first magnetic member and the second magnetic member attract each other.

In some embodiments, the first and second magnetic members are electromagnets, and the drive mechanism is in ferroelectric connection with the electromagnets to change the poles of the electromagnets by, for example, changing the direction of the current flow for the purpose of changing the interaction force between the magnetic members. In some embodiments, a drive mechanism is electrically connected to the first and second magnetic members for controlling the magnetic pole directions of the first and second magnetic members to change the interaction force between the first and second magnetic members. In other embodiments, the drive mechanism is electrically connected to the first magnetic member for controlling the magnetic pole orientation of the first magnetic member to vary the interaction force between the first magnetic member and the second magnetic member. In still other embodiments, the drive mechanism is electrically connected to the second magnetic member for controlling the magnetic pole direction of the second magnetic member to change the interaction force between the first magnetic member and the second magnetic member.

In other embodiments, the first magnetic member and the second magnetic member are permanent magnets, or the first magnetic member and the second magnetic member are electromagnets, but the magnetic pole distribution of the electromagnets is not changed in the use process, and the purpose of changing the interaction force between the magnetic members is achieved by driving the magnetic members to move. Specifically, the driving mechanism is in transmission connection with the first magnetic member and is used for driving the first magnetic member to move so as to change the interaction force between the first magnetic member and the second magnetic member.

In some embodiments, a drive mechanism is drivingly connected to the first magnetic member for driving movement of the first magnetic member to vary the interaction force between the first magnetic member and the second magnetic member. Referring to fig. 3a and 3b, a simplified schematic diagram of an arrangement of magnetic members in a cloth clamping mop device according to an embodiment of the application is shown, wherein N and S represent N and S poles of the magnetic members. As shown in the figure, four first magnetic members are arranged in the mop main body, and are sequentially marked as a first magnetic member A, a first magnetic member B, a first magnetic member C and a first magnetic member D, two second magnetic members are respectively arranged on two clamping assemblies movably connected with the mop main body, and are sequentially marked as a second magnetic member A ', a second magnetic member B', a second magnetic member C 'and a second magnetic member D'. In the case of the initial state of gripping the mop, as shown in fig. 3a, the first magnetic member B cooperates with the second magnetic member a 'and the second magnetic member C', the first magnetic member D cooperates with the second magnetic member B 'and the second magnetic member D', and the magnetic members are attracted to each other based on the position of the magnetic poles, so that the mop is in a gripping state. When the mop is to be released, as shown in figure 3B, the drive mechanism drives the first magnetic member to move in the direction E shown in the figure, so that the first magnetic member a cooperates with the second magnetic member a 'and the second magnetic member C', and the first magnetic member C cooperates with the second magnetic member B 'and the second magnetic member D', at which time the magnetic members repel each other, based on the position of the poles, so that the gripping assembly is moved away from the mop body and the gripped mop is released. When the drive mechanism drives the first magnetic member in the opposite direction of E, it returns to the condition of initially gripping the mop. In this way, the first magnetic member is driven to move by the driving mechanism to change the interaction force between the first magnetic member and the second magnetic member.

In still other embodiments, the drive mechanism is drivingly connected to the first magnetic member for driving rotation of the first magnetic member to vary the interaction force between the first magnetic member and the second magnetic member. Referring to fig. 4a and 4b, a simplified schematic diagram of an arrangement of magnetic members in a cloth clamping mop device according to another embodiment of the application is shown, wherein N and S represent N and S poles of the magnetic members. As shown in the figure, two first magnetic members are arranged in the mop main body, and are sequentially marked as a first magnetic member E and a first magnetic member F, two second magnetic members are respectively arranged on two clamping assemblies movably connected with the mop main body, and are sequentially marked as a second magnetic member E ', a second magnetic member F', a second magnetic member G 'and a second magnetic member H'. In the case of the initial state of gripping the mop, as shown in fig. 4a, the first magnetic member E cooperates with the second magnetic member E 'and the second magnetic member G', the first magnetic member F cooperates with the second magnetic member F 'and the second magnetic member H', and the magnetic members attract each other based on the position of the magnetic poles, so that the mop is in the gripping state. When the mop is to be released, the drive mechanism drives the first magnetic member to rotate to change the direction of the magnetic poles, as shown in fig. 4b, the first and second magnetic members E ', E' and G 'repel each other, and the first and second magnetic members F', F 'and H' repel each other, so that the gripping assembly is moved away from the mop body to release the gripped mop.

