CN103961044B - A kind of burnisher - Google Patents

Abstract

A kind of burnisher, comprise mop and mop-pail stands, mop comprises mop rod, mop disc; The bottom surface of mop-pail stands has one and is provided with salient point fixed axis, and fixed axis being gone back kink has location core retainer plate; Locate the bottom that core retainer plate is positioned at staving when mop-cleaning state, when mop dewatering state, locating core cover hangs on the salient point of fixed axis.Another program of the present invention is: the bottom surface of mop-pail stands has a fixed axis that can stretch in mop disc and mop rod, and fixed axis is provided with at least one salient point; The back side of mop disc also has a track sliding sleeve, and under mop-cleaning state, fixed axis is penetrated by mop disc, and mop disc is positioned at the bottom of mop-pail stands; Under mop dewatering state, salient point withstands on the high-order hanging groove of slide rail.The present invention, by arranging track sliding sleeve, controls the high-low-position of mop disc in mop-pail stands, and track sliding is sheathed on the fixed axis of mop disc or mop-pail stands, and occupied space is minimum, and structure is also comparatively simple.

Description

A kind of burnisher

Technical field

The present invention relates to a kind of burnisher.

Background technology

Existing conventional cleaning implements generally comprises mop and mop-pail stands, the washing station for cleaning mop, dehydration station for dewatering to mop is provided with in mop-pail stands, at washing station, mop is cleaned, at dehydration station, dehydration basket is installed and mop is dewatered.The burnisher of this kind of structure is respectively equipped with washing station and dehydration station owing to cleaning, and therefore structure is comparatively huge.

For the problems referred to above, have devised the liftable burnisher of dehydration basket, dehydration basket is located on a shelf by this kind of burnisher, at the inwall of mop-pail stands, fluctuating orbit is set, shelf can be elevated along fluctuating orbit, thus cleans at low level, dewaters in a high position.This kind of burnisher also Problems existing is: need design underframe for installing dehydration basket, underframe also needs to coordinate with the track of mop-pail stands inwall simultaneously, underframe and track all need to occupy certain space, not only complex structure, and equally cannot be miniaturized by burnisher further.

Summary of the invention

In order to overcome the above-mentioned deficiency of existing burnisher, the invention provides a kind of structure simple, can the burnisher of miniaturization further.

The technical scheme that the present invention solves its technical problem is: a kind of burnisher, comprise mop and mop-pail stands, described mop comprises mop rod, is located at the mop disc of described mop rod lower end, be provided with driving mechanism in described mop rod, described mop disc rotates by the driving of described driving mechanism;

The bottom surface of described mop-pail stands has a fixed axis that can stretch in described mop disc and mop rod, and described fixed axis is provided with at least one salient point;

Described fixed axis is gone back kink and have location core retainer plate, the head of described location core retainer plate can take off by force after cutting ferrule with described mop disc phase cutting ferrule;

Location core retainer plate described in when mop-cleaning state is positioned at the bottom of described mop-pail stands, and the locating core cover described in when mop dewatering state hangs on the salient point of described fixed axis;

Described location core retainer plate comprises the track sliding sleeve be placed on described fixed axis, the inwall of described track sliding sleeve is provided with slide rail, described slide rail has the salient point gateway slipped into for described salient point or skid off, the high-order hanging groove being positioned at a high position, and the high-order hanging groove described in when mop dewatering state hangs on the salient point of described fixed axis;

Described track sliding sleeve also has one to surround cover outward, and described encirclement cover formation one die cavity, described track sliding sleeve is positioned at described die cavity.

Further, be provided with plane bearing between the upper surface of described track sliding sleeve and the upper surface of described die cavity, plane bearing greatly can reduce the friction of surrounding when mop disc rotates between cover and track sliding sleeve.

Further, described salient point has one; The shape of described slide rail is: form the first pull-up section by described salient point gateway to downward-extension, the lower end of described first pull-up section is to a lateral buckling;

The top of the bending place of described first pull-up section is communicated with the First Transition section risen along described track sliding sleeve inwall, and the upper end of described First Transition section forms described high-order hanging groove;

Described high-order hanging groove to downward-extension thus formed the second pull-up section, the lower end of described second pull-up section is to a lateral buckling, and the direction of bending and the overbending direction of described first pull-up section lower end are in the same way;

The top of the bending place of described second pull-up section is communicated with the second changeover portion risen along described track sliding sleeve inwall, and the other end of described second changeover portion is communicated with the first described pull-up section.

