CN201861575U - Rotary mop combination - Google Patents

Abstract

The utility model discloses a rotary mop combination, which comprises a rotary mop and a dehydration device, wherein the rotary mop comprises a rotary rod mechanism, a holding rod mechanism and a mop head; the rotary rod mechanism comprises a rotary rod pipe and a transmission component; the transmission component is fixed on the inner side of the rotary rod pipe and is provided with a spiral slot hole; the holding rod mechanism comprises a holding rod pipe and a spiral rod piece; the holding rod pipe is movably sleeved on the rotary rod pipe; the spiral rod piece is arranged on the inner side of the holding rod pipe; one end of the spiral rod piece is fixed on the holding rod pipe, and the other end of the spiral rod piece passes through the spiral slot hole so as to extend into the rotary rod pipe; and the mop head is pivoted on the lower side of the rotary rod pipe. When a user wants to dehydrate the mop head, the mop head can be placed above a dehydration basket of the dehydration device and the holding rod mechanism is moved upwards and downwards, so that the mop head can be rotated quickly for dehydrating.

Description

The rotary mop combination

Technical field

The utility model relates to a kind of rotary mop combination, relates in particular to the holding rod mechanism that a kind of utilization presses down rotary mop, can drive the rotary mop combination of mophead rotation to dewater.

Background technology

Cleaning for environment, general normal use mop is as the cleaning appliance on floor, existing mop is made up of the mophead that a holding rod and is incorporated into this handle end, and by mophead is bedewed in a water drum, and behind the cleaning floor, with actions such as this mophead clean and wrings out in this bucket.The mode that this kind dewaters with the cloth on the hand drying of mop head, considerably effort is with unhygienic.For energy effective cleaning floor reaches rapidly, this mophead is dewatered in the labour-saving, has had the dewatering type of many different types of mops and correspondence thereof at present.

First method is that a dehydration basket is set on water drum, and the user can be positioned over mophead in this dehydration basket firmly rotation and extruding, and wringing out cloth, but that it wrings out mode efficient is relatively poor, and the user need expend a large amount of strength and cloth could be wrung out.

Second method, then on bucket, setting up a pressurizing unit, the cloth of mop is to be positioned in the middle of this pressurizing unit, the user need be with riding the pedal of stepping on this pressurizing unit, and need this mop to be mentioned with hand, this operating process is complicated and the center of gravity meeting of user when operation is unstable, may have the danger of wrestling.

The third dewatering is that mophead is positioned on the dehydration basket of a rotary dehydration tube, and the mode that the user can utilize pin to trample the pedal of this rotary dehydration tube drives the dehydration basket rotation, and the mode of utilizing centrifugal force is with this mophead dehydration.This mode has laborsaving and advantage fast dewatering, but this mode can need the very complicated dehydration tube of structure, causes to produce and goes up the cost raising.Center of gravity when the user also has operation in addition can unstable problem.

The utility model content

In order to improve the disappearance of above-mentioned prior art, the purpose of this utility model is providing a kind of rotary mop combination, the user can be positioned over mophead the dehydration basket of dewater unit easily, and the holding rod mechanism of the rotary mop that moves around up and down, this mophead fast rotational is also dewatered.

To achieve the above object, the utility model provides a kind of rotary mop combination, and this rotary mop combination comprises:

One rotary mop comprises: a dwang mechanism, a holding rod mechanism and a mophead, and this dwang mechanism comprises; One rotates a rod tube and a transmission component, and this transmission component is fixed in this rotation rod tube inboard, and is provided with a spiral slit hole; This holding rod mechanism comprises: one grips a rod tube and a spirality rod member, and this gripping rod tube is sheathed on this rotation rod tube movably; One end of this spirality rod member is fixed in this gripping rod tube, the other end through this spiral slit hole to stretch in this rotation rod tube; This mophead is articulated in the downside of this rotation rod tube; And

One dewater unit comprises: a dehydration tube, a back shaft and a dehydration basket, and an end of this back shaft is arranged at this dehydration tube; This dehydration basket is arranged in this dehydration tube and is arranged at the other end of this back shaft, and this dehydration basket is in order to support this mophead.