According to the cloth clamping type mop device, the principle that like poles repel and opposite poles attract each other is utilized, the first magnetic component and the second magnetic component are respectively arranged on the mop main body and the clamping component, so that the interaction force between the first magnetic component and the second magnetic component is changed to drive the clamping component to be far away from or close to the mop main body, and further the clamped mop is loosened or clamped, and the operation process of a user is simplified, so that the mop is convenient for the user to use.

In some embodiments, the driving mechanism comprises a driving member and a transmission member, the driving member is arranged on the mop main body, one end of the transmission member is rotationally connected with the driving member, the other end of the transmission member is fixedly connected with the first magnetic member, and the transmission member drives the first magnetic member to rotate under the driving of the driving member. The driving member is a component driven by external force, and is generally operated by a user, such as a button, a pull ring, and the like. The driving component drives the transmission component to move under the action of external force so as to realize the purpose of rotating the first magnetic component.

In practical applications, due to the limitation of the size of the mop device, in order to achieve the rotation of the first magnetic member in the limited inner accommodating space, in some embodiments, the transmission member includes a first transmission member and a second transmission member, a first end of the first transmission member is rotationally connected with the driving member, a second end of the first transmission member is rotationally connected with a first end of the second transmission member, and a second end of the second transmission member is fixedly connected with the first magnetic member. Through the rotational connection between the driving members, the purpose of converting the linear or arcuate displacement provided by the driving members into rotation of the first magnetic member within a limited space is achieved to achieve a change in the interaction force between the magnetic members.

Specifically, in some embodiments, the driving member is configured as a driving rod, the first end of the first transmission member includes a first through hole, the driving rod is movably inserted into the first through hole, the second end of the first transmission member includes a second through hole, the first end of the second transmission member includes two arms and each arm is provided with a corresponding third through hole, the second end of the first transmission member is sleeved in the first end of the second transmission member, and the second through hole and the third through hole are connected through a pin, and the second end of the second transmission member is fixedly connected with the first magnetic member. In still other embodiments, the driving member is provided as a driving rod, the first end of the first transmission member comprises a first through hole, the driving rod is movably inserted into the first through hole, the second end of the first transmission member comprises two arms and each arm is provided with a corresponding third through hole, the first end of the second transmission member comprises a second through hole, the first end of the second transmission member is sleeved in the second end of the first transmission member and is connected with the second through hole and the third through hole through a pin shaft, and the second end of the second transmission member is fixedly connected with the first magnetic member. Based on this, the actuating lever inserts in the first through-hole of first driving medium one end for actuating lever and first driving medium form rotation and connect, and the other end of first driving medium cup joints and connects second through-hole and third through-hole through the round pin axle with the one end of second driving medium, makes first driving medium and second driving medium form rotation and connects, on this basis, when external force acts on the actuating lever, through the rotation of actuating lever and first driving medium be connected and first driving medium and the rotation of second driving medium be connected the rotation that will be provided by the actuating lever is converted into the rotation of first magnetic member, realizes reaching the purpose that interaction force changes between the magnetic member in limited space.

In the case where the driving mechanism drives the first magnetic member to rotate, it is necessary to limit the driving mechanism in order to enable stable movement of the magnetic member. In some embodiments, the mop body is provided with a first limiting structure for limiting the maximum displacement of the drive mechanism in a direction parallel to the gripping assembly. Based on the action of the first limiting structure, the driving mechanism prevents the relative position between the first magnetic component and the second magnetic component from generating dislocation in the direction parallel to the clamping assembly when driving the first magnetic component to rotate, so that the magnetic attraction force between the first magnetic component and the second magnetic component is reduced.

