CN211704498U - Multifunctional cleaning tool - Google Patents

Abstract

The utility model provides a multifunctional cleaning tool, which comprises a mop and a mop bucket, wherein the mop comprises a mop rod and a mop panel movably connected to the lower end of the mop rod, the mop panel is provided with a cleaning object for cleaning, the mop bucket is provided with an integrated port and a water squeezing port, an integrated zone and a water squeezing zone suitable for water squeezing of the mop are formed corresponding to the integrated port and the water squeezing port, the integrated port is provided with a first squeezing mechanism facing one side of the cleaning object, and a first abutting mechanism is arranged opposite to one side of the cleaning object; the wringing port is provided with a second squeezing mechanism which can squeeze water for the wiping object on one side of the wiping object, the bottom of the wringing area is provided with a water retaining structure, the utility model discloses can arrange various mops for use, a bucket is multi-purpose, and is multi-functional to be used, realizes two effects of cleaning and wringing.

Description

Multifunctional cleaning tool

Technical Field

The utility model belongs to daily cleaning products field relates to a multi-functional burnisher.

Background

The hand-free mop has the advantages that the use is flexible, the hands of a user do not contact with a wiping object when the mop is cleaned, the hand-free mop is deeply loved by consumers, most of the hand-free mops on the market are provided with handles and water squeezing frames, the mop head is moved and deformed in the water squeezing frames through the handles on the mop pulling rod to realize cleaning and water squeezing, the mop is heavy, the cleaning in a toilet is needed, and sewage can drip on the ground to cause secondary pollution when the user goes to the toilet.

In order to clean the mop conveniently, a mop barrel matched with the mop for use is available on the market, a cleaning barrel and a water squeezing barrel are arranged on the mop barrel, a cleaning/water squeezing device is arranged at a barrel opening, the mop is cleaned in the cleaning barrel, water is squeezed in the water squeezing barrel, the water squeezing device is not arranged on the mop, and the mop is lighter. However, the mop bucket has the following problems: 1. one mop bucket can only be used with one mop; 2. it needs to move up and down for a plurality of times of squeezing to squeeze the water of the wiping object.

SUMMERY OF THE UTILITY MODEL

It is an object of the present invention to provide a multi-functional cleaning implement that solves the above problems.

In order to achieve the above object, the present invention provides a method for manufacturing a semiconductor device, comprising:

a multifunctional cleaning tool comprises a mop and a mop barrel, wherein the mop comprises a mop rod and a mop panel movably connected to the lower end of the mop rod, a cleaning object is arranged on the mop panel, an integrated opening and a water squeezing opening are formed in a mop barrel opening part or a barrel cover connected with the mop barrel, the mop panel can rotate to penetrate the mop rod in a parallel state, an integrated area suitable for cleaning and squeezing the mop and a water squeezing area suitable for squeezing the mop are formed in the mop barrel corresponding to the integrated opening and the water squeezing opening, a first squeezing mechanism is arranged on one side of the integrated opening facing the cleaning object, a first abutting mechanism is arranged on one side of the integrated opening facing away from the cleaning object, water is filled in the integrated area, when the cleaning object extends into the integrated area, the cleaning object is suitable for cleaning, when the cleaning object is pulled out from the integrated opening from bottom to top, the wipe can be squeezed and dehydrated at one time under the action of the first squeezing mechanism and the first abutting mechanism; the mop is characterized in that a second squeezing mechanism capable of squeezing water from the wiping object is arranged on one side, facing the wiping object, of the water squeezing opening, the mop can squeeze water up and down in the water squeezing opening in a reciprocating mode, and a water retaining structure is arranged at the bottom of the water squeezing area.