Above-mentioned rotary mop combination, wherein, this transmission component comprises:

One unidirectional transmission component is a hollow cylindrical body, and its outer wall is fixed in the inboard of this rotation rod tube; And

One guide is arranged at the inwall of this unidirectional transmission component, and can be with respect to this unidirectional transmission component one-directional rotation, and this guide is provided with this spiral slit hole.

Above-mentioned rotary mop combination, wherein, this unidirectional transmission component is a unilateral bearing.

Above-mentioned rotary mop combination, wherein, this mophead also comprises:

One mop dish fixation kit is a disc-shaped structure;

One pin connected assembly is articulated in the end face of this mop dish fixation kit and the downside of this rotation rod tube:

One mop dish is a disc-shaped structure, and can be combined in the downside of this mop dish fixation kit with dismantling; And

A plurality of cloth bundles, the compartment of terrain is incorporated into this mop dish respectively.

The combination of above-mentioned rotary mop wherein, also further comprises a lock solid structure, and this lock solid structure is in order to this rotation rod tube and this gripping rod tube of locking, and relatively moves and rotates to prevent this rotation rod tube and this gripping rod tube.

Above-mentioned rotary mop combination, wherein, this dehydration tube, have an accommodation space and a device space in it, this accommodation space and this device space separate with a distance member, this dehydration tube also comprises a supporting base that is arranged at this device space, and an end of this back shaft is arranged at this supporting base, and the other end of this back shaft also passes this distance member to this accommodation space.

Above-mentioned rotary mop combination, wherein, one end of this back shaft is articulated in this supporting base, and the other end is fixed in this dehydration basket, and one is arranged between this back shaft and this supporting base in order to the support ball that reduces the frictional force between this back shaft and this supporting base.

Above-mentioned rotary mop combination, wherein, this dehydration tube also comprises:

One dehydration tube body is provided with a dehydration opening and and cleans opening, and this dehydration basket is arranged at contiguous this dehydration opening part; And

One in order to prevent that the moisture on the mophead from throwing away water fender outside dehydration tube via this cleaning opening, is arranged between this dehydration opening and this cleaning opening and is adjacent to a side of this dehydration basket.

In sum, rotary mop combination of the present utility model constitutes with easy structure, can reduce the cost in the production.Only need when the user uses this mophead is positioned on this dehydration basket, this holding rod mechanism that moved around up and down can have the laborsaving and convenient effect of using fast with the mophead dehydration.Do not need as in existing, wasteful gas firmly rotation and the extruding mophead of measuring one's own ability, or need with hand steered hold mop and tramp with one's feet step on plate, dangerous problem such as lead that user's crank causes tumbling.

In addition, when this cloth bundle was stained, the user can change a new mop dish that is provided with the cloth bundle voluntarily.As make the maintenance cost that to save a large amount of rotary mops.

Below in conjunction with the drawings and specific embodiments the utility model is described in detail, but not as to qualification of the present utility model.

Description of drawings

The stereogram of Fig. 1 rotary mop combination of the present utility model;

The exploded view of first embodiment of Fig. 2 rotary mop of the present utility model;

The part cross-sectional schematic of first embodiment of Fig. 3 rotary mop of the present utility model;

The exploded view of Fig. 4 dewater unit of the present utility model;

The cut-away view of Fig. 5 dewater unit of the present utility model;

The user mode figure of Fig. 6 and Fig. 7 rotary mop combination of the present utility model;

The phantom of Fig. 8 rotary mop of the present utility model;

The user mode figure of Fig. 9 rotary mop of the present utility model;

Figure 10 is combined in the combination schematic diagram of mop dish for cloth bundle of the present utility model; And

Figure 11 is combined in the schematic diagram of mop dish fixation kit for mop dish of the present utility model.

