CN110269552B - Self-squeezing water cleaning device - Google Patents

Abstract

The invention relates to the field of daily necessities, and particularly discloses a self-squeezing cleaning device which comprises a mop bucket and a flat mop, wherein the flat mop comprises a mop rod and a flat mop head movably connected to the mop rod, a wiping object is arranged on the flat mop head, a squeezing mechanism is slidably connected to the mop rod and comprises a sliding sleeve slidably connected to the mop rod and a squeezing frame arranged at one end of the sliding sleeve close to the flat mop head, when the flat mop head rotates to a squeezing state, the flat mop head can penetrate into the squeezing frame to form squeezing with the squeezing frame, a clamping frame for clamping the squeezing frame is arranged at a bung part of the mop bucket, at least one clamping interface is arranged on the clamping frame, a limiting structure for limiting the up-down displacement of the squeezing frame and a driving mechanism for driving the squeezing frame to enter the limiting structure are arranged on the clamping frame, the limiting structure and the driving mechanism are matched with the squeezing frame, so that the squeezing frame can be quickly clamped and easily detached, and the user operation experience is good.

Description

Self-squeezing water cleaning device

Technical Field

The invention relates to the field of mops, in particular to a self-squeezing cleaning device.

Background

In the prior art, there are three types of squeezing type dewatering for flat mop, such as foot squeezing type dewatering, centrifugal type spin dewatering or hand squeezing type dewatering, wherein hand squeezing type dewatering is common, such as chinese patent nos. ZL200720192814.5, ZL201320019718.6, ZL201420624020.1, etc., which includes a mop rod and a flat mop plate movably connected to the mop rod, wherein a squeezing mechanism is provided on the mop rod, and squeezing and cleaning of the wiping object on the flat mop plate are achieved by relative squeezing movement between the squeezing mechanism and the flat mop plate. Due to its certain operational complexity: 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 by pushing and pulling the squeezing mechanism by one hand, the operation is very laborious, and the operability is not strong.

Therefore, in order to solve the above-mentioned problems, chinese patent with application number of cn201810813879.X, entitled "a cleaning tool for squeezing flat mop" discloses an idea that a cleaning extrusion mechanism is provided on a mop bucket, and after a flat mop is inserted into the cleaning extrusion mechanism, the cleaning extrusion mechanism is used to clean and dewater the flat mop.

While this arrangement provides improvements in cleaning and squeezing the mop, the mop's dehydration cleaning must be limited by the mop bucket, and once removed from the specially made mop bucket, the mop's dehydration cleaning can be a major problem.

Disclosure of Invention

The invention aims to provide the cleaning device which not only can facilitate the cleaning and dewatering operation of the flat mop, but also can separate the flat mop from the mop bucket for independent use.

In order to achieve the above purpose, the present invention is solved by the following technical scheme:

the utility model provides a from squeezing water belt cleaning device, including mop bucket and flat mop, flat mop includes mop pole and swing joint flat mop head on mop pole, be equipped with the wiper on the flat mop head, mop pole sliding connection has a wringing mechanism, wringing mechanism includes sliding connection's sliding sleeve on mop pole and sets up the wringing frame that is close to flat mop head one end at the sliding sleeve, when flat mop head rotated to the wringing state, can penetrate the extrusion between wringing frame formation and the wringing frame, the bung hole position of mop bucket is provided with the joint frame that is used for joint wringing frame, the joint frame is provided with at least one joint mouth, the joint mouth is provided with the limit structure who is arranged in restriction wringing frame up-down displacement and drives the drive mechanism that the wringing frame enters into in the limit structure.

Through the scheme, the flat mop in the self-squeezing cleaning device can be used alone or matched with a mop bucket; when the flat mop is independently used, the flat mop can be matched with a common mop bucket for use, and the cleaning and water squeezing of the flat mop head are realized through the push-pull water squeezing mechanism; when the mop bucket in this scheme needs to cooperate the use, earlier will squeeze the water frame card into the joint mouth of joint frame in, through stop gear and drive structure just can be relaxed realization squeeze water frame on the joint frame in the ascending spacing of vertical direction, then push-and-pull mop pole just can realize the relative extrusion between dull and stereotyped mop head and the water frame, and it is very convenient to dewater and wash.

Preferably, the clamping interface is provided with a yielding hole for penetrating the flat mop head into the mop bucket, a resisting edge for abutting against the bottom of the squeezing frame is arranged at the bottom of the yielding hole, a driving mechanism is arranged on one side of the clamping interface, a limiting structure for limiting the up-and-down displacement of the squeezing frame is arranged on the other side of the clamping interface relative to the driving mechanism, and when the squeezing frame enters the clamping interface, the driving mechanism drives the squeezing frame to enter the limiting structure to limit the up-and-down displacement of the squeezing frame.

