CN108606752B - Flat mop cleaning tool facilitating spin-drying operation - Google Patents

Abstract

The utility model relates to a flat mop cleaning tool which is beneficial to spin-drying operation, comprising a mop barrel and a flat mop head which is rotatably connected to the lower end of a mop rod, wherein the flat mop head is provided with a wiping article; the mop barrel is internally provided with a spin-drying area, and a first supporting part which is used for supporting and rotating the flat mop head is arranged in the spin-drying area; the method is characterized in that: the first supporting component is arranged at the bottom of the spin-drying area through a connecting structure, the connecting structure can enable the rotation axis of the first supporting component to move in a plane, the rotation axis can swing by taking the bottom of the rotation axis as a fulcrum, and in a spin-drying state, the flat mop head is inserted into and supported on the first supporting component in the spin-drying area, and the flat mop head is driven to rotate around the rotation axis in the spin-drying area rapidly through the downward pressing of the mop rod, so that the wiping object is spin-dried. The cleaning tool can obviously improve the shaking of the flat mop in the spin-drying process, effectively improve the spin-drying effect of the wiping object, and improve the noise reduction.

Description

Flat mop cleaning tool facilitating spin-drying operation

Technical Field

The utility model relates to a cleaning tool, in particular to a cleaning tool which is beneficial to spin-drying operation of a flat mop.

Background

There are four ways to dewater in existing flat mops.

Mode 1: the squeezing type squeezing device is arranged on the mop barrel, the squeezing type squeezing device comprises a squeezing basket arranged in the mop barrel, a pedal hinged to the upper portion of the mop barrel and opposite to the squeezing basket, a squeezing space is formed by the pedal and the squeezing basket, when the squeezing is performed, a mop on a mop plate of the flat mop needs to be detached, the mop is placed in the squeezing space, and then the squeezing space is contracted by the pedal to achieve the aim of squeezing water on the mop. The dehydration mode in the form needs to design a pedal extrusion device with a complex structure, and has high cost; when squeezing water, the mop needs to be detached firstly, and the foot needs to be lifted for trampling operation, so that the operation is troublesome.

Mode 2: the centrifugal rotary dehydration adopts a hand-press rotary mop rod, when in dehydration, two ends of a mop plate of the flat mop are required to be bent and then placed in a dehydration area of a mop barrel, and the mop rod is pressed down, so that the mop plate of the flat mop is subjected to centrifugal rotary dehydration. The area of the mop bucket is reduced, the mop plate of the flat mop needs to be designed into a bendable structure in the dewatering mode, so that the structure of the part mop head is complex, the spin-drying structure in the mop bucket is complex, and the cost is high. In addition, the rotation axis position is always in a vertical state during spin-drying, and when the mop rod is pulled up and down, the mop rod must be kept in a vertical posture, so that the operation is inconvenient. Because there is the fit clearance between the axis of rotation of mop pole and the support mop pole axis in the mop bucket for both axes can take place the off normal at the in-process that spin-dries, plastics warp, fit clearance, mop cloth processing technology, mop cloth installation accuracy all can influence whole focus, so by the dull and stereotyped mop head that is equipped with the wiper, mop pole, the system that spin-dries the basket and constitute, hardly keep the focus of system on the axis of rotation, can produce the shake when consequently rotating, not only make the in-process noise very big that spin-dries, can't promote rotational speed moreover, lead to the wiper unable spin-dried.

Mode 3: the self-smoothing type dewatering device comprises a mop rod and a flat mop plate movably connected to the mop rod, wherein a wringing mechanism is arranged on the mop rod, and wringing and cleaning of wiping objects on the flat mop plate are realized through relative squeezing movement between the wringing mechanism and the flat mop plate. It also has the disadvantage that: when the squeezing operation is carried out, the mop rod is held by one hand to be positioned, the squeezing mechanism is held by one hand, the relative squeezing movement between the squeezing mechanism and the flat mop plate is realized through the single-hand push-pull squeezing mechanism, the operation is very laborious, and the operability is not strong.

Mode 4: the hand-pulling squeezing dry type squeezing water is characterized in that a squeezing device is arranged on a mop barrel, the squeezing principle is similar to that of the mode 3, but a squeezing structure is moved to the mop barrel, for example, the Chinese patent utility model patent No. CN201620853180.2 (publication No. CN 206080445U) discloses a mop barrel for squeezing water and cleaning a flat mop, and the like has the defect of laborious squeezing operation.

