CN109602360B - Vertical throwing dewatering device for flat mop - Google Patents

Abstract

The invention discloses a vertical throwing and dewatering device for a flat mop, wherein the flat mop (9) is provided with a rotary mop rod, the dewatering device comprises a mop barrel (1), a dewatering frame (2) is arranged in the mop barrel, the dewatering frame is rotationally connected with the mop barrel and can rotate around a longitudinal axis of the mop barrel, the dewatering frame is provided with a limit ring (15) capable of limiting the dewatering frame to transversely move, and a locking mechanism capable of limiting the dewatering frame to rotate is further arranged, and comprises a swinging lock catch (331) arranged on the dewatering frame and a positioning groove (332) arranged on the limit ring. The flat mop is driven to be dehydrated through rotation, the flat mop is pulled out of the dehydration frame, the locking mechanism is locked, and the dehydration frame is fixed, so that the flat mop is inserted into the dehydration again.

Description

Vertical throwing dewatering device for flat mop

Technical Field

The invention belongs to the technical field of daily cleaning products, and particularly relates to a dehydration tool of a flat mop.

Background

Flat mops are a very popular type of cleaning implement for scrubbing floors in recent years and are widely used in homes, small offices, business venues, etc. The flat mop consists of a mop rod, a bottom plate and a mop, wherein the bottom plate adopts a flat design, and has the advantages that: (1) The stress area between the flat bottom plate and the ground is large and uniform, so that the hair and fine dust on the ground can be stuck, and the cleanliness of mopping is improved; (2) Compared with a round bottom plate, the flat bottom plate can increase the floor mopping area and improve the floor mopping efficiency.

The current cleaning and dewatering modes of the flat mop mainly comprise: the rotary centrifugal cleaning and dewatering and hand-pushing extrusion type cleaning, wherein the rotary centrifugal cleaning and dewatering comprises a mode of vertically spin-drying a mop head, as disclosed in Chinese patent publication No. CN108606752A, a flat mop cleaning tool beneficial to spin-drying operation is disclosed, and comprises a mop barrel and a flat mop head rotatably connected to the lower end of a mop rod, wherein a wiper is arranged on the flat mop head; the mop barrel is internally provided with a spin-drying area, and a first supporting part which is used for supporting and rotating the flat mop head is arranged in the spin-drying area; the method is characterized in that: the first supporting component is arranged at the bottom of the spin-drying area through a connecting structure, and the connecting structure can enable the rotation axis of the first supporting component to move in a plane and enable the rotation axis to swing by taking the bottom of the rotation axis as a fulcrum;

The squeezing mode is to squeeze water from the wiping object by moving and squeezing the flat mop head and the smoothing-out opening squeezing mechanism, so that the water on the wiping object cannot be completely squeezed completely, and the wiping object on the mop is easy to damage;

The rotary centrifugal type dewatering device is characterized in that an inserting and pulling opening is formed in the opening of a mop bucket, after the flat mop is dewatered, the flat mop can be pulled out by aligning with the inserting and pulling opening, and when the flat mop is required to be inserted into the mop bucket again for use, a dewatering frame of the mop bucket is required to be aligned with the inserting and pulling opening, so that the flat mop can be inserted into the mop for spin-drying; in addition, as the flat mop is provided with a longer mop head, the flat mop can easily shake when being dried immediately, and the water squeezing effect is affected.

Disclosure of Invention

The invention mainly solves the technical problem of providing a vertical throwing dehydration device for a flat mop, wherein a dehydration frame is provided with a locking mechanism, the locking mechanism is opened when the flat mop is inserted, the flat mop drives the dehydration frame to dehydrate through rotation, the flat mop is pulled out of the dehydration frame, the locking mechanism is locked, and the dehydration frame is fixed, so that the flat mop is inserted into the dehydration frame again.

In order to solve the technical problems, the invention adopts a technical scheme that: a vertical throwing and dehydrating device for a flat mop, wherein the flat mop is provided with a rotating mop rod, the dehydrating device comprises a mop barrel, a dehydrating frame is arranged in the mop barrel and is rotatably connected with the mop barrel, the dehydrating frame can rotate around the longitudinal axis of the dehydrating frame, a limiting ring capable of limiting the dehydrating frame to transversely move is arranged on the dehydrating device, and a locking mechanism capable of limiting the dehydrating frame to rotate is also arranged on the dehydrating device;

The locking mechanism comprises a swing lock catch arranged on the dewatering frame and a positioning groove arranged on the limit ring;

In a normal state, the swing lock catch stretches into the positioning groove, and the dewatering frame is locked through the stretched swing lock catch; when the mop is used for dewatering, the flat mop is inserted into the dewatering frame, and the swing lock catch is pushed by the mop to be separated from the positioning groove, so that the locking is released, and the dewatering frame can rotate.

