CN201537071U - Mop dehydration mechanism - Google Patents

Abstract

The utility model relates to a mop dehydration mechanism, in particular to a mop dehydration mechanism capable of improving whip stability. The mop dehydration mechanism comprises a drum, a driving unit and a hydro-extracting unit, wherein the hydro-extracting unit is formed by pivotally arranging a draining kit provided with a rotating shaft in the drum; the driving unit is provided with a brake component capable of generating automatic restoring prestress; the brake component can push a sliding plate; and the sliding plate can drive the rotating shaft of the draining kit through a planetary acceleration group. Therefore, a user can utilize the brake component of the driving unit to drive the draining kit to rotate at a high speed, so as to enable a mop cloth group of the mop arranged in the draining kit to extract water, thereby achieving the dehydration effect; and moreover, because the draining kit is directly operated by the sliding plate through the planetary acceleration group, the stability of accelerated rotation can be ensured, the swaying phenomenon caused by forced acceleration in the component is avoided, the element damage is reduced, and the service life is further prolonged.

Description

Mop dewatering mechanism

Technical field

The utility model is subordinate to a kind of dehydration technique field about mop, particularly is meant a kind of mop dewatering mechanism that quickens stability of rotation, with the dewatering efficiency of lifting mop, and prolongs the service life of this mop dewatering mechanism.

Background technology

Press, mop is a kind of cleaning supplies that are used to clear up the floor, it mainly is to be provided with one by mop group that cloth or water-absorbing body constituted in a holding rod front end, because the mop group need keep moistening and appropriate cleaning in the scale removal process, could effectively drag the spot of wearing floor, therefore in use need constantly to wash clean this mop group with scour without sediment motion, but for fear of too much influencing cleaning effect because of moisture content, before mopping floor, need the application of force that moisture content unnecessary in the mop group is deviate from usually, and traditional way mainly is with the both hands rotation or pushes this mop group, but because this way is not only easily stain user's both hands, and difficult effective moisture content drop with the mop group goes out, and causes the inconvenience of use;

Exploitation has the draining of multiple mop special use to design on the market in recent years, from being located at water squeezing basket on the bucket in early days to recent rotary dewater unit, as TaiWan, China patent announcement M327709 number, announce M338634 number " dewater unit ", announce M347146 number " bucket of the automatic water logging device of tool ", announce M349255 number " holder is using the dehydration barrel structure " and announce M350564 number " simple dehydrating device " or the like, and these dewater units mainly are to be provided with a draining basket for ccontaining mop group in staving, and the staving below is provided with and utilizes foot-operated driver element, this driver element can move the draining basket and rotate at a high speed, with the draining basket centrifugal force that utilizes rotation at a high speed the moisture content on the mop group is thrown away at a high speed, reach the purpose of dehydration.

The driver element of right these dewater units is rotating shafts that the direct application of force drives the draining basket, be subjected to the influence of structure space design, its tooth bar only can one-sidedly mesh with rotating shaft, make rotating shaft itself bear great movement in one direction power, cause it to mesh untrue problem so easily, and then generation drives unsettled phenomenon, reduce its dewatering efficiency, moreover it quickens the rotating speed of draining basket as desire, then the user need exert oneself, and trample this driver element fast, just can reach the purpose of acceleration, as easy as rolling off a log the rocking and getting loose of integral member that cause like this, the zero element of dewater unit is damaged, and have influence on its service life.

Existing dehydration barrel is in the process of using in addition, because its draining basket periphery is the paliform that is porous, therefore when the mop group is rotated at a high speed in company with the draining basket, sewage can be thrown away by centrifugal force, finish the action of dehydration, but in order to allow the mop group can in the staving of dehydration barrel, crumple cleaning, staving is inner to have an open rubbing space in draining basket one side usually, make sewage produce the power that throws away to the distant place, so when being everlasting dehydration, pollute the environment around the dehydration barrel, even spatter user's shank or trouser legs with water, allow the user relievedly trample driver element, the inconvenience and the puzzlement that cause cleaning to use.