In view of the above, the prior art cleaning tools for cleaning and drying flat mops have been seen as further improvements.

Disclosure of Invention

The utility model aims at solving the technical problems of the prior art and provides a flat mop cleaning tool which is novel and reasonable in spin-drying mode, convenient to clean and favorable for spin-drying operation.

The first technical scheme adopted by the utility model for solving the technical problems is as follows: a flat mop cleaning tool which is beneficial to spin-drying operation comprises a mop barrel and a flat mop head which is rotationally connected to the lower end of a hand-press rotary mop rod, wherein a wiper is arranged on the flat mop head; the mop barrel is internally provided with a spin-drying area, and a first supporting component which is used for supporting and rotating the flat mop head is arranged in the spin-drying area; the method is characterized in that: the first supporting component is arranged at the bottom of the spin-drying area through a connecting structure, the connecting structure can enable the rotation axis of the first supporting component to move in a plane, the rotation axis can swing by taking the bottom of the rotation axis as a fulcrum, the flat mop head is rotated to the length direction the same as the axis direction of the mop rod during spin-drying, in the spin-drying state, the flat mop head is inserted into the spin-drying area and supported on the first supporting component, and the flat mop head is driven to rotate rapidly around the rotation axis in the spin-drying area through the downward pressing of the mop rod, so that the wiping objects are spin-dried.

Further improved, the first supporting component is provided with a bolt extending upwards, the lower side surface of the flat mop head is provided with a jack for inserting the bolt, and the bolt is inserted into the jack in the state that the flat mop head is supported on the first supporting component. Through the insertion of bolt and jack for when the mop pole drove dull and stereotyped mop head deflection, do benefit to and drive first supporting part and take place the beat in step, the setting of bolt simultaneously can let the rotation center of dull and stereotyped mop head and the rotation center of first supporting part be located the same axis all the time, guarantees the rotatory synchronism of both.

Preferably, the flat mop head is provided with a U-shaped open slot, the open slot penetrates through the upper side surface of the flat mop head, the bottom of the open slot is hinged with a connector, the lower end of the mop rod is connected to the connector, and the front side and the back side of the flat mop head are respectively provided with the wiping article. The flat mop head structure has the advantages that firstly, the flat mop head is turned over to be in a cleaning or spin-drying state, the central axis of the flat mop head is ensured to be coincident with the axis of the mop rod, and thus, the mop rod and the flat mop head are kept coaxial in spin-drying, and the spin-drying effect is good; and the wiping objects are arranged on the front and back surfaces of the flat mop head, so that the cleaning times of the wiping objects are reduced, the time is saved, and the working efficiency is improved.

Preferably, the connecting structure comprises a connecting part fixed at the bottom in the spin-drying area, the first supporting part is internally provided with a containing cavity with a downward opening, the connecting part stretches into the containing cavity and is connected with the first supporting part through a ball head connecting structure, and the connecting part is matched with the opening of the containing cavity at intervals, so that the first supporting part can move in a plane relative to the connecting part. The connecting part is connected with the first supporting part through the ball head connecting structure, so that the first supporting part can swing, the connecting part is matched with the opening of the accommodating cavity at intervals, and the first supporting part can move in a plane relative to the connecting part. The first connection structure is reasonable in layout.

Specifically, the ball head connecting structure comprises a first connecting ball head and a second connecting ball head, the first connecting ball head is arranged at the head of the connecting component, a spherical concave cavity matched with the first connecting ball head is formed in the bottom of the second connecting ball head, the first connecting ball head is inserted into the spherical concave cavity, and a containing cavity for containing the second connecting ball head is formed in the bottom of the first supporting component. The cooperation of the second connecting ball head and the spherical concave cavity, and the cooperation of the second connecting ball head and the accommodating cavity enable the first supporting component to swing, and the interval between the openings of the accommodating cavities of the connecting components is matched, so that the rotation axis can move. The connecting part is connected with the first supporting part through two connecting ball heads, so that the first supporting part can be better ensured to rotate around the axis easily even if the first supporting part is in a deflection state.

Because the space in the mop bucket is limited, if the displacement of the rotation axis is too large or the swing amplitude is too large, the mop rod is easy to collide with the bucket wall of the mop bucket to interfere with the rotation of the first supporting component, so that the occurrence of the condition is avoided, the mop bucket is further improved, a limiting structure is arranged between the connecting component and the accommodating cavity, the limiting structure not only limits the movement amplitude of the rotation axis of the first supporting component in the plane range, but also limits the swing amplitude of the rotation axis by taking the bottom of the rotation axis as a fulcrum.