Further, a plug opening for inserting the flat mop is arranged above the dewatering frame, and the plug opening is communicated with the mop bucket.

Further, the mop bucket is provided with a bucket cover, the inserting and pulling opening is formed in the bucket cover, and the bucket cover is detachably connected with the mop bucket or integrally formed with the mop bucket.

Further, the dewatering frame comprises a rotary tray, the rotary tray is rotatably connected with the mop bucket, and a slot for inserting the flat mop is formed in the upper surface of the rotary tray.

Further, the dewatering frame comprises an upper end positioning disk, a limiting ring for limiting the radial movement of the upper end positioning disk is arranged in the mop barrel, the upper end positioning disk is provided with a through hole for the flat mop to pass through, the upper end positioning disk is positioned above the rotary tray, and the upper end positioning disk is fixedly connected with the rotary tray or integrally formed.

Further, the swing lock catch is hinged to two sides of the through hole, one end of the swing lock catch can extend into the positioning groove, and the other end of the swing lock catch can extend to the through hole;

When the flat mop is inserted, the swing lock catch in the through hole is stirred, so that the flat mop is separated from the positioning groove.

Further, the swing lock catch is provided with a reset piece, the reset piece is an elastic component, one end of the elastic component is connected with the swing lock catch, the other end of the elastic component is connected with the upper end positioning disk, and one end of the swing lock catch is driven to extend into the positioning groove.

Further, a holder is arranged on the mop rod of the flat mop, the plug-in opening is provided with a holder seat matched with the holder, and when the flat mop is inserted into the holder seat for dehydration, the holder falls into the holder seat, so that radial movement of the mop rod of the flat mop is limited.

Further, the structure of the retainer and the retainer seat is one of the following structures:

(1) The retainer is fixedly connected with the mop rod, and can rotate along with the flat mop after falling into the retainer seat;

(2) The retainer is rotationally connected with the mop rod, the retainer is clamped with the retainer seat to be relatively static after falling into the retainer seat, and the mop rod rotates.

Further, when the holder is rotatably connected to the mop rod, the holder is engaged with the holder by one of the following structures:

(1) The retainer is a revolving body, and the retainer seat are provided with mutually matched engagement structures;

(2) The retainer is a non-revolving body, and the retainer is a retainer matched with the shape of the retainer.

Further, the flat mop is a single-sided flat mop or a double-sided flat mop.

The invention has the beneficial effects that:

1. the flat mop is inserted into the dewatering frame, the flat mop is pulled out of the dewatering frame, the locking mechanism is locked, and the dewatering frame is fixed, so that the flat mop is inserted into the dewatering frame again;

2. When the mop bucket is provided with the plug opening (or the plug opening is arranged for using the retainer), the locking dehydration rack is used for aligning and fixing the through opening or the slot of the dehydration rack with the plug opening (the bucket opening is overlooked), so that the flat mop can be conveniently inserted into the flat mop for dehydration next time;

3. the mop barrel is provided with an upper end positioning function, so that the transverse movement of the mop can be limited, the flat mop can be prevented from shaking during rotary dehydration, and the dehydration quality is improved;

The upper end positioning function can be realized by two mechanisms, namely a retainer arranged on a mop rod and a retainer arranged on a mop bucket and matched with the retainer for use, wherein when a flat mop is inserted into the retainer for dehydration, the retainer falls into the retainer;

And the upper end positioning disk is arranged on the dewatering frame, the limiting ring matched with the upper end positioning disk is arranged in the mop bucket, the transverse movement of the upper end of the dewatering frame is limited by the limiting ring, the slot for the flat mop to be inserted into is formed in the rotary tray at the lower end of the dewatering frame, and the two slots respectively limit the two ends of the flat mop, so that the flat mop can be prevented from shaking during dewatering.