Preferably, the limiting structure comprises a clamping edge arranged above the blocking edge of the clamping interface, the clamping edge horizontally extends towards the inner direction of the clamping interface, the distance between one side of the clamping edge, which is close to the driving mechanism, and the inner side wall of the clamping interface, which is opposite to the clamping edge, is larger than the width of the wringing frame, and the distance between the clamping edge and the blocking edge is larger than the thickness of the wringing frame.

Preferably, the driving mechanism comprises a push block which is arranged inside the clamping frame and extends towards the water squeezing port under the driving of the elastic piece, when the push block receives the reaction force, the push block can retract into the clamping frame and deform the elastic piece to store the force, and the length of the push block horizontally extending out of the water squeezing port under the driving of the elastic piece is larger than or equal to the edge width of the clamping edge.

According to the scheme, the distance between one side of the clamping edge, which is close to the driving mechanism, and the inner side wall of the clamping interface opposite to the clamping edge is larger than the width of the wringing frame, so that the wringing frame can be vertically placed into the clamping interface, after the clamping interface is placed, the push block is reversely extruded into the clamping frame by the wringing frame, then the wringing frame moves towards one side provided with the clamping edge under the action of the push block until the wringing frame is abutted against the inner side wall of the wringing port, at the moment, the thickness direction of the wringing frame, namely the vertical direction, is limited between the clamping edge and the resisting edge, and cannot vertically and freely move, so that vertical clamping is realized, and the distance between the clamping edge and the resisting edge is larger than the thickness of the wringing frame, so that the wringing frame still has a certain allowable displacement amount between the clamping edge and the resisting edge, and is not completely limited; when the wringing frame needs to be taken out, the upper edge of the wringing frame can be separated from the clamping edge only by dumping and rotating the wringing frame, and then the flat mop is lifted obliquely, so that the wringing frame and the clamping frame can be separated, and the operation is convenient.

Preferably, the shell of the wringing frame is provided with a positioning groove matched with the pushing block, when the wringing frame is placed into the wringing port, the end part of the pushing block enters the positioning groove and pushes the wringing frame to move towards one side of the wringing port provided with the clamping edge.

Through the scheme, the positioning between the wringing frame and the pushing block is realized through the positioning groove, and when the pushing block pushes the wringing frame to enter the space between the clamping edge and the resisting edge, the matching is more stable; and when upwards mentioning the mop pole, the crowded water frame in one side of unlimited bit architecture restriction, the crowded water frame that is in ejector pad one side promptly can receive the cooperation of ejector pad and constant head tank, reduces the phenomenon that the crowded water frame upwarps appears for in the use, crowded water frame and joint frame are more stable in vertical joint effect.

Preferably, the clamping interface is provided with a yielding hole for enabling the flat mop head to penetrate into the mop bucket, a resisting edge for abutting against the bottom of the wringing frame is arranged at the bottom of the yielding hole, one side of the clamping interface is provided with a limiting structure for limiting the up-and-down displacement of the wringing frame, and when the wringing frame enters the clamping interface, the driving mechanism drives the wringing frame to enter the limiting structure to limit the up-and-down displacement of the wringing frame.

Preferably, the limiting structure comprises a clamping edge arranged above the blocking edge of the clamping interface, the clamping edge horizontally extends towards the inner direction of the clamping interface, the distance between one side of the clamping edge, which is close to the driving mechanism, and the inner side wall of the clamping interface, which is opposite to the clamping edge, is larger than the width of the wringing frame, and the distance between the clamping edge and the blocking edge is larger than the thickness of the wringing frame.

Preferably, the driving mechanism comprises a magnetic mechanism arranged between the clamping interface and the wringing frame, and the magnetic mechanism drives the wringing frame to enter the limiting structure after the wringing frame is placed in the clamping interface.

Preferably, the magnetic force mechanism comprises a first magnet arranged on the side wall of the clamping interface, which is positioned close to one side of the limiting structure, and a second magnet arranged on the side wall of the wringing frame, which is positioned close to the limiting structure, wherein the polarities of the first magnet and the second magnet are opposite; or/and the magnetic force mechanism comprises a third magnet arranged on the side wall of the clamping interface on the side far away from the limiting mechanism and a fourth magnet arranged on the side wall of the wringing frame on the side far away from the limiting mechanism, wherein the polarities of the third magnet and the fourth magnet are the same.