Further, the inwall of described track sliding sleeve is also provided with by the first guide surface of surface thereof, the second guide surface, the lower end of described first guide surface is positioned at the side of described salient point gateway, the lower end of described second guide surface is positioned at the opposite side of described salient point gateway, and the upper end of described first guide surface and the upper end of described second guide surface are converged.Salient point successfully can guide and enter in salient point gateway by the first guide surface, the second guide surface.

Further, the described head surrounding cover has the draw-in groove of a circle indent, and the center of described mop disc has the groove of indent, has the grab that some with described draw-in groove coordinates in described groove.

Further, described track sliding sleeve is overlapped by upper rail and lower rail cover forms, and rabbets between described upper rail cover and lower rail overlap; Described encirclement cover is made up of upper jacket and lower jacket, clamping between described upper jacket and described lower jacket.

Further, described encirclement puts extends dehydration basket; Surround on the upper jacket described in when cover is made up of upper jacket and lower jacket and extend dehydration basket.

Such scheme is the technical scheme be sheathed on by track sliding in mop-pail stands, and in use, step is as follows for this kind of technical scheme:

Under original state, location core retainer plate is positioned at the bottom of mop-pail stands.First be placed in mop-pail stands by mop disc, fixed axis penetrates in mop disc and mop rod, and mop disc and location core retainer plate phase cutting ferrule, driving mechanism drives mop disc to rotate, and cleans at low level.Clean complete need dehydration time, mop rod is upwards carried, salient point on fixed axis enters in track sliding sleeve through salient point gateway, and final location withstands on described high-order hanging groove, now locate core retainer plate namely to hang on the salient point of fixed axis, mop disc is also positioned at a high position, and driving mechanism drives mop disc to rotate, and dewaters in a high position.

Another kind of technical scheme of the present invention is:

A kind of burnisher, comprise mop and mop-pail stands, described mop comprises mop rod, is located at the mop disc of described mop rod lower end, is provided with driving mechanism in described mop rod, and described mop disc rotates by the driving of described driving mechanism;

The bottom surface of described mop-pail stands has a fixed axis that can stretch in described mop disc and mop rod, and described fixed axis is provided with at least one salient point;

The back side of described mop disc also has a track sliding sleeve, the inwall of described track sliding sleeve is provided with slide rail, and described slide rail has the salient point gateway, upper end slipped into for described salient point or skid off, the salient point gateway, lower end supplying described salient point to slip into or skid off, is positioned at high-order high-order hanging groove;

Fixed axis described under mop-cleaning state is penetrated by mop disc, and described mop disc is positioned at the bottom of described mop-pail stands; Salient point described under mop dewatering state withstands on described high-order hanging groove.

Further, plane bearing is provided with between the upper surface of described track sliding sleeve and the back side of mop disc.Arranging plane bearing can make mop disc when rotating, and greatly reduces the frictional force between mop disc and track sliding sleeve.

Further, the back side of described mop disc is provided with an encirclement cover, and described encirclement cover formation one die cavity, described track sliding sleeve is positioned at described die cavity.

Further, described salient point has one; The shape of described slide rail is: upwards extend data feedback channel by described salient point gateway, lower end, by described salient point gateway, upper end to downward-extension down going channel, the First Transition channel connection tilted by one between described data feedback channel and down going channel, the lower end of described down going channel is to away from salient point gateway one, lower end lateral buckling;

The top of the bending place of described down going channel is communicated with the second transition passage risen along described track sliding sleeve inwall, and the upper end of described second transition passage forms described high-order hanging groove;

Described high-order hanging groove extends disengaging passage downwards, is communicated with after the lower end bending of described disengaging passage with described data feedback channel, and the direction departing from the lower end bending of passage is identical with the overbending direction of the lower end of described down going channel.

Further, the upper end of described track sliding sleeve inwall is also provided with the first guide surface, second guide surface of inclination, the lower end of described first guide surface is positioned at the side of salient point gateway, described upper end, the lower end of described second guide surface is positioned at the opposite side of salient point gateway, described upper end, and the upper end of described first guide surface and the upper end of described second guide surface are converged;

The lower end of described track sliding sleeve inwall is also provided with the 3rd guide surface, the 4th guide surface of inclination, the upper end of described 3rd guide surface is positioned at the side of salient point gateway, described lower end, the upper end of described 4th guide surface is positioned at the opposite side of salient point gateway, described lower end, and the lower end of described 3rd guide surface and the lower end of described 4th guide surface are converged.Salient point can successfully import and export in slide rail by the first guide surface, the second guide surface, the 3rd guide surface, the 4th guide surface.