Preferably, the periphery of the limiting connecting component is provided with an annular limiting disc, the first supporting component is internally provided with a containing cavity matched with the limiting disc, the deflection of the first supporting component can enable the limiting disc to be in contact with the inner top surface and the inner bottom surface of the containing cavity to form limiting, and a limiting distance is reserved between the bottom surface of the second connecting ball head and the top surface of the limiting disc. Through spacing cooperation in spacing dish and holding chamber for the emergence beat of first supporting part unable too big angle, the setting of spacing interval makes the second connect the swing amplitude of bulb relative first connection bulb retrain, and the top surface of spacing dish can be touched to the second connection bulb bottom if the too big angle of swing.

Preferably, the limiting plate is provided with a plurality of accommodating holes arranged at intervals along the circumference, steel balls are accommodated in the accommodating holes, and in the deflection state of the first supporting component, the steel balls touch the inner top surface and the inner bottom surface of the accommodating cavity. The arrangement of the steel balls facilitates the rotation of the first support member.

The upper part of the first supporting component is provided with a spin-drying basket, and the inner wall of the spin-drying basket is provided with a limiting groove for limiting the flat mop head inserted into the spin-drying basket. The setting of spin basket plays the supporting role to dull and stereotyped mop head, does benefit to dull and stereotyped mop head rotation. The limiting groove has a limiting effect on the flat mop head, so that the flat mop head is kept at the position coaxial with the first supporting component in the spin-drying process, and meanwhile, the flat mop head is ensured to be inserted into the jack under the state of being supported on the first supporting component.

Preferably, the mop bucket is further provided with a cleaning area independent of the spin-drying area, a cleaning device is arranged in the cleaning area, the flat mop head rotates to the length direction the same as the axis direction of the mop rod during cleaning, and the flat mop head is inserted into the cleaning device in the cleaning area and moves up and down so that the cleaning device cleans the wiping objects. The cleaning and spin-drying structure is skillfully integrated on the mop barrel, the cleaning and spin-drying operation can be completed in one mop barrel at the same time, the use is very convenient, the cleaning device can scrape and brush the wiping object, and the cleaning effect of the wiping object is better.

Further improved, the flat mop head is internally provided with a locking structure matched with the mop rod, and the bolt triggers the locking structure to lock the flat mop head in a position state that the length direction of the flat mop head is the same as the axis direction of the mop rod in a state that the bolt is inserted into the jack. The locking structure ensures that the flat mop head is always kept in a vertical state in the spin-drying process, so that the whole spin-drying process can be performed normally, and if the flat mop head deflects relative to a mop rod in the spin-drying process, the flat mop head can collide with the mop barrel, the spin-drying process is in a disordered state, the spin-drying effect is affected, and the mop can be damaged seriously.

The second technical scheme adopted for solving the technical problems is as follows: a flat mop cleaning tool which is beneficial to spin-drying operation comprises a mop barrel and a flat mop head which is rotationally connected to the lower end of a hand-press rotary mop rod, wherein a wiper is arranged on the flat mop head; the mop barrel is internally provided with a spin-drying area, and is characterized in that: the flat mop comprises a flat mop head, a drying area, a first supporting component, a second supporting component, a cleaning area and a wiping area, wherein the drying area is internally provided with a groove for supporting the flat mop head, the flat mop head is internally provided with the second supporting component which is capable of rotating along with the flat mop head, the second supporting component is driven by a driving structure to slide up and down along the length direction of the flat mop head, the second supporting component extends out of the bottom of the flat mop head after moving downwards and forms a support with the groove, the rotating axis of the second supporting component can move in the plane where the bottom of the groove is located, the rotating axis can swing by taking the bottom of the second supporting component as a fulcrum, the flat mop head is rotated to be the same as the axis direction of a mop rod in the length direction during drying, and in the drying state, the flat mop head is inserted into the drying area and supports the second supporting component on the groove, and the flat mop head is driven to rotate around the rotating fast in the drying area through the pressing of the mop rod.