Through the scheme, after the flat mop plate of the flat mop passes through the yielding hole arranged on the clamping frame and enters the concave mop barrel, the squeezing frame enters the clamping interface and then receives the action of the magnetic force mechanism, so that the squeezing frame can enter the limiting mechanism partially, is vertically limited between the resisting edge and the clamping edge, and realizes the displacement limitation of the squeezing frame in the vertical direction.

Preferably, independent cleaning areas and dewatering areas are formed in the mop bucket respectively, and two clamping interfaces are arranged on the clamping frame and are respectively positioned above the cleaning areas and the dewatering areas.

Through the scheme, water is contained in the cleaning cavity, water is not discharged in the dewatering cavity, when the squeezing frame is clamped into the clamping interface above the cleaning cavity during cleaning and dewatering operation of the flat mop, the mop rod is pulled up and down to clean the flat mop head, when the squeezing frame is clamped into the clamping interface above the dewatering cavity, the mop rod is pulled up and down to dewater the flat mop head, cleaning and dewatering are separated, and the use effect is good.

Preferably, an opening is formed in the wringing frame, a stroking plate is arranged in the opening, a stroking opening is formed between the stroking plate and the opening, or a stroking opening is formed between the stroking plate and the stroking plate, the stroking plate is movably connected with the wringing frame so as to enable the stroking plate to rotate, the width of the stroking opening can be adjusted in the rotating process of the stroking plate, a first rotation limiting structure for limiting the rotation lower limit angle of the stroking plate is arranged between the stroking plate and the wringing frame, and when the stroking plate rotates downwards, the width of the stroking opening is reduced; when the stroking plate rotates upwards, the width of the stroking opening is increased.

Through the scheme, the lower limit rotation angle of the stroking plate is set, when the stroking plate rotates downwards, the width of the stroking opening is reduced, when the stroking plate rotates upwards, the width of the stroking opening is increased, therefore, when the stroking head structure is used for pulling a flat plate, after the stroking head structure slides downwards, water is not squeezed, water is squeezed when the stroking head structure slides upwards, the situation that when the stroking head structure is positioned above the flat plate mop plate is guaranteed, the squeezing state is completed, and the working state of the flat plate mop is also achieved at the moment, the stroking head structure does not need to be operated again, and the working efficiency is improved.

Preferably, the opening of the wringing frame is provided with two end surfaces, a first side surface which is close to the stroking plate and a second side surface which is far away from the stroking plate, the two ends of the stroking plate are respectively provided with a rotating shaft, and the two end surfaces of the opening of the wringing frame are respectively provided with rotating holes matched with the rotating shafts.

Through above-mentioned scheme, through the cooperation of pivot and commentaries on classics hole, realize the smooth out with fingers the board and connect in the rotation of the open position of wringing frame.

Preferably, the first rotation limiting structure comprises a lower limit corner surface of the stroking plate opposite to the first side surface, when the lower limit corner surface is in a parallel state with the first side surface, a gap is reserved, the axis of the rotating shaft is positioned at an upper side position close to the lower limit corner surface, and when the stroking plate rotates downwards and is positioned at a lower limit angle of the stroking plate, the lower limit corner surface is abutted against the first side surface; when the stroking plate rotates upwards, the lower limit corner surface is not contacted with the first side surface.

Through the scheme, through the cooperation between the lower limit corner surface and the first side surface, the stroking plate has a lower limit rotation angle, and in the state, the stroking opening formed between the stroking plate and the second side surface is smaller in width.

Preferably, a second rotation limiting structure for limiting the upper limit angle of rotation of the stroking plate is further arranged between the stroking plate and the wringing frame, the second rotation limiting structure comprises an upper limit angle surface which is positioned above the lower limit angle surface and is inclined towards a direction away from the first side surface, and when the stroking plate rotates upwards and is positioned at the upper limit angle of the stroking plate, the upper limit angle surface is abutted with the upper edge of the first side surface.

Through the scheme, the second rotation limiting structure is arranged between the stroking plate and the wringing frame, so that the upward rotation range of the stroking plate is limited, the rotation range of the stroking plate is limited between the lower limit rotation angle and the upper limit rotation angle, and the working stability of the stroking plate on the wringing frame is improved.

