CN210095653U - Cleaning and dewatering integrated cleaning device - Google Patents

Abstract

The utility model discloses a cleaning and dewatering integrated cleaning device, which comprises a mop barrel and a flat mop with a built-in cleaning and dewatering structure, wherein the flat mop comprises a plate surface capable of fixing a cleaning object and a mop rod with a rotary driving structure, the rotary driving structure comprises an external loop bar and an inner bar which is driven to rotate when the loop bar moves up and down, a rotary structure which can be relatively rotated or integrally clamped with the plate surface is arranged between the lower end of the inner bar and the plate surface, a base which can be lifted to a dewatering level and lowered to a cleaning position is arranged in the barrel body of the mop barrel, a cleaning seat provided with brush hairs for scraping the flat mop cleaning object is rotatably connected on the base, a structure is arranged between the cleaning seat and the rotary structure, the rotary structure can be separated from the plate surface and the cleaning seat can be driven by the inner bar, a clutch structure is arranged between the dewatering basket and the cleaning seat, so that the cleaning seat can only rotate when, during dehydration, the dehydration basket rises to the dehydration position, and the inner rod drives the dehydration basket to rotate rapidly to realize dehydration.

Description

Cleaning and dewatering integrated cleaning device

Technical Field

The utility model relates to an articles for daily use, more specifically the theory that says so relates to a wash dehydration integral type belt cleaning device.

Background

Various mop bucket devices for cleaning mop heads exist in the prior art, and the composite mop bucket device which is widely adopted by consumers due to the dewatering function and the washing function comprises a mop bucket capable of storing liquid, and a dewatering device and a washing device which are respectively arranged in the mop bucket.

The washing device in the mop bucket cleaning area usually comprises a base matched with the mop head, if the washing device is matched with the flat mop for use, two ends of the flat mop need to be folded firstly, then the center of the ground dragged by the flat mop is supported on the base, and the flat mop head can be rotated and cleaned in the cleaning area by pressing the mop rod up and down. However, when the mop head is cleaned, the mop head is rotated in water by pressing down the mop rod, and the cleaning is very laborious and not clean due to the frictional resistance of water flow and the mop which rotates at high speed. Although some products have speed reducing mechanisms on the mop rod, such as the cleaning tools disclosed in publications CN202096169U and 201120233442.2, which achieve the purpose of saving labor during cleaning through large and small gear change, the cleaning tools have complex mechanisms and excessive parts, thereby increasing a lot of cost and failure rate.

In addition, in order to realize the cleaning and the dewatering of the mop head, a cleaning area and a dewatering area are required to be arranged in the barrel body, the mop is cleaned in the cleaning area when the cleaning is carried out, and the mop is required to be moved to the dewatering area for rotary drying after the cleaning is finished.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a collection washs and dehydration integral type and can laborsaving belt cleaning device when wasing dull and stereotyped dragging.

The above object of the present invention can be achieved by the following technical solutions: a cleaning and dewatering integrated cleaning device comprises a mop barrel with a built-in cleaning and dewatering structure and a flat mop, wherein the flat mop comprises a plate surface capable of fixing a wiping object and a mop rod with a rotary driving structure, the rotary driving structure comprises an outer loop bar held by hands and an inner bar which drives the loop bar to rotate when the loop bar moves up and down, a rotating structure which can rotate relative to or be integrally clamped with the plate surface is arranged between the lower end of the inner bar and the plate surface, a transposition structure which can enable the cleaning and dewatering structure to rise to a dewatering level and fall to a cleaning position is arranged in a barrel body of the mop barrel, the transposition structure comprises a base, a cleaning seat which is provided with bristles and used for scraping the flat mop wiping object is rotatably connected to the base, a connecting column which is used for unlocking the clamping relation between the plate surface and the rotating structure and is inserted into the rotating structure is arranged at the top of the cleaning seat, and after the connecting column, the cleaning seat is integrally driven by the inner rod, a second clamping structure is arranged between the connecting column and the rotating structure, and the clamping force of the second clamping structure in the vertical direction is greater than the gravity of the cleaning and dehydrating structure; rotate on rinsing the seat and cup jointed a dehydration basket, and the dehydration basket has relative free slippage with rinsing the seat in vertical direction, it is provided with separation and reunion structure to dewater the basket and rinse between the seat, separation and reunion structure is including acting on the roof pressure pole of dehydration basket bottom, and when rinsing the dehydration structure and being in and rinsing the position, the roof pressure pole top makes the dehydration basket produce the upwards vertical slippage of rinsing the seat relatively in the bottom of dehydration basket, and makes the separation and reunion structure be in the off-state, and when rinsing the dehydration structure and being in the off-water level, the roof pressure to dehydration basket bottom is relieved to the roof pressure of roof pressure pole for the dehydration basket produces the downward vertical slippage and the separation and reunion structure that rinse the seat relatively and be in the engaged.