Further, described track sliding sleeve is overlapped by upper rail and lower rail cover forms, and rabbets between described upper rail cover and lower rail overlap.

Further, described encirclement cover is made up of upper jacket and lower jacket, and the back side being wrapped in described mop disc on described is protruded downwards and formed, clamping between described upper jacket and described lower jacket.

Such scheme is the technical scheme be sheathed on by track sliding in mop disc, and in use, step is as follows for this kind of technical scheme:

First mop disc is placed in mop-pail stands, fixed axis penetrates in mop disc and mop rod, salient point on fixed axis to enter into through salient point gateway, lower end in track sliding sleeve and finally entered salient point gateway, upper end and skids off, mop disc is deep into the bottom of mop-pail stands, driving mechanism drives mop disc to rotate, and cleans at low level.Clean complete need dehydration time, upwards carried by mop rod, the salient point on fixed axis enters in track sliding sleeve and final location and withstands on described high-order hanging groove through epirelief point gateway, now mop disc is positioned at a high position, driving mechanism drives mop disc to rotate, and dewaters in a high position.

Beneficial effect of the present invention is: by arranging track sliding sleeve, controls the high-low-position of mop disc in mop-pail stands, and track sliding is sheathed on the fixed axis of mop disc or mop-pail stands, and occupied space is minimum, and structure is also comparatively simple.

Accompanying drawing explanation

Fig. 1 is the burnisher sectional view in use in embodiment one.

Fig. 2 is the sectional view of mop-pail stands in embodiment one.

Fig. 3 is the partial enlarged drawing of part A in Fig. 2.

Fig. 4 is the plane of slide rail in embodiment one.

Fig. 5 is the structural representation of embodiment one middle orbit sliding sleeve.

Fig. 6 is the burnisher sectional view in use in embodiment two.

Fig. 7 is the partial enlarged drawing of part B in Fig. 6.

Fig. 8 is the plane of slide rail in embodiment two.

Fig. 9 is the upward view of embodiment two middle orbit sliding sleeve

Figure 10 is the top view of embodiment two middle orbit sliding sleeve.

Detailed description of the invention

Below in conjunction with the drawings and specific embodiments, the present invention is described in further detail.

Embodiment one

With reference to Fig. 1 ~ Fig. 5, the arrow points wherein in Fig. 4 is the track of salient point.

A kind of burnisher, comprises mop and mop-pail stands 3, described mop comprise mop rod 1,

Be located at the mop disc 2 of described mop rod 1 lower end, be provided with driving mechanism in described mop rod 1, described mop disc 2 rotates by the driving of described driving mechanism.

The bottom surface of described mop-pail stands 3 has a fixed axis 4 that can stretch in described mop disc 2 and mop rod 1, and described fixed axis is provided with at least one salient point 5.In the present embodiment, fixed axis is provided with a salient point 5.

Described fixed axis 4 is gone back kink and have location core retainer plate 6, the head of described location core retainer plate 6 can take off by force after cutting ferrule with described mop disc 2 phase cutting ferrule.

Location core retainer plate 6 described in when mop-cleaning state is positioned at the bottom of described mop-pail stands 3, and the location core retainer plate 6 described in when mop dewatering state hangs on the salient point 5 of described fixed axis.

Described location core retainer plate 6 comprises the track sliding sleeve be placed on described fixed axis, conveniently assembles, and the present embodiment middle orbit sliding sleeve overlaps 8 by upper rail cover 7 and lower rail and forms, and described upper rail cover 7 and lower rail are rabbeted between overlapping 8.The inwall of described track sliding sleeve is provided with slide rail, and described slide rail has the salient point gateway 9 slipped into for described salient point or skid off, the high-order hanging groove 10 being positioned at a high position, and the high-order hanging groove 10 described in when mop dewatering state hangs on the salient point 5 of described fixed axis 4.