Preferably, after the wringing frame is clamped into the clamping interface of the clamping frame, the clamping interface limits the vertical displacement of the wringing frame;

when the flat mop head is inserted upwards, the wiping object is contacted with the stroking plate, so that the stroking plate rotates upwards, the stroking opening is widened and reaches the upper limit angle of rotation of the stroking plate, and the opening of the stroking opening is kept larger;

when the flat mop head is inserted downwards, the wiping object is contacted with the stroking plate, so that the stroking plate rotates downwards, the stroking opening is narrowed and reaches the lower limit angle of rotation of the stroking plate, and the stroking opening is kept small.

Through the scheme, after the flat mop and the mop bucket are matched, the squeezing frame is clamped into the clamping frame, when the flat mop head is pulled upwards at the moment, the smoothing opening is widened and reaches the upper limit angle of the rotation of the smoothing plate, and the opening of the smoothing opening is kept larger, so that the flat mop head cannot form larger pulling force on the squeezing frame and the mop bucket, the mop bucket filled with water cannot be easily lifted, and the use state is stable; when the flat mop head is inserted downwards, the smoothing opening is narrowed and reaches the lower limit angle of the smoothing plate rotation, the opening of the smoothing opening is kept small, extrusion is formed between the smoothing opening and the flat mop head, scrubbing of wiping objects is achieved, the force of the flat mop head to the wringing frame is downwards at the moment, the force received by the mop barrel is downwards, and the using state of the mop barrel is very stable.

The invention has the remarkable technical effects due to the adoption of the technical scheme:

1. the flat mop can be used alone or matched with a mop bucket provided with a clamping frame, so that the universality is strong;

2. the limiting structure and the driving mechanism arranged on the clamping frame are matched with the wringing frame, so that the device can be quickly clamped and easily detached, and the user operation experience is good;

3. the stroking plate at the stroking opening part on the squeezing frame is arranged to be a mode that the upward turning stroking opening is enlarged and the downward turning stroking opening is reduced, so that on one hand, the working efficiency of the mop is improved when the flat mop is singly used, on the other hand, when the mop is matched with a mop bucket, the mop head of the flat mop is downwards inserted into the mop bucket to be in a cleaning state, the squeezing force between the mop head of the upper pulling plate and the stroking opening is very little, and the risk of lifting the mop bucket is reduced, so that the mop bucket is stable in use state.

Drawings

FIG. 1 is an exploded view of a flat mop in accordance with a first embodiment;

FIG. 2 is a schematic view of the whole structure of the wringing frame and the sliding sleeve in the first embodiment;

FIG. 3 is an exploded view of a wringing frame and a stroking plate according to the first embodiment;

FIG. 4 is a schematic drawing showing axial measurement of a stroking plate in the first embodiment;

FIG. 5 is a schematic view of a self-squeezing washing apparatus according to a second embodiment;

FIG. 6 is an exploded view of a self-squeezing washing apparatus according to a second embodiment;

fig. 7 is a cross-sectional view of a clip frame in the second embodiment;

fig. 8 and 9 are schematic views showing the separation between the clamping frame and the wringing frame in the third embodiment.

In the figure: 1. a mop bucket; 11. cleaning the cavity; 12. a dewatering cavity; 2. a clamping frame; 21. a card interface; 211. a relief hole; 212. a retaining edge; 213. clamping edges; 214. a first magnet; 3. a pushing block; 31. a spring; 41. a mop rod; 42. a flat mop plate; 5. a sliding sleeve; 51. an abutting plate; 6. a water squeezing frame; 61. a turning hole; 611. a second guide surface; 62. a second water passing hole; 63. a second magnet; 7. stroking the board; 71. a lower limit corner surface; 711. a first water passing hole; 72. an upper limit corner surface; 73. a rotating shaft; 731. a first guide surface.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings and examples.

Example 1

The utility model provides a dull and stereotyped mop, see fig. 1-4, including mop pole 41, be equipped with the sliding sleeve 5 structure on the mop pole 41, the loop bar of sliding sleeve 5 structure cup joints on mop pole 41, the lower extreme swing joint of mop pole 41 has dull and stereotyped mop board 42, be equipped with the wiper on the dull and stereotyped mop board 42, the lower extreme of loop bar is equipped with the wringing frame 6, the sliding sleeve 5 structure includes the loop bar and sets up the butt joint board 51 at the loop bar tip, have on the butt joint board 51 with the identical through groove of wringing frame 6 opening size, and realize the lock with wringing frame 6 through the buckle structure.