Preferably, a sleeve joint neck for sleeve joint of the dewatering basket is arranged on the cleaning seat, a first meshing disc is arranged at the lower portion of the sleeve joint neck, a second meshing disc matched with the first meshing disc is arranged below the dewatering basket, when the cleaning and dewatering structure is located at a cleaning position, the jacking rod is jacked at the bottom of the dewatering basket to enable the first meshing disc to be separated from the second meshing disc, and when the cleaning and dewatering structure is located at a dewatering level, the jacking rod releases jacking pressure on the bottom of the dewatering basket to enable the dewatering basket to generate downward vertical slippage relative to the cleaning seat and enable the clutch structure to be in a meshing state.

Preferably, the transposition structure comprises at least two tracks arranged on the inner wall of the barrel body and matched with the base, each track comprises a first ascending section, an inclined lower section, a second ascending section and a descending section which is connected to the bottom of the first ascending section in a circulating mode, the base is provided with support legs extending towards the inner wall of the barrel body, the tail ends of the support legs are respectively provided with a limiting block matched with the track, when the sliding block is positioned at the bottom of the first ascending section, the cleaning and dewatering structure is positioned at a cleaning position, when the sliding block is positioned at the intersection of the inclined lower section and the second ascending section, the cleaning and dewatering structure is positioned at a dewatering level, each support leg is provided with the jacking rod, when the base is positioned at the cleaning position, the jacking rod ascends relative to the base and jacks the bottom of the dewatering basket, so that the dewatering basket generates upward vertical slippage relative to the cleaning seat and the clutch structure is separated, when the base is in a dewatering level, the jacking rod moves downwards relative to the base and releases jacking on the dewatering basket, so that the dewatering basket generates downward vertical slippage relative to the cleaning seat, and the clutch structure is in a meshed state.

Preferably, the transposition structure comprises a transposition barrel which is arranged below the base and fixed at the bottom of the barrel body, the base penetrates into the transposition barrel, at least two rails which are matched with the base are arranged on the inner wall of the transposition barrel, each rail comprises a first ascending section, an inclined lower section, a second ascending section and a descending section which is connected to the bottom of the first ascending section in a circulating mode, the base is provided with support legs which extend towards the inner wall of the barrel body, the tail ends of the support legs are respectively provided with a limiting block which is matched with the rail, when the sliding block is arranged at the bottom of the first ascending section, the cleaning and dewatering structure is in a cleaning position, when the sliding block is arranged at the intersection of the inclined lower section and the second ascending section, the cleaning and dewatering structure is in a dewatering level, the jacking rod is fixedly arranged at the bottom of the barrel body, when the base is in the cleaning position, the jacking rod jacks the bottom of the dewatering basket, so that the dewatering basket generates upward vertical slippage relative to the cleaning seat and the, when the base is at the dehydration level, the jacking rod releases jacking on the dehydration basket, so that the dehydration basket generates downward vertical slippage relative to the cleaning seat and the clutch structure is in a meshed state.

Preferably, the rotating structure comprises a first rotating disc fixed at the bottom of the inner rod and a second rotating disc fixed on the plate surface, the first rotating disc is rotatably connected with the second rotating disc and is provided with a first clamping structure capable of limiting the first rotating disc and the second rotating disc to rotate relative to each other, an inserting cavity matched with the connecting column is arranged at the bottom of the first rotating disc, the cross section of the connecting column is non-circular, and when the connecting column is inserted into the inserting cavity, the first rotating disc and the cleaning seat are in circumferential linkage.