Described track sliding sleeve also has one to surround cover outward, and described encirclement cover formation one die cavity, described track sliding sleeve is positioned at described die cavity.In the present embodiment, conveniently assemble, described encirclement cover is made up of upper jacket 11 and lower jacket 12, clamping between described upper jacket 11 and described lower jacket 12.

In the present embodiment, be provided with plane bearing 13 between the upper surface of described track sliding sleeve and the upper surface of described die cavity, plane bearing 13 greatly can reduce the friction of surrounding when mop disc rotates between cover and track sliding sleeve.

In the present embodiment, the concrete shape of slide rail is: form the first pull-up section 14 by described salient point gateway 9 to downward-extension, the lower end of described first pull-up section 14 is to a lateral buckling;

The top of the bending place of described first pull-up section 14 is communicated with the First Transition section 15 risen along described track sliding sleeve inwall, and the upper end of described First Transition section 15 forms described high-order hanging groove 10;

Described high-order hanging groove 10 to downward-extension thus formed the second pull-up section 16, the lower end of described second pull-up section 16 is to a lateral buckling, and the direction of bending and the overbending direction of described first pull-up section 14 lower end are in the same way;

The top of the bending place of described second pull-up section 16 is communicated with the second changeover portion 17 risen along described track sliding sleeve inwall, and the other end of described second changeover portion 17 is communicated with the first described pull-up section 14.

In the present embodiment, the inwall of described track sliding sleeve is also provided with by the first guide surface 18, second guide surface 19 of surface thereof, the lower end of described first guide surface 18 is positioned at the side of described salient point gateway 9, the lower end of described second guide surface 19 is positioned at the opposite side of described salient point gateway 9, and the upper end of described first guide surface 18 and the upper end of described second guide surface 19 are converged.Salient point successfully can guide and enter in salient point gateway by the first guide surface 18, second guide surface 19.

Such scheme is the technical scheme be sheathed on by track sliding in mop-pail stands, and in use, step is as follows for this kind of technical scheme:

Under original state, location core retainer plate 6 is positioned at the bottom of mop-pail stands.First be placed in mop-pail stands 3 by mop disc 2, fixed axis 4 penetrates in mop disc and mop rod, and mop disc 2 and location core retainer plate 6 phase cutting ferrule, driving mechanism drives mop disc 2 to rotate, and cleans at low level.Clean complete need dehydration time, upwards carried by mop rod 1, due to mop disc 2 and location core retainer plate 6 phase cutting ferrule, therefore whole location core retainer plate 6 is also up, salient point 5 on fixed axis, under the guiding of the first guide surface 18 or the second guide surface 19, enters in track sliding sleeve through salient point gateway 9.Continue to pull-up mop rod, make salient point 5 enter into the first pull-up section 14, when salient point is positioned at the end of the first pull-up section 14, mop rod cannot pull-up again.Then mop rod is pushed away downwards, location core retainer plate 6 is descending, salient point 5 enters in First Transition section 15, rotates, until salient point 5 is positioned the upper end of First Transition section 15 at the effect lower railway sliding sleeve of downforce, namely salient point 5 withstands in high-order hanging groove 10, now mop rod cannot press down again, and namely location core retainer plate 6 hangs on the salient point 5 of fixed axis, and mop disc 2 is also positioned at a high position, driving mechanism drives mop disc 2 to rotate, and dewaters in a high position.After having dewatered, carry on mop rod, salient point 5 enters into the second pull-up section 16, when salient point is positioned at the end of the second pull-up section 16, mop rod cannot pull-up again, now pull-up mop rod by force again, make to depart from by force between mop disc 2 and location core retainer plate 6, locate core retainer plate 6 afterwards to glide under the effect of self gravitation, salient point 5 skids off from salient point gateway 9 via the second changeover portion 17, first pull-up section 14, and location core retainer plate 6 falls to bottom mop-pail stands.

Certain slide rail can also adopt other shapes, as long as in concept of the present invention, all belongs within protection scope of the present invention.

And the salient point on fixed axis also can arrange two even more, only need arrange in track sliding sleeve during the multiple salient point of facility multiple to top slide rail.