Wherein, Reference numeral

Rotary mop combination 1

Rotary mop 2

Holding rod mechanism 100

Grip rod tube 110

First grips rod tube 111

Coupling assembling 112

Second grips rod tube 113

Rod member fixation kit 120

Spirality rod member 130

Rod member guard assembly 140

Dwang mechanism 200

Rotate rod tube 210

Transmission component 220

Unidirectional transmission component 221

Outer wall 222

Inwall 223

Guide 225

Spiral slit hole 226

Transmission fixture 227

Elasticity limit assembly 230

Elastic parts 231

Ball 232

Mophead 300

Mop dish fixation kit 310

Pivot connected slot 311

Pin connected assembly 320

Rod tube articulated section 321

Circular articulated section 322

Locating slot 323

Limited cover 330

Mop dish 340

Cloth cylindrical void 341

Tighten piece 342

Cloth bundle 350

Kink 351

Dewater unit 3

Dehydration tube 400

Dehydration tube body 410

Accommodation space 411

Device space 412

Distance member 413

Dehydration opening 414

Clean opening 415

Supporting base 420

Carrying handle 430

Water fender 440

Protective ring 450

Back shaft assembly 500

Back shaft 510

Support ball 511

Dehydration basket 600

Lock solid structure 700

Locked assembly 710

Locking cover 720

Bearing of trend, press down direction D1

Direction of improvement D2

Rotating shaft AX1

Direction of rotation R1

The specific embodiment

Below in conjunction with accompanying drawing structural principle of the present utility model and operation principle are done concrete description:

See also Fig. 1, be the stereogram of rotary mop combination of the present utility model.This rotary mop combination 1 comprises a rotary mop 2 and a dewater unit 3.This rotary mop 2 comprises a holding rod mechanism 100, a dwang mechanism 200, a mophead 300 and a lock solid structure 700.This holding rod mechanism 100 is sheathed on this dwang mechanism 200 movably.This mophead 300 is articulated in the downside of this dwang mechanism 200.

This lock solid structure 700 is sheathed on this holding rod mechanism 100 and this dwang mechanism 200, when the user used this rotary mop 2 to carry out floor-cleaning, this lock solid structure 700 can be in order to limit this holding rod mechanism 100 and this dwang mechanism 200 relative to moving up and down and rotating.This user can grip this holding rod mechanism 100 and/or this dwang mechanism 200, driving this mophead 300 moves on the floor, in addition because this mophead 300 is articulated in this dwang mechanism 200, even therefore this holding rod mechanism 100 and floor tilt, this mophead 300 also can develop ground.

This dewater unit 3 comprises a dehydration tube 400 and a dehydration basket 600.When desiring to make these mophead 300 dehydrations, this mophead 300 can be positioned over this dehydration basket 600, and this holding rod mechanism 100 that moves around up and down, these mophead 300 fast rotational are also dewatered.When therefore rotary mop combination 1 of the present utility model being dewatered, the user only needs a hand to grip this holding rod mechanism 100 and moves around up and down, and these mophead 300 fast rotational are also dewatered, and has the laborsaving and convenient effect of using.

See also Fig. 2 and Fig. 3, Fig. 2 is the exploded view of first embodiment of rotary mop of the present utility model, and Fig. 3 is the part cross-sectional schematic of first embodiment of rotary mop of the present utility model.This holding rod mechanism 100 is the rod shaped structure of extending along a bearing of trend D1, this holding rod mechanism 100 comprise one grip rod tube 110, a spirality rod member 130, with a rod member guard assembly 140.This gripping rod tube 110 can be the hollow rod shape structure of extending along this bearing of trend D1.This gripping rod tube 110 can comprise one first gripping rod tube 111 in present embodiment, a coupling assembling 112 and one second grips rod tube 113.This coupling assembling 112 so reduces this rotary mop 2 vanning or volumes of taking in order to connect this first gripping rod tube 111 and this second gripping rod tube 113.

This spirality rod member 130 can be the rod shaped structure of a metal material, its sidewall is provided with screw thread, the upper end of this spirality rod member 130 can be fixed in the inboard of this gripping rod tube 110 via a rod member fixation kit 120, this rod member fixation kit 120 also can grip rod tube 110 with this or this spirality rod member 130 is one-body molded, the lower end of this spirality rod member 130 can be provided with this rod member guard assembly 140, this rod member guard assembly 140 can be a plastic material, to prevent the inwall of these spirality rod member 130 these gripping rod tubes 110 of contact.