Preferably, the mop at least comprises a mop cloth and a collodion mop, when the mop is the collodion mop, as the collodion mop has slightly larger thickness and relatively tighter compactness compared with a common mop, under the squeezing action of the first squeezing mechanism, when the collodion mop is pulled out from the integral opening from bottom to top, one-time squeezing dehydration can be basically completed, and the mop can be cleaned and pulled out in the integral opening; when the mop is a common flat mop, the mop cloth is thin, so that the mop can be smoothly inserted into the integral opening for cleaning without obstacle, and the mop can be repeatedly scraped at the water squeezing opening for multiple times, so that one barrel is multipurpose.

Preferably, the water retaining structure is suitable for preventing the wiping object from being wetted by water flowing back from the water squeezing opening, a small part of sewage can be retained at the bottom of the water squeezing area after the mop panel is squeezed in the water squeezing area, and the water retaining structure can prevent the mop panel from contacting with the sewage, so that the water squeezing effect is improved.

Preferably, the water retaining structure is a raised boss extending from the bottom of the barrel.

Preferably, the water retaining structure is an enclosure frame extending from the bottom of the bucket.

Preferably, the water retaining structure is a support pile extending from the bottom of the bucket.

Preferably, the water blocking structure is a limiting rib extending from the barrel wall.

Preferably, the water retaining structure is water absorbent cotton arranged at the bottom of the barrel.

Preferably, at least part of the first abutting mechanism is positioned in the body opening, and when the mop panel passes through the body opening downwards, the first abutting mechanism rotates downwards to increase the size of the body opening; when the mop panel upwards passes through the integrated opening, the first abutting mechanism upwards rotates until the width of the integrated opening is minimum and is fixed, the first abutting mechanism can change the width of the cleaning opening, the mop panel can conveniently pass through the first abutting mechanism, and the first abutting mechanism is located at the position where the width of the cleaning opening is minimum when the mop panel upwards moves, so that the mop panel starts to squeeze water.

Preferably, the first abutting mechanism comprises a squeezing section, the contact surface of the squeezing section and the mop panel is an arc surface, or the squeezing section is a roller, and in a natural state, the distance from the guide section to the mop panel is greater than the distance from the squeezing section to the mop panel; the guide section is located extrusion section below, and with the extrusion section is the acute angle and links to each other, the length of guide section is greater than extrusion section, cambered surface or gyro wheel design reduce the resistance of extrusion section and mop panel, use more laborsavingly, and the guide section has the effect that the transition was supported and was guided when mop panel rebound, avoids the mop panel to shift up the time card pause.

Preferably, the first abutting mechanism further comprises a first elastic member, the first elastic member has an elastic force for keeping the first abutting block biased upwards, and the first elastic member can enable the first abutting block to reset after rotating.

Preferably, the first squeezing mechanism comprises a frame body, a squeezing roller and at least one pre-squeezing roller, the squeezing roller is movably connected to the frame body, the pre-squeezing roller is arranged below the squeezing roller, the distance from the pre-squeezing roller to the first abutting mechanism is larger than that from the squeezing roller to the first abutting mechanism, the pre-squeezing roller is suitable for guiding the mop panel to stretch into the mop panel from bottom to top, the pre-squeezing roller pre-squeezes and guides the wiping object when the mop panel moves upwards, the squeezing roller and the pre-squeezing roller can squeeze the wiping object simultaneously, and the squeezing effect is better.

Preferably, the second squeezing mechanism comprises a water squeezing device and a water diversion channel, the water squeezing device is a squeezing strip, a squeezing sheet or a rotatable squeezing roller, the squeezing strip, the squeezing sheet or the squeezing roller is fixedly arranged in the water squeezing opening, part of the squeezing strip, the squeezing sheet or the squeezing roller is positioned between the water squeezing area and the cleaning area, and the water diversion channel is suitable for guiding water squeezed by the water squeezing device into the integrated area.

