CN210541399U - Cleaning tool - Google Patents

Abstract

A cleaning tool comprises a mop and a water storage barrel, wherein the mop comprises a mop rod, an extrusion device and a collodion head component for cleaning, and the extrusion device can extrude the collodion head component which moves relative to the extrusion device; the water storage barrel is internally provided with a supporting part which is used for supporting the collodion cotton head component and comprises a high-position dehydration area and a low-position cleaning area; a pulling device is arranged between the mop and the supporting part, and the mop can drive the supporting part to move relative to the water storage barrel through the pulling device; the pulling device comprises a triggering mechanism, and a contact part is arranged in the water storage barrel; the mop moves upwards to separate from the water storage bucket: the touch mechanism can touch the touch part to make the mop separated from the driving of the supporting part, so that the mop can be separated from the water storage barrel. The utility model has small volume of the water storage barrel, thereby reducing the manufacturing cost and the transportation cost of the product; the pulling device comprises a trigger mechanism, and the structure enables the product operation to be simple and the working efficiency to be high.

Description

Cleaning tool

The technical field is as follows:

the utility model relates to a cleaning tool.

Background art:

at present, the collodion mops on the market are various, for example, the collodion mop comprises a mop rod, an extruding device and a collodion head component for cleaning, the collodion head component is connected to the mop rod through the extruding device or the collodion head component and the extruding device are respectively connected to the mop rod, the collodion head component can move relative to the extruding device, and the extruding device can extrude the collodion head component moving relative to the extruding device; the water storage barrel is internally provided with a supporting part which is used for supporting the collodion cotton head component; the water storage bucket includes independent dewatering area and independent washing district, the glued membrane head subassembly of mop stretches into when the dewatering area is supported, grip and promote the mop pole and push down, the mop pole that pushes down drives the relative glued membrane head subassembly that is supported of extrusion device and moves to extrusion device can form the extrusion dehydration at the dewatering area to the glued membrane head subassembly, the glued membrane head subassembly of mop stretches into can realize wasing when wasing the district. However, the volume of the water storage barrel is larger 1, so that the manufacturing cost of the product is influenced, and the transportation cost is increased; 2. the large-size water storage barrel enables an operator to easily fatigue in the moving and cleaning process, so that the working efficiency is influenced.

The utility model has the following contents:

the utility model discloses an aim at: a cleaning tool is provided that solves the above problems.

In order to realize the purpose of the utility model, the utility model is realized by the following technical scheme: a cleaning tool comprises a mop and a water storage barrel, wherein the mop comprises a mop rod, an extrusion device and a collodion head component for cleaning, the collodion head component is connected to the mop rod through the extrusion device or the collodion head component and the extrusion device are respectively connected to the mop rod, the collodion head component can move relative to the extrusion device, and the extrusion device can extrude the collodion head component moving relative to the extrusion device; the water storage barrel is internally provided with a supporting part which is used for supporting the collodion cotton head component; when the collodion cotton head component of the mop extends into the water storage barrel and is supported by the supporting part, the mop rod is held and pushed to press downwards, and the pressed mop rod drives the extrusion device to move relative to the supported collodion cotton head component, so that the extrusion device can extrude the collodion cotton head component; the method is characterized in that: the water storage barrel comprises a high-position dehydration area and a low-position cleaning area, and the supporting part can move between the high-position dehydration area and the low-position cleaning area of the water storage barrel; a pulling device is arranged between the mop and the supporting part, and the mop can drive the supporting part to move relative to the water storage barrel through the pulling device; the pulling device comprises a triggering mechanism, and a contact part is arranged in the water storage barrel; the mop moves upwards to separate from the water storage bucket: the touch mechanism can touch the touch part to make the mop separated from the driving of the supporting part, so that the mop can be separated from the water storage barrel.

The utility model has the advantages that: because the water storage barrel of the utility model comprises the high-position dehydration area and the low-position cleaning area, the volume of the water storage barrel of the upper and lower working areas is smaller, thereby the manufacturing cost of the product is lower, and the transportation cost of the product with small volume is lower; 2. the supporting part can move relative to the water storage barrel, and the movable supporting part can be supported in the high-position dehydration area or the low-position cleaning area, so that one supporting part can be used in the high-position dehydration area and the low-position cleaning area; 3. the mop can drive the supporting part to move up and down relative to the water storage barrel through the pulling device, the pulling device comprises a touch mechanism, and the mop moves up to separate from the water storage barrel in the process that: the touch mechanism can touch the touch part to enable the mop to be separated from the driving of the supporting part, so that the mop can be separated from the water storage barrel; the structure makes the product operation simple and the working efficiency high.