An opening is formed in the wringing frame 6, a stroking plate 7 is arranged in the opening, and a stroking opening is formed between the stroking plate 7 and the opening. Wherein, the stroking plate 7 is rotationally connected with the opening, the two ends of the length of the stroking plate 7 are respectively provided with a rotating shaft 73, the opening of the wringing frame 6 is provided with two end surfaces, a first side surface nearer to the stroking plate 7 and a second side surface farther from the stroking plate 7, and the two end surfaces of the opening of the wringing frame 6 are respectively provided with rotating holes 61 matched with the rotating shafts 73. In order to facilitate the installation, a first guiding surface 731 is provided on the lower side of the rotating shaft 73, an inclined second guiding surface 611 is provided on the upper side of the wringing frame 6 located in the rotating hole 61, and the rotating shaft 73 is conveniently squeezed into the rotating hole 61 by the cooperation of the first guiding surface 731 and the second guiding surface 611, so that the installation of the stroking plate 7 and the wringing frame 6 is realized.

The side of the stroking plate 7 opposite to the first side surface is a lower limit corner surface 71, when the lower limit corner surface 71 is in a parallel state with the first side surface (the lower limit corner surface 71 is in a vertical state in this state), a gap is left between the lower limit corner surface 71 and the first side surface, and the axis of the rotating shaft 73 is located at the upper side position close to the lower limit corner surface 71. When the end of the stroking plate near the second side is turned down to an angle, the lower corner face 71 will rest against the first side. In order to increase the stability of the stripping plate 7 during rotation, an upper limiting angle surface 72 is also provided on the upper side of the lower limiting angle surface 71, the upper limiting angle surface 72 being inclined in a direction facing away from the first side. So that when the stroking plate 7 is rotated upwards, there is an angle such that the upper corner limit surface 72 abuts against the upper side of the first side, which is the maximum angle when the stroking plate 7 is rotated upwards.

In order to avoid accumulation of extruded water between the stroking plate 7 and the stroking opening, a first water passing hole 711 penetrating through the opening is formed in the first side surface, and a plurality of second water passing holes 62 arranged at intervals are formed in the lower limit corner surface 71, so that when the stroking head structure scrapes water, the scraped water can be discharged from the water squeezing frame 6 through the first water squeezing hole and the second water squeezing hole, and the water squeezing effect of the stroking head structure is improved.

When water is squeezed, the flat mop plate 42 rotates and then aligns with the stroking opening of the water squeezing frame 6, then the flat mop plate 42 enters the stroking opening, when the stroking head structure slides downwards, a wiper contacts with the stroking plate 7, the stroking plate 7 in the stroking head structure sliding downwards rotates upwards, so that the stroking opening is widened and reaches the upper limit angle of the stroking plate 7, and the stroking opening is kept larger; when the stroking head structure slides upwards relative to the flat mop plate 42, the wiping object contacts with the stroking plate 7, and the stroking plate 7 in the stroking head structure slides upwards to rotate downwards, so that the stroking opening is narrowed and reaches the lower limit angle of the stroking plate 7, and the stroking opening is kept small.

Example 2

Referring to fig. 5-7, a self-squeezing water cleaning device comprises a flat mop and a mop bucket 1, wherein the mop bucket 1 comprises an independent cleaning cavity 11 and a dewatering cavity 12, a clamping frame 2 is arranged at the mouth of the mop bucket 1, clamping holes positioned above the cleaning cavity 11 and the dewatering cavity 12 are respectively arranged on the clamping frame 2, and a yielding hole 211 communicated with the respective cavity is arranged at each clamping hole, and the yielding hole 211 can enable a flat mop plate 42 in a vertical state to pass through. A retaining edge 212 for abutting against the bottom of the wringing frame 6 is arranged at the bottom of the yielding hole 211. A driving mechanism is arranged on one side of the clamping interface 21, a limiting structure for limiting the up-and-down displacement of the wringing frame 6 is arranged on the other side of the clamping interface 21 relative to the driving mechanism, and when the wringing frame 6 enters the clamping interface 21, the driving mechanism drives the wringing frame 6 to enter the limiting structure to limit the up-and-down displacement of the wringing frame 6.

The driving mechanism mainly refers to fig. 7, and comprises a push block 3, wherein the push block 3 can be retracted into the clamping frame 2, and the push block 3 is driven to horizontally extend out of the clamping interface 21 through a spring 31, and after the wringing frame 6 is placed into the clamping interface 21, the push block 3 pushes the wringing frame 6 to move towards the limiting structure. The limit structure comprises a clamping edge 213 arranged above the blocking edge 212 of the clamping interface 21, the clamping edge 213 horizontally extends towards the inner direction of the clamping interface 21, the distance between one side of the clamping edge 213 close to the driving mechanism and the inner side wall of the clamping interface 21 opposite to the clamping edge 213 is larger than the width of the wringing frame 6, and the distance between the clamping edge 213 and the blocking edge 212 is larger than the thickness of the wringing frame 6.