Drawings

FIG. 1 is a schematic view showing the overall structure of a dehydration engine according to the present invention;

FIG. 2 is an exploded view of the dehydration engine of the present invention;

FIG. 3 is a schematic view (cross-sectional view) of the rotational connection of the dewatering rack of the present invention;

FIG. 4 is a schematic view of the structure of the locking mechanism of the present invention;

FIG. 5 is a schematic view (cross-sectional view) of the structure of the dewatering rack of the present invention;

FIG. 6 is a view in the A direction of FIG. 4;

FIG. 7 is a view in the B direction of FIG. 4;

FIG. 8 is a schematic view of the structure of the mop rod (holder) of the present invention;

FIG. 9 is a schematic view of the structure of the cage and the cage seat of the present invention;

FIG. 10 is a schematic view of the structure of the cage and the cage base of the present invention (another structure);

the parts in the drawings are marked as follows:

The mop bucket 1, the plug opening 13, the retainer 131, the bucket cover 14, the limit ring 15 and the rotary shaft 16;

a dewatering rack 2, a rotary tray 21, a slot 211, an upper end positioning disk 22, a through hole 221, a connecting column 222, a rotary hole 23 and a bearing 24;

A reset piece 313, a swing lock 331, one end 3311, the other end 3312, a positioning groove 332 and an extension rod 33111;

The flat mop 9, mop bar 91, holder 92 and snap teeth 921.

Detailed Description

The preferred embodiments of the present invention will be described in detail below with reference to the accompanying drawings so that the advantages and features of the present invention can be more easily understood by those skilled in the art, thereby making clear and defining the scope of the present invention.

Examples: a vertical throwing dewatering apparatus for a flat mop, the flat mop 9 having a rotary mop rod, the mop head of the flat mop being drivable to rotate by depressing the mop rod, as shown in fig. 1 to 4: the mop comprises a mop bucket 1, wherein a dewatering frame 2 is arranged in the mop bucket, the dewatering frame is rotatably connected to the mop bucket, the dewatering frame can rotate around the longitudinal axis of the dewatering frame, a limit ring 15 capable of limiting the transverse movement of the dewatering frame is arranged on the dewatering device, and a locking mechanism capable of limiting the rotation of the dewatering frame is also arranged on the dewatering device;

the locking mechanism comprises a swing lock catch 331 arranged on the dewatering frame and a positioning groove 332 arranged on the limiting ring;

In a normal state, the swing lock 331 extends into the positioning groove, and the dewatering rack is locked by the extending swing lock 331; when the flat mop is dehydrated, the flat mop is inserted into the dehydration frame, and the swing lock 331 is pushed by the mop to be separated from the positioning groove, so that the locking is released, and the dehydration frame can rotate;

the dewatering frame rotates together with the flat mop, water in the mop is thrown out through centrifugal force, and the thrown water is collected through the mop barrel.

In this embodiment, the mop bucket is provided with a bucket cover 14, and the bucket cover is detachably connected to the mop bucket or integrally formed with the mop bucket;

The upper part of the dewatering frame is provided with a plug opening 13 for the flat mop to be inserted, and the plug opening of the embodiment is arranged on the barrel cover and is communicated with the dewatering area.

As shown in fig. 4 and 5: the dewatering rack comprises an upper end positioning disk 22, a limit ring 15 for limiting radial movement of the upper end positioning disk is arranged in the mop bucket, the upper end positioning disk is provided with a through hole 221 for the flat mop to pass through, the upper end positioning disk is positioned above the rotary tray, the through hole is aligned with the slot 211 (when overlooking), the upper end positioning disk is fixedly connected with the rotary tray or integrally formed, the mode of the fixed connection in the embodiment is that the two connecting columns 222 are fixedly connected, but the invention is not limited to the above, for example, the connecting walls are arranged along the whole circle of the positioning disk to be connected, and the like, as long as the middle part of the dewatering rack is provided with a hollowed water outlet;

In this embodiment, the limit ring 15 is disposed on the barrel cover 14;

When the dewatering frame rotates, the lower part is supported by the rotary tray and ensures that the rotary tray rotates, and the upper part is kept to rotate by the upper end positioning disk and does not shake, so that the rotary stability of the dewatering frame is ensured and the dewatering effect can be effectively improved.

As shown in fig. 4: in this embodiment, the dewatering frame is rotatably connected to the mop bucket and has the following structure: the bottom of the mop bucket is provided with a rotary shaft 16, and the dewatering frame is provided with a rotary hole 23 matched with the rotary shaft; or the bottom of the dewatering frame is provided with a rotary shaft, and the bottom of the mop bucket is provided with a rotary hole.

The rotating shaft is provided with a bearing 24, and the dewatering frame is rotatably connected to the mop bucket through the bearing.