The second supporting component moves downwards and extends out of the bottom of the flat mop head to form a support with the groove, and the rotating axis of the second supporting component can move randomly in the plane where the bottom of the groove is located, and can swing by taking the bottom of the second supporting component as a fulcrum, so that the whole body formed by the flat mop head provided with the wiping object, the mop rod and the second supporting component can automatically find the rotating axis in the rotating process, the gravity center of the whole body is ensured to be positioned on the rotating axis, and in the spin-drying operation process, even if the mop rod is slightly inclined, the rotating center can be automatically found, the shaking condition of the flat mop in the spin-drying process can be obviously improved, the spin-drying effect of the wiping object is effectively improved, the noise is reduced, and the working principle of the whole body is similar to that of a gyro. And the grooves can limit and restrain the movement of the second supporting part, so that the interference between the flat mop and the mop bucket is avoided. When mopping, the driving structure drives the second supporting component to move upwards and is hidden in the flat mopping head, so that the mopping is not affected.

The bottom of the second supporting part is provided with a supporting shaft which extends downwards and is used for contacting with the bottom surface of the groove. The contact position of the supporting shaft and the groove is easy to be a rotary fulcrum, and the structure is simple.

The driving structure comprises a driving rod and a reset spring, wherein the driving rod is sleeved on the mop rod and is driven by the wrench mechanism to slide up and down, the lower end of the driving rod is matched with the two vertical arms of the second supporting part, and the reset spring is sleeved on the supporting shaft and acts on the horizontal arm of the second supporting part to enable the second supporting part to keep moving upwards. The driving structure is convenient to operate, the wrench mechanism has a self-locking effect, locking is facilitated, and other driving structures with locking can be selected.

Compared with the prior art, the utility model has the advantages that:

1. the first supporting part supports the flat mop head vertically inserted into the spin-drying area, when the flat mop head spin-dries, the upper rod of the mop rod moves up and down, and the flat mop head rotates rapidly under the action of the structure of the hand-press rotation, so that the wiping object is spin-dried, the length direction of the flat mop head is the same as the axis direction of the mop rod (approximately vertical state) in the spin-drying process, the occupied space of the flat mop head is small when the flat mop head rotates, the flat mop head does not need to be arranged in a foldable mode, the size of the mop barrel is not required to be large, the structure of the flat mop head is simplified, and in addition, a squeezing mechanism is not required to be additionally arranged on the mop rod, so that the mop structure is more compact.

2. In addition, because the first supporting component is arranged at the bottom of the spin-drying area through the connecting structure, the first connecting structure can enable the rotation axis of the first supporting component to move in a plane and enable the rotation axis to swing by taking the bottom of the first supporting component as a fulcrum, the whole formed by the flat mop head provided with the wiping object, the mop rod and the first supporting component can automatically find the rotation axis in the rotation process and ensure that the gravity center of the whole is positioned on the rotation axis, even if the mop rod is slightly inclined in the spin-drying operation process, the rotation center can be automatically found, the shaking condition of the flat mop in the spin-drying process can be obviously improved, the spin-drying effect of the wiping object is effectively improved, the noise is reduced, and the working principle of the flat mop is similar to that of a gyroscope.

3. The operator can adjust to a comfortable angle at will and hold the mop pole, even if this angle does not have the time dull and stereotyped mop head be in vertical state, also can accomplish effectively and spin-dry, use the operation more convenient and humanized.

Drawings

FIG. 1 is a schematic perspective view of a first embodiment of the present utility model;

FIG. 2 is a cross-sectional view of a first embodiment of the present utility model;

FIG. 3 is an enlarged view at A of FIG. 2;

fig. 4 is an exploded perspective view of a portion of a first support member in a first embodiment of the utility model;

FIG. 5 is a schematic perspective view of a flat mop head according to a first embodiment of the present utility model;

FIG. 6 is a schematic view of the internal structure of a flat mop head according to a first embodiment of the present utility model (unlocked state);

FIG. 7 is a schematic view showing the internal structure of a flat mop head according to the first embodiment of the present utility model (locked state);

fig. 8 is a schematic perspective view (non-spin-dried state) of a second embodiment of the present utility model;

FIG. 9 is a schematic perspective view (not spin-dried) of a second embodiment of the present utility model with the cover plate removed from the flat mop head;

fig. 10 is a schematic perspective view (spin-drying state) of a second embodiment of the present utility model;

fig. 11 is a schematic perspective view (spin-drying state) of a second embodiment of the present utility model with a cover plate removed from the flat mop head.

Detailed Description

The utility model is described in further detail below with reference to the embodiments of the drawings.

As shown in fig. 1 to 7, a first embodiment of the present utility model is shown.