The utility model discloses in, the pulling device includes that the supporting part is equipped with the bayonet socket that supplies the mop card to go into, the mop can drive the relative water storage bucket of supporting part and remove through the connection of bayonet socket. The pulling device can realize the purpose that the mop drives the supporting part to move relative to the water storage barrel.

In the utility model, the touch mechanism comprises at least two locking blocks, a bayonet is formed between the locking blocks, the locking blocks are arranged on the supporting part, the locking blocks can move relative to the supporting part, and the size of the bayonet can be adjusted by the movement of the locking blocks relative to the supporting part; the mop moves upwards to separate from the water storage bucket: the locking block can touch the abutting part to move so as to enlarge the bayonet, so that the mop can be separated from the bayonet and the water storage barrel. A spring is arranged between the locking block and the supporting part and used for resetting the locking block after moving, the locking block after resetting enables the bayonet to be clamped with the mop, and the spring enables the bayonet formed by the locking block to have elasticity. The bayonet can be enlarged and has elasticity.

In the utility model, the locking block is rotatably arranged on the supporting part, the size of the bayonet can be adjusted by the rotation of the locking block relative to the supporting part, and the locking blocks are mutually close to each other through the elasticity of the spring to form the bayonet which can be clamped with the mop; a gear is arranged in the supporting part or between the locking blocks and is used for limiting the locking blocks to rotate to be close to each other; the mop moves upwards to separate from the water storage bucket: the locking piece can touch the abutting part to enable the locking piece to rotate away from each other, so that the bayonet is enlarged. The structure can realize the purpose that the bayonet is enlarged by the movement of the locking block relative to the supporting part.

In the utility model, the support part is provided with an inclined rail which inclines towards the direction that the bayonet is enlarged, and the lock block is arranged on the inclined rail and can slide along the inclined rail; the mop moves upwards to separate from the water storage bucket: the locking piece can touch the abutting part to enable the locking piece to slide along the inclined rail, so that the bayonet is enlarged. The structure can also realize the purpose that the bayonet is enlarged by the movement of the locking block relative to the supporting part.

In the utility model, the contact part is a cover arranged on the upper part of the water storage barrel, and the cover is arranged on the water storage barrel; when the mop moves upwards to separate from the water storage bucket: the cover can abut against the locking block to enable the locking block to move relative to the supporting part. A slotted hole for the collodion cotton head component of the mop to pass through is arranged in the cover; the cover can be detached relative to the water storage barrel. The structure is convenient for the disassembly and cleaning of the product and the replacement of the quick-wear part.

The utility model discloses in, movable mounting has the actuating arm in being equipped with actuating arm or the supporting part on the locking piece, the actuating arm be used for with conflict portion touch make the relative supporting part of locking piece remove. Further optimizing the product.

In the utility model, the bayonet is opened upwards, and the mop can be connected with the bayonet through the collodion cotton head component. Further optimizing the product.

In the utility model, the water storage barrel is provided with the supporting seat, and the supporting part can be supported by the supporting seat when moving upwards to a high-position dehydration zone relative to the water storage barrel, so that the mop can be extruded and dehydrated after being supported by the dehydration zone; when the supporting part is withdrawn from the supporting seat and supported by the supporting seat, the supporting part can move downwards relative to the water storage barrel to the low-position cleaning area, so that the mop can be cleaned in the cleaning area. The water storage barrel with the structure has small volume, so that the product manufacturing cost is low, and the transportation cost of the product with small volume is low; when the supporting part moves downwards to a low position, the mop can be placed in the water storage bucket to prevent bacteria breeding caused by messy placement of the mop.

In the utility model, a guiding device is arranged between the water storage barrel and the supporting part, and the guiding device is used for guiding the supporting part when the supporting part moves up and down relative to the water storage barrel; when the mop drives the supporting part to move upwards relative to the water storage barrel to a high-position dehydration area, the guiding device can guide the supporting part to be supported by the supporting seat, when the supporting part continues to guide upwards relative to the water storage barrel, the supporting part withdraws from the support of the supporting seat and the pulling device can be in contact with the touch mechanism to enable the mop to be separated from the driving of the supporting part, so that the mop can be separated from the water storage barrel, and the supporting part withdrawed from the supporting seat can move downwards relative to the water storage barrel to a. The guiding device enables the product to be more convenient and faster to operate and use.

