CN103417168A - Rotating type mop capable of being spun-dried to remove water - Google Patents

Abstract

The invention relates to a rotating type mop capable of being spun-dried to remove water. A rotating type mop rod mechanism comprises an upper pipe, a lower pipe and a rotating driving mechanism. The upper pipe is movably connected with the lower pipe through the rotating driving mechanism. The upper pipe and the lower pipe can move oppositely and vertically in the axial direction, and can rotate oppositely. A mop head mechanism is fixedly connected with the lower pipe. The rotating type mop is characterized by further comprising a water removing mechanism, the lower pipe is sleeved with the water removing mechanism, and the water removing mechanism can move vertically along the lower pipe. The water removing mechanism comprises a locking cover, a water blocking cover and a water outlet cover, wherein the lower pipe is sleeved with the water outlet cover, the water outlet cover is sleeved with the locking cover, the water outlet cover and the locking cover are provided with locking structures which are matched with the lower pipe, and the water outlet cover is sleeved with the water blocking cover. According to the rotating type mop, a special matched water barrel is not needed, a mop head can be washed and spun-dried in an ordinary water barrel or a water tank, using is convenient, a large number of manpower resources and material resources are saved, and economical burden of consumers is greatly reduced.

Description

But a kind of rotary mop of drying dehydration

Technical field

But the present invention relates to a kind of rotary mop of drying dehydration.

Background technology

The mophead of existing rotary mop mops floor with after dirty, need in a kind of backet with dewatering device, be cleaned and be dried, as the patent No. is 201220668933.4, name is called the monomer mop-pail stands of do action and the Chinese patent of associated mop.Therefore, produce this mop, just must produce supporting with it backet simultaneously.Like this, not only waste a large amount of human resources and physical resources, also greatly increased consumer's financial burden.

Summary of the invention

But technical problem to be solved by this invention is to overcome deficiency of the prior art and rotary mop that a kind of drying dehydration of reasonable in design is provided, can in common bucket or in tank, to mophead, be cleaned and dry.

The technical scheme that the present invention solves the problems of the technologies described above employing is: but a kind of rotary mop of drying dehydration comprises rotary mop linkage and mophead mechanism; Described rotary mop linkage comprises pipe, lower pipe, rotary drive mechanism, and rotary drive mechanism is movably connected top tube and down tube, between top tube and down tube, axially both can relatively move up and down, can relatively rotate again; Mophead mechanism is fixedly connected with lower pipe; It is characterized in that: also comprise that dewatering device, dewatering device are sleeved on outside lower pipe, and can move up and down along lower pipe; Described dewatering device comprises lock tube, water retaining cover and water cover; Water cover is sleeved on outside lower pipe, and lock tube is sleeved on outside water cover, on water cover and lock tube, is provided with locking mechanism, and locking mechanism coordinates with lower pipe; Water retaining cover is sleeved on outside water cover.

Locking mechanism of the present invention comprises radially spiral bar and radially helicla flute, and radially spiral bar is arranged on water cover, and radially helicla flute is arranged on lock tube, and radially spiral bar is connected with helicla flute radially, and radially spiral bar coordinates with lower pipe.

The present invention has apopore on described water cover.

Water retaining cover of the present invention and water cover can rotate mutually.

Dewatering device of the present invention also comprises Upper shaft sleeve and Lower shaft sleeve, and Upper shaft sleeve is fixed between water retaining cover and water cover, and Lower shaft sleeve is fixed between water retaining cover and water cover.

Dewatering device of the present invention also wraps locating piece, and locating piece is fixedly connected on water retaining cover, and its medial extremity is placed in the below of Lower shaft sleeve.

Rotary mop linkage of the present invention also comprises sheath, and sheath is fixed on pipe, and sheath coordinates with lock tube is detachable.

Lock tube of the present invention is provided with groove and horizontal groove; Described sheath is provided with convex tendon, convex tendon and groove fit.

Water retaining cover axial profile of the present invention is up-small and down-big, and its centre up/down perforation forms hollow, and hollow space is up-small and down-big; Described water retaining cover axial profile is up-small and down-big, and its centre up/down perforation forms hollow, and hollow space is up-small and down-big.

The present invention compared with prior art, there is following advantage and effect: do not need supporting backet, can in common bucket or in tank, to mophead, be cleaned and dry, easy to use, not only save a large amount of human resources and physical resources, also greatly alleviated consumer's financial burden.

The accompanying drawing explanation

Fig. 1 is embodiment of the present invention Facad structure schematic diagram.

Fig. 2 is embodiment of the present invention exploded perspective view.

Fig. 3 is embodiment of the present invention Facad structure schematic diagram when mophead dries state.

Fig. 4 is A-A cutaway view Amplified image in Fig. 1.