This dwang mechanism 200 comprises one and rotates a rod tube 210 and a transmission component 220.This rotation rod tube 210 can be a hollow rod shape body, and extends along this bearing of trend D1, and the lower ending pivot of this rotation rod tube 210 is connected to this mophead 300, and this gripping rod tube 110 is sheathed on this rotation rod tube 210 movably.

This transmission component 220 is fixed in this rotation rod tube 210 inboards, and is provided with a spiral slit hole 226.As shown in Figure 3, this transmission component 220 can comprise a unidirectional transmission component 221 and a guide 225.

This unidirectional transmission component 221 can be a hollow cylindrical body, has an outer wall 222 and an inwall 223.The outer wall 222 of this unidirectional transmission component 221 can be fixed in the inboard, upper end of this rotation rod tube 210, this unidirectional transmission component 221 can be a unilateral bearing, and therefore the inwall 223 of this unidirectional transmission component 221 can this rotating shaft AX1 be that the axle center is with respect to outer wall 222 unidirectional rotations.The internal structure of this unidirectional transmission component 221 and its rotating mechanism are a prior art, seldom lay down a definition at this,

This guide 225 can be a cylindrical-shaped structure, be provided with and be fixed in the inwall 223 of this unidirectional transmission component 221, this guide 225 can be with respect to outer wall 222 one-directional rotation of this unidirectional transmission component 221, anticipate promptly, this guide 225 can this rotating shaft AX1 be that the axle center is with respect to these rotation rod tube 210 one-directional rotation.This guide 225 is provided with a spiral slit hole 226 of extending along this rotating shaft AX1, and the inwall in this spiral slit hole 226 is provided with screw thread.One end of this spirality rod member 130 is fixed in this gripping rod tube 110, the other end through this spiral slit hole 226 to stretch in this rotation rod tube 210.Therefore when this spirality rod member 130 moved down, the threaded side wall of this spirality rod member 130 can promote the screw thread inwall in this spiral slit hole 226, drove this guide 225 and rotated.

This transmission component 220 can comprise a transmission fixture 227 in present embodiment, this unidirectional transmission component 221 is fixed in this rotation rod tube 210 via this transmission fixture 227, in another embodiment, this transmission component 220 does not comprise this unidirectional transmission component 221, and this unidirectional transmission component 221 can to rotate rod tube 210 one-body molded with this.

This lock solid structure 700 comprises a locked assembly 710 and a locking cover 720, and this locked assembly 710 is a hollow tube with this locking cover 720, and this locked assembly 710 can be sheathed and be fixed in the outside of this gripping rod tube 110, and extends to the outside of this rotation rod tube 210.This locking cover 720 can be sheathed be bolted in this locked assembly 710.When this locking cover 720 lock onto this locked assembly 710, can oppress this locked assembly 710 and fix this gripping rod tube 110 and this rotation rod tube 210, to prevent that it is relative to moving up and down and rotating.

See also Fig. 4 and Fig. 5, Fig. 4 is the exploded view of dewater unit of the present utility model, and Fig. 5 is the cut-away view of dewater unit of the present utility model.This dewater unit 3 comprises a dehydration tube 400, a back shaft assembly 500 and a dehydration basket 600.This dehydration tube 400 comprises a dehydration tube body 410, a supporting base 420, a carrying handle 430, a water fender 440 and a protective ring 450, this dehydration tube body 410 is provided with an accommodation space 411 and a device space 412, and this accommodation space 411 separates with a distance member 413 with this device space 412.This supporting base 420 is arranged at the bottom in this device space 412.This carrying handle 430 is articulated in the upside of this dehydration tube body 410, mentions whole dewater unit 3 to make things convenient for the user.

This protective ring 450 can be a loop configuration, be arranged at the top of this dehydration tube body 410, so that the top of this dehydration tube body 410 has a dehydration opening 414 and a cleaning opening 415 (also can with reference to figure 1), as shown in the figure, this dehydration basket 600 can be provided with downside and contiguous these dehydration opening 414 places of this protective ring 450, this dehydration opening 414 can be its diameter of a circular open can be less than the diameter of this dehydration basket 600, to prevent that this dehydration basket 600 from when the fast rotational, emerging in this dehydration tube body 410.In another embodiment, this protective ring 450 can be one-body molded with this dehydration tube body 410.