In the utility model, the guiding device comprises a guide rail arranged in the water storage barrel, a guide pillar is arranged in the supporting part, and the guide pillar can slide in the guide rail in an up-and-down guiding way, so that the supporting part can move up and down in a guiding way relative to the water storage barrel; the supporting part can be supported by the guide pillar and the supporting seat. The structure can realize the purpose that the supporting part moves relative to the water storage barrel in a guiding way.

In the utility model, the water storage barrel is also connected with a handle.

Description of the drawings:

fig. 1 is an exploded view of the structure of the components of the present invention.

Fig. 2 is a schematic sectional view of the structure of the support part of the present invention when the high-position dewatering area is supported.

Fig. 3 is a schematic sectional view of the structure of the support part in the low-position cleaning zone.

FIG. 4 is an enlarged view of FIG. A of the present invention.

FIG. 5 is a schematic sectional view showing the structure of the mop of the present invention in squeezing and dewatering in the dewatering area of the water storage tub.

Fig. 6 is a schematic view of the pulling device between the mop and the supporting portion of the present invention.

Fig. 7 is a schematic sectional view and an exploded view of an embodiment 1 of the touch mechanism of the present invention.

Fig. 8 is a schematic sectional view of the embodiment 1 of the triggering mechanism of the present invention.

Fig. 9 is an exploded view of the stop device of the present invention.

Fig. 10 is a schematic view of a guide surface in the guide rail of the present invention.

The specific implementation mode is as follows: the present invention will be further explained below by way of examples with reference to the accompanying drawings.

Referring to fig. 1 to fig. 10: the utility model relates to a cleaning tool, which comprises a mop and a water storage barrel 2, wherein the mop comprises a mop rod 1, an extrusion device 3 and a collodion cotton head component 4 for cleaning, the collodion cotton head component 4 is connected with the mop rod 1 through the extrusion device 3 or the collodion cotton head component and the extrusion device are respectively connected with the mop rod, the collodion cotton head component 4 can move relative to the extrusion device 3, and the extrusion device 3 can extrude the collodion cotton head component 4 which moves relative to the extrusion device; the water storage barrel 2 is internally provided with a supporting part 5, and the supporting part 5 is used for supporting the collodion cotton head component 4; when the collodion cotton head component 4 of the mop extends into the water storage barrel 2 and is supported by the supporting part 5, the mop rod 1 is held and pushed to press downwards, the pressed mop rod 1 drives the extrusion device 3 to move relative to the supported collodion cotton head component 4, so that the extrusion device 3 can extrude the collodion cotton head component 4; the method is characterized in that: the water storage barrel 2 comprises a high-position dehydration area and a low-position cleaning area, and the supporting part 5 can move between the high-position dehydration area and the low-position cleaning area of the water storage barrel 2; a pulling device is arranged between the mop and the supporting part 5, and the mop can drive the supporting part 5 to move relative to the water storage barrel 2 through the pulling device; the pulling device comprises a triggering mechanism, and a contact part is arranged in the water storage barrel 2; when the mop moves upwards to separate from the water storage barrel 2: the touch mechanism can touch the touch part to make the mop separated from the driving of the supporting part 5, so that the mop can be separated from the water storage barrel 2.