In view of this, the utility model people deeply inquires at improving the demand of quickening stability, and by the research and development of being engaged in related industry for many years and manufacturing experience, actively seek the road that solves, research through constantly making great efforts with study, finally success develop a kind of stable mop dewatering mechanism that quickens, quicken not stability and unhandy problem to solve existing dewater unit.

The utility model content

Therefore, main purpose of the present utility model is in a kind of mop dewatering mechanism that can mesh really is provided, to promote the stability of its high speed rotating, for the dewatering efficiency that promotes mop.

Again, another main purpose of the present utility model is to provide a kind of structure firm mop dewatering mechanism, rocks and gets loose to reduce element, can effectively prolong its service life.

In addition, a main purpose more of the present utility model is in a kind of mop dewatering mechanism that avoids sewage to throw away being provided, to reduce sewage because of centrifugal force throws away the outer phenomenon of dehydration barrel, allowing the user in operating process, reason is not worried to stain and is caused the phenomenon of pausing late, can improve its dewatering efficiency.

The utility model provides a kind of mop dewatering mechanism, it is provided with a water dumping unit in a staving and a driver element is formed, this staving has the accommodation space that an opening makes progress, and the accommodation space bottom is formed with a distance piece, staving is formed with the installing space of an opening to lateral margin in the distance piece below again, and the water dumping unit has a upright rotating shaft of being located at the staving distance piece, and rotating shaft is provided with the draining basket that a periphery is paliform in an end that stretches into the staving accommodation space; It is characterized in that:

This driver element is provided with a planet acceleration group.

The utility model provides a kind of mop dewatering mechanism again, it is provided with a water dumping unit in a staving and a driver element is formed, this staving has the accommodation space that an opening makes progress, and the accommodation space bottom is formed with a distance piece, staving is formed with the installing space of an opening to lateral margin in the distance piece below again, and the water dumping unit has a upright rotating shaft of being located at the staving distance piece, and rotating shaft is provided with the draining basket that a periphery is paliform in an end that stretches into the staving accommodation space; It is characterized in that:

This driver element is provided with a planet acceleration group, the central gear that is provided with a tool unilateral bearing in the rotating shaft of water dumping unit is organized in this planet acceleration, driver element then has a wheel body, the wheel body end face is covered with a fixing internal tooth cover body, and wheel body is provided with a plurality of whiles and central gear and internal tooth cover body planet gear meshed, moreover driver element has a pedestal that is locked on staving installing space bottom, and be pivoted with the automatically reset brake component that to make progress on the pedestal, this brake component has a tread portion and an inside pushing and pressing part of outwards Gong trampling, moreover be slidingly equipped with a sliding part that is subjected to brake component pushing and pressing part action displacement on the pedestal, wherein sliding part has a tooth-strip part, and the wheel body of aforesaid planet acceleration group has corresponding rodent part, make sliding part can drive planet acceleration group, the internal tooth cover body end face center of driver element has a upwardly extending protruding axial region again, and is arranged with a waterproof jacket between protruding axial region and rotating shaft.

The utility model also provides a kind of mop dewatering mechanism, and this mop dewatering mechanism is provided with a draining basket in a staving, and staving has a rubbing space in draining basket one side, and the draining basket has a rotating shaft of extending downwards, it is characterized in that:

This draining basket periphery has a water-retaining structure, and this water-retaining structure is made of the dash basin that an opening makes progress, and cover the draining basket periphery in staving after this dash basin passes for rotating shaft, and dash basin bottom surface is formed with a plurality of leaking holes.

The utility model provides a kind of mop dewatering mechanism again, and this mop dewatering mechanism is provided with a draining basket in a staving, and staving has a rubbing space in draining basket one side, and the draining basket has a rotating shaft of extending downwards, it is characterized in that:

This staving is provided with a water-retaining structure in the corresponding rubbing of draining basket space one side, and this water-retaining structure is made of a water fender, possesses a gap between water fender root edge and staving inner bottom surface.