Fig. 5 is B-B cutaway view Amplified image in Fig. 3.

Fig. 6 is embodiment of the present invention water cover Facad structure schematic diagram.

Fig. 7 is C-C cutaway view Amplified image in Fig. 6.

Fig. 8 is embodiment of the present invention lock tube Facad structure schematic diagram.

Fig. 9 is embodiment of the present invention lock tube plan structure schematic diagram.

Figure 10 is embodiment of the present invention jacket structure schematic diagram.

Figure 11 is embodiment of the present invention positioning block structure schematic diagram.

Figure 12 is D part structure for amplifying schematic diagram in Fig. 1.

Figure 13 is E part structure for amplifying schematic diagram in Fig. 1.

Figure 14 is F part structure for amplifying schematic diagram in Fig. 1.

The specific embodiment

Below in conjunction with accompanying drawing and by embodiment, the invention will be further described.

Referring to Fig. 1～Figure 14, the embodiment of the present invention comprises rotary mop linkage, dewatering device, mophead mechanism.

The rotary mop linkage comprises pipe 1, sheath 2, lower pipe 5, pipe close 10 and rotary drive mechanism.Sheath 2 is fixedly set in the lower end of pipe 1, and the Lower Half movable set of upper pipe 1 is outside the first half of lower pipe 5.Rotary drive mechanism is placed in the pipe of pipe 1 and lower pipe 5, drive part in rotary drive mechanism is fixedly connected in the pipe of pipe 1, running part is fixedly connected in the pipe of lower pipe 5, rotary drive mechanism is movably connected upper pipe 1 and lower pipe 5, axially both can relatively move up and down between upper pipe 1 and lower pipe 5, can relatively rotate again.Pipe close 10 is fixedly connected in the lower end pipe of lower pipe 5.Sheath 2 is fixed on pipe 1, and sheath 2 lower end surroundings are provided with convex tendon 21.

Mophead mechanism comprises connector 11, cover cap 12, mophead 13 and cingulum 14.Mophead 13 upper ends are fixedly connected on connector 11 bottoms with cingulum 14, and cover cap 12 enclosures are above mophead 13, and connector 11 upper ends are fixedly connected on pipe close 10 belows.

Dewatering device comprises lock tube 3, Upper shaft sleeve 4, Lower shaft sleeve 6, locating piece 7, water retaining cover 8 and water cover 9.

Water cover 9 is sleeved on outside lower pipe 5, water cover 9 axial profile are up-small and down-big, its centre up/down perforation forms hollow, hollow space is up-small and down-big, the part that internal diameter is less like this can with lower pipe 5 matched in clearance, easy to install and use, remaining internal diameter major part surrounding is offered some apopores 91, and water cover 9 upper end surroundings are provided with several radially spiral bars 92.

Water retaining cover 8 axial profile are up-small and down-big, and its centre up/down perforation forms hollow, and hollow space is up-small and down-big, and water retaining cover 8 shapes coordinate with water cover 9.Water retaining cover 8 is sleeved on outside water cover 9.

Lock tube 3 movable sets are in the upper end of water cover 9, and radially spiral bar 92 bottoms that the upper end of water cover 9 arranges are shelved on respectively in the radially helicla flute 31 of lock tube 3.Lock tube 3 axial centre position up/down perforations, through-hole wall is provided with several radially helicla flutes 31, and radially helicla flute 31 tops are provided with the first counterbore 32, the first counterbore 32 medial surfaces and are provided with groove 33, and are provided with horizontal groove 35.The groove 33 of lock tube 3 coordinates with the convex tendon 21 of sheath 2, and convex tendon 21 can snap in and break away from groove 33, and sheath 2 is coordinated with lock tube 3 is detachable.When convex tendon 21 snaps in groove 33, sheath 2 is connected with lock tube 3, and dewatering device is hung the below that is hung in sheath 2; When convex tendon 21 breaks away from groove 33, sheath 2 separates with lock tube 3, and dewatering device can move up and down along lower pipe 5.

Upper shaft sleeve 4 is fixedly connected in second counterbore 81 of centre bore upper end of water retaining cover 8, between water retaining cover 8 and water cover 9.

Lower shaft sleeve 6 is fixedly connected in the 3rd counterbore 82 of intersection of big or small centre bore of water retaining cover 8, between water retaining cover 8 and water cover 9.Lower shaft sleeve 6 is placed in tapered end 93 belows that the big or small profile of water cover 9 intersection arranges.

Locating piece 7 is fixedly connected in the set cross through hole 83 of the big or small profile intersection of water retaining cover 8, and its medial extremity 71 is placed in the below of Lower shaft sleeve 6.

Upper shaft sleeve 4, Lower shaft sleeve 6, locating piece 7 link together water retaining cover 8 and water cover 9, and water retaining cover 8 can rotate mutually with water cover 9, but can not mutually move in the axial direction.