This water fender 440 can be arranged at this protective ring 450 or the inwall of this dehydration tube body 410, meaning promptly, be arranged between this dehydration opening 414 and this cleaning opening 415 and be adjacent to a side of this dehydration basket 600, throw away outside dehydration tube 400 via this cleaning opening 415 in order to prevent the moisture on the mophead 300.In addition, as shown in Figure 5, this water fender 440 and this distance member 413 distances one gap, so the moisture that this mophead 300 is thrown away is beaten to this water fender 440 after flow to the bottom of this dehydration tube body 410 by this water fender 440 and the gap of this distance member 413.

This back shaft assembly 500 comprises a back shaft 510 and and supports ball 511, one end of this back shaft 510 is articulated in the supporting base 420 of this dehydration tube 400, and the other end of this back shaft 510 also passes this distance member 413 to this accommodation space 411 and be fixed in this dehydration basket 600.This support ball 511 is arranged between this back shaft 510 and this supporting base 420, in order to reduce the frictional force of 420 of this back shaft 510 and this supporting bases.This dehydration basket 600 is arranged in this dehydration tube 400 and is arranged at the other end of this back shaft 510, and this dehydration basket 600 is in order to support this mophead 300.

In another embodiment, an end of this back shaft 510 can be fixed in this supporting base 420, and the other end is articulated in this dehydration basket 600.In another embodiment, can not comprise this distance member 413 and this device space 412.This back shaft assembly 500 is arranged at the bottom of this dehydration tube body 410.

Therefore as can be known, dewater unit 3 of the present utility model has advantage simple in structure, can compare prior art and save cost of manufacture.

See also Fig. 6 and Fig. 7, other sees also Fig. 3, and Fig. 6 and Fig. 7 are the user mode figure of rotary mop combination of the present utility model.

As shown in Figure 6, when user's desire is dewatered this mophead 300, can earlier this mophead 300 be positioned on this dehydration basket 600.Afterwards, the user can draw high this holding rod mechanism 100 earlier, again this holding rod mechanism 100 is pressed down direction D1 (with this bearing of trend D1) along one afterwards and presses down, and this spirality rod member 130 also presses down direction D1 along this and moves simultaneously.That is to say that as shown in Figure 3, this spirality rod member 130 can move down with respect to this guide 225, this spirality rod member 130 also promotes these guides 225 and is the axle center and rotates along a direction of rotation R1 with this rotating shaft AX1 via this spiral slit hole 226.This moment, this guide 225 and the inwall 223 that drives this unidirectional transmission component 221 rotated along this direction of rotation R1, and then drove and rotate rod tube 210 and rotate along this direction of rotation R1.Because this unidirectional transmission component 221 can be a unilateral bearing, so this outer wall 222 also rotates along this direction of rotation R1.

Therefore working as this mophead 300 is arranged on this dehydration basket 600, this holding rod mechanism 100 is when pressing down, this spirality rod member 130 drives this transmission component 220 via this spiral slit hole 226 and rotates along a direction of rotation R1, and then drive this dwang mechanism 200, this mophead 300 and this dehydration basket 600 along the lasting rotation of this direction of rotation R1, get rid of except that the moisture on this mophead 300 with centrifugal force.

See also Fig. 7, when the user should grip rod tube 110 when a direction of improvement D2 upwards mentions, this spirality rod member 130 promptly moves up with respect to this guide 225, this spirality rod member 130 also promotes this guide 225 via this spiral slit hole 226 and rotates along the rightabout with this direction of rotation R1, and wherein this direction of improvement D2 can be the rightabout that this presses down direction D1.As shown in Figure 3, because this unidirectional transmission component 221 can be a unilateral bearing, therefore can allow this outer wall 222 to rotate along opposite direction of rotation R1 with this inwall 223, therefore this unidirectional transmission component 221 can't further drive this rotation rod tube 210 rotations, therefore this dwang mechanism 200, this mophead 300 can continue to keep this direction of rotation R1 and rotate because of inertia motion with dehydration basket 600.