In one example, a limiting groove is provided on the mop body in a direction perpendicular to the grip assembly to limit the maximum displacement of the drive member in a direction parallel to the grip assembly. In addition, in the case that the driving member is movably connected with the driving member, in order to prevent the driving member from being separated from the driving member and falling into the mop main body, in some embodiments, the first end of the first transmission piece includes a limiting portion with a first through hole, and the limiting portion is clamped on the limiting groove so as to limit the movement of the driving member in the limiting groove when the driving mechanism is driven. For example, the limiting part can be in a spherical structure, a square structure or other modeling structures, so long as the limiting part can be clamped on the limiting groove to prevent the transmission part from falling into the mop main body.

In other embodiments, a second limiting structure is provided within the mop body for limiting the maximum displacement of the drive mechanism in a direction perpendicular to the mop body. Based on the effect of the second limiting structure, the driving mechanism can prevent the problem that the first magnetic component and the second magnetic component cannot be completely matched for use so as to reduce the magnetic attraction force between the first magnetic component and the second magnetic component caused by overlarge rotation angle of the first magnetic component when driving the first magnetic component to rotate.

In an example, the driving mechanism includes a second transmission member, the second limiting structure includes at least one first limiting platform disposed in the mop body, and the second transmission member is mounted on the first limiting platform to limit a maximum displacement of the second transmission member in a direction perpendicular to the mop body.

In another example, under the combined action of the limiting part of the first transmission piece and the first limiting table in the mopping main body, the matching degree of the first magnetic component and the second magnetic component is further improved, and the magnetic attraction force between the first magnetic component and the second magnetic component is enhanced.

In some embodiments, a mounting assembly is disposed within the mop body, the first magnetic member is disposed on the mounting assembly, and a drive mechanism is drivingly coupled to the mounting assembly for driving movement of the mounting assembly to vary the interaction force between the first magnetic member and the second magnetic member. In one example, the mounting assembly is provided with a first mounting slot in which the first magnetic member is removably mounted.

Since the rotational movement of the first magnetic member is utilized during the loosening and clamping of the clamping cloth, in order to enhance the rotational effect of the first magnetic member, in one embodiment, the end of the mounting assembly is rotatably coupled to the mop body. In another embodiment, a third limiting structure is provided in the mop body for supporting the mounting assembly and limiting movement of the mounting assembly relative to the mop body in a direction perpendicular to the clamping assembly. In an example, the third limiting structure includes at least one second limiting table, and the mounting assembly is mounted on the second limiting table. Based on the effect of the third limit structure, the installation component has enough rotation space in the main body of the mop, so that hidden danger of clamping and the like caused by the contact of the installation component and the main body of the mop is eliminated. In addition, the third limit structure can also prevent that the installation component from rocking, and then prevent the unstable problem of centre gripping that leads to because of first magnetic member rocks.

In practical applications, considering the problems of the clamping stability and the convenience of operation, in some embodiments, the number of the first magnetic members and the second magnetic members is two, the two first magnetic members are respectively arranged at the positions of the adjacent ends of the mop body, and the two second magnetic members are respectively arranged at the positions of the adjacent ends of the clamping assembly. Typically, the gripping members are disposed on either side of the long side of the mop body, and based thereon, the first magnetic member is disposed adjacent the end of the long side of the mop body, and the second magnetic member is disposed adjacent the end of the gripping members.

In some embodiments, the clamping assembly includes a clamping tooth and a connector on which the second magnetic member is disposed. In one example, the connector is provided with a second mounting slot in which the second magnetic member is detachably mounted. In addition, to facilitate movement of the gripping assembly relative to the mop body and to guide the direction of movement of the gripping assembly, in some embodiments, a guide is provided on the mop body along which the connector moves.

In some embodiments, the mop body includes a top cover and a base that form a receiving space in which the first magnetic member is disposed. The mop main body is provided with a limit groove which is arranged on the top cover. In addition, the mop device further comprises a mop rod movably arranged on the top cover, and the driving rod is arranged on one side of the mop rod to drive the driving member to move in the limiting groove under the condition that the driving mechanism comprises the driving rod and the driving member. Because the handle of the driving rod is longer, the driving rod needs to be arranged to move at one side of the driving rod to realize the rotation of the first magnetic component, and therefore, in order to prevent the driving rod from influencing the movement range of the driving rod, a bending part is arranged in the middle of the driving rod, so that the driving rod is avoided when the driving rod moves. In one example, the drive rod is shaped like a "few" letter. In another example, the driving lever is designed in an arc shape, a semicircular shape, or an irregular shape as long as the rotation process of the first magnetic member can be smoothly accomplished.

