CN111214188A - Cleaning tool for double-barrel squeezing flat mop - Google Patents

Abstract

The double-barrel extrusion flat mop cleaning tool comprises a water squeezing barrel, a water containing barrel, a flat mop and a water transfer mechanism, wherein an extrusion device is arranged on the water squeezing barrel and comprises a water squeezing frame, and an extrusion opening is formed in the water squeezing frame; the flat mop comprises a mop rod and a flat mop head movably connected to the lower end of the mop rod, and wiping materials are detachably arranged on the flat mop head; when water is squeezed, the flat mop head rotates to a water squeezing state parallel or basically parallel to the mop rod, and the flat mop head is inserted into the squeezing port to move up and down to squeeze and squeeze water for the wiping materials; the water squeezing barrel and the water containing barrel are arranged side by side, the water squeezing barrel and the water containing barrel can be separated, and the water containing barrel and the water squeezing barrel can be separated by moving the water containing barrel. The water containing barrel can be separated from the water squeezing barrel, and only the water containing barrel needs to be carried when water pouring and other operations are needed, so that the operation is convenient.

Description

Cleaning tool for double-barrel squeezing flat mop

Technical Field

The invention relates to a cleaning tool for a squeezing flat mop.

Background

Chinese utility model patent CN206080446U discloses a dull and stereotyped mop burnisher extrudes, and it has the mop bucket, and the mop bucket has crowded water district and washing district, and dull and stereotyped mop is crowded water in crowded water district, washs in the washing district. The mop barrel is provided with a smoothing squeezing device, and the flat mop is inserted into the smoothing squeezing device during water squeezing and cleaning to respectively squeeze water and squeeze and clean. The above-described squeeze flat mop cleaning tool also has disadvantages in that: the same barrel body is adopted in the water squeezing area and the cleaning area, the whole barrel body needs to be lifted when water needs to be poured, and the operation is inconvenient.

Disclosure of Invention

In order to overcome the defects of the existing squeezing flat mop, the invention provides a cleaning tool for a double-barrel squeezing flat mop, which is more convenient to use.

The technical scheme for solving the technical problem is as follows: the double-barrel extrusion flat mop cleaning tool comprises a water squeezing barrel, a water containing barrel, a flat mop and a water transfer mechanism, wherein an extrusion device is arranged on the water squeezing barrel and comprises a water squeezing frame, and an extrusion opening is formed in the water squeezing frame;

the flat mop comprises a mop rod and a flat mop head movably connected to the lower end of the mop rod, and wiping materials are detachably arranged on the flat mop head;

when water is squeezed, the flat mop head rotates to a water squeezing state parallel or basically parallel to the mop rod, the flat mop head is inserted into the squeezing port to move up and down to squeeze water for wiping materials, and the water squeezed by the wiping materials is transferred into the water containing barrel through the water transfer mechanism;

the water squeezing barrel and the water containing barrel are arranged side by side, the water squeezing barrel and the water containing barrel can be separated, and the water containing barrel and the water squeezing barrel can be separated by moving the water containing barrel.

Furthermore, the water containing barrel is prevented from shaking by a shaking stopping mechanism between the water squeezing barrel and the water containing barrel.

Furthermore, a platform transversely extends out of the lower part of the squeezing barrel, and the water containing barrel is placed on the platform.

Furthermore, the shaking stopping mechanism comprises a lower positioning mechanism arranged on the platform.

Further, the lower positioning mechanism is an enclosure frame arranged on the platform, and the water containing barrel is arranged in the enclosure frame.

Further, the lower positioning mechanism is a lug arranged on the platform, an embedded groove is formed in the bottom of the water containing barrel, and the lug is embedded into the embedded groove.

Further, the water containing barrel is rotatably connected with a lifting handle, and the shaking stopping mechanism comprises an upper positioning mechanism driven by the lifting handle.

Furthermore, the upper positioning mechanism comprises a movable mechanism arranged on the upper part of the water containing barrel, and the handle drives the movable mechanism to unlock after being lifted.