A flat mop cleaning tool which is beneficial to spin-drying operation comprises a mop bucket 1 and a flat mop head 3 which is rotatably connected with the lower end of a hand-press rotary mop rod 2, wherein a wiper 4 is arranged on the flat mop head 3; the wiping article 4 is generally a mop, which is not shown in the drawing in this embodiment, the hand-press rotary mop rod 2 can refer to the prior art, and generally comprises an upper rod and a lower rod which are sleeved with each other, a driving structure capable of converting the telescopic motion of the upper rod into the rotary motion of the lower rod is arranged between the upper rod and the lower rod, and the mop rod 2 only shows a lower rod part.

The flat mop head 3 and the mop rod 2 in this embodiment are connected in the following manner, the flat mop head 3 is provided with a U-shaped open slot 32, the open slot 32 penetrates through the upper side surface of the flat mop head 3, the bottom of the open slot 32 is hinged with a joint 21, the lower end of the mop rod 2 is connected to the joint 21, the front and back surfaces of the flat mop head 3 are both provided with wipes 4, and the wipes 4 are typically rags or the like.

The mop bucket 1 is internally provided with a spin-drying area Q1, a first supporting component 5 which is used for supporting and rotating the flat mop head 3 is arranged in the spin-drying area Q1, the first supporting component 5 is arranged at the bottom of the spin-drying area Q1 through a first connecting structure, and the connecting structure can enable the rotation axis X of the first supporting component 5 to move in a plane and enable the rotation axis X to swing by taking the bottom of the rotation axis X as a fulcrum. The first supporting component 5 is provided with a bolt 51 extending upwards, the lower side surface of the flat mop head 3 is provided with a jack 31 for inserting the bolt 51, the flat mop head 3 is rotated to the length direction L of the flat mop head 3 to be the same as the axis direction of the mop rod 2 during spin-drying, the flat mop head 3 is inserted into and supported on the first supporting component in a spin-drying area Q1 in a spin-drying state, the bolt 51 is inserted into the jack 31, and the flat mop head 3 is driven to rapidly rotate in the spin-drying area Q1 by the downward pressing of the mop rod 2 so as to spin-dry the wiping object 4.

The connecting structure comprises a connecting part 6 fixed at the inner bottom of the spin-drying area Q1, a containing cavity 53 with a downward opening is arranged in the first supporting part 5, the connecting part 6 stretches into the containing cavity 53 and is connected with the first supporting part 5 through the ball connecting structure, and the connecting part 6 is matched with the opening of the containing cavity 53 at intervals, so that the first supporting part 5 can move in a plane relative to the connecting part 6. The ball head connecting structure comprises a first connecting ball head 61 and a second connecting ball head 7, the first connecting ball head 61 is arranged at the head of the connecting part 6, a spherical concave cavity 71 matched with the first connecting ball head 61 is arranged at the bottom of the second connecting ball head 7, the first connecting ball head 61 is inserted into the spherical concave cavity 71, and a containing cavity 52 for containing and matching the second connecting ball head 7 is arranged at the bottom of the first supporting part 5.

A limiting structure is arranged between the connecting part 6 and the accommodating cavity 53, and the limiting structure not only limits the movement range of the rotation axis X of the first supporting part 5 in the plane range, but also limits the swinging range of the rotation axis X by taking the bottom of the rotation axis X as a fulcrum.

The limit structure comprises an annular limit disc 62 arranged on the periphery of the connecting part 6, a containing cavity 53 matched with the limit disc 62 is arranged in the first supporting part 5, the swing of the first supporting part 5 can enable the limit disc 62 to be in contact with the inner top surface and the inner bottom surface of the containing cavity 53 to form limit, and a limit distance D is arranged between the bottom surface of the second connecting ball head 7 and the top surface of the limit disc 62. The limiting plate 62 is provided with a plurality of accommodating holes 621 arranged at intervals along the circumference, the accommodating holes 621 accommodate the steel balls 63, and the steel balls 63 touch the inner top surface and the inner bottom surface of the accommodating cavity 53 in the deflection state of the first supporting member 5. The upper part of the first supporting part 5 is provided with a spin basket 54, and a limit groove 541 for restraining the flat mop head 3 inserted therein is formed on the inner wall of the spin basket 54.

The mop bucket 1 is also provided with a cleaning area Q2 which is independent from the spin-drying area Q1, the cleaning area Q2 is internally provided with a cleaning device 8, the flat mop head 3 rotates until the length direction L of the flat mop head 3 is the same as the axial direction of the mop rod 2 during cleaning, and the flat mop head 3 is inserted into the cleaning device 8 in the cleaning area and moves up and down so that the cleaning device 7 cleans the wiping object 4. The cleaning device 8 is referred to the prior art.