In the present embodiment, between mop disc and location core retainer plate, cutting ferrule and strong de-concrete mode are: describedly surround the draw-in groove 20 that the head overlapped has a circle indent, the center of described mop disc 2 has the groove of indent, has the grab that some with described draw-in groove coordinates in described groove.Grab hooks in draw-in groove 20, and both can be in conjunction with; Pull-up mop disc 2 by force, can deviate from grab.Certainly also can adopt other structures, such as, establish a card ball at the head surrounding cover, be provided with elastic ball groove in the bottom surface of mop disc, under reset condition elastic ball groove be dimensioned slightly smaller than card ball, snapped in by card ball in elastic ball groove, both can be in conjunction with, pull-up mop disc by force, can deviate from card ball.

Also can extend dehydration basket 21 on encirclement cover; Surround on the upper jacket 11 described in when cover is made up of upper jacket 11 and lower jacket 12 and extend dehydration basket 21.The effect of dehydration basket 21 is the clean lousiness on mop disc 2 to be put together.

Embodiment two

With reference to Fig. 6 ~ Figure 10, the arrow points wherein in Fig. 8 is the track of salient point.

A kind of burnisher, comprise mop and mop-pail stands 3, described mop comprises mop rod 1, is located at the mop disc 2 of described mop rod 2 lower end, is provided with driving mechanism in described mop rod 1, and described mop disc 2 rotates by the driving of described driving mechanism.

The bottom surface of described mop-pail stands 3 has a fixed axis 4 that can stretch in described mop disc and mop rod, and described fixed axis 4 is provided with at least one salient point 5, and in the present embodiment, salient point 5 has one.

The back side of described mop disc also has a track sliding sleeve.In the present embodiment, the back side of described mop disc is provided with an encirclement cover, and described encirclement cover formation one die cavity, described track sliding sleeve is positioned at described die cavity.In order to easy to assembly, described encirclement cover is made up of upper jacket 11 and lower jacket 12, and described upper jacket 11 protrudes downwards at the back side of described mop disc 2 and forms, clamping between described upper jacket 11 and described lower jacket 12.

The inwall of described track sliding sleeve is provided with slide rail, and described slide rail has the salient point gateway, upper end 22 slipped into for described salient point 5 or skid off, the salient point gateway, lower end 23 supplying described salient point 5 to slip into or skid off, is positioned at high-order high-order hanging groove 10.In order to easy to assembly, the track sliding sleeve described in the present embodiment overlaps 8 by upper rail cover 7 and lower rail and forms, and described upper rail cover 7 and lower rail are rabbeted between overlapping 8.

Fixed axis 4 described under mop-cleaning state is penetrated by mop disc 2, and described mop disc 2 is positioned at the bottom of described mop-pail stands 3; Salient point 5 described under mop dewatering state withstands on described high-order hanging groove 10.

In the present embodiment, between the upper surface of described track sliding sleeve and the back side of mop disc 2, be provided with plane bearing 13.Arranging plane bearing 13 can make mop disc when rotating, and greatly reduces the frictional force between mop disc and track sliding sleeve.

In the present embodiment, the shape of described slide rail is: upwards extend data feedback channel 24 by described salient point gateway, lower end 23, by described salient point gateway, upper end 22 to downward-extension down going channel 25, described data feedback channel 24 is communicated with the First Transition passage 26 tilted by between down going channel 25, and the lower end of described down going channel 25 is to away from salient point gateway 23 1, lower end lateral buckling;

The top of the bending place of described down going channel 25 is communicated with the second transition passage 27 risen along described track sliding sleeve inwall, and the upper end of described second transition passage 27 forms described high-order hanging groove 10;

Described high-order hanging groove 10 extends disengaging passage 28 downwards, is communicated with after the lower end bending of described disengaging passage 28 with described data feedback channel 24, and the direction departing from the lower end bending of passage 28 is identical with the overbending direction of the lower end of described down going channel 25.

The upper end of the sliding sleeve of track described in the present embodiment inwall is also provided with the first guide surface 18, second guide surface 19 of inclination, the lower end of described first guide surface 18 is positioned at the side of salient point gateway, described upper end 22, the lower end of described second guide surface 19 is positioned at the opposite side of salient point gateway, described upper end 22, and the upper end of described first guide surface 18 and the upper end of described second guide surface 19 are converged; The lower end of described track sliding sleeve inwall is also provided with the 3rd guide surface 29, the 4th guide surface 30 of inclination, the upper end of described 3rd guide surface 29 is positioned at the side of salient point gateway, described lower end 23, the upper end of described 4th guide surface 30 is positioned at the opposite side of salient point gateway, described lower end 23, and the lower end of described 3rd guide surface 29 and the lower end of described 4th guide surface 30 are converged.Salient point can successfully import and export in slide rail by the first guide surface 18, second guide surface 19, the 3rd guide surface 29, the 4th guide surface 30.