Thus, by representing of aforementioned techniques means, allow driver element brake component of the present utility model can drive the rotation of draining basket at a high speed, allow and place the mop moisture content on the draining basket to be thrown away at a high speed, reach the purpose of dehydration, and because slide plate is a direct action planet acceleration group, can guarantee the certainty of its driving, so can promote steady that the draining basket rotates, the phenomenon that unlikely generation is rocked, reduce the situation of component wear, further prolong its service life, so the utility model has more the enhancement of effect existing persons in aspect such as " driving really; stability of rotation; dewatering efficiency and service life ".

Description of drawings

For making the auditor can further understand formation of the present utility model, feature and other purpose, below enumerate some preferred embodiments of the present utility model, and conjunction with figs. describes in detail as after, allow simultaneously and be familiar with this technical field person and can specifically implement, wherein:

Fig. 1 is the three-dimensional appearance schematic diagram of the utility model mop dewatering mechanism.

Fig. 2 is the perspective exploded view of mop dewatering of the present utility model mechanism, for disclosing its main member and relativeness thereof.

Fig. 3 is the generalized section of looking closely of mop dewatering of the present utility model mechanism, for inner aspect behind the composition of explanation draining basket and dash unit.

Fig. 4 is the side-looking generalized section of mop dewatering mechanism of the present utility model 4-4 hatching in Fig. 6.

Fig. 5 is the section enlarged diagram of mop dewatering mechanism of the present utility model 5-5 hatching in Fig. 6.

Fig. 6 is the schematic top plan view of mop dewatering of the present utility model mechanism.

Fig. 7 is the section action schematic diagram of mop dewatering mechanism of the present utility model 7-7 hatching in Fig. 8 that reality is used.

Fig. 8 is the top plan view action schematic diagram that mop dewatering of the present utility model mechanism uses in reality.

Fig. 9 is the perspective exploded view of mop dewatering another embodiment of mechanism of the present utility model.

Figure 10 is the generalized section of another embodiment of the utility model mop dewatering mechanism 10-10 hatching in Figure 11.

Figure 11 is the schematic top plan view of mop dewatering another embodiment of mechanism of the present utility model.

Figure 12 is the section action schematic diagram of mop dewatering another embodiment of mechanism of the present utility model 12-12 hatching in Figure 13.

Figure 13 is the top plan view action schematic diagram that mop dewatering another embodiment of mechanism of the present utility model uses in reality.

Figure 14 is the mop dewatering of the present utility model mechanism generalized section of an embodiment again.

Figure 15 is the mop dewatering of the present utility model mechanism perspective exploded view of an embodiment again, for another composition that discloses the dash unit.

Figure 16 is the mop dewatering of the present utility model mechanism three-dimensional appearance schematic diagram of an embodiment again.

Figure 17 is the mop dewatering of the present utility model mechanism side-looking generalized section of an embodiment again.

Figure 18 is the perspective exploded view of the mop dewatering another embodiment of mechanism of the present utility model, for showing a wherein composition again of dash unit.

Figure 19 is the three-dimensional appearance schematic diagram of the mop dewatering another embodiment of mechanism of the present utility model.

The specific embodiment

The utility model is a kind of mop dewatering mechanism of dehydration, in the specific embodiment and member thereof of the figure illustration of enclosing mop dewatering of the present utility model mechanism, all about preceding and back, left and the right side, top and bottom, top and bottom and level and vertical reference, only be used for conveniently being described, and unrestricted the utility model, also non-its member is limited to any position or direction in space.Specified size in accompanying drawing and the specification when can be in not leaving claim scope of the present utility model, changes according to the design and the demand of specific embodiment of the utility model.

And about the formation of the utility model mop dewatering mechanism, please referring to what Fig. 1, Fig. 2 disclosed, it includes a staving 10, a driver element 20, a water dumping unit 30 and a dash unit 50 and forms;

As for detailed formation of the present utility model, then please consult Fig. 2 simultaneously, Fig. 3 and Fig. 4 those disclosed herein, wherein staving 10 has one for the accommodation space 11 that water dumping unit 30 is set, and accommodation space 11 1 sides also have a rubbing space 111, can crumple in wherein cleaning for the mop group of mop, staving 10 is formed with a distance piece 12 that is " ㄣ " font in accommodation space 11 bottoms again, allow staving 10 bottoms be formed with the installing space 13 of an opening to lateral margin, for ccontaining aforesaid driver element 20, moreover distance piece 12 is formed with a fixed cover 14 on the surface of corresponding accommodation space 11, for dash unit 50 is set, be pivoted with a carrying handle 15 that supplies the user to grip again on staving 10 opening edges;