Preferably, the first rotary table comprises a first table body and a first table neck arranged at the center of the first table body, the second rotary table comprises a second table body and a second table neck arranged at the center of the second table body, the first table neck is provided with the inserting cavity, the first table neck is inserted into the second table neck, and a bearing is arranged between the first table body and the second table body.

Preferably, the first clamping structure comprises at least one sliding block arranged on the first disc body and arranged along the radial direction of the first disc body, an elastic part is arranged between the sliding block and the first disc body to drive the sliding block to move towards the first disc neck, a yielding groove penetrating through the insertion cavity is formed in the first disc neck, a clamping groove is formed in the second disc neck, a clamping block matched with the clamping groove is arranged on the sliding block, when the sliding block is not under the action of external force, the end part of the sliding block enters the yielding groove and the clamping block is clamped into the clamping groove, the first rotary disc and the second rotary disc are in a clamping state, and after the insertion cavity is inserted into the connecting column, the sliding block deviates from the circle center of the first disc body and slides and enables the clamping block to be separated from the clamping groove, so that the first rotary disc and the second rotary disc are in a.

Preferably, the second joint structure is provided with round circular ring groove including setting up the outer cylinder face at the connection post to and with the slider tip of ring groove cooperation joint, after the connection post inserts the chamber, orders about the slider and deviates from first disk body and contracts and make the fixture block roll-off draw-in groove, the tip card of slider go into circular ring inslot simultaneously.

Preferably, the lower side surface of the end part of the sliding block entering the abdicating groove is provided with an inclined surface, and the end part of the connecting column is spherical.

Preferably, a fixed rotating shaft is arranged at the central position of the base, a rotating sleeve is sleeved on the rotating shaft, and the rotating sleeve is inserted into the bottom of the cleaning seat to be fixed.

Compared with the prior art, the method has the advantages that,

1. when the flat mop is placed on the base of the mop bucket, the butt joint of the first disc body and the cleaning seat is realized through the matching of the connecting column and the inserting cavity, the locking state between the first disc body and the second disc body is released, the outer sleeve rod of the mop rod is pressed downwards at the moment, the first disc body rotates relative to the second disc body, namely the first disc body drives the cleaning seat to rotate, the second disc body does not rotate, the lower pressure of the mop rod only drives the cleaning seat to rotate at the moment when the second disc body does not rotate, the resistance of water is very small, the operation is very labor-saving, the brush arranged on the cleaning seat rotates the wiping object abutted against the first disc body, the flat mop can be cleaned, and the water flow driven by the cleaning seat can quickly wash dirt on the wiping object;

2. through the second clamping structure, when the mop is lifted upwards, the cleaning and dewatering structure can be driven to move upwards together, so that when the mop is lifted upwards, the limiting block of the base moves to the uppermost point of the first ascending section of the track, meanwhile, the clutch structure is meshed, the cleaning seat is in circumferential linkage with the dewatering basket, then the mop is rotated, the limiting block enters the intersection point of the inclined downward section and the second ascending section along the inclined downward section, namely, the dewatering level, at the moment, the outer sleeve rod is operated up and down, the inner rod drives the cleaning seat and the dewatering basket to rotate quickly together, the mop is quickly dewatered, the mop is pulled upwards continuously after dewatering is finished, the limiting block is abutted against the uppermost point increasing force of the second ascending section, the end part of the sliding block is separated from the annular groove, and the mop can be separated from the connecting column and taken out from the mop barrel, meanwhile, the limiting block also descends along the descending section and continues to return to the bottommost point of the first ascending section, namely the cleaning position, and the jacking rod ascends relative to the base to jack up the dewatering basket, so that the separation of the clutch structure is realized.