When the flat mop is matched with the mop bucket 1, the flat mop plate 42 is rotated to a working state firstly, then the flat mop plate is inserted into the yielding hole 211 of the wringing frame 6, meanwhile, the wringing frame 6 enters into the clamping port 21, in the process that the wringing frame 6 enters into the clamping frame 2, the push block 3 is reversely extruded into the clamping frame 2 firstly until the bottom of the wringing frame 6 touches the resisting edge 212, and at the moment, the wringing frame 6 is acted by the extrusion force of the push block 3, so that part of the wringing frame enters into the limiting structure, namely part of the wringing frame enters into the space between the resisting edge 212 and the clamping edge 213, and the limiting of the clamping frame 2 on the wringing frame 6 in the vertical direction is realized. At this time, the mop rod 41 is vertically drawn, and the wringing frame 6 is not moved along with the mop rod 41 due to the action of the clamping frame 2, so that the relative movement between the mop rod 41 and the wringing frame 6 is realized. And in order to further improve the vertical joint effect of the squeezing stand 6 on the joint frame 2, set up on the shell body of the squeezing stand 6 with the constant head tank of push block 3, through the constant head tank, realize the location between squeezing stand 6 and the push block 3, when push block 3 promotes squeezing stand 6 and gets into the space between joint limit 213 and the abutment limit 212, the cooperation is more stable, and when upwards mentioning mop pole 41, the squeezing stand 6 of one side that is not limited by the limit position structure, namely the squeezing stand 6 that is in push block 3 one side, can receive the cooperation of push block 3 and constant head tank, reduce the phenomenon that the squeezing stand 6 upwarps appear, make the joint effect of squeezing stand 6 and joint frame 2 more stable in the use.

Because the distance between the clamping edge 213 and the resisting edge 212 is larger than the thickness of the wringing frame 6, the wringing frame 6 still has a certain allowable displacement between the clamping edge 213 and the resisting edge 212, and is not completely limited; when the wringing frame 6 needs to be taken out, the wringing frame 6 only needs to be dumped and rotated, the upper edge of the wringing frame 6 can be separated from the clamping edge 213 when the mop rod 41 is dumped in operation, and then the flat mop is lifted obliquely, so that the wringing frame 6 and the clamping frame 2 can be separated, and the operation is convenient.

Due to the arrangement mode of the stroking plate 7 on the wringing frame 6, the flat mop can particularly show advantages when the flat mop in the scheme is matched with the mop bucket 1. After the flat mop is matched with the mop bucket 1, the wringing frame 6 is clamped into the clamping frame 2, when the flat mop head is pulled upwards at this time, the smoothing opening is widened and reaches the upper limit angle of rotation of the smoothing plate 7, and the smoothing opening is kept larger, so that the flat mop head cannot form larger pulling force on the wringing frame 6 and the mop bucket 1, the mop bucket 1 filled with water cannot be easily lifted, and the use state is stable; when the flat mop head is inserted downwards, the smoothing opening is narrowed and reaches the lower limit angle of rotation of the smoothing plate 7, the smoothing opening is kept small, at the moment, extrusion is formed between the smoothing opening and the flat mop head, scrubbing of wiping objects is achieved, at the moment, the force of the flat mop head to the wringing frame 6 is downwards, the force received by the mop bucket 1 is downwards, and the using state of the mop bucket 1 is very stable.

Example 3

Referring to fig. 8 and 9, the self-wringing cleaning device is different from embodiment 2 in that the driving mechanism, in embodiment 3, is a magnetic mechanism disposed between the card interface 21 and the wringing frame 6, and includes a first magnet 214 disposed on a side wall of the card interface 21 adjacent to the side of the spacing structure and a second magnet 63 disposed on a side wall of the wringing frame 6 adjacent to the spacing structure, the polarities of the first magnet 214 and the second magnet 63 being opposite. Thus, after the wringing frame 6 is inserted into the mop bucket 1 along with the flat mop head, the wringing frame 6 is subjected to the suction force of the first magnet 214 and the second magnet 63, so that the wringing frame 6 is partially put into the limiting structure, and the limitation of the wringing frame 6 in the vertical direction is realized. Meanwhile, the magnetic force mechanism may also be: a third magnet arranged on the side wall of the clamping interface 21 on the side far away from the limiting mechanism and a fourth magnet arranged on the side wall of the wringing frame 6 on the side far away from the limiting mechanism, wherein the polarities of the third magnet and the fourth magnet are the same. Alternatively, the magnetic force mechanism may be provided with the first magnet 214, the second magnet 63, the third magnet, and the fourth magnet at the same time.