The flat mop head 3 is internally provided with a locking structure matched with the mop rod 2, and in the state that the plug pin 51 is inserted into the insertion hole 31, the plug pin 51 triggers the locking structure to lock the flat mop head 3 in the position state that the length direction L of the flat mop head is the same as the axis direction of the mop rod 2. The locking structure may be the following structure: the flat mop head comprises a lock frame 9 which is arranged in a flat mop head 3 and can slide along the length direction of the flat mop head, a limiting structure is arranged between the lock frame 9 and a mop rod 2 or a connector 21, the lock frame 9 is propped by a spring 10 to keep the trend of moving towards the lower side direction of the flat mop head 3, the lock frame 9 moves upwards, the lock frame 9 and the mop rod 2 or the connector 21 are limited together by the limiting structure, the lock frame 9 moves downwards, the limiting structure releases the limit between the lock frame 9 and the mop rod 2 or the connector 21, and when the flat mop head 3 rotates to a state that the length direction of the flat mop head 3 is the same as the axis direction of the mop rod 2 and is inserted into a spin-drying area Q1, a bolt 51 is inserted into an insertion hole 31 to trigger the lock frame 9 to move upwards.

As shown in fig. 6 and 7, the limit structure is a rib slot inserting structure arranged between the mop rod 2 and the lock frame 9, the lock frame 9 moves upwards, the rib slot inserting structure is mutually inserted to form limit, and the lock frame 9 moves downwards, and the rib slot inserting structure is mutually released to release limit. The limit grooves 22 in the rib groove inserting structure are arranged on two sides of the mop rod 2, the lock frame 9 is approximately U-shaped, and the dowel bars 91 in the rib groove inserting structure are arranged on two vertical arms of the lock frame 9. The middle part of the horizontal arm of the lock frame 9 is provided with a connecting column 92 which extends downwards, the connecting column 92 is always inserted into the jack 31, and the connecting column 92 is pushed after the bolt 6 is inserted into the jack 31, so that the lock frame 9 is pushed to move. The lock frame 9 moves upwards, the dowel bar 91 is inserted into the limit groove 22, and the lock frame 9 moves downwards, and the dowel bar 91 is separated from the limit groove 22.

The cleaning and spin-drying process of this example is as follows:

the cleaning process comprises the following steps: the flat mop 3 is rotated to a length direction L in the same direction as the axis of the mop rod 2, allowing the flat mop 3 to move up and down through the cleaning device 8.

And (3) spin-drying: as shown in fig. 10, the flat mop 3 is rotated until the length direction L is the same as the axial direction of the mop rod 2, so that the flat mop 3 enters the spin basket 54, two sides of the flat mop 3 are inserted into the slots 541 on the inner peripheral wall of the spin basket 54, meanwhile, the latch 51 passes through the insertion hole 31 and pushes the lock frame 9 to move upwards, and the dowel bar 91 on the lock frame 9 is inserted into the limit slot 22 on the mop rod 2, so as to lock the flat mop 3 relative to the mop rod 2. The upper rod of the mop rod 2 is pressed down to drive the lower rod of the mop rod 2, the flat mop head 3 and the spin-drying basket 8 to rotate together rapidly, so that the wiping objects are spin-dried. Since the first supporting member 5 is connected to the connecting member 6 extending into the accommodating chamber 53 through the ball joint structure, the connecting member 6 is fixed to the bottom of the spin-drying area Q1, so that the rotation axis X of the first supporting member 5 can move in the plane and also swing around the bottom thereof as a fulcrum. The whole body composed of the flat mop head 3 provided with the wiping objects, the mop rod 2 and the first supporting part 5 can automatically find the rotation axis X in the rotation process, ensure that the gravity center of the whole body is positioned on the rotation axis X, automatically find the rotation center even if the mop rod 2 is slightly inclined in the spin-drying operation process, obviously improve the shaking condition of the flat mop in the spin-drying process, effectively improve the spin-drying effect of the wiping objects, promote the noise reduction, and have the working principle similar to that of a gyroscope. The operator can adjust to a comfortable angle at will and hold mop pole 2, even this angle is not in the dull and stereotyped mop head and is in vertical state, also can accomplish effectively and spin-dry, and the operation is more convenient and humanized.

After the spin-drying is finished, as shown in fig. 9, after the flat mop head 3 is moved upwards out of the first through hole 91, the bolt 6 is separated from pushing the lock frame 9, the lock frame 9 can be automatically moved downwards to reset under the action of the spring 10, the dowel bar 91 on the lock frame 9 is separated from the limit groove 21 on the mop rod 2, and the unlocking of the flat mop head 3 is completed, so that the flat mop head 3 can be freely turned to a mopping state relative to the mop rod 2.