Such scheme is the technical scheme be sheathed on by track sliding in mop disc, and in use, step is as follows for this kind of technical scheme:

First mop disc is placed in mop-pail stands 3, fixed axis 5 penetrates in mop disc and mop rod, under the guiding of the 3rd guide surface 29 or the 4th guide surface 30, salient point 5 on fixed axis enters into the data feedback channel 24 in track sliding sleeve through salient point gateway, lower end 23, mop rod 3 continues to press down, salient point 5 enters First Transition passage 26, the effect track sliding sleeve of downforce rotates, salient point 5 enters into down going channel 25 through First Transition passage 26, and finally skid off from salient point gateway, upper end 22, mop disc 2 is deep into the bottom of mop-pail stands 3, driving mechanism drives mop disc 2 to rotate, clean at low level.Clean complete need dehydration time, mop rod 1 is upwards carried, under the guiding of the first guide surface 18 or the second guide surface 19, salient point 5 slides into salient point gateway, upper end 22, and enter down going channel 25, when salient point is positioned at the lower end of down going channel 25, mop cannot up be carried again, now evade barre 1 downwards, track sliding sleeve is descending, salient point 5 enters in the second transition passage 27, rotate at the effect lower railway sliding sleeve of downforce, salient point 5 pushes up to high-order hanging groove 10 along the second transition passage 27, now mop disc 2 cannot press down again, mop disc 2 is positioned at a high position, driving mechanism drives mop disc 2 to rotate, dewater in a high position.After dehydration, upwards carry mop rod 1, salient point enters into and departs from passage 28, then skids off along disengaging passage 28, data feedback channel 24, salient point gateway, lower end 23, and the complete mop that can dewater takes out.

Certain slide rail can also adopt other shapes, as long as in concept of the present invention, all belongs within protection scope of the present invention.

And the salient point on fixed axis also can arrange two even more, only need arrange in track sliding sleeve during the multiple salient point of facility multiple to top slide rail.

Claims (15)

1. a burnisher, comprises mop and mop-pail stands, and described mop comprises mop rod, is located at the mop disc of described mop rod lower end, is provided with driving mechanism in described mop rod, and described mop disc rotates by the driving of described driving mechanism;

It is characterized in that: the bottom surface of described mop-pail stands has a fixed axis that can stretch in described mop disc and mop rod, and described fixed axis is provided with at least one salient point;

Described fixed axis is gone back kink and have location core retainer plate, the head of described location core retainer plate can take off by force after cutting ferrule with described mop disc phase cutting ferrule;

Location core retainer plate described in when mop-cleaning state is positioned at the bottom of described mop-pail stands, and the locating core cover described in when mop dewatering state hangs on the salient point of described fixed axis;

Described location core retainer plate comprises the track sliding sleeve be placed on described fixed axis, the inwall of described track sliding sleeve is provided with slide rail, described slide rail has the salient point gateway slipped into for described salient point or skid off, the high-order hanging groove being positioned at a high position, and the high-order hanging groove described in when mop dewatering state hangs on the salient point of described fixed axis;

Described track sliding sleeve also has one to surround cover outward, and described encirclement cover formation one die cavity, described track sliding sleeve is positioned at described die cavity.

2. burnisher as claimed in claim 1, is characterized in that: be provided with plane bearing between the upper surface of described track sliding sleeve and the upper surface of described die cavity.

3. burnisher as claimed in claim 2, is characterized in that: described salient point has one;

The shape of described slide rail is: form the first pull-up section by described salient point gateway to downward-extension, the lower end of described first pull-up section is to a lateral buckling;

The top of the bending place of described first pull-up section is communicated with the First Transition section risen along described track sliding sleeve inwall, and the upper end of described First Transition section forms described high-order hanging groove;

Described high-order hanging groove to downward-extension thus formed the second pull-up section, the lower end of described second pull-up section is to a lateral buckling, and the direction of bending and the overbending direction of described first pull-up section lower end are in the same way;

The top of the bending place of described second pull-up section is communicated with the second changeover portion risen along described track sliding sleeve inwall, and the other end of described second changeover portion is communicated with the first described pull-up section.