Now, taking the example that the clamping components are disposed on two sides of the long side of the mop body, the first magnetic member is disposed at a position adjacent to the end of the long side of the mop body, and the second magnetic member is disposed at a position adjacent to the end of the clamping component, as shown in fig. 5 to 9, fig. 5 is a schematic exploded view of the structure in the accommodating space of the mop body in fig. 1, fig. 6 is a schematic exploded view of the structure in the accommodating space of the mop body in fig. 2, fig. 7 is a schematic exploded view of a part of the cloth clamping type mop device provided in the embodiment of the application, fig. 8 is a schematic exploded view of the first transmission member in fig. 5, and fig. 9 is a schematic exploded view of the second transmission member in fig. 5. As shown in the figure, the cloth clamping type mop device comprises a mop main body 1, a clamping assembly 2 and a driving mechanism.

The mop body 1 comprises a top cover 11 and a base 12, and a containing space is formed between the top cover 11 and the base 12. The top cover 11 of the mop body 1 is provided with limit grooves 111 at positions near the ends of the long side of the mop body 1 along the direction perpendicular to the clamping assembly 2. During use, the driving rod 41 and the spherical structure 4212 of the first transmission member 421 are located above the limiting groove 111, and the spherical structure 4212 is clamped on the limiting groove 111, so that on one hand, the situation that the first transmission member 421 falls into the accommodating space due to the separation of the first transmission member 421 from the driving rod 41 is prevented, and on the other hand, the limiting groove 111 limits the swinging of the first transmission member 421 in the direction parallel to the clamping assembly 2. A guide 121 is provided on the base 12 of the mop body 1 for guiding the movement of the attachment 22 of the grip assembly 2 relative to the mop body 1. The middle part of the base 12 is provided with a second limiting table 123, and the mounting assembly 61 is erected on the second limiting table 123. The end of the base 12 is provided with a third stop 124, and the end 612 of the mounting assembly 61 is mounted on the third stop 124.

A mounting assembly 61 is provided in the mop body 1, and a first mounting groove 611 is provided on the mounting assembly 61, and the first magnetic member 6 is mounted in the first mounting groove 611. The middle part of installation component 61 is erect on second spacing platform 123, and the tip 612 of installation component 61 is erect on third spacing platform 124, and second spacing platform 123 and third spacing platform 124 on the one hand can be favorable to the rotation of installation component 61, and on the other hand can also spacing installation component 61 rock along the minor face direction of base 12, and in addition, second spacing platform 123 and third spacing platform 124 provide the support for the rotation of installation component 61 for installation component 61 has sufficient rotation space in the accommodation space.

The clamping assembly 2 comprises a clamping tooth 21 and a connecting piece 22, wherein a second mounting groove 221 is formed in the connecting piece 22, and the second magnetic member 7 is mounted in the second mounting groove 221.

The driving mechanism includes a driving lever 41 and a transmission member 42, and the driving lever 41 in a "nearly" shape is provided on the top cover 11 of the mop body 1. The transmission member 42 includes a first transmission member 421 and a second transmission member 422, the first end of the first transmission member 421 being a spherical structure 4212 including a first through hole 4211, and the second end of the first transmission member 421 being a flat structure including a second through hole 4213. The first end of the second transmission member 422 includes two arms 4221, each arm 4221 is provided with a third through hole 4222, the second end of the first transmission member 421 is sleeved in the first end of the second transmission member 422, and the second through hole 4213 is connected with a third through hole 4222 through a barrel cover pin (not shown) so that the first transmission member 421 and the second transmission member 422 form a rotation connection. The second end of the second transmission member 422 is inserted into the fourth through hole of the end of the mounting assembly 61 and fixedly coupled thereto. In addition, the base 12 is provided with a first limiting stage 122 for limiting the second transmission member 422, and during use, the second transmission member 422 moves down to the first limiting stage 122 and is mounted on the first limiting stage 122, at which time the mounting assembly 61 rotates to a position in which the first magnetic member 6 and the second magnetic member 7 are in direct engagement.