In addition water dumping unit 30 has a rotating shaft 31 that passes staving 10 distance pieces 12, these rotating shaft 31 top build-ins have a periphery to be the draining basket 35 of paliform, and draining basket 35 can be for the mop group of ccontaining mop, moisture content can be deviate from by draining basket 35 peripheral clearances, moreover be installed with the central gear 33 of a corresponding driver element 20 in the rotating shaft 31,31 of this central gear 33 and rotating shafts are provided with a unilateral bearing 330, allow 31 effects that can produce unidirectional drive of central gear 33 and rotating shaft, and rotating shaft 31 bottoms are hubbed on the driver element 20 from moistening axle sleeve 34 by one in addition, make the rotating shaft 31 of the water dumping unit 30 shape setting of being kept upright on staving 10;

Fig. 4 and for example, Fig. 5 and shown in Figure 6, aforementioned driver element 20 includes a pedestal 21, one brake component 23, one sliding part 25 and 26 compositions of a planet acceleration group, this pedestal 21 is installing space 13 bottoms that are locked on staving 10, pedestal 21 is formed with one for from moistening the ccontaining axle bed 210 of axle sleeve 34 in the aforementioned rotating shaft of correspondence 31 bottoms places again, and pedestal 21 both side edges have the relative bracing frame 22 of gradually rising shape respectively, two bracing frames 22 are formed with the draw-in groove 220 of vertical in inboard relative wall stage casing, brake component 23 then is to utilize the axostylus axostyle 233 of both sides to be hubbed between two bracing frames, 22 tops, brake component 23 has the pushing and pressing part 232 that a tread portion 231 of outwards Gong trampling and inwardly promotes sliding part 25 again, and 23 of bracing frame 22 and brake components are arranged with a torque spring 234 (as Fig. 4 on axostylus axostyle 233, shown in Figure 6), can produce the pre-power of the bullet that upwards resets after brake component 23 is trampled downwards, moreover brake component 23 bottoms differ from tread portion 231 1 sides and protrude out a horizontal pivot block 235;

Moreover, have the two relative inverted L shape guide rail fins 24 that form sliding space 240 on the pedestal 21, slide in these sliding space 240 internal linear for sliding part 25, these sliding part 25 both sides are formed with the relative fin 250 that is limited under the guide rail fin 24 again, and sliding part 25 is formed with a tooth-strip part 251 (this tooth-strip part can as the straight-tooth shape of Fig. 5 or the helical teeth shape of Figure 14) on the lateral margin of wherein corresponding water dumping unit 30 rotating shafts 31, moreover an end of sliding part 25 corresponding brake components 23 is formed with a pivoting frame groove 252, this pivoting frame groove 252 can be pivoted for pushing and pressing part 232 pivot blocks 235 of aforementioned brake component 23, makes brake component 23 and sliding part 25 form continuous action relation;