4. burnisher as claimed in claim 3, it is characterized in that: the inwall of described track sliding sleeve is also provided with by the first guide surface of surface thereof, the second guide surface, the lower end of described first guide surface is positioned at the side of described salient point gateway, the lower end of described second guide surface is positioned at the opposite side of described salient point gateway, and the upper end of described first guide surface and the upper end of described second guide surface are converged.

5. the burnisher as described in one of claim 1 ~ 4, is characterized in that: the described head surrounding cover has the draw-in groove of a circle indent, and the center of described mop disc has the groove of indent, has the grab that some with described draw-in groove coordinates in described groove.

6. the burnisher as described in one of claim 1 ~ 4, is characterized in that: described track sliding sleeve is overlapped by upper rail and lower rail cover forms, and rabbets between described upper rail cover and lower rail overlap; Described encirclement cover is made up of upper jacket and lower jacket, clamping between described upper jacket and described lower jacket.

7. the burnisher as described in one of claim 1 ~ 4, is characterized in that: described encirclement puts extends dehydration basket.

8. burnisher as claimed in claim 6, is characterized in that: described upper jacket extends dehydration basket.

9. a burnisher, comprises mop and mop-pail stands, and described mop comprises mop rod, is located at the mop disc of described mop rod lower end, is provided with driving mechanism in described mop rod, and described mop disc rotates by the driving of described driving mechanism;

It is characterized in that: the bottom surface of described mop-pail stands has a fixed axis that can stretch in described mop disc and mop rod, and described fixed axis is provided with at least one salient point;

The back side of described mop disc also has a track sliding sleeve, the inwall of described track sliding sleeve is provided with slide rail, and described slide rail has the salient point gateway, upper end slipped into for described salient point or skid off, the salient point gateway, lower end supplying described salient point to slip into or skid off, is positioned at high-order high-order hanging groove;

Fixed axis described under mop-cleaning state is penetrated by mop disc, and described mop disc is positioned at the bottom of described mop-pail stands; Salient point described under mop dewatering state withstands on described high-order hanging groove.

10. burnisher as claimed in claim 9, is characterized in that: be provided with plane bearing between the upper surface of described track sliding sleeve and the back side of mop disc.

11. burnishers as claimed in claim 10, is characterized in that: the back side of described mop disc is provided with an encirclement cover, and described encirclement cover formation one die cavity, described track sliding sleeve is positioned at described die cavity.

12. burnishers as described in one of claim 10 ~ 11, is characterized in that: described salient point has one;

The shape of described slide rail is: upwards extend data feedback channel by described salient point gateway, lower end, by described salient point gateway, upper end to downward-extension down going channel, the First Transition channel connection tilted by one between described data feedback channel and down going channel, the lower end of described down going channel is to away from salient point gateway one, lower end lateral buckling;

The top of the bending place of described down going channel is communicated with the second transition passage risen along described track sliding sleeve inwall, and the upper end of described second transition passage forms described high-order hanging groove;

Described high-order hanging groove extends disengaging passage downwards, is communicated with after the lower end bending of described disengaging passage with described data feedback channel.

13. burnishers as claimed in claim 12, it is characterized in that: the upper end of described track sliding sleeve inwall is also provided with the first guide surface, second guide surface of inclination, the lower end of described first guide surface is positioned at the side of salient point gateway, described upper end, the lower end of described second guide surface is positioned at the opposite side of salient point gateway, described upper end, and the upper end of described first guide surface and the upper end of described second guide surface are converged;

The lower end of described track sliding sleeve inwall is also provided with the 3rd guide surface, the 4th guide surface of inclination, the upper end of described 3rd guide surface is positioned at the side of salient point gateway, described lower end, the upper end of described 4th guide surface is positioned at the opposite side of salient point gateway, described lower end, and the lower end of described 3rd guide surface and the lower end of described 4th guide surface are converged.

14. burnishers as described in one of claim 10 ~ 11, is characterized in that: described track sliding sleeve is overlapped by upper rail and lower rail cover forms, and rabbet between described upper rail cover and lower rail overlap.

15. burnishers as claimed in claim 11, is characterized in that: described encirclement cover is made up of upper jacket and lower jacket, and the back side being wrapped in described mop disc on described is protruded downwards and formed, clamping between described upper jacket and described lower jacket.