In the embodiment, the collodion head component 4 comprises a collodion head 14 and a cover plate arranged on the collodion head, the cover plate is connected with the collodion head 14, the cover plate at least comprises two side plates 17, a middle cover plate 15 is hinged between the two side plates through a pin shaft or arranged between the two side plates, two sides of the middle cover plate are respectively hinged with the side plates 17, and the collodion head 14 can be folded along with the cover plate; the collodion cotton head component 4 is supported by the pin shaft or the middle cover plate 15 or the pin shaft and the collodion cotton head 14 arranged below the pin shaft or the middle cover plate 15 and the collodion cotton head 14 arranged below the middle cover plate 15 in a matching way with the supporting part 5, so that the collodion cotton head component 4 can be supported and the mop rod 1 can be held to press down to squeeze and dewater the collodion cotton head. The connection mode of the cover plate and the collodion cotton head is various, as example 1: patent numbers: CN201520286894.5, the upper end face of the collodion head is fixedly bonded with an adhesive plate, the adhesive plate is provided with a lock head, the connecting plate is provided with a lock hole correspondingly matched with the lock head, the adhesive plate is connected with the connecting plate through the matching of the lock head and the lock hole, and the connecting mode of the collodion head and the connecting plate is the same as that of the collodion head and the cover plate; as in example 2: patent numbers: CN 201621389590.2A clamping device for replacing collodion mop heads; as in example 3: the upper end face of the collodion cotton head is fixedly bonded with the adhesive plate, elastic clamping hooks are arranged on the periphery of the adhesive plate, clamping hook positions connected with the clamping hooks in a matched mode are arranged on the cover plate, and the collodion cotton head can be connected with the cover plate in a buckled mode through the clamping hooks arranged on the adhesive plate.

In the embodiment, the extrusion device 3 is a folding type extrusion device, the extrusion device comprises an extrusion frame 19, one end of the extrusion frame is connected with the mop rod 1, the other end of the extrusion frame 19 is provided with an extrusion opening 25, the collodion head component can be folded and moved, and the extrusion opening 25 is used for extruding the collodion head component 4 during folding and moving; there are many examples of the collodion head component 4 movably connected to the mop rod 1 or the collodion head component 4 movably connected to the extrusion frame 19, such as example 1: connecting arms 16 are respectively arranged between two sides of the extrusion opening of the extrusion frame 19 and the two side plates 17, and two ends of each connecting arm 16 are respectively hinged with the extrusion frame 19 and the side plates 17, so that the collodion cotton head component 4 does not separate from the mop rod 1 relative to the folding movement of the extrusion opening 25. As in example 2: connecting arms 16 are respectively arranged between two sides of an extrusion opening of the extrusion frame 19 and the two side plates 17, one end of each connecting arm 16 is hinged with the extrusion frame 19, the other end of each connecting arm 16 is connected with the corresponding side plate 17 through a movable mechanism, and the movable mechanism is used for enabling the corresponding side plate 17 to move relative to the corresponding connecting arm 16. The movable mechanism comprises a track which is arranged in the side plate 17 and is arranged along the length direction of the collodion cotton head, one end of the connecting arm is arranged on the track, and the connecting arm 16 can move relative to the side plate 17 through the track, so that the collodion cotton head component 4 can be folded relative to the extrusion port without departing from the mop rod 1. As in example 3: the middle cover plate 15 is provided with a connecting rod, the collodion cotton head component 4 is sleeved on the mop rod 1 through the connecting rod, the middle cover plate 15 can move relative to the mop rod 1, and therefore the collodion cotton head component 4 does not separate from the mop rod relative to the folding movement of the extrusion port. A balance bar 26 can be arranged between the middle cover plate 15 and the mop rod 1 or between the middle cover plate and the extrusion frame, and the balance bar is used for balance guiding when the collodion cotton head component 4 is folded relative to the extrusion frame 19. For example: application (patent) No.: 201810883122.8 can also accomplish the above-mentioned purpose of folding squeezing.

In the embodiment, the pulling device comprises a bayonet 5-3 arranged on the supporting part 5 for the mop to be clamped, and the mop can drive the supporting part 5 to move relative to the water storage barrel 2 through the connection of the bayonet 5-3.

In the embodiment, the triggering mechanism comprises at least two locking blocks 8, bayonets 5-3 are formed between the locking blocks, the locking blocks are arranged on the supporting part 5 and can move relative to the supporting part 5, and the size of the bayonets 5-3 can be adjusted by the movement of the locking blocks relative to the supporting part; when the mop moves upwards to separate from the water storage barrel 2: the locking block 8 can touch the abutting part to move to enlarge the bayonet 5-3, so that the mop can be separated from the bayonet 5-3 and the water storage barrel 2.

In the embodiment, a spring 9 is arranged between the locking block 8 and the supporting part 5, the spring 9 is used for resetting the moved locking block 8, the reset locking block 8 enables the bayonet 5-3 to be clamped with the mop, and the spring 9 enables the bayonet 5-3 formed by the locking block to have elasticity. The mop can be pressed and clamped by the elastic bayonet 5-3 after being abutted by the collodion cotton head component 4.