And planet acceleration group 26 is to be pivoted with a wheel body 27 in aforementioned rotating shaft 31, these wheel body 27 end faces are formed with the equidistant arc spacing block set 275 of three lobes, and the wheel that is formed with slightly rounded shape in 275 of adjacent spacing block sets changes space 276, make wheel body 27 can utilize each wheel change space 276 respectively hub setting one planet gear 28 is arranged, and each planetary gear 28 and the energy while central gear 33 with aforementioned rotating shaft 31 is meshing with each other, moreover wheel body 27 end faces are covered with an internal tooth cover body 270, internal tooth cover body 270 inner edges and be formed with can with the interior tip edge of aforementioned each planetary gear 28 outer rim engagement, internal tooth cover body 270 end face centers have a upwardly extending protruding axial region 271 again, and 31 of protruding axial region 271 and rotating shafts are arranged with a waterproof jacket 272, make planet acceleration group 26 have waterproof action, to reduce the probability of its damage, moreover internal tooth cover body 270 peripheries have the card article 274 (as shown in Figure 5) of corresponding aforementioned supported on both sides frame 22 draw-in grooves 220, this internal tooth cover body 270 can be positioned not to rotate, wheel body 27 hypomeres are formed with a rodent part 273 than path (this rodent part can as the straight-tooth shape of Fig. 5 or the helical teeth shape of Figure 14) again, this rodent part 273 is to mesh (as Fig. 5 with aforementioned sliding part 25 tooth-strip parts 251, shown in Figure 14), when making sliding part 25 be subjected to brake component 23 action displacements, brake component 23 can compress this torque spring 234 and produce the pre-power of replying, so can pass through the wheel body 27 of the tooth-strip part 251 action planet acceleration groups 26 of sliding part 25, and then drive the rotating shaft 31 unidirectional rotations of tool central gears 33 by planetary gear 28, and lose when trampling active force when brake component 23, brake component 23 can be replied by the pre-power effect of torque spring 234 answers, and drive sliding part 25 automatically resets, and utilize the unilateral bearing 330 of central gear 33 and rotating shaft 31 to form idle running, with the draining basket 35 unidirectional high speed rotations that drive water dumping unit 30, to reach the purpose of quickening dehydration;

As for 50 of water-retaining structures is to be located at outside the draining basket 35 of staving 10, this water-retaining structure 50 is made of a dash basin 51, after passing for rotating shaft 31, dash basin 51 covers draining basket 35 peripheries in staving 10, dash basin 51 bottom surfaces are formed with a plurality of leaking holes 52 (as shown in Figure 3) for the sewage discharge again, moreover dash basin 51 apical margins are formed with lug 53 one, and draining basket 35 apical margins outwards are bent with a bending lip sheet 36 downwards, make draining basket 35 outsides between bending lip sheet 36, be formed with annular groove 37, lug 53 apical margins of aforementioned dash basin 51 can be staggered with bending lip sheet 37 root edges, make lug 53 can stretch into annular groove 37 and form and turn round runner, to prevent the sewage backflow ejection, moreover dash basin 51 outer rims are formed with the ring that can paste together to staving 10 inner edges and support sheet 54, make dash basin 51 can obtain stable support, dash basin 51 bottom surfaces are formed with an axle sleeve 55 in addition, the fixed cover 14 that this dash basin 51 can utilize axle sleeve 55 covers to pull and be formed on the staving 10 in one, aforementioned again draining basket 35 bottom surfaces are formed with corresponding staggered sheathing 38, make axle sleeve 55 apical margins can be higher than sheathing 38 root edges, and then form the revolution runner, overflow to prevent sewage backflow;

Thus, organize the mop dewatering mechanism that constitutes an acceleration slow-roll stabilization degree height and can promote operation ease.

By above-mentioned structural design, during practice of the present utility model, then be to disclose as Fig. 4, Fig. 5 and Fig. 6, under normal condition, the brake component 23 of driver element 20 is subjected to torque spring 234 to reply pre-power effect, the tread portion 231 of brake component 23 is upturned, and the common step drives sliding part 25 and is positioned pedestal 21 front ends;

When operation, then please with further reference to Fig. 7, shown in Figure 8, the user earlier places the mop group of mop in the draining basket 35 of water dumping unit 30 of staving 10, follow brake component 23 tread portion 231 of trampling this driver element 20 with single pin, making brake component 23 pushing and pressing parts 232 promote sliding part 25 relative pedestals 21 by the pivot block 235 and the pivot junction relationship of pivoting frame groove 252 slides, and because the tooth-strip part 251 of sliding part 25 is wheel body 27 hypomere rodent parts 273 engagements with driver element 20, former these wheel body 27 relatively-stationary internal tooth cover bodies 270 that can move rotate, and wheel body 27 can be through planetary gear 28, central gear 33 and unilateral bearing 330 drive these draining basket 35 rotating shafts 31 indirectly, and when brake component 23 is resetted by torque spring 234 effects, drive sliding part 25 travelling backwards that resets simultaneously, and because sliding part 25 can be with wheel body 27 reverse rotations, and the design of the unilateral bearing 330 by central gear 33, make 31 of central gear 33 and rotating shafts produce idle running, rotating shaft 31 reverse rotations of unlikely drive draining basket 35 allow draining basket 35 only can unidirectionally rotate;