Drawings

FIG. 1 is a schematic diagram of an axial alignment of a cleaning apparatus according to a first embodiment;

FIG. 2 is a schematic axial view of the mop bucket of the first embodiment;

FIG. 3 is a schematic exploded view of the barrel and the cleaning and dehydrating structure of the first embodiment;

fig. 4 is a schematic axial view of the cleaning and dehydrating structure according to the first embodiment (a clutch structure disengaged state);

FIG. 5 is a schematic view of the cleaning and dehydrating structure in the first embodiment (engaging and disengaging structure)

State);

FIG. 6 is a schematic view illustrating a state in which the spin basket and the rinse seat are detached according to the first embodiment;

FIG. 7 is a schematic view illustrating a detachable state of the cleaning seat and the base according to the first embodiment;

FIG. 8 is a partial schematic view of the base and rail assembly according to the first embodiment;

FIG. 9 is a diagram showing the separation between the mop rod and the surface of the flat mop according to the first embodiment;

FIG. 10 is a schematic bottom view of the first turntable and the second turntable according to the first embodiment;

FIG. 11 is a half sectional view of the first turntable and the second turntable (with bearings omitted) according to the first embodiment;

fig. 12 and 13 are exploded schematic views of a first rotating disk and a second rotating disk according to the first embodiment;

FIG. 14 is a schematic view showing the inside of the cleaning apparatus according to the second embodiment (cleaning station);

FIG. 15 is a schematic view of the inside of the tub according to the second embodiment;

FIG. 16 is a schematic view of the cleaning seat and the guide cylinder according to the second embodiment;

FIG. 17 is a schematic view of the inside of a guide cylinder according to the second embodiment;

fig. 18 is an exploded view of the cleaning seat and the base according to the second embodiment.

In the figure: 1. a barrel body; 11. a track; 111. a first rising section; 112. inclining to the lower section; 113. a second rising section; 114. a descending section; 2. a base; 21. a limiting block; 22. a rotating shaft; 23. rotating the sleeve; 3. cleaning a seat; 31. connecting and inserting the column; 311. a circular ring groove; 32. sleeving a neck; 33. a first meshing disc; 34. a fixed body; 4. a dewatering basket; 41. a second meshing disk; 5. dragging the flat plate; 51. a mop rod; 52. plate surface; 521. a folding end; 53. a first turntable; 531. a first disc neck; 532. a yielding groove; 54. a second turntable; 541. a second pan neck; 5411. a card slot; 55. a bearing; 56. a slider; 561. an elastic member; 562. a clamping block; 6. a top pressure rod; 7. and a guide cylinder.

Detailed Description

The present invention will be described in more detail with reference to the following embodiments, which are illustrative only and are not limiting to the scope of the present invention.

Example one

A cleaning and dewatering integrated cleaning device firstly refers to figures 1 to 9 and comprises a mop bucket and a flat mop 5, wherein the flat mop 5 comprises a plate surface 52 provided with a wiping object (not shown in the figures) and a mop rod 51, the mop rod 51 is of a structure with a rotation function, the structure of the structure is consistent with that of the existing general rotating mop, and the part is not changed in the scheme, so that the drawing is omitted.

Wherein be provided with in staving 1 and wash dewatering structure, including base 2, base 2 has three each other 120 stabilizer blades of becoming, be provided with stopper 21 at the terminal lateral wall of stabilizer blade, stopper 21 be used for with set up the cooperation of three guide rail on staving 1 inner wall, each guide rail all sets up circulating track 11, including first ascending section 111, slope descending section 112, second ascending section 113 and descending section 114, when stopper 21 of base 2 is in the bottom of first ascending section 111, for the washing position of washing dewatering structure, when stopper 21 of base 2 is in the bottommost of slope descending section 112, for the dewatering level of washing dewatering structure.

The cleaning and dewatering structure comprises a base 2, a cleaning seat 3 and a dewatering basket 4, wherein the cleaning seat 3 is connected with the base 2 in a rotating mode, a fixed rotating shaft 22 is inserted into the center of the base 2, a clamping ring groove is formed in the rotating shaft 22, a rotating sleeve 23 is sleeved on the rotating shaft 22, the rotating sleeve 23 is rotatable with the rotating shaft 22 in the circumferential direction, the axial direction is fixed mutually, the rotating sleeve 23 is fixedly inserted into the bottom of the cleaning seat 3, and therefore the cleaning seat 3 can rotate relative to the base 2 and is fixed relative to the axial direction. Be provided with at the lower extreme of wasing seat 3 with dehydration basket 4 complex cup joint neck 32 for with dehydration basket 4 spacing here, thereby dehydration basket 4 can with wash seat 3 circumference relative rotation, and can follow and cup joint neck 32 and have certain displacement volume in axial direction. And a holder 34 for holding the brush is provided on the wash bowl 3.