Furthermore, a locking opening is arranged on the water squeezing barrel, and the movable mechanism is locked into the locking opening to position the water squeezing barrel and the water containing barrel.

Further, the movable mechanism comprises a first movable piece and a second movable piece, the first movable piece is driven by the handle, the second movable piece is movably connected to the water containing barrel, and the second movable piece is driven by the first movable piece to move;

when the second movable piece is inserted into the locking opening, the water squeezing bucket and the water containing bucket are positioned, the handle drives the first movable piece and the first movable piece drives the second movable piece to move after the handle is lifted, so that the second movable piece is separated from the locking opening.

Further, the first movable piece is rotatably connected to the water containing barrel.

Furthermore, the handle is provided with a convex pushing block, and the first movable piece is pushed to rotate by the pushing block after the handle is lifted, so that the water squeezing barrel and the water holding barrel are unlocked.

Furthermore, an elastic component acts on the second movable piece, and the elastic component enables the second movable piece to have the tendency of extending outwards to be locked into the lock opening.

The invention has the beneficial effects that: the water containing barrel can be separated from the water squeezing barrel, and the water containing barrel only needs to be carried when water pouring and other operations are needed, so that the operation is convenient.

Drawings

Fig. 1 is a schematic structural view of the present invention.

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

Fig. 3 is a state view after the squeezing tub and the tub are separated.

Fig. 4 is a state view after the squeezing tub and the tub are separated.

Fig. 5 is a structural schematic view of the tub.

Fig. 6 is a sectional view of the tub.

Fig. 7 is a schematic view of the handle.

Fig. 8 is a schematic view of the interaction of the handle and the upper positioning mechanism.

Detailed Description

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

Referring to fig. 1-8, the cleaning tool for the double-barrel extrusion flat mop comprises a water squeezing barrel 1, a water containing barrel 2, a flat mop 3 and a water transfer mechanism, wherein an extrusion device 4 is arranged on the water squeezing barrel 1, the extrusion device 4 comprises a water squeezing frame, and an extrusion opening is formed in the water squeezing frame. The squeezing device is usually arranged at the upper end of the squeezing barrel 1 and is detachably connected with the squeezing barrel 1 through a clamping connection and other modes.

The flat mop comprises a mop rod 5 and a flat mop head 6 movably connected to the lower end of the mop rod 5, and wiping materials are detachably arranged on the flat mop head 6. The mop rod 5 and the flat mop head 6 are movably connected in the following way: the flat mop head is hinged with a hinge seat, and the lower end of the mop rod is hinged with the hinge seat, generally speaking, the hinging direction of the flat mop head and the hinge seat and the hinging direction of the mop rod and the hinge seat are mutually vertical. The releasable attachment between the wipe and the flat mop head is typically by the following means: the mop is connected with the flat mop head through the magic tape, or the insertion piece is arranged at the end part of the flat mop head, the insertion sleeve is arranged at the end part of the mop and inserted into the insertion piece, and the detachable connection between the mop and the flat mop head can be realized by adopting the combination of the two modes.

Preferably, the mop rod 5 can be a multi-section rod, the multi-section rod can be detachably connected with each other, a detachable mode of threaded connection is generally adopted, and the mop rod is convenient to package and transport after being detached.

When water is squeezed, the flat mop head 6 rotates to a water squeezing state parallel or basically parallel to the mop rod 5, the flat mop head 6 is inserted into the squeezing port to move up and down to squeeze water for wiping materials, and the water squeezed by the wiping materials is transferred into the water containing barrel through the water transfer mechanism. Preferably, a squeezer (e.g., a squeeze plate, a squeeze roller, a brush, etc.) may be provided at the squeezing opening, the squeezer partially extending into the squeezing opening, and the wipe being squeezed by the squeezer. Of course, the squeezer can be omitted, and the wiping matter can be squeezed directly through the side wall of the squeezing opening.