During use, the initial state of the cloth clamping type mop device is a mop clamping state, as shown in fig. 1 and 5, when the mop needs to be removed, a user pushes the driving rod 41 upwards and rightwards (towards the direction of the mop rod 3), so that the driving rod 41 slides rightwards along the limit groove 111, the driving rod 41 rotates in the spherical structure 4212 of the first transmission member 421 and drives the first transmission member 421 to move upwards and rightwards, the first transmission member 421 drives the second transmission member 422 to move upwards and rightwards, so that the second end of the second transmission member 422 drives the mounting assembly 61 to rotate, and after the mounting assembly 61 rotates 90 degrees under the action of the driving rod 41, the user continues to push the driving rod 41 downwards and rightwards, so that the driving rod 41 continues to slide rightwards along the limit groove 111 until the driving rod 41 reaches the position shown in fig. 2 and 6, and at this time, the mounting assembly 61 drives the first magnetic member 6 to complete 180-degree rotation, and the interaction force between the initial first magnetic member and the second magnetic member is changed into a mutual repulsive force, so that the mop clamping assembly 2 is far away from the mop clamping assembly 1, and the mop is convenient for the user to release.

It is apparent that the above examples are given by way of illustration only and are not limiting of the embodiments. Other variations or modifications of the above teachings will be apparent to those of ordinary skill in the art. It is not necessary here nor is it exhaustive of all embodiments. While still being apparent from variations or modifications that may be made by those skilled in the art are within the scope of the utility model.

Claims (24)

1. A cloth clamping type mop device, comprising:

The mop comprises a mop main body, wherein at least one first magnetic component is arranged in the mop main body;

A clamping assembly movably connected with the mop main body, the clamping assembly provided with a second magnetic member matched with the first magnetic member, and

The driving mechanism is electrically connected with the first magnetic member and/or the second magnetic member and is used for controlling the magnetic pole direction of the first magnetic member and/or the second magnetic member to change the interaction force between the first magnetic member and the second magnetic member, or is in transmission connection with the first magnetic member and is used for driving the first magnetic member to move so as to change the interaction force between the first magnetic member and the second magnetic member, so that the clamping assembly is far away from the mop body to be clamped and is used for loosening a mop when the first magnetic member and the second magnetic member repel each other, and is close to the mop body to be clamped and used for clamping the mop to be clamped when the first magnetic member and the second magnetic member attract each other.

2. A cloth clamping mop device as claimed in claim 1, characterised in that the drive mechanism is in driving connection with the first magnetic member for driving the first magnetic member in rotation to vary the interaction force between the first and second magnetic members.

3. The cloth clamping type mop device as claimed in claim 2, wherein the driving mechanism comprises a driving member and a transmission member, the driving member is arranged on the mop main body, one end of the transmission member is rotationally connected with the driving member, the other end of the transmission member is fixedly connected with the first magnetic member, and the transmission member drives the first magnetic member to rotate under the driving of the driving member.

4. A cloth clamping mop device as claimed in claim 3, characterised in that the transmission member comprises a first transmission element and a second transmission element, a first end of the first transmission element being in rotational connection with the drive member, a second end of the first transmission element being in rotational connection with a first end of the second transmission element, a second end of the second transmission element being fixedly connected with the first magnetic member.

5. A cloth clamping mop device as claimed in claim 4, characterised in that the drive member is provided as a drive rod, the first end of the first transmission member comprises a first through hole, the drive rod is movably inserted into the first through hole, one of the second end of the first transmission member and the first end of the second transmission member comprises a second through hole, the other one comprises two arms and each arm is provided with a corresponding third through hole, the second end of the first transmission member and the first end of the second transmission member are sleeved and connected with the second through hole and the third through hole by a pin.