Therefore the user can move back and forth up and down by being hold by one hand this gripping rod tube 110 easily, and then drives this mophead 300 unidirectional rotations apace, also need not operate dewater unit 3, can reach the effect of dehydration.Also in figure as can be known, user's application of force direction all along rotating shaft AX1 to this rotary mop 2 and dewater unit 3 application of forces, therefore can not cause user's crank and the danger that causes this dehydration tube 400 to overturn.

Please refer to Fig. 2 and Fig. 8, Fig. 8 is the phantom of rotary mop 2 of the present utility model.This mophead 300 is articulated in the downside of this rotation rod tube 210, and this mophead 300 comprises a mop dish fixation kit 310, a pin connected assembly 320, a limited cover 330 and a plurality of cloth bundles 350 (please refer to Figure 13).

This mop dish fixation kit 310 is a disc-shaped structure, and the upper center of this mop dish fixation kit 310 is provided with a pivot connected slot 311, and this pivot connected slot 311 can be a circular trough.This pin connected assembly 320 is articulated in the end face of this mop dish fixation kit 310 and the downside of this rotation rod tube 210.This pin connected assembly 320 can comprise a rod tube articulated section 321 and a circular articulated section 322.This rod tube articulated section 321 can be extended by the upside of this circle articulated section 322.The upside circular row of this rod tube articulated section 321 is shown a plurality of locating slots 323, and this circle articulated section 322 can be a disc-shaped structure, and is placed in this pivot connected slot 311.

This limited cover 330 is placed on this pivot connected slot 311, and this rod tube articulated section 321 is articulated in this rotation rod tube 210 after running through this limited cover 330, anticipates promptly, and this limited cover 330 can limit this circle articulated section 322 and rotate in this pivot connected slot 311.

This mop dish 340 can be a disc-shaped structure, and removably be combined in the downside of this mop dish fixation kit 310, this mop dish 340 has a plurality of cloth cylindrical voids 341, can be as shown in Figure 2, but these a plurality of cloth cylindrical voids 341 ring-type compartment of terrains are arranged in the edge of this mop dish 340, in order to installing cloth bundle 350, what the downside inwall of this cloth cylindrical void 341 was equipped with ring-type tightens piece 342.Therefore, as shown in Figure 9, the mophead 300 of rotary mop 2 of the present utility model can be with respect to this holding rod mechanism 100 and these dwang mechanism 200 rotations.

This dwang mechanism 200 further comprises an elasticity limit assembly 230, and it is arranged at an end inboard of this rotation rod tube 210.This elasticity limit assembly 230 comprises an elastic parts 231 and a ball 232, and this elastic parts 231 can be a spring, and the one end is fixed in an end inboard of rotating rod tube 210, and the other end is replaced ball 232.This ball 232 is via the elastic force of this elastic parts 231 and then replace the pin connected assembly 320 of this mophead 300.Also see also Fig. 9, the mophead 300 of rotary mop 2 of the present utility model can tilt with respect to this holding rod mechanism 100 and this dwang mechanism 200.When the user adjusts with respect to this holding rod mechanism 100 mophead 300 with these dwang mechanism 200 bendings, if this ball 232 is replaced the locating slot 323 to this pin connected assembly 320, but this mophead 300 of assist location is with respect to the angle of inclination of this holding rod mechanism 100 with this dwang mechanism 200, to make things convenient for the use of user when dewatering or mopping floor.

Figure 10 is combined in the combination schematic diagram of mop dish for cloth bundle of the present utility model.This cloth bundle 350 can be made up of a plurality of cloth, when if desire is combined in this mop dish 340 with this cloth bundle 350, this cloth bundle 350 can be done a bending, to form a kink 351, because cloth bundle 350 has elasticity, width when therefore the width of this kink 351 does not bend after the bending is wide, this kink 351 can be tightened piece 342 through this afterwards and fill in this cloth cylindrical void 341, and tighten piece 342 via this and be sticked in this cloth cylindrical void 341.So cloth bundle 350 can be assembled in the mop dish 340 easily.