Preferably, a second abutting mechanism is arranged on one side of the water squeezing opening, which is opposite to the wiper, and the second abutting mechanism is rotatably connected with the mop bucket opening part or the mop bucket cover, the size of the water squeezing opening is adjustable under the rotation of the second abutting mechanism, the second abutting mechanism is at least partially positioned in the water squeezing opening, and when the mop panel upwards passes through the water squeezing opening, the second abutting mechanism upwards rotates to increase the size of the water squeezing opening; when the mop panel downwards passes through the water squeezing opening, the second abutting mechanism downwards rotates until the width of the water squeezing opening is minimum and is fixed, and the second abutting mechanism enables the mop panel to be switched between downwards moving the water squeezing opening and upwards moving the water squeezing opening through changing the width of the water squeezing opening.

Preferably, the second abutting mechanism comprises a second abutting block and a second elastic piece for keeping the second abutting block biased downwards, and the contact surface of the second abutting block and the mop panel is an arc surface, or the second abutting block is a roller.

The beneficial effects of the utility model include: the collodion mop can be cleaned and squeezed in the integrated area, the mop can be cleaned in the integrated area, and the water is squeezed in the squeezing area, so that the cleaning and squeezing effects of at least two kinds of mops are met, and one barrel is multipurpose; when the collodion mop is used for squeezing water, the mop panel is pulled upwards for one time to squeeze water.

Drawings

FIG. 1 is a schematic view of the mop bucket with single-bucket cleaning and water-squeezing.

FIG. 2 is a schematic view of the mop bucket of the present invention

Fig. 3 is an exploded view of the mop bucket of the present invention.

Fig. 4 is a schematic sectional view of the mop bucket of the present invention.

Fig. 5 is a schematic view showing a state that the mop panel of the present invention is moved downward.

Fig. 6 is a schematic view showing the mop panel of the present invention moving upward.

Detailed Description

The invention will be further explained by the embodiments with reference to the drawings.

Referring to fig. 1-6, a multifunctional mop bucket comprises a mop and a mop bucket 2, the mop comprises a mop rod 12 and a mop panel 11 rotatably connected to the lower end of the mop rod 12, the mop panel 11 is fixed with a wiping material for cleaning, the wiping material can be made of deerskin towel, collodion, sponge or scouring pad, and the wiping material in this embodiment is a collodion head 112 and a mop cloth 111.

The mop bucket 2 is internally provided with an integrated area 3 with cleaning and water squeezing functions, preferably, the mop panel 11 can be completely immersed into a water source of the integrated area 3, so that the mop panel 11 can be fully contacted and cleaned with the water source, an integrated opening 30 which can be penetrated by the mop panel 11 when the mop rod 12 is in a parallel state is arranged at the opening of the mop bucket 1 or the bucket cover 2 connected with the mop bucket 1, in the embodiment, the bucket cover 2 is arranged on the mop bucket 3, and the integrated opening 30 which can be penetrated by the mop panel 11 and the mop rod 12 is arranged on the bucket cover 2.

Be equipped with the first extrusion device that is used for wasing and extrudees mop panel 11 on integrative mouthful 30, first extrusion device includes support body 35, squeeze roll 31 and squeeze roll 32 in advance, support body 35 is fixed with 2 joints of bung, squeeze roll 31 rotates and connects on support body 35, squeeze roll 31 overlaps with integrative mouthful 30 part, support body 35 is equipped with squeeze roll 32 in advance below squeeze roll 31, squeeze roll 32 and mop panel 11's distance is greater than squeeze roll 31 and mop panel 11's distance in advance, mop panel 11 contacts squeeze roll 32 in advance when rebound in integrative mouthful 30, squeeze roll 32 rotates the resistance that reduces mop panel 11 and move up and carries out the crowded water in advance to mop panel 11 in advance.