As shown in fig. 5: the dewatering rack comprises a rotary tray 21, the rotary tray is rotatably connected to the mop bucket, a slot 211 for inserting the flat mop is formed in the upper surface of the rotary tray, the flat mop is inserted into the slot, and the rotary tray is driven to rotate through the rotation of the flat mop, so that the flat mop is dewatered;

As shown in fig. 4 to 7, the locking mechanism includes a swing latch 331 disposed on the upper end positioning plate 22, the middle portion of the swing latch 331 is rotatably connected to the upper end positioning plate, the swing latch 331 is disposed on two sides of the through hole 221, one end 3311 of the swing latch 331 can extend out of a sidewall of the upper end positioning plate, and the other end 3312 of the swing latch 331 can extend out of the through hole, the sidewall of the limit ring 15 has a positioning groove 332 into which the one end 3311 of the swing latch 331 can fall, and the one end 3311 of the swing latch 331 extends out of the upper end positioning plate and falls into the positioning groove 332, thereby locking the upper end positioning plate and further limiting the rotation of the dewatering rack;

The swing latch 331 is provided with a restoring member 313, which is an elastic member (such as various springs including compression springs, extension springs, leaf springs, torsion springs, etc.), and in this embodiment, the restoring member is a compression spring, one end of the restoring member abuts against the elastic member, the other end abuts against the upper positioning disk, and one end 3311 of the swing latch 331 is driven to extend into the positioning slot 332;

The locking mechanism is normally in a locked state, i.e. one end 3311 of the swing lock 331 extends into the positioning groove 332, and the flat mop is inserted into the dewatering rack during dewatering, and at this time, the other end 3312 of the swing lock 331 also extends to the through hole.

As shown in fig. 5: the end 3311 of the swing latch 331 in this embodiment further has an extension bar 33111, which is disposed perpendicular to the long side of the swing latch 331, through which the size of the swing latch 331 can be reduced (the vertically disposed extension bar corresponds to an increase in the length of the swing arm of the swing latch 331).

The swing latch 331 of the locking mechanism of the present embodiment is provided at the upper portion of the dewatering rack, but is not limited thereto, and the change of the position thereof is not limited to the scope of the present patent.

This embodiment is shown in fig. 8 to 10: the mop rod 91 of the flat mop is provided with a retainer 92, the plug-in opening is provided with a retainer 131 matched with the retainer, and when the flat mop is inserted into the retainer for dehydration, the retainer falls into the retainer, so that the radial movement of the mop rod of the flat mop is limited, and the flat mop cannot shake during rotary dehydration;

The structures of the retainer and the retainer seat are one of the following structures:

(1) The retainer is fixedly connected with the mop rod, and can rotate along with the flat mop after falling into the retainer seat;

(2) The retainer is rotationally connected with the mop rod, the retainer is clamped with the retainer seat to be relatively static after falling into the retainer seat, and the mop rod rotates.

When the retainer is rotationally connected with the mop rod, the clamping structure of the retainer and the retainer seat is one of the following structures:

(1) The retainer is a revolving body, the retainer and the retainer seat have mutually matched engagement structures, and fig. 9 shows this embodiment: the retainer and the retainer seat are provided with mutually matched engaging teeth 921 on the joint surface;

(2) The retainer is a non-revolving body, and the retainer is a retainer matched with the shape of the retainer, as shown in fig. 10: the retainer is a rectangular body.

In fact, only one of the anti-shake structures of the upper end positioning plate 22 and the stop collar 15 and the anti-shake structures of the retainer 92 and the retainer 131 may be used, and both of them are preferably used in this embodiment, so that the rotation stability of the dewatering rack is further improved.

The flat mop is a single-sided flat mop or a double-sided flat mop, wherein the single-sided flat mop is a flat mop with a mop head with a wiping object on only one side, and the double-sided flat mop is a flat mop with a wiping object on both sides of the mop head.

The working principle of the invention is as follows:

When the flat mop is dehydrated, the flat mop is turned to be in a vertical state, inserted into the dehydration frame and pressed down, and the locking mechanism is opened by pressing down the dehydration frame, so that the flat mop and the dehydration frame are rotated and dehydrated together; when the flat mop is pulled out or partially pulled out of the dewatering frame after dewatering, the locking mechanism is closed through the separation of the flat mop from the dewatering frame, so that the dewatering frame is locked and cannot rotate; when the mop bucket is provided with a plug-in opening (for using the retainer), the locking dehydration rack is used for aligning and fixing the through opening or the slot of the dehydration rack with the plug-in opening (overlooking of the bucket opening), so that the next time of inserting the flat mop is convenient for dehydration operation;

The working principle of the locking mechanism is as follows: in a normal state, two ends of the swing lock 331 extend into the positioning groove and the through hole respectively, and the dehydration frame is locked by extending into the swing lock 331 of the positioning groove; when the flat mop is inserted into the dewatering rack, the swing lock 331 is pushed to be separated from the positioning groove, so that the locking is released, and the dewatering rack can rotate.