As shown in fig. 8 to 11, a second embodiment of the present utility model is shown.

A flat mop cleaning tool which is beneficial to spin-drying operation comprises a mop bucket 1 and a flat mop head 3 which is rotatably connected with the lower end of a hand-press rotary mop rod 2, wherein a wiper 4 is arranged on the flat mop head 3; the mop bucket 1 has a spin-drying area Q1 therein, and in particular, reference is made to embodiment one.

The drying area Q1 is internally provided with a groove 12 for supporting the flat mop head 3, the groove 12 is a part of the inner bottom surface of the drying area Q1, the flat mop head 3 is internally provided with a second supporting part 11 which can rotate along with the flat mop head 3, the second supporting part 11 is driven by a driving structure to slide up and down along the length direction of the flat mop head 3, the second supporting part 11 extends out of the bottom of the flat mop head 3 and forms a support with the groove 12 after moving down, the rotation axis X of the second supporting part 11 can move in the plane of the bottom surface of the groove 12, the rotation axis X can swing by taking the bottom of the second supporting part 11 as a fulcrum, the flat mop head 3 is rotated to be the same as the axis direction of the mop rod 2 in the length direction during drying, in the drying state, the flat mop head 3 is inserted into the drying area Q1 and the second supporting part 11 is supported on the groove, and the flat mop head 3 is driven to rotate rapidly around the rotation axis X in the drying area Q1 through the downward pressing of the mop rod 2, so that the wiping object 13 is dried.

The second supporting part 11 is in a U shape, a supporting shaft 111 extending downwards is arranged in the middle of the horizontal arm of the second supporting part 11, the driving structure acts on two vertical arms of the second supporting part 11, the top of the flat mop head 3 is exposed by the vertical arms, and the supporting shaft 111 is used for contacting with the bottom surface of the groove 12.

The driving structure comprises a driving rod 13 and a reset spring 14, wherein the driving rod 13 is sleeved on the mop rod 2 and is driven by a spanner mechanism 15 to slide up and down, the lower end of the driving rod 13 is matched with two vertical arms of the second supporting part 11, and the reset spring 14 is sleeved on the supporting shaft 111 and acts on a horizontal arm of the second supporting part 11 to enable the second supporting part 11 to keep moving upwards.

The second supporting part 11 extends out of the bottom of the flat mop head 3 after moving downwards and forms a support with the groove 12, the rotation axis X of the second supporting part 11 can move randomly in the plane where the bottom surface of the groove 12 is located, and the rotation axis X can swing by taking the bottom of the second supporting part 11 as a fulcrum, so that the whole formed by the flat mop head 3 provided with the wiping object 4, the mop rod 2 and the second supporting part 11 can automatically find the rotation axis X in the rotation process and ensure that the gravity center of the whole is positioned on the rotation axis X, and in the spin-drying operation process, even if the mop rod is slightly inclined, the rotation center of the flat mop can be automatically found, the shaking condition of the flat mop in the spin-drying process can be obviously improved, the spin-drying effect of the wiping object can be effectively improved, the noise can be improved, and the working principle of the flat mop is similar to that of spinning a top. And the groove 12 can limit and restrain the movement of the second supporting part 11, so that the interference between the flat mop 3 and the mop bucket 1 is avoided. When mopping, the driving structure drives the second supporting part 11 to move upwards and is hidden in the flat mopping head 3, so that mopping is not affected.

While the preferred embodiments of the present utility model have been described in detail, it is to be clearly understood that the same may be varied in many ways by those skilled in the art. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present utility model should be included in the protection scope of the present utility model.

Claims (9)