Example 4

The difference between the self-squeezing washing device and the embodiment 2 is that the arrangement mode of the squeezing stand 6 is different from that of the embodiment 2, not shown in the figure, in this embodiment 4, the squeezing stand 6 is set to be half of the volume of the squeezing stand 6 in the embodiment 2, that is, only one clamping port 21 is provided on the squeezing stand 6, and meanwhile, the periphery of the squeezing stand 6 is bent downwards to form a sliding buckle fit with the barrel mouth of the mop barrel 1, and the position of the squeezing stand 6 in the washing cavity 11 and the dewatering cavity 12 of the mop barrel 1 can be switched by sliding the squeezing stand 6. When the flat mop needs to be cleaned, the sliding wringing frame 6 is positioned above the cleaning cavity 11, and when the flat mop needs to be dehydrated, the sliding wringing frame 6 is positioned above the dewatering cavity 12.

Claims (13)

1. The utility model provides a from squeezing water belt cleaning device, including mop bucket (1) and flat mop, flat mop includes mop pole (41) and swing joint flat mop head on mop pole (41), be equipped with the wiping thing on flat mop head, mop pole (41) sliding connection has a wringing mechanism, wringing mechanism includes sliding connection sliding sleeve (5) on mop pole (41) and sets up in sliding sleeve (5) and is close to flat mop head one end squeeze water frame (6), when flat mop head rotates to the wringing state, can penetrate squeeze water frame (6) formation and squeeze water frame (6), characterized in that, the bung hole position of mop bucket (1) is provided with joint frame (2) that are used for joint water frame (6), joint frame (2) are provided with at least one interface (21), joint (21) are provided with the limit structure that is used for restricting the upper and lower displacement of water frame (6) and drive water frame (6) enter into limit structure, joint (21) are provided with and make mop bucket (1) form the extrusion between with the extrusion hole position (21) and are provided with relative to limit for one side bottom (21) of the relative hole position is used for limiting the drive mechanism (21) to be provided with in the opposite side of the bottom (21) of the end hole (21), when the wringing frame (6) enters the clamping interface (21), the driving mechanism drives the wringing frame (6) to enter the limiting structure, the vertical displacement of the wringing frame (6) is limited, the clamping interface (21) is provided with a yielding hole (211) for enabling a flat mop head to penetrate into the mop bucket (1), the bottom of the yielding hole (211) is provided with a resisting edge (212) for abutting against the bottom of the wringing frame (6), one side of the clamping interface is provided with the limiting structure for limiting the vertical displacement of the wringing frame (6), and when the wringing frame (6) enters the clamping interface (21), the driving mechanism drives the wringing frame (6) to enter the limiting structure, and the vertical displacement of the wringing frame (6) is limited.

2. The self-squeezing washing device according to claim 1, wherein the limiting structure comprises a clamping edge (213) arranged above the blocking edge (212) of the clamping interface (21), the clamping edge (213) horizontally extends towards the inner direction of the clamping interface (21), the distance between the clamping edge (213) and the inner side wall of the clamping interface (21) opposite to the clamping edge (213) on the side, close to the driving mechanism, is larger than the width of the squeezing stand (6), and the distance between the clamping edge (213) and the blocking edge (212) is larger than the thickness of the squeezing stand (6).

3. The self-squeezing water cleaning device according to claim 2, wherein the driving mechanism comprises a pushing block (3) arranged in the clamping frame (2) and extending towards the squeezing water port under the driving of the elastic piece, when the pushing block (3) is subjected to a reaction force, the pushing block can be retracted into the clamping frame (2) and the elastic piece deforms to store the force, and the length of the pushing block (3) horizontally extending out of the squeezing water port under the driving of the elastic piece is larger than or equal to the edge width of the clamping edge (213).

4. A self-wringing cleaning device according to claim 3, characterized in that the housing of the wringing frame (6) is provided with a positioning groove which cooperates with the push block (3), and when the wringing frame (6) is placed into the wringing port, the end of the push block (3) enters the positioning groove and pushes the wringing frame (6) to move towards the side of the wringing port where the clamping edge (213) is provided.