6. A cloth clamping mop device as claimed in any one of claims 1 to 5, characterised in that the mop body is provided with a first limit structure for limiting the maximum displacement of the drive mechanism in a direction parallel to the clamping assembly.

7. A cloth clamping mop device as claimed in claim 6, characterised in that the drive mechanism comprises a transmission member, and the mop body is provided with a limit slot in a direction perpendicular to the clamping assembly to limit the maximum displacement of the transmission member in a direction parallel to the clamping assembly.

8. The cloth clamping mop device as described in claim 7 wherein said drive member includes a first drive member, a first end of said first drive member including a stop portion having a first through hole, said stop portion being snapped onto said stop slot to stop movement of said drive member within said stop slot when said drive mechanism is actuated.

9. A cloth clamping mop device as claimed in any one of claims 1 to 5 or 7 to 8, wherein a second limit structure is provided in the mop body for limiting the maximum displacement of the drive mechanism in a direction perpendicular to the mop body.

10. A cloth clamping mop device as claimed in claim 9, wherein the drive mechanism comprises a second drive member, the second limit structure comprising at least a first limit station disposed within the mop body, the second drive member being mounted on the first limit station to limit maximum displacement of the second drive member in a direction perpendicular to the mop body.

11. A cloth gripping mop device according to any one of claims 1 to 5 or 7 to 8 or 10, wherein a mounting assembly is provided within the mop body, the first magnetic member being provided on the mounting assembly, the drive mechanism being drivingly connected to the mounting assembly for driving movement of the mounting assembly to vary the interaction force between the first and second magnetic members.

12. A cloth clamping mop device as claimed in claim 11, wherein the end of the mounting assembly is rotatably connected to the mop body.

13. A cloth clamping mop device as claimed in claim 11, characterised in that a third limit structure is provided in the mop body for supporting the mounting assembly and limiting movement of the mounting assembly relative to the mop body in a direction perpendicular to the clamping assembly.

14. The cloth clamping mop device as described in claim 13 wherein said third limit structure includes at least a second limit station, said mounting assembly being mounted on said second limit station.

15. A cloth clamping mop device as claimed in claim 11, characterised in that the mounting assembly is provided with a first mounting slot in which the first magnetic member is detachably mounted.

16. A cloth clamping mop device as claimed in any one of claims 1 to 5 or 7 to 8 or 10 or 12 to 15, characterised in that the number of first and second magnetic members is two, the two first magnetic members being disposed respectively adjacent the ends of the mop body and the two second magnetic members being disposed respectively adjacent the ends of the clamping assembly.

17. A cloth gripping mop device according to claim 16 wherein the gripping members are disposed on opposite sides of the long side of the mop body, the first magnetic member being disposed adjacent the end of the long side of the mop body, and the second magnetic member being disposed adjacent the end of the gripping members.

18. A cloth clamping mop device as claimed in any one of claims 1 to 5 or 7 to 8 or 10 or 12 to 15 or 17 wherein the clamping assembly comprises a clamping tooth and a connector on which the second magnetic member is disposed.

19. A cloth clamping mop device as claimed in claim 18, characterised in that the connector is provided with a second mounting slot in which the second magnetic member is detachably mounted.

20. A cloth clamping mop device as claimed in claim 18, characterised in that the mop body is provided with a guide along which the connector moves.

21. A cloth clamping mop device as claimed in any one of claims 1 to 5 or 7 to 8 or 10 or 12 to 15 or 17 or 19 to 20 wherein the mop body comprises a top cover and a base, the top cover and base forming a receiving space within which the first magnetic member is disposed.

22. The cloth clamping type mop device as claimed in claim 21, wherein the mop body is provided with a limit groove, and the limit groove is arranged on the top cover.

23. The cloth clamping type mop device as claimed in claim 22, further comprising a mop rod movably arranged on the top cover, wherein the driving mechanism comprises a driving rod and a transmission member, and the driving rod is arranged on one side of the mop rod to drive the transmission member to move in the limiting groove.

24. A cloth clamping mop device as claimed in claim 23, characterised in that a bend is provided in the middle of the drive rod to allow the drive rod to avoid the mop rod when moved.