Be provided with first meshing dish 33 at the downside that cup joints neck 32, be provided with in the bottom surface of dehydration dish with first meshing dish 33 complex second meshing dish 41, be provided with roof pressure pole 6 on base 2 simultaneously, when wasing dehydration structure and be located the washing position, base 2 is in the bottom of staving 1, roof pressure pole 6 is relative base 2 upwards jack-up dehydration basket 4, first meshing dish 33 is in the off-state with second meshing dish 41 this moment, also the dehydration basket 4 can form free rotation of each other with washing seat 3. When the cleaning and dewatering structure is lifted, the lower part of the jacking rod 6 is separated from the barrel bottom, and the lifting and dewatering structure can slide downwards relative to the base 2, and the dewatering basket 4 can also be lowered until the first meshing disc 33 and the second meshing disc 41 are meshed and abutted with each other, and at the moment, the cleaning seat 3 and the dewatering basket 4 can synchronously rotate.

The structure of the flat mop 5 shown in fig. 9 to 13 includes a mop rod 51 and a board 52, wherein the two ends of the board 52 are foldable ends 521, and the function of the foldable part is consistent with that of the existing flat mop 5, and the foldable part is not structurally unfolded. Mop pole 51 has included interior pole and outer pole, after interior pole and the relative up-and-down motion of outer pole, interior pole will be rotary motion, and this function is unanimous with current rotatory mop pole 51's structure, does not do specific structural expansion yet, and in this embodiment with interior pole and outer pole the view omit, only draw with the undermost portion of interior pole. A rotating structure is arranged between the mop rod 51 and the board 52, wherein the rotating structure comprises a first rotating disc 53 fixed at the bottom of the mop rod 51 and a second rotating disc 54 fixed on the board 52.

The first turntable 53 comprises a first turntable body and a first turntable neck 531 arranged at the center of the first turntable body, the second turntable 54 comprises a second turntable body and a second turntable neck 541 arranged at the center of the second turntable body, the first turntable neck 531 is provided with a plug cavity matched with the plug column 31, the first turntable neck 531 is inserted into the second turntable neck 541, a bearing 55 is arranged between the first turntable body and the second turntable body, and the first turntable 53 and the second turntable 54 can rotate relatively through the connection of the bearing 55. And in order to limit the relative rotation of the first turntable 53 and the second turntable 54 when the flat mop 5 is used for normal mopping function, a first clamping structure is arranged between the first turntable 53 and the second turntable 54.

The first clamping structure comprises two sliding blocks 56 which are symmetrically arranged on the first turntable body and are arranged along the radial direction of the first turntable body, an elastic piece 561 is arranged between each sliding block 56 and the first turntable body to drive each sliding block 56 to move towards the center of the first turntable neck 531, a yielding groove 532 penetrating through the insertion cavity is formed in the first turntable neck 531, a clamping groove 5411 is formed in the second turntable neck 541, a clamping block 562 matched with the clamping groove 5411 is arranged on each sliding block 56, when the sliding blocks 56 are not affected by external force, the end portions of the sliding blocks 56 enter the yielding grooves 532 and the clamping block 562 is clamped into the clamping grooves 5411, and the first turntable 53 and the second turntable 54 are in a clamping state. That is, in the floor mopping state of the flatbed mop 5, the first rotating disc 53 and the second rotating disc 54 will be subjected to the action of the blocking structure, and are in a relatively non-rotatable state, so that the board surface 52 can perform a normal and stable floor mopping function.

When the flat mop 5 is matched with the base 2, the inserting column 31 is inserted into the inserting cavity of the first disk neck 531, the lower side surface of the end part of the sliding block 56 entering the abdicating groove 532 is provided with an inclined plane, the end part of the connecting column is spherical, the outer cylindrical surface of the connecting column is provided with a circle of circular ring groove 311, after the connecting column is inserted into the inserting cavity, the sliding block 56 is driven to retract away from the first disk body, the clamping block 562 slides out of the clamping groove 5411, meanwhile, the end part of the sliding block 56 is clamped into the circular ring groove 311, at the moment, the first rotating disk 53 and the second rotating disk 54 are in an unlocking state, namely, the cleaning seat 3 can be directly driven by the mop.