The foregoing description is only illustrative of the present invention and is not intended to limit the scope of the invention, and all equivalent structural changes made by the present invention and the accompanying drawings, or direct or indirect application in other related technical fields, are included in the scope of the present invention.

Claims (7)

1.A vertical throwing dewatering device for a flat mop, the flat mop (9) having a rotating mop rod, characterized in that: the mop comprises a mop bucket (1), wherein a dewatering frame (2) is arranged in the mop bucket, the dewatering frame is rotatably connected to the mop bucket, the dewatering frame can rotate around the longitudinal axis of the dewatering frame, a limiting ring (15) capable of limiting the transverse movement of the dewatering frame is arranged on the dewatering device, a locking mechanism capable of limiting the rotation of the dewatering frame is also arranged on the dewatering device, and the locking mechanism comprises a swinging lock catch (331) arranged on the dewatering frame and a positioning groove (332) arranged on the limiting ring;

In a normal state, the swing lock catch stretches into the positioning groove, and the dewatering frame is locked through the stretched swing lock catch; when the flat mop is dehydrated, the flat mop is inserted into the dehydration frame, and the swing lock catch is pushed by the mop to be separated from the positioning groove, so that the locking is released, and the dehydration frame can rotate;

The dewatering frame comprises a rotary tray (21), the rotary tray is rotationally connected to the mop bucket, a slot (211) for the flat mop to be inserted is formed in the upper surface of the rotary tray, the dewatering frame comprises an upper end positioning disk (22), a limiting ring (15) for limiting the radial movement of the upper end positioning disk is arranged in the mop bucket, the upper end positioning disk is provided with a through hole (221) for the flat mop to pass through, the upper end positioning disk is positioned above the rotary tray, the upper end positioning disk is fixedly connected with the rotary tray or integrally formed, swing lock catches (331) are hinged to two sides of the through hole, one end (3311) of each swing lock catch (331) can extend into the corresponding positioning slot, and the other end (3312) of each swing lock catch (331) can extend out of the corresponding through hole;

When the flat mop is inserted, the swing lock catch (331) in the through hole is poked to separate from the positioning groove, the swing lock catch (331) is provided with a reset piece (313), the reset piece is an elastic component, one end of the elastic component is connected with the swing lock catch (331), the other end of the elastic component is connected with the upper end positioning disk, one end (3311) of the swing lock catch is driven to extend into the positioning groove, and the dewatering frame is rotationally connected with the mop bucket in a structure that: the bottom of the mop bucket is provided with a rotary shaft (16), and the dewatering frame is provided with a rotary hole (23) matched with the rotary shaft; or the bottom of the dewatering frame is provided with a rotary shaft, and the bottom of the mop bucket is provided with a rotary hole;

the rotary shaft is provided with a bearing (24), and the dewatering frame is rotatably connected with the mop bucket through the bearing.

2. The standing and throwing dewatering device for a flat mop as claimed in claim 1, wherein: and a plug opening (13) for inserting the flat mop is arranged above the dewatering frame, and the plug opening is communicated with the mop bucket.

3. The standing and throwing dewatering device for a flat mop as claimed in claim 2, wherein: the mop bucket is provided with a bucket cover (14), the plug opening is arranged on the bucket cover, and the bucket cover is detachably connected with the mop bucket or integrally formed with the mop bucket.

4. A standing swing dewatering device for a flat mop according to claim 2 or 3, wherein: the mop rod (91) of the flat mop is provided with a retainer (92), the plug-in opening is provided with a retainer seat (131) matched with the retainer, and when the flat mop is inserted into the retainer seat for dehydration, the retainer falls into the retainer seat, so that radial movement of the mop rod of the flat mop is limited.

5. The standing and throwing dewatering device for a flat mop as claimed in claim 4, wherein: the structures of the retainer and the retainer seat are one of the following structures:

(1) The retainer is fixedly connected with the mop rod, and can rotate along with the flat mop after falling into the retainer seat;

(2) The retainer is rotationally connected with the mop rod, the retainer is clamped with the retainer seat to be relatively static after falling into the retainer seat, and the mop rod rotates.

6. The standing swing dewatering device for flat mops as set forth in claim 5, wherein: when the retainer is rotationally connected with the mop rod, the retainer is clamped with the retainer seat in one of the following structures:

(1) The retainer is a revolving body, and the retainer seat are provided with mutually matched engagement structures;

(2) The retainer is a non-revolving body, and the retainer is a retainer matched with the shape of the retainer.

7. A standing swing dewatering device for a flat mop according to claim 1 or 3, wherein: the flat mop is a single-sided flat mop or a double-sided flat mop.