In the embodiment, the locking block 8 is rotatably arranged on the supporting part 5, the size of the bayonet can be adjusted by the rotation of the locking block relative to the supporting part, and the locking blocks 8 approach each other through the elasticity of the spring 9 to form the bayonet 5-3 which can be clamped with the mop; a gear 27 is arranged in the supporting part 5 or between the locking blocks and is used for limiting the locking blocks 8 to rotate to be close to each other; the mop moves upwards to separate from the water storage bucket: the locking block 8 can touch the abutting part to enable the locking block 8 to rotate away from each other, so that the bayonet 5-3 is enlarged.

In the embodiment, the interference part is a cover 10 arranged on the upper part of the water storage barrel 2, and the cover is arranged on the water storage barrel 2; when the mop moves upwards to be separated from the water storage barrel 2: the cover 10 may abut against the locking piece 8 to move it relative to the support 5.

In the embodiment, the cover 10 is provided with a slot hole for the collodion head component 4 of the mop to pass through; the cover 10 is detachable with respect to the water storage tub 2.

In the embodiment, the lock block 8 is provided with a driving arm 12 or the driving arm is movably mounted in the supporting portion, and the driving arm 12 is used for making the lock block 8 move relative to the supporting portion 5 by the contact of the driving arm 12 and the contact portion.

In the embodiment, the bayonet 5-3 is opened upwards, and the mop can be clamped with the bayonet 5-3 through the collodion head component 4.

In the embodiment, the supporting seat 6 is disposed in the water storage barrel 2, the supporting portion 5 can be supported by the supporting seat 6 when moving upward to the upper position of the water storage barrel 2 relative to the water storage barrel so that the mop can be squeezed and dehydrated after being supported by the dehydrating region, and the supporting portion 5 can move downward to the lower position of the cleaning region relative to the water storage barrel 2 when exiting from the supporting seat 6 so that the mop can be cleaned by the cleaning region.

In the embodiment, a guiding device is arranged between the water storage barrel 2 and the supporting part 5, and the guiding device is used for guiding the supporting part 5 when the supporting part 5 moves up and down relative to the water storage barrel 2; when the mop drives the supporting part 5 to move upwards relative to the water storage barrel 2 to a high-position dewatering area, the guiding device can guide the supporting part 5 to be supported by the supporting seat 6, when the supporting part 5 continues to guide upwards relative to the water storage barrel 2, the supporting part 5 is withdrawn from the supporting seat 6, the pulling device can be touched with the touch mechanism to enable the mop to be separated from the driving of the supporting part 5, so that the mop can be separated from the water storage barrel 2, and the supporting part 5 can move downwards relative to the water storage barrel 2 to a low-position cleaning area.

In the embodiment, the guiding device comprises a guide rail 2-1 arranged in the water storage barrel 2, a guide post 5-1 arranged in the supporting part 5, wherein the guide post 5-1 can slide in the guide rail 2-1 in an up-and-down guiding manner so that the supporting part 5 can move up and down in a guiding manner relative to the water storage barrel 2; the supporting part 5 can be supported by the guide post 5-1 and the supporting seat 6. The guide rail 2-1 is provided with a plurality of guide surfaces 20, the guide post 5-1 can be supported by the supporting seat 6 through the guide of the guide surfaces 20 when sliding in the guide rail 2-1, and the guide post can be withdrawn from the supporting seat through the guide of the guide surfaces. The structure of the above-mentioned guiding device is many, and the cooperation of guide pillar and guide rail is only one of them, for example the guide pillar is located in the water storage bucket, and the guide rail is located in the support portion and also can realize.

The working process of the embodiment is as follows: during the operation the mop can drive supporting part 5 through the pulling device and remove in water storage bucket 2, the mop shifts up and breaks away from 2 in-process in the water storage bucket: the trigger mechanism can touch the touch part to enable the locking block 8 to move relative to the support part 5, and the movement of the locking block 8 can enable the bayonet to be enlarged, so that the mop can be separated from the bayonet 5-3 of the support part 5 and the water storage barrel 2; when the support part 5 moves upwards to a high-position dehydration area relative to the water storage barrel 2 under the driving of the mop, the guide device can guide the support part 5 to be supported by the support seat 6, so that the collodion cotton head component 4 can be supported by the support part 5 in the dehydration area, the mop rod 1 is held and pushed to press downwards, the pressed mop rod drives the extrusion device 3 to move relative to the supported collodion cotton head component 4, and the extrusion device 3 can extrude and dehydrate the collodion cotton head component 4 in the dehydration area; when cleaning, the supporting part 5 driven by the mop can move downwards to the low-position cleaning area relative to the water storage barrel 2 after the supporting part 5 exits from the supporting seat 6 under the guiding of the guiding device, so that the collodion cotton head component 4 can be cleaned in the cleaning area.