Meanwhile, in order to realize that the mop can bring the upper and lower displacement change of the cleaning and dehydrating structure, when the second clamping structure acts, namely the end part of the sliding block 56 is clamped into the circular ring groove 311, the clamping force in the vertical direction of the end part of the sliding block 56 clamped into the circular sliding groove needs to meet the requirement of bringing the cleaning and dehydrating structure to move upwards.

When the mop is cleaned in use, the two ends of the plate surface 52 are folded to bend 521, so that the whole mop head can enter the barrel body 1, water in the barrel body 1 needs to meet the requirement that when the cleaning and dewatering structure is positioned at a cleaning position, the water is at least higher than the cleaning seat 3, and when the cleaning and dewatering structure is positioned at a dewatering position, the dewatering basket 4 is higher than the water surface. Then, the flat mop 5 is placed on the cleaning seat 3, and the coupling column is inserted into the insertion cavity, so that circumferential linkage between the cleaning seat 3 and the first rotating disc 53 is realized, the sliding block 56 slides, the clamping relation between the first rotating disc 53 and the second rotating disc 54 is released, and the end part of the sliding block 56 is clamped into the circular ring groove 311. Push down mop pole 51 this moment, first disk body will take place the relative rotation with the second disk body, also first disk body is taking the rotation of wash seat 3, and the second disk body does not rotate, because the second disk body does not rotate this moment the push down of mop pole 51 only drives wash seat 3 and rotates, the resistance that receives water is very little, it becomes very laborsaving to operate, it supports the wiper that leans on with it to rotate by the brush hair that sets up on wash seat 3, just can realize dragging 5's washing to the flat board, and the washing of dirty realization on the wiper that can be quick by the rivers that wash seat 3 drove. Meanwhile, because the clutch structure between the dewatering basket 4 and the cleaning seat 3 is in a disengaged state, the dewatering basket 4 can not rotate, and the mop rod 51 is further labor-saving in operation. After cleaning, the mop rod 51 is lifted upwards, the cleaning and dewatering structure is lifted up along the first rising section 111 under the action of the second clamping structure, then the mop rod 51 is rotated to enable the limiting block 21 to enter the inclined downward section 112, then a force which rotates downwards while exerting on the mop rod 51 enables the limiting block 21 to enter a dewatering position, then an outer sleeve rod of the mop rod 51 is operated upwards and downwards, the cleaning seat 3 and the dewatering basket 4 rotate together, and quick drying of the flat mop 5 is realized; finally, the mop rod 51 is continuously lifted upwards to lift the cleaning and dewatering structure to the highest point of the second ascending section 113, then the mop rod 51 is slightly rotated, the limiting block 21 enters the highest point of the descending section 114, then the mop rod 51 is forcibly lifted upwards, the end part of the sliding block 56 is separated from the circular ring groove 311, the mop can be separated from the connecting column and taken out from the mop barrel, meanwhile, the limiting block 21 also descends along the descending section 114 and continuously returns to the bottommost point of the first ascending section 111, namely, a cleaning position, at the moment, the jacking rod 6 ascends relative to the base 2 to jack up the dewatering basket 4, and the separation of the clutch structure is realized.

Example two

Referring to fig. 14 to 18, the difference from the first embodiment is that the transposition structure and the clutch structure are provided, where the transposition structure is that a guide cylinder 7 fixed at the bottom of the barrel body 1 is arranged below the base 2, the base 2 is in a cylindrical structure, a limiting block 21 is arranged outside the lower end of the base 2, a rail 11 is arranged on the inner wall surface of the guide cylinder 7, and the rail 11 is also divided into a first ascending section 111, an inclined downward section 112, a second ascending section 113 and a descending section 114, because the guide cylinder 7 is small, the three rails 11 are continuously arranged end to end, but the use mode and process are the same as the transposition structure of the first embodiment, and no further description is given. Wherein the rotation connection mode between base 2 and wash seat 3 is also the same with embodiment one, is fixed with pivot 22 at the tip of base 2 relative wash seat 3, has cup jointed on pivot 22 and has rotated cover 23, rotates cover 23 fixed grafting in the bottom of wash seat 3, realizes the rotation between wash seat 3 and the base 2 and is connected. Wherein the top pressure rod 6 in the separation and reunion structure directly sets up in the bottom of staving 1, and when wasing the dehydration structure and be in when wasing the position, top pressure rod 6 will push up in the bottom of dehydration basket 4 for dehydration basket 4 can receive 6 effects of top pressure rod and take place and wash the relative upward displacement of seat 3, and the separation and reunion structure will be in the off-state this moment, washs seat 3 and dehydration basket 4 and can freely rotate relatively. When the washing and dewatering structure is lifted to the dewatering position, the dewatering basket 4 will be directly separated from the top press rod 6, and the dewatering basket 4 will be displaced downwards relative to the washing base 3, so that the first engagement disc 33 and the second engagement disc 41 are engaged.