The opposite side of the integrated opening 30 relative to the water squeezing device is provided with a first abutting mechanism, the width of the integrated opening 30 is changed through rotation of the first abutting mechanism, preferably, the first abutting mechanism comprises a first abutting block 33, the first abutting block 33 is rotatably connected with the barrel cover 2, one side, far away from the mop panel 11, of the first abutting block 33 is connected with the barrel cover 2 through a mounting shaft 331, the upper end face of the first abutting block 33 is in contact with the barrel cover 2 after mounting, the first abutting block 33 is limited from rotating upwards, a first elastic piece 34 enabling the first abutting block 33 to have upward bias elastic force is arranged on the first abutting block 33, the mop panel 11 moves downwards, the first abutting block 33 is forced to rotate downwards, after the mop panel 11 integrally penetrates through the integrated opening 30, the first elastic piece 34 releases elastic force, and the first abutting block 33 rotates upwards to restore to an initial state.

The first abutting block 33 comprises a squeezing section 332 and a guiding section 333 which are arranged up and down, preferably, the first abutting block 33 is in an inverted triangle shape, the squeezing section 332 is a roller arranged on a circular arc-shaped bottom corner or a bottom corner of the inverted triangle, the side of the inverted triangle is the guiding section 333, the distance between the guiding section 333 and the mop panel 11 in a static state is larger than the distance between the squeezing section 332 and the mop panel 11, and when the mop panel 11 moves downwards into the bucket, the squeezing section 332 rotates downwards to increase the width of the integral opening 30 so as to facilitate the mop panel 11 to pass through; when the mop panel 11 moves upwards, the mop panel 11 firstly contacts with the guide section 333, after moving upwards for a certain height, the mop panel 11 contacts with the squeezing section 332, the squeezing section 332 stops rotating when the width of the integrated port 30 is minimum, at the moment, the wiping object begins to squeeze water, in the cleaning process of the mop panel 11, the mop panel 11 is completely immersed in a water source and is positioned below the first abutting mechanism or the first squeezing device, the first abutting mechanism and the first squeezing device form a horn mouth with a small upper part and a large lower part, when moving upwards, the mop panel 11 firstly contacts with the guide section 333 and the pre-squeezing roller 32, the guide section 333 and the pre-squeezing roller 32 guide the mop panel 11 to move upwards to reduce resistance, and the mop panel 11 is pre-squeezed.

The mop cloth 112 is different from the collodion cotton head 111 in characteristic, so as to prevent the mop cloth 112 from being incapable of being squeezed in an integral area, preferably, the mop barrel 1 is provided with a squeezing area 4, the squeezing area 4 is separated from the integral area 3 through a partition plate 5, or the squeezing area 4 is an inner barrel arranged in the integral area 3, a squeezing opening 40 which can be penetrated when the mop panel 11 rotates to be in a parallel state with the mop rod 12 is arranged at the opening part of the squeezing area 4 or on the barrel cover 2 connected with the mop barrel 1, in the embodiment, the squeezing opening 40 is arranged on the barrel cover 2, the squeezing opening 40 is provided with a second abutting mechanism, the width of the squeezing opening 40 is changed through rotation, the second abutting mechanism comprises a second abutting block 43, the second abutting block 43 is rotatably connected with the barrel cover 2 and abuts against the barrel cover 2 behind the rotation shaft 431, when the mop panel 11 moves downwards in the squeezing opening 40, the second abutting block 43 is located at the position with the smallest width of the squeezing opening 40, the second abutting block 43 cannot rotate downwards under the abutting limiting action of the barrel cover 2, and the mop cloth 112 begins to squeeze water; when mop panel 11 upwards moves, the second is supported and is leaned on piece 43 atress upwards to rotate the width that increases crowded mouth of a river 40, mop panel 11 can easily pass crowded mouth of a river 40, mop panel 11 leaves crowded mouth of a river 40 after, the second is supported and is leaned on piece 43 and resume quiescent condition under the action of gravity, perhaps the second is supported and is equipped with second elastic component 44 on the piece 43 and makes the second support and lean on piece 43 and reset after rotating, because crowded water district 4 is the empty bucket of unwatered water, mop 112 water of removingting, the design of not crowded water of rebound, can prevent that to make mop bucket 1 topple over toward 3 one sides in integrative district with the upwards drive in crowded water district 4 when mop 112 water of rebound.