Because the water storage barrel of the utility model comprises the high-position dehydration area and the low-position cleaning area, the volume of the water storage barrel of the upper and lower working areas is smaller, thereby the manufacturing cost of the product is lower, and the transportation cost of the product with small volume is lower; 2. the supporting part can move relative to the water storage barrel, and the movable supporting part can be supported in the high-position dehydration area or the low-position cleaning area, so that one supporting part can be used in the high-position dehydration area and the low-position cleaning area; 3. the mop can drive the supporting part to move up and down relative to the water storage barrel through the pulling device, the pulling device comprises a touch mechanism, and the mop moves up to separate from the water storage barrel in the process that: the touch mechanism can touch the touch part to enable the mop to be separated from the driving of the supporting part, so that the mop can be separated from the water storage barrel; the structure makes the product operation simple and the working efficiency high.

The utility model provides another structure that the locking block can move relative to the supporting part; the support part is provided with an inclined rail which inclines towards the direction that the bayonet becomes larger, and the locking block is arranged on the inclined rail and can slide along the inclined rail; the mop moves upwards to separate from the water storage bucket: the locking piece can touch the abutting part to enable the locking piece to slide along the inclined rail, so that the bayonet is enlarged.

The utility model provides another collodion mop of an extrusion device; for example: application/patent No.: 201810883122.8 which also achieves the object of squeezing the collodion head assembly against which the squeezing device is movable.

The above embodiments are only examples of the present invention, and any replacement or combination between the embodiments according to the spirit of the present invention should not be construed as departing from the scope of the present invention.

Claims (13)

1. A cleaning tool comprises a mop and a water storage barrel (2), wherein the mop comprises a mop rod (1), an extrusion device (3) and a collodion head component (4) for cleaning, the collodion head component (4) is connected to the mop rod (1) through the extrusion device (3) or the collodion head component and the extrusion device are respectively connected to the mop rod, the collodion head component (4) can move relative to the extrusion device (3), and the extrusion device (3) can extrude the collodion head component (4) moving relative to the extrusion device; a supporting part (5) is arranged in the water storage barrel (2), and the supporting part (5) is used for supporting the collodion cotton head component (4); when the collodion cotton head component (4) of the mop extends into the water storage barrel (2) and is supported by the supporting part (5), the mop rod (1) is held and pushed to press downwards, the pressed mop rod (1) drives the extrusion device (3) to move relative to the supported collodion cotton head component (4), and therefore the extrusion device (3) can extrude the collodion cotton head component (4); the method is characterized in that: the water storage barrel (2) comprises a high-position dehydration area and a low-position cleaning area, and the supporting part (5) can move between the high-position dehydration area and the low-position cleaning area of the water storage barrel (2); a pulling device is arranged between the mop and the supporting part (5), and the mop can drive the supporting part (5) to move relative to the water storage barrel (2) through the pulling device; the pulling device comprises a triggering mechanism, and a contact part is arranged in the water storage barrel (2); the mop moves upwards to separate from the water storage barrel (2): the touch mechanism can touch the touch part to enable the mop to be separated from the driving of the supporting part (5), so that the mop can be separated from the water storage barrel (2).

2. A cleaning implement according to claim 1, wherein: the pulling device comprises a support part (5) provided with a bayonet (5-3) for clamping the mop, and the mop can drive the support part (5) to move relative to the water storage barrel (2) through the connection of the bayonet (5-3).

3. A cleaning implement according to claim 1 or 2, wherein: the trigger mechanism comprises at least two locking blocks (8), bayonets (5-3) are formed between the locking blocks, the locking blocks are arranged on the supporting part (5), the locking blocks can move relative to the supporting part (5), and the size of the bayonets (5-3) can be adjusted by the movement of the locking blocks relative to the supporting part; the mop moves upwards to separate from the water storage barrel (2): the locking block (8) can touch the abutting part to move to enlarge the bayonet (5-3), so that the mop can be separated from the bayonet (5-3) and the water storage barrel (2).