When mophead mechanism needs drying dehydration, under evade water mechanism, the groove 35 be provided with due to lock tube 3 makes lock tube 3 upper ends produce strains, groove 33 skids off the convex tendon 21 of sheath 2 lower ends, dewatering device will slide downwards along lower pipe 5, until mophead 13 all enters in the inner chamber of water cover 9.Rotate clockwise lock tube 3, radially spiral bar 92 lateral surfaces 94 push helicla flute 31 the crowded of lateral surface 34 radially, and radially draw in to center the inwall side of spiral bar 92, packs tightly lower pipe 5 outside wall surface, together with making water cover 9 and lower pipe 5 temporarily being fixedly connected with.Now, hold the top of water retaining cover 8, under press pipe 1, lower pipe 5 just drives water cover 9 and rotate together with mophead 13, the operation principle of upper pipe 1 and lower pipe 5 is prior art, no longer explains here.Upper pipe 1 presses down on rear and mentions initial position, and then press down, and so forth repeatedly, mophead 13 rotating speeds are more and more faster, moisture content wherein just throws away from the apopore 91 of water cover 9, the inwall that the water thrown away runs into water retaining cover 8 stops, to the end opening direction of water retaining cover 8, trickles in bucket, tank or other any container.After mophead 13 dries, counterclockwise rotate lock tube 3, after radially the lateral surface 94 of spiral bar 92 is not subject to the extruding of helicla flute 31 lateral surfaces 34 radially, its side inner face unclamps the outside wall surface of lower pipe 5, and radially spiral bar 92 is replied the beginning states.On carry dewatering device, and the groove 33 in lock tube 3 is engaged with sheath 2 lower end surrounding convex tendons 21, dewatering device is hanging connected in to the lower end of sheath 2.Now mop is in dormant state.

Although the present invention with embodiment openly as above; but it is not in order to limit protection scope of the present invention; any technical staff who is familiar with this technology, not breaking away from change and the retouching of doing in the spirit and scope of the present invention, all should belong to protection scope of the present invention.

Claims (9)

1. but the rotary mop of a drying dehydration, comprise rotary mop linkage and mophead mechanism; Described rotary mop linkage comprises pipe, lower pipe, rotary drive mechanism, and rotary drive mechanism is movably connected top tube and down tube, between top tube and down tube, axially both can relatively move up and down, can relatively rotate again; Mophead mechanism is fixedly connected with lower pipe; It is characterized in that: also comprise that dewatering device, dewatering device are sleeved on outside lower pipe, and can move up and down along lower pipe; Described dewatering device comprises lock tube, water retaining cover and water cover; Water cover is sleeved on outside lower pipe, and lock tube is sleeved on outside water cover, on water cover and lock tube, is provided with locking mechanism, and locking mechanism coordinates with lower pipe; Water retaining cover is sleeved on outside water cover.

2. but the rotary mop of drying dehydration according to claim 1, it is characterized in that: described locking mechanism comprises radially spiral bar and radially helicla flute, radially spiral bar is arranged on water cover, radially helicla flute is arranged on lock tube, radially spiral bar is connected with helicla flute radially, and radially spiral bar coordinates with lower pipe.

3. but the rotary mop of drying dehydration according to claim 1, is characterized in that: on described water cover, have apopore.

4. but the rotary mop of drying dehydration according to claim 1, it is characterized in that: described water retaining cover and water cover can rotate mutually.

But 5. the rotary mop of drying dehydration according to claim 4, it is characterized in that: described dewatering device also comprises Upper shaft sleeve and Lower shaft sleeve, and Upper shaft sleeve is fixed between water retaining cover and water cover, and Lower shaft sleeve is fixed between water retaining cover and water cover.

But 6. the rotary mop of drying dehydration according to claim 5, it is characterized in that: described dewatering device also wraps locating piece, and locating piece is fixedly connected on water retaining cover, and its medial extremity is placed in the below of Lower shaft sleeve.

But 7. the rotary mop of drying dehydration according to claim 1, it is characterized in that: described rotary mop linkage also comprises sheath, and sheath is fixed on pipe, sheath coordinates with lock tube is detachable.

But 8. the rotary mop of drying dehydration according to claim 7, it is characterized in that: described lock tube is provided with groove and horizontal groove; Described sheath is provided with convex tendon, convex tendon and groove fit.

But 9. the rotary mop of drying dehydration according to claim 1, it is characterized in that: described water retaining cover axial profile is up-small and down-big, and its centre up/down perforation forms hollow, and hollow space is up-small and down-big; Described water retaining cover axial profile is up-small and down-big, and its centre up/down perforation forms hollow, and hollow space is up-small and down-big.

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