So, after back and forth trampling brake component 23, can progressively increase the rotary speed of wheel body 27, and because wheel body 27 can be by the internal tooth cover body 270 in big footpath and the central gear 33 in the 28 action rotating shafts 31 of a plurality of planetary gear, and can improve its rotating ratio, make rotating shaft 31 can quicken rotation, and then draining basket 35 synchronous high-speeds that drive water dumping unit 30 rotate, allow the mop group moisture content that places draining basket 35 inside can utilize centrifugal force to throw away, and reach the purpose of dehydration, because its driving mainly is to utilize planet acceleration group 26, therefore its driving force all is distributed in rotating shaft 31 peripheries, the phenomenon that one-sided stress can not occur significantly promote the stability of its running, and speed is far above existing person, so can promote its dewatering efficiency, shaking phenomenon is less in the operating process simultaneously, and the problem that unlikely generating device gets loose is so can prolong its service life.

For another shown in Figure 3, when the user drives draining basket 35 by the brake component 23 of trampling driver element 20, because draining basket 35 corresponding stavings 10 rubbing spaces 111 1 sides have the dash basin 51 of water-retaining structure 50, make the moisture content that throws away to be subjected to backstop, unlikelyly get rid of far away or throw away staving 10 outsides, simultaneously because dash basin 51 utilizes the bending lip sheet 36 of lug 53 and axle sleeve 55 and draining basket 35 and the particular design that sheathing 38 forms the revolution runners, can avoid polluting surrounding environment, and also unlikely contamination user's shank or trouser legs, so the user can not have under the psychology burden, decapacitation allows actuating do outside more stable and the facility, more can improve draining basket 35 rotary speeies of dehydration barrel, and can further promote its dewatering efficiency.

Moreover, the utility model has an embodiment in addition, it is as Fig. 9, Figure 10 and shown in Figure 11, the pedestal 21 central axis both sides of this driver element 20 are formed with highly lower guide rail fin 245, be slidingly equipped with one between the two side rails fins 245 and be down a sliding part 255 of word font, the long axis of this sliding part 255 is formed with a length that supplies aforementioned rotating shaft 31 to pass and passes through groove 256, an end of sliding part 255 corresponding brake components 23 is formed with a pivoting frame groove 257 again, this pivoting frame groove 257 can be pivoted for pushing and pressing part 232 pivot blocks 235 of aforementioned brake component 23, make brake component 23 and sliding part 255 form continuous action relation, and between sliding part 255 two ends and be provided with a flexible stay cord 60, this flexible stay cord 60 also is formed around with a wound portion 61 in the hypomere of wheel body 27, and be provided with an extension spring 62 between the front end of flexible stay cord 60 and sliding part 255 front ends, when making sliding part 255 be subjected to brake component 23 action displacements, brake component 23 can compress this torque spring 234 and produce the pre-power of replying, and when brake component 23 loses pedal force, torque spring 234 can move brake component 23 and automatically reset with sliding part 25, and the active force of the extension spring 62 of aforementioned flexible stay cord 60 is slightly less than the active force of torque spring 234, make flexible stay cord 60 can produce the effect that keeps tightening wheel body 27 hypomeres, allow driver element 20 can utilize flexible stay cord 60 can move planet acceleration group 26, with draining basket 35 rotation at a high speed that drives water dumping unit 30, to reach the purpose of quickening dehydration;