4. A cleaning implement according to claim 3, wherein: a spring (9) is arranged between the locking block (8) and the supporting part (5), the spring (9) is used for enabling the locking block (8) after moving to reset, the locking block (8) after resetting enables the bayonet (5-3) to be clamped with the mop, and the bayonet (5-3) formed by the locking block is made to be elastic by the spring (9).

5. A cleaning implement according to claim 4, wherein: the locking blocks (8) are rotatably arranged on the supporting part (5), the size of the bayonet can be adjusted by the rotation of the locking blocks relative to the supporting part, and the locking blocks (8) are mutually close to each other through the elasticity of the spring (9) to form the bayonet (5-3) which can be clamped with the mop; a gear (27) is arranged in the supporting part (5) or between the locking blocks and is used for limiting the locking blocks (8) to rotate to be close to each other; the mop moves upwards to separate from the water storage bucket: the locking block (8) can be contacted with the abutting part to enable the locking block (8) to rotate away from each other, so that the bayonet (5-3) is enlarged.

6. A cleaning implement according to claim 3, wherein: the support part is provided with an inclined rail which inclines towards the direction that the bayonet becomes larger, and the locking block is arranged on the inclined rail and can slide along the inclined rail; the mop moves upwards to separate from the water storage bucket: the locking piece can touch the abutting part to enable the locking piece to slide along the inclined rail, so that the bayonet is enlarged.

7. A cleaning implement according to claim 1, wherein: the interference part is a cover (10) arranged on the upper part of the water storage barrel (2), and the cover is arranged on the water storage barrel (2); when the mop moves upwards to separate from the water storage barrel (2): the cover (10) can abut against the locking block (8) to enable the locking block to move relative to the supporting part (5).

8. A cleaning implement according to claim 7 wherein: a slotted hole for the collodion cotton head component (4) of the mop to pass through is arranged in the cover (10); the cover (10) can be detached relative to the water storage barrel (2).

9. A cleaning implement according to claim 3, wherein: the locking block (8) is provided with a driving arm (12) or a supporting part, the driving arm is movably arranged in the supporting part, and the driving arm (12) is used for making the locking block (8) move relative to the supporting part (5) by touching with the abutting part.

10. A cleaning implement according to claim 3, wherein: the bayonet (5-3) is opened upwards, and the mop can be clamped with the bayonet (5-3) through the collodion cotton head component (4).

11. A cleaning implement according to claim 1, wherein: be equipped with supporting seat (6) in water storage bucket (2), thereby supporting part (5) relatively water storage bucket (2) move up to the extrusion dehydration after the high-order dehydration district can be implemented to the mop by supporting seat (6) support when moving up to the high-order dehydration district, thereby supporting part (5) withdraw from and can move down to the low level washing district so that the mop can implement when the support with supporting seat (6) washs in the washing district relatively water storage bucket (2).

12. A cleaning implement according to claim 11, wherein: a guide device is arranged between the water storage barrel (2) and the supporting part (5), and the guide device is used for guiding the supporting part (5) when the supporting part (5) moves up and down relative to the water storage barrel (2); when the mop drives the supporting part (5) to move upwards to a high-position dehydration area relative to the water storage barrel (2), the guiding device can guide the supporting part (5) to be supported by the supporting seat (6), and when the supporting part (5) continues to guide upwards relative to the water storage barrel (2), the supporting part (5) is withdrawn from the supporting seat (6) to support the supporting seat (6), the pulling device can be touched with the touch mechanism to enable the mop to be separated from the driving of the supporting part (5), so that the mop can be separated from the water storage barrel (2), and the supporting part (5) can move downwards to a low-position cleaning area relative to the water storage barrel.

13. A cleaning implement according to claim 12, wherein: the guide device comprises a guide rail (2-1) arranged in the water storage barrel (2), a guide pillar (5-1) arranged in the supporting part (5), and the guide pillar (5-1) can slide in the guide rail (2-1) in an up-and-down guide manner, so that the supporting part (5) can move up and down in a guide manner relative to the water storage barrel (2); the supporting part (5) can be supported by the guide post (5-1) and the supporting seat (6).

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