The present embodiment is only for explaining the present invention, and it is not limited to the present invention, and those skilled in the art can make modifications to the present embodiment without inventive contribution as required after reading the present specification, but all of them are protected by patent laws within the scope of the claims of the present invention.

Claims (10)

1. A cleaning and dewatering integrated cleaning device comprises a mop barrel with a built-in cleaning and dewatering structure and a flat mop, wherein the flat mop comprises a plate surface capable of fixing a wiping object and a mop rod with a rotary driving structure, the rotary driving structure comprises an external loop bar held by hands and an internal bar which rotates when the loop bar moves up and down, the cleaning and dewatering integrated cleaning device is characterized in that a rotating structure which can rotate relatively or be integrally clamped with the plate surface is arranged between the lower end of the internal bar and the plate surface, a transposition structure which can enable the cleaning and dewatering structure to rise to a dewatering level and fall to a cleaning position is arranged in a barrel body of the mop barrel, the transposition structure comprises a base, a cleaning seat which is provided with bristles and used for scraping the flat mop is rotatably connected to the base, a connecting column which is used for unlocking the clamping relation between the plate surface and the rotating structure and is inserted into the rotating structure is arranged at the top of, after the connecting column is inserted into the rotating structure, the cleaning seat is integrally driven by the inner rod, a second clamping structure is arranged between the connecting column and the rotating structure, and the clamping force of the second clamping structure in the vertical direction is greater than the gravity of the cleaning and dehydrating structure; rotate on rinsing the seat and cup jointed a dehydration basket, and the dehydration basket has relative free slippage with rinsing the seat in vertical direction, it is provided with separation and reunion structure to dewater the basket and rinse between the seat, separation and reunion structure is including acting on the roof pressure pole of dehydration basket bottom, and when rinsing the dehydration structure and being in and rinsing the position, the roof pressure pole top makes the dehydration basket produce the upwards vertical slippage of rinsing the seat relatively in the bottom of dehydration basket, and makes the separation and reunion structure be in the off-state, and when rinsing the dehydration structure and being in the off-water level, the roof pressure to dehydration basket bottom is relieved to the roof pressure of roof pressure pole for the dehydration basket produces the downward vertical slippage and the separation and reunion structure that rinse the seat relatively and be in the engaged.

2. The integrated cleaning device for cleaning and dewatering according to claim 1, wherein a sleeve neck for sleeve connection of the dewatering basket is arranged on the cleaning seat, a first engaging disc is arranged at the lower part of the sleeve neck, a second engaging disc matched with the first engaging disc is arranged below the dewatering basket, when the cleaning and dewatering structure is in the cleaning position, the jacking rod jacks the bottom of the dewatering basket to enable the first engaging disc to be separated from the second engaging disc, and when the cleaning and dewatering structure is in the dewatering position, the jacking rod releases jacking pressure on the bottom of the dewatering basket to enable the dewatering basket to generate downward vertical slippage relative to the cleaning seat and enable the clutch structure to be in an engaged state.