5. The self-squeezing washing device according to claim 1, wherein the limiting structure comprises a clamping edge (213) arranged above the blocking edge (212) of the clamping interface (21), the clamping edge (213) horizontally extends towards the inner direction of the clamping interface (21), the distance between the clamping edge (213) and the inner side wall of the clamping interface (21) opposite to the clamping edge (213) on the side, close to the driving mechanism, is larger than the width of the squeezing stand (6), and the distance between the clamping edge (213) and the blocking edge (212) is larger than the thickness of the squeezing stand (6).

6. The self-wringing cleaning device of claim 5, wherein the drive mechanism comprises a magnetic mechanism disposed between the card interface (21) and the wringing frame (6), the magnetic mechanism driving the wringing frame (6) into the limit structure after the wringing frame (6) is placed into the card interface (21).

7. The self-wringing cleaning device of claim 6, wherein the magnetic mechanism comprises a first magnet (214) arranged on a side wall of the card interface (21) located near the side of the limit structure and a second magnet (63) arranged on a side wall of the wringing frame (6) located near the limit structure, and the polarities of the first magnet (214) and the second magnet (63) are opposite; or/and the magnetic force mechanism comprises a third magnet arranged on the side wall of the clamping interface on the side far away from the limiting mechanism and a fourth magnet arranged on the side wall of the wringing frame on the side far away from the limiting mechanism, wherein the polarities of the third magnet and the fourth magnet are the same.

8. Self-wringing cleaning device according to any one of claims 1-7, characterized in that the mop bucket (1) is divided into a cleaning zone and a dewatering zone which are independent, and the clamping frame (2) is provided with two clamping interfaces (21) which are respectively positioned above the cleaning zone and the dewatering zone.

9. The self-squeezing washing device according to claim 1, characterized in that an opening is formed on the squeezing frame (6), a stroking plate (7) is arranged in the opening, a stroking opening is formed between the stroking plate (7) and the opening, or a stroking opening is formed between the stroking plate (7) and the stroking plate (7), the stroking plate (7) is movably connected with the squeezing frame (6) so as to enable the stroking plate (7) to rotate, the width of the stroking opening can be adjusted in the rotating process of the stroking plate (7), a first rotation limiting structure for limiting the rotation of the stroking plate (7) by a lower limit angle is arranged between the stroking plate (7) and the squeezing frame (6), and when the stroking plate (7) rotates downwards, the width of the stroking opening is reduced; when the stroking plate (7) rotates upwards, the width of the stroking opening is increased.

10. The self-squeezing washing device according to claim 9, characterized in that the opening of the squeezing stand (6) is provided with two end surfaces, a first side surface close to the stroking plate (7) and a second side surface far from the stroking plate, two ends of the stroking plate (7) are respectively provided with a rotating shaft (73), and two end surfaces of the opening of the squeezing stand (6) are respectively provided with rotating holes (61) matched with the rotating shafts (73).

11. The self-squeezing washing device according to claim 10, characterized in that the first rotation limiting structure comprises a lower limit corner surface (71) of the stroking plate (7) opposite to the first side surface, when the lower limit corner surface (71) is in a parallel state with the first side surface, a clearance is reserved, and the axis of the rotating shaft (73) is positioned at an upper side position close to the lower limit corner surface (71), when the stroking plate (7) rotates downwards and is positioned at a lower limit angle of the stroking plate (7), the lower limit corner surface (71) is abutted against the first side surface; when the stroking plate (7) rotates upwards, the lower limit corner surface (71) is not contacted with the first side surface.

12. The self-wringing cleaning device according to claim 11, characterized in that a second rotation limiting structure for limiting the rotation upper limit angle of the stroking plate (7) is further arranged between the stroking plate (7) and the wringing frame (6), the second rotation limiting structure comprises an upper limit angle surface (72) which is positioned above the lower limit angle surface (71) and is inclined towards a direction away from the first side surface, and when the stroking plate (7) rotates upwards and is positioned at the upper limit angle of the stroking plate (7), the upper limit angle surface (72) is abutted with the upper edge of the first side surface.

13. The self-wringing cleaning device according to claim 12, wherein after the wringing frame (6) is snapped into the snap-in port (21) of the snap-in frame (2), the snap-in port (21) restricts the vertical displacement of the wringing frame (6);

when the flat mop head is inserted upwards, the wiping object is contacted with the stroking plate (7), so that the stroking plate (7) rotates upwards, the stroking opening is widened and reaches the upper limit angle of rotation of the stroking plate (7), and the stroking opening is kept larger;

when the flat mop head is inserted downwards, the wiping object is contacted with the stroking plate (7), so that the stroking plate (7) rotates downwards, the stroking opening is narrowed and reaches the lower limit angle of rotation of the stroking plate (7), and the stroking opening is kept small.