The above water transfer mechanism may be arranged as follows: a waterway channel is arranged on the wringing frame, and the water squeezed out during wringing flows to the water containing area through the waterway channel. Of course, the water transfer mechanism can also be arranged in other structural forms, such as a mode of arranging a water pump in the squeezing bucket and the like. Of course, the water transfer mechanism may not be provided.

In this embodiment, the squeezing barrel 1 and the water containing barrel 2 are arranged side by side, the squeezing barrel 1 and the water containing barrel 2 can be separated, and the water containing barrel 2 and the squeezing barrel 1 can be separated by moving the water containing barrel 2, so that the operations such as water pouring are convenient.

Of course, the squeezing device 4 can be arranged at the upper end of the water barrel 2, the flat mop head rotates to a washing state parallel or basically parallel to the mop plate during washing, and the flat mop head is inserted into the squeezing port of the squeezing device to move up and down to realize squeezing washing of the wiping matters.

In this embodiment, the water tub 2 is prevented from shaking by the shaking prevention mechanism between the water squeezing barrel 1 and the water tub 2, so that the water tub 2 is prevented from shaking violently during water squeezing, and the water in the water tub 2 is prevented from shaking or splashing.

Preferably, a platform 7 extends transversely from the lower portion of the squeezing barrel 1, and the water barrel 2 is placed on the platform 7. At this time, the sloshing stop mechanism may include a lower positioning mechanism disposed on the platform 7, and the specific structural form of the lower positioning mechanism may be: the lower positioning mechanism is an enclosure frame 8 arranged on the platform 7, and the water containing barrel 2 is arranged in the enclosure frame; or, the lower positioning mechanism is a convex block 9 arranged on the platform 7, the bottom of the water containing barrel 2 is provided with an embedded groove 10, and the convex block 9 is embedded into the embedded groove 10.

In this embodiment, the water containing barrel 2 is rotatably connected with a handle 11, the shake stopping mechanism may include an upper positioning mechanism driven by the handle 11, the upper positioning mechanism includes a movable mechanism disposed on the upper portion of the water containing barrel 2, the water squeezing barrel 1 is provided with a locking notch 12, the movable mechanism locks into the locking notch 12 and then positions the water squeezing barrel 1 and the water containing barrel 2, and the handle drives the movable mechanism to unlock after lifting the handle 11.

In this embodiment, the movable mechanism includes a first movable member 13 and a second movable member 14, the first movable member 13 is driven by the handle 11, the second movable member 14 is movably connected to the tub 2, and the second movable member 14 is driven by the first movable member 13 to move; when the second movable piece 14 is inserted into the locking opening 12, the water squeezing bucket 1 and the water containing bucket 2 are positioned, after the handle 11 is lifted, the handle drives the first movable piece 13, and the first movable piece 13 drives the second movable piece 14 to move, so that the second movable piece 14 is separated from the locking opening 12.

In this embodiment, the first movable member 13 is rotatably connected to the water tub 2, that is, the first movable member 13 rotates to drive the second movable member 14 to move, and the specific structure is as follows: the handle 11 is provided with a convex pushing block 15, the pushing block 15 pushes the first movable piece 13 to rotate after the handle 11 is lifted, and the first movable piece 13 pushes the second movable piece 14 to move after rotating so as to be separated from the locking notch 12, so that the water squeezing barrel 1 and the water containing barrel 2 are unlocked.

In this embodiment, a resilient member 16 (typically a spring) acts on the second movable member 14, and the resilient member 16 provides the second movable member 14 with a tendency to extend outwardly and lock into the locking notch 12.

Certainly, the first movable part can also be movably arranged on the water containing barrel, the handle pushes the first movable part to move after rotating, the second movable part moves when driving the second movable part to move, for example, the first movable part and the second movable part are driven to move by adopting the inclined plane matching and the like between the first movable part and the second movable part.