The water squeezing opening 40 is provided with a second squeezing mechanism for squeezing and dewatering the mop cloth 112 at the other side of the second abutting mechanism, the second squeezing mechanism comprises a water squeezing device 41 and a water diversion channel 42, the water squeezing device 41 can be a squeezing strip, a squeezing sheet or a rotatable water squeezing roller, the squeezing strip, the squeezing sheet or the water squeezing roller is fixedly arranged in the water squeezing opening 40 and is positioned between the water squeezing area 4 and the integrated area 3, in the embodiment, the squeezing device is a squeezing strip 41 fixedly connected with the barrel cover 2, the squeezing strip 41 is higher at one side of the squeezing area 4 than at one side of the integrated area 3, a water diversion channel 42 is arranged above the squeezing strip 41, the mop cloth 112 moves downwards to squeeze water, the squeezed sewage flows into the integrated area 3 through the drainage function of the water diversion channel 42, the lifting lug boss 45 which is convex upwards is arranged in the water squeezing area 4 to prevent the mop cloth 112 from contacting with the sewage retained at the bottom of the water squeezing area 4, thereby improving the water squeezing effect.

The working process and the principle of the single-barrel mop cleaning barrel are as follows:

when cleaning, the mop panel 11 rotates to be parallel to the mop rod 12, the mop panel 11 is aligned with the integrated port 30 and penetrates downwards, the front side and the rear side of the mop panel 11 are respectively contacted with the first extrusion device and the first abutting block 33, the first abutting block 33 is forced to rotate in the downward moving process of the mop panel 11, the mop panel 11 easily enters the integrated area 3, and the first abutting block 33 is restored to a static state under the action of the first elastic piece 34; upwards pulling mop panel 11, because first piece 33 of leaning on leans on bung 2 unable rotation, the width of integrative mouth 30 upwards diminishes gradually, first piece 33 of leaning on and first extrusion device's combined action down the sewage of mop panel 11 extrude, reciprocate several back mop panel 11 and wash the completion.

The first water squeezing mode is that the mop is a collodion mop, the mop panel 11 moves upwards to gradually leave the water surface and reach the integrated opening 30, the first abutting block 33 and the first squeezing device squeeze the sewage of the mop panel 11 out and flow back to the integrated area 3 downwards, the squeezed part is located above the barrel cover 2 and is not contacted with a water source, and the water squeezing is completed after the mop panel 11 completely passes through the integrated opening 30.

And the second water squeezing mode is that the mop is a mop, the mop panel 11 rotates to be parallel to the mop rod 12, the mop panel 11 is aligned with the water squeezing port 40 and penetrates downwards, the mop panel 11 begins to squeeze water under the action of the second abutting block 43 and the squeezing strip 41, the squeezed water flows into the integrated area through the water diversion channel 42, and after the mop panel 11 moves up and down for several times in the water squeezing port 40, the water squeezing of the mop panel 11 is completed.

Although the preferred embodiments of the present invention have been described in detail hereinabove, it should be clearly understood that modifications and variations of the present invention are possible to those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (10)

1. A multifunctional cleaning tool comprises a mop and a mop barrel, wherein the mop comprises a mop rod and a mop panel movably connected to the lower end of the mop rod, the mop panel is provided with a wiping object for cleaning, an integrated opening and a water squeezing opening which can be penetrated by the mop panel when the mop rod is in a parallel state when the mop panel rotates are arranged at the opening part of the mop barrel or a barrel cover connected with the mop barrel, an integrated area suitable for cleaning and squeezing the mop and a water squeezing area suitable for squeezing the mop are formed in the mop barrel corresponding to the integrated opening and the water squeezing opening,

the side, facing the wiping material, of the integrated opening is provided with a first extrusion mechanism, the side, opposite to the wiping material, of the integrated opening is provided with a first abutting mechanism, water is filled in the integrated area, the integrated area is suitable for cleaning the wiping material when the wiping material extends into the integrated area, and when the wiping material is pulled out from the integrated opening from bottom to top, the wiping material can be extruded and dehydrated at one time under the action of the first extrusion mechanism and the first abutting mechanism;

the mop is characterized in that a second squeezing mechanism capable of squeezing water from the wiping object is arranged on one side, facing the wiping object, of the water squeezing opening, the mop can squeeze water up and down in the water squeezing opening in a reciprocating mode, and a water retaining structure is arranged at the bottom of the water squeezing area.