1. A flat mop cleaning tool which is beneficial to spin-drying operation comprises a mop bucket (1) and a flat mop head (3) which is rotatably connected with the lower end of a hand-press rotary mop rod (2), wherein a wiper (4) is arranged on the flat mop head (3); the mop bucket (1) is internally provided with a spin-drying area (Q1), and a first supporting component (5) which is used for supporting and rotating the flat mop head (3) is arranged in the spin-drying area (Q1); the method is characterized in that: the first supporting component (5) is arranged at the bottom of the spin-drying area (Q1) through a connecting structure, the connecting structure can enable the rotation axis (X) of the first supporting component (5) to move in a plane, the rotation axis (X) can swing by taking the bottom of the first supporting component as a fulcrum, the flat mop head (3) is rotated until the length direction (L) of the flat mop head is the same as the axis direction of the mop rod (2) during spin-drying, in a spin-drying state, the flat mop head (3) is inserted into and supported on the first supporting component in the spin-drying area (Q1), and the flat mop head (3) is driven to rotate rapidly around the rotation axis (X) in the spin-drying area (Q1) through the pressing of the mop rod (2), so that a wiping object (4) is spin-dried;

the connecting structure comprises a connecting part (6) fixed at the inner bottom of the spin-drying area (Q1), a containing cavity (53) with a downward opening is arranged in the first supporting part (5), the connecting part (6) stretches into the containing cavity (53) and is connected with the first supporting part (5) through a ball head connecting structure, and the connecting part (6) is matched with the opening of the containing cavity (53) at intervals, so that the first supporting part (5) can move in a plane relative to the connecting part (6).

2. The flat mop cleaning implement for facilitating a spin-drying operation according to claim 1, wherein: the flat mop is characterized in that the first supporting part (5) is provided with a plug pin (51) extending upwards, the lower side surface of the flat mop head (3) is provided with a jack (31) for inserting the plug pin (51), and the plug pin (51) is inserted into the jack (31) under the state that the flat mop head (3) is supported on the first supporting part (5).

3. The flat mop cleaning implement for facilitating a spin-drying operation according to claim 1, wherein: the mop is characterized in that the flat mop head (3) is provided with a U-shaped open groove (32), the open groove (32) penetrates through the upper side face of the flat mop head (3), the bottom of the open groove (32) is hinged with a joint (21), the lower end of the mop rod (2) is connected to the joint (21), and the front side and the back side of the flat mop head (3) are respectively provided with the wiping article (4).

4. The flat mop cleaning implement for facilitating a spin-drying operation according to claim 1, wherein: the ball head connecting structure comprises a first connecting ball head (61) and a second connecting ball head (7), the first connecting ball head (61) is arranged at the head of the connecting component (6), a spherical concave cavity (71) matched with the first connecting ball head (61) is formed in the bottom of the second connecting ball head (7), the first connecting ball head (61) is inserted into the spherical concave cavity (71), and a containing cavity (53) matched with the second connecting ball head (7) is formed in the bottom of the first supporting component (5).

5. The flat mop cleaning implement for facilitating a spin-drying operation according to claim 4, wherein: a limiting structure is arranged between the connecting part (6) and the accommodating cavity (53), and the limiting structure not only limits the movement amplitude of the rotation axis (X) of the first supporting part (5) in the plane range, but also limits the amplitude of the swing of the rotation axis (X) by taking the bottom of the rotation axis (X) as a fulcrum.

6. The flat mop cleaning implement for facilitating a spin-drying operation according to claim 5, wherein: the limiting structure comprises an annular limiting disc (62) arranged on the periphery of a connecting part (6), a containing cavity (53) matched with the limiting disc (62) is formed in the first supporting part (5), the limiting disc (62) can be enabled to be limited by touching the inner top surface and the inner bottom surface of the containing cavity (53) through swinging of the first supporting part (5), and a limiting distance (D) is formed between the bottom surface of the second connecting ball head (7) and the top surface of the limiting disc (62).

7. The flat mop cleaning implement for facilitating a spin-drying operation according to claim 6, wherein: the limiting plate (62) is provided with a plurality of containing holes (621) which are arranged along the circumference at intervals, the steel balls (63) are contained in the containing holes (621), and the steel balls (63) are contacted with the inner top surface and the inner bottom surface of the containing cavity (53) in the deflection state of the first supporting part (5).

8. The flat mop cleaning implement for facilitating a spin-drying operation according to claim 1, wherein: the upper part of the first supporting part (5) is provided with a spin basket (54), and the inner wall of the spin basket (54) is provided with a limit groove (541) for restraining the flat mop head (3) inserted therein.

9. The flat mop cleaning implement for facilitating a spin-drying operation according to claim 1, wherein: the mop bucket (1) is further provided with a cleaning area (Q2) which is independent of the spin-drying area (Q1), a cleaning device (8) is arranged in the cleaning area (Q2), the flat mop head (3) rotates to the same direction of the length direction (L) as the axis direction of the mop rod (2) during cleaning, and the flat mop head (3) is inserted into the cleaning device (8) in the cleaning area and moves up and down, so that the cleaning device (8) cleans the wiping objects (4).