Can the mop dish 340 that combine cloth bundle 350 be combined in the downside of this mop dish fixation kit 310 with reference to Figure 11 afterwards.Because mop dish 340 of the present utility model is for removably being combined in this mop dish fixation kit 310, after rotary mop 2 of the present utility model uses a period of time, when this cloth bundle 350 is stained, the user can be about to this mop dish 340 certainly by these mop dish fixation kit 310 dismountings, and changes a new mop dish 340 that is provided with cloth bundle 350 voluntarily.As make the maintenance cost that to save a large amount of rotary mops 2.

In sum, rotary mop combination of the present utility model is to constitute with easy structure, can reduce the cost in the production.Only need when the user uses this mophead is positioned on this dehydration basket, this holding rod mechanism that moved around up and down can have the laborsaving and convenient effect of using fast with the mophead dehydration.Do not need as in existing, wasteful gas firmly rotation and the extruding mophead of measuring one's own ability, or need with hand steered hold mop and tramp with one's feet step on plate, dangerous problem such as lead that user's crank causes tumbling.

Certainly; the utility model also can have other various embodiments; under the situation that does not deviate from the utility model spirit and essence thereof; those of ordinary skill in the art work as can make various corresponding changes and distortion according to the utility model, but these corresponding changes and distortion all should belong to the protection domain of the appended claim of the utility model.

Claims (8)

1. a rotary mop combination is characterized in that, comprises:

One rotary mop comprises: a dwang mechanism, a holding rod mechanism and a mophead, and this dwang mechanism comprises; One rotates a rod tube and a transmission component, and this transmission component is fixed in this rotation rod tube inboard, and is provided with a spiral slit hole; This holding rod mechanism comprises: one grips a rod tube and a spirality rod member, and this gripping rod tube is sheathed on this rotation rod tube movably; One end of this spirality rod member is fixed in this gripping rod tube, the other end through this spiral slit hole to stretch in this rotation rod tube; This mophead is articulated in the downside of this rotation rod tube; And

One dewater unit comprises: a dehydration tube, a back shaft and a dehydration basket, and an end of this back shaft is arranged at this dehydration tube; This dehydration basket is arranged in this dehydration tube and is arranged at the other end of this back shaft, and this dehydration basket is in order to support this mophead.

2. rotary mop combination according to claim 1 is characterized in that this transmission component comprises:

One unidirectional transmission component is a hollow cylindrical body, and its outer wall is fixed in the inboard of this rotation rod tube; And

One guide is arranged at the inwall of this unidirectional transmission component, and can be with respect to this unidirectional transmission component one-directional rotation, and this guide is provided with this spiral slit hole.

3. rotary mop combination according to claim 1 is characterized in that this unidirectional transmission component is a unilateral bearing.

4. rotary mop combination according to claim 1 is characterized in that this mophead also comprises:

One mop dish fixation kit is a disc-shaped structure;

One pin connected assembly is articulated in the end face of this mop dish fixation kit and the downside of this rotation rod tube:

One mop dish is a disc-shaped structure, and can be combined in the downside of this mop dish fixation kit with dismantling; And

A plurality of cloth bundles, the compartment of terrain is incorporated into this mop dish respectively.

5. rotary mop according to claim 1 combination is characterized in that, also further comprises a lock solid structure, and this lock solid structure is in order to this rotation rod tube and this gripping rod tube of locking, and relatively moves and rotates to prevent this rotation rod tube and this gripping rod tube.

6. rotary mop combination according to claim 1, it is characterized in that, this dehydration tube, have an accommodation space and a device space in it, this accommodation space and this device space separate with a distance member, this dehydration tube also comprises a supporting base that is arranged at this device space, and an end of this back shaft is arranged at this supporting base, and the other end of this back shaft also passes this distance member to this accommodation space.

7. rotary mop combination according to claim 6, it is characterized in that, one end of this back shaft is articulated in this supporting base, the other end is fixed in this dehydration basket, and one is arranged between this back shaft and this supporting base in order to the support ball that reduces the frictional force between this back shaft and this supporting base.

8. rotary mop combination according to claim 1 is characterized in that this dehydration tube also comprises:

One dehydration tube body is provided with a dehydration opening and and cleans opening, and this dehydration basket is arranged at contiguous this dehydration opening part; And

One in order to prevent that the