As for its practical operation, then be as Figure 12, what Figure 13 disclosed, trample brake component 23 tread portion 231 of this driver element 20 with single pin as the user, making brake component 23 pushing and pressing parts 232 can promote sliding part 255 relative pedestals 21 slides, owing to have the flexible stay cord 60 of wound portion utilized 61 on the sliding part 255 around wheel body 27 hypomeres, so can utilize the power of tightening of flexible stay cord 60 to drive wheel body 27 relatively-stationary internal tooth cover body 270 rotations, and pass through wheel body 27 through planetary gear 28, central gear 33 and unilateral bearing 330 drive rotating shaft 31 unidirectional rotations, and when sliding part 25 is resetted by torque spring 234 effects, then because sliding part 25 is not subjected to pulling force, therefore flexible stay cord 60 wound portions 61 can oppositely retract rotation with wheel body 27, and the design by this unilateral bearing 330, make central gear 33 can utilize unilateral bearing 330 and 31 of rotating shafts to be the idle running shape, so under reciprocating, can progressively improve the rotary speed of wheel body 27, and because the internal tooth cover body 270 in big footpath can be by the central gear 33 in a plurality of planetary gear 28 action rotating shafts 31, and can improve its rotating ratio, allow rotating shaft 31 be unidirectional rotation, and then draining basket 35 synchronous high-speeds that drive water dumping unit 30 rotate, and can will place the mop group of draining basket 35 inside to utilize centrifugal force that moisture content is thrown away, reach the purpose of dehydration, and because its driving mainly is to utilize planet acceleration group 26, therefore its driving force all is distributed in rotating shaft 31 peripheries, the phenomenon that one-sided stress can not occur, significantly promote the stability of its running, and speed is far above existing person, so can promote its dewatering efficiency, shaking phenomenon is less in the operating process simultaneously, the problem that unlikely generating device gets loose is so can prolong its service life.

And as Figure 15, Figure 16 and shown in Figure 17, it is the utility model embodiment again, this mop dewatering bucket is to have the rubbing space 111 that an opening makes progress in staving 10 draining baskets 35 1 sides, use for mop in wherein cleaning rubbing, and staving 10 apical margins also have a broad opening edge that can promote structural strength, staving 10 is provided with a water-retaining structure 70 in draining basket 35 corresponding rubbing spaces 111 1 sides again, this water-retaining structure 70 is made of a water fender 71, water fender 71 is formed with the circular opening retaining edge 72 (as shown in figure 17) that can cover together in draining basket 35 apical margin inboards in apical margin, opening retaining edge 72 can prevent that sewage from upwards throwing away along draining basket 35 apical margins, water fender 71 apical margins are formed with the cramp 73 of one U type in addition again, cramp 73 can correspondingly be detained opening edge one side of being located at staving 10, and cramp 73 apical margins and be formed with one can hook the protruding button edge 730 of opening edge, pull on the opening edge of staving 10 (as shown in figure 17) for button, the water fender 71 of water-retaining structure 70 can be fixed on the staving 10, and cramp 73 is formed with a breach 731 in corresponding staving 10 carrying handles 15 places, to avoid influencing the action of carrying handle 15, moreover possess appropriate gap between water fender 71 root edges and staving 10 inner bottom surfaces, but allow water source intercommunications in the staving 10, water fender 71 can be located in staving 10, with the moisture content that stops draining basket 35 to throw away at a high speed, it equally has aforesaid advantage and practical value.

Moreover, the utility model has an embodiment in addition, it is as Figure 18, shown in Figure 19, this water-retaining structure 70 is made of a water fender 75, water fender 75 both side edges have the joint portion 76 (as lug or groove or other binding member) of corresponding staving 10 relative inner walls, and two interior sidewall surface of staving 10 correspondences are formed with one relative combination raised line 77 respectively, be formed with the joint portion 78 (as corresponding groove or lug or other binding member) of corresponding aforementioned joint portion 76 on the raised line 77, allow water fender 75 alternatives be located in staving 10, with the moisture content that stops draining basket 35 to throw away at a high speed, it equally has aforesaid advantage and practical value.

Thus, be appreciated that the utility model is the splendid novel creation of an intention, except effective solution has the problem that the person is faced now, more significantly promote effect, and in identical technical field, do not see identical or approximate product creation or public use, the enhancement that has effect simultaneously so the utility model has met the condition of novel patent about " novelty " and " creativeness ", is the novel patent of in accordance with the law filing an application.

Claims (10)

1. mop dewatering mechanism, it is provided with a water dumping unit in a staving and a driver element is formed, this staving has the accommodation space that an opening makes progress, and the accommodation space bottom is formed with a distance piece, staving is formed with the installing space of an opening to lateral margin in the distance piece below again, and the water dumping unit has a upright rotating shaft of being located at the staving distance piece, and rotating shaft is provided with the draining basket that a periphery is paliform in an end that stretches into the staving accommodation space; It is characterized in that:

This driver element is provided with a planet acceleration group.