Claims (14)

1. The double-barrel extrusion flat mop cleaning tool comprises a water squeezing barrel, a water containing barrel, a flat mop and a water transfer mechanism, wherein an extrusion device is arranged on the water squeezing barrel and comprises a water squeezing frame, and an extrusion opening is formed in the water squeezing frame;

the flat mop comprises a mop rod and a flat mop head movably connected to the lower end of the mop rod, and wiping materials are detachably arranged on the flat mop head;

when water is squeezed, the flat mop head rotates to a water squeezing state parallel or basically parallel to the mop rod, and the flat mop head is inserted into the squeezing port to move up and down to squeeze and squeeze water for the wiping materials;

the method is characterized in that: the water squeezing barrel and the water containing barrel are arranged side by side, the water squeezing barrel and the water containing barrel can be separated, and the water containing barrel and the water squeezing barrel can be separated by moving the water containing barrel.

2. A dual bucket squeeze flat mop cleaning tool as defined in claim 1 further characterized by: the water barrel is prevented from shaking by the shaking stopping mechanism between the water squeezing barrel and the water barrel.

3. A dual bucket squeeze flat mop cleaning tool as defined in claim 2 further characterized by: the lower part of the squeezing barrel transversely extends out of a platform, and the water containing barrel is placed on the platform.

4. A dual bucket squeeze flat mop cleaning tool as defined in claim 3 further characterized by: the shaking stopping mechanism comprises a lower positioning mechanism arranged on the platform.

5. The dual bucket squeeze flat mop cleaning tool of claim 4, wherein: the lower positioning mechanism is an enclosure frame arranged on the platform, and the water containing barrel is arranged in the enclosure frame.

6. The dual bucket squeeze flat mop cleaning tool of claim 4, wherein: the lower positioning mechanism is a lug arranged on the platform, an embedded groove is formed in the bottom of the water containing barrel, and the lug is embedded into the embedded groove.

7. A dual bucket squeeze flat mop cleaning tool as defined in claim 2 further characterized by: the water containing barrel is rotatably connected with a lifting handle, and the shaking stopping mechanism comprises an upper positioning mechanism driven by the lifting handle.

8. The dual bucket squeeze flat mop cleaning tool of claim 7, wherein: the upper positioning mechanism comprises a movable mechanism arranged on the upper part of the water containing bucket, and the handle drives the movable mechanism to unlock after the handle is lifted.

9. The dual bucket squeeze flat mop cleaning tool of claim 8, wherein: the water squeezing barrel is provided with a locking opening, and the movable mechanism locks the locking opening and then positions the water squeezing barrel and the water containing barrel.

10. A dual bucket squeeze flat mop cleaning tool as defined in claim 9, wherein: the movable mechanism comprises a first movable piece and a second movable piece, the first movable piece is driven by the handle, the second movable piece is movably connected to the water containing barrel, and the second movable piece is driven by the first movable piece to move;

when the second movable piece is inserted into the locking opening, the water squeezing bucket and the water containing bucket are positioned, the handle drives the first movable piece and the first movable piece drives the second movable piece to move after the handle is lifted, so that the second movable piece is separated from the locking opening.

11. A dual bucket squeeze flat mop cleaning tool as defined in claim 10 further characterized by: the first movable piece is rotatably connected to the water containing barrel.

12. A dual bucket squeeze flat mop cleaning tool as defined in claim 11 further characterized by: the handle is provided with a convex pushing block, and the first movable piece is pushed to rotate by the pushing block after the handle is lifted, so that the water squeezing bucket and the water containing bucket are unlocked.

13. A dual bucket squeeze flat mop cleaning tool as defined in claim 10 further characterized by: the second movable piece is acted on by an elastic component, and the elastic component enables the second movable piece to have the tendency of extending outwards to be locked into the locking notch.

14. A dual bucket squeeze flat mop cleaning tool as defined in claim 1 further characterized by: the water squeezed out by the wiper during the squeezing is transferred into the water barrel through a water transfer mechanism.

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