2. A multi-functional cleaning implement according to claim 1, wherein the mop includes at least a mop swab and a collodion mop.

3. The cleaning implement of claim 2, wherein the water retaining structure is adapted to prevent the wipe from being wetted by water returning from the drain, the water retaining structure comprising at least one of:

the water retaining structure is a raised boss extending from the bottom of the barrel; the water retaining structure is an enclosure frame extending from the bottom of the barrel; the water retaining structure is a supporting pile extending from the bottom of the barrel; the water retaining structure is a limiting rib extending from the barrel wall; the water retaining structure is water absorbent cotton arranged at the bottom of the barrel.

4. A multi-functional cleaning implement according to any one of claims 1 to 3 wherein at least part of said first abutment mechanism is located within said body opening, said first abutment mechanism rotating downwardly to increase the body opening size as said mop panel passes downwardly through the body opening; when the mop panel upwards passes through the integral opening, the first abutting mechanism upwards rotates until the width of the integral opening is minimum and is fixed.

5. The multi-functional cleaning tool according to claim 4, characterized in that the first abutting mechanism comprises a squeezing section, the contact surface of the squeezing section and the mop panel is a cambered surface, or the squeezing section is a roller, and the distance from the guiding section to the mop panel is larger than the distance from the squeezing section to the mop panel in a natural state; the guide section is located extrusion section below, and with the extrusion section is the acute angle and links to each other, the length of guide section is greater than the extrusion section.

6. The multi-functional cleaning implement according to claim 5, wherein the first abutment mechanism further comprises a first resilient member having a resilient force that maintains the first abutment block biased upwardly.

7. A multi-functional cleaning implement according to any one of claims 1 to 3, 5 to 6, characterized in that the first squeeze mechanism comprises a frame body, a squeeze roller movably connected to the frame body, and at least one pre-squeeze roller, the pre-squeeze roller is disposed below the squeeze roller, the distance from the pre-squeeze roller to the first abutting mechanism is greater than the distance from the squeeze roller to the first abutting mechanism, and the pre-squeeze roller is adapted to guide the mop panel to extend from bottom to top.

8. A multi-functional cleaning implement according to any one of claims 1 to 3 and 5 to 6, wherein said second squeezing mechanism comprises a squeezing bar, a squeezing blade, or a rotatable squeezing roller, said squeezing bar, squeezing blade, or squeezing roller being fixedly mounted in said squeezing opening and partially located between said squeezing zone and said cleaning zone, and a water-guiding channel adapted to guide water squeezed by said squeezing bar into an integrated zone.

9. A multi-functional cleaning implement according to claim 8, wherein the side of the squeezing opening opposite to the wiper is provided with a second abutting mechanism, the second abutting mechanism is rotatably connected with the mop bucket opening or the bucket cover, the size of the squeezing opening is adjustable under the rotation of the second abutting mechanism, the second abutting mechanism is at least partially positioned in the squeezing opening, and when the mop panel passes upward through the squeezing opening, the second abutting mechanism rotates upward to increase the size of the squeezing opening; when the mop panel downwards passes through the water squeezing opening, the second abutting mechanism downwards rotates until the width of the water squeezing opening is minimum and is fixed.

10. The multi-functional cleaning implement according to claim 9, wherein the second abutting means comprises a second abutting block, and a second resilient member for keeping the second abutting block biased downward, and the contact surface of the second abutting block with the mop panel is a curved surface, or the second abutting block is a roller.

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