3. The integrated cleaning device for cleaning and dewatering according to claim 1, wherein the indexing structure includes at least two tracks disposed on the inner wall of the barrel body and engaged with the base, each track includes a first ascending section, an inclined lower section, a second ascending section and a descending section connected to the bottom of the first ascending section, the base is provided with support legs extending toward the inner wall of the barrel body, the support legs are respectively provided with a limiting block engaged with the track at the end thereof, when the sliding block is at the bottom of the first ascending section, the cleaning and dewatering structure is in the cleaning position, when the sliding block is at the intersection of the inclined lower section and the second ascending section, the cleaning and dewatering structure is at the dewatering level, the pressing rod is disposed on each support leg, when the base is in the cleaning position, the pressing rod is lifted relative to the base and pressed against the bottom of the dewatering basket, so that the dewatering basket generates an upward vertical slippage relative to the cleaning seat and the clutch structure is disengaged, when the base is in a dewatering level, the jacking rod moves downwards relative to the base and releases jacking on the dewatering basket, so that the dewatering basket generates downward vertical slippage relative to the cleaning seat, and the clutch structure is in a meshed state.

4. The integrated cleaning device for cleaning and dewatering according to claim 1, wherein the transposition structure includes a transposition barrel disposed below the base and fixed at the bottom of the barrel body, the base penetrates into the transposition barrel, and at least two rails cooperating with the base are disposed on an inner wall of the transposition barrel, each of the rails includes a first ascending section, an inclined lower section, a second ascending section, and a descending section connected back to the bottom of the first ascending section, the base is provided with support legs extending toward the inner wall of the barrel body, the ends of the support legs are respectively provided with a stopper cooperating with the rail, when the slider is at the bottom of the first ascending section, the cleaning and dewatering structure is at the cleaning position, when the slider is at the intersection of the inclined lower section and the second ascending section, the cleaning and dewatering structure is at the dewatering level, the pressing rod is fixedly disposed at the bottom of the barrel body, when the base is in the washing position, the jacking rod jacks at the bottom of the dewatering basket, so that the dewatering basket generates upward vertical slippage relative to the washing seat and the clutch structure is disengaged, and when the base is at a dewatering level, the jacking rod releases jacking on the dewatering basket, so that the dewatering basket generates downward vertical slippage relative to the washing seat and the clutch structure is in a meshed state.

5. The integrated cleaning device for cleaning and dewatering of claim 1, wherein the rotating structure comprises a first rotating disc fixed at the bottom of the inner rod and a second rotating disc fixed on the plate surface, the first rotating disc and the second rotating disc are rotatably connected and provided with a first clamping structure capable of limiting the first rotating disc and the second rotating disc to rotate mutually, an inserting cavity matched with the connecting column is arranged at the bottom of the first rotating disc, the cross section of the connecting column is non-circular, and when the connecting column is inserted into the inserting cavity, the first rotating disc and the cleaning seat are linked in a circumferential direction.

6. The integrated washing apparatus for washing and dewatering according to claim 5, wherein the first rotary plate includes a first plate body and a first disk neck provided at a central position of the first plate body, the second rotary plate includes a second plate body and a second disk neck provided at a central position of the second plate body, the first disk neck is provided with the socket cavity and the first disk neck is inserted into the second disk neck, and a bearing is provided between the first plate body and the second plate body.

7. The integrated cleaning device for cleaning and dewatering of claim 6, wherein the first clamping structure includes at least one sliding block disposed on the first disk body along a radial direction of the first disk body, an elastic member is disposed between the sliding block and the first disk body to drive the sliding block to move towards the first disk neck, a recess penetrating through the insertion cavity is disposed on the first disk neck, a clamping groove is disposed on the second disk neck, and a clamping block matched with the clamping groove is disposed on the sliding block.

8. The integrated cleaning device for cleaning and dewatering according to claim 7, wherein the second clamping structure comprises a circular ring groove arranged on the outer cylindrical surface of the connecting column and a sliding block end portion clamped with the circular ring groove in a matched mode, after the connecting column is inserted into the insertion cavity, the sliding block is driven to retract away from the first disc body, the clamping block is enabled to slide out of the clamping groove, and meanwhile the end portion of the sliding block is clamped into the circular ring groove.

9. The integrated cleaning device for washing and dewatering according to claim 8, wherein the lower side surface of the end of the slide block entering the abdicating groove is provided with an inclined surface, and the end of the connecting column is spherical.

10. The integrated cleaning device for cleaning and dewatering according to claim 1, wherein a fixed rotating shaft is arranged at the center of the base, a rotating sleeve is sleeved on the rotating shaft, and the rotating sleeve is inserted into the bottom of the cleaning seat and fixed.

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