2. mop dewatering as claimed in claim 1 mechanism, it is characterized in that, wherein the central gear that is provided with a tool unilateral bearing in the rotating shaft of water dumping unit is organized in this planet acceleration, driver element then has a wheel body, the wheel body end face is covered with a fixing internal tooth cover body, and wheel body is provided with a plurality of whiles and central gear and internal tooth cover body planet gear meshed.

3. mop dewatering as claimed in claim 2 mechanism is characterized in that wherein the internal tooth cover body end face center of this driver element has a upwardly extending protruding axial region, and is arranged with a waterproof jacket between protruding axial region and rotating shaft.

4. mop dewatering as claimed in claim 1 mechanism, it is characterized in that, wherein this driver element has a pedestal that is locked on staving installing space bottom, and be pivoted with the automatically reset brake component that makes progress on the pedestal, this brake component has a tread portion and an inside pushing and pressing part of outwards Gong trampling, moreover is slidingly equipped with a sliding part that is subjected to brake component pushing and pressing part action displacement on the pedestal.

5. mop dewatering as claimed in claim 4 mechanism is characterized in that wherein the sliding part of this driver element has a tooth-strip part, and the wheel body of planet acceleration group has corresponding rodent part.

6. mop dewatering as claimed in claim 4 mechanism, it is characterized in that, wherein the sliding part of this driver element has a length that passes for rotating shaft and passes through groove, and sliding part is with a flexible stay cord pulling wheel body, be provided with an extension spring between flexible stay cord front end and sliding part front end, and flexible stay cord is formed around with a wound portion in the wheel body hypomere.

7. mop dewatering as claimed in claim 4 mechanism, it is characterized in that, wherein the pedestal of this driver element has two upwardly extending corresponding bracing frames, and brake component utilizes axostylus axostyle to be hubbed between two bracing frames, and is provided with a torque spring in shaft rod upper sleeve between bracing frame and brake component.

8. mop dewatering as claimed in claim 4 mechanism is characterized in that, wherein an end of the corresponding brake component of the sliding part of this driver element has a pivoting frame groove, the be pivoted pivot block of brake component of this pivoting frame groove.

9. mop dewatering as claimed in claim 7 mechanism, it is characterized in that, wherein the bracing frame interior sidewall surface of this driver element is formed with the draw-in groove of vertical, and the internal tooth cover body periphery of planet acceleration group has corresponding card article, this internal tooth cover body can be positioned not rotate.

10. mop dewatering mechanism, it is provided with a water dumping unit in a staving and a driver element is formed, this staving has the accommodation space that an opening makes progress, and the accommodation space bottom is formed with a distance piece, staving is formed with the installing space of an opening to lateral margin in the distance piece below again, and the water dumping unit has a upright rotating shaft of being located at the staving distance piece, and rotating shaft is provided with the draining basket that a periphery is paliform in an end that stretches into the staving accommodation space; It is characterized in that:

This driver element is provided with a planet acceleration group, the central gear that is provided with a tool unilateral bearing in the rotating shaft of water dumping unit is organized in this planet acceleration, driver element then has a wheel body, the wheel body end face is covered with a fixing internal tooth cover body, and wheel body is provided with a plurality of whiles and central gear and internal tooth cover body planet gear meshed, moreover driver element has a pedestal that is locked on staving installing space bottom, and be pivoted with the automatically reset brake component that to make progress on the pedestal, this brake component has a tread portion and an inside pushing and pressing part of outwards Gong trampling, moreover be slidingly equipped with a sliding part that is subjected to brake component pushing and pressing part action displacement on the pedestal, wherein sliding part has a tooth-strip part, and the wheel body of aforesaid planet acceleration group has corresponding rodent part, make sliding part can drive planet acceleration group, the internal tooth cover body end face center of driver element has a upwardly extending protruding axial region again, and is arranged with a waterproof jacket between protruding axial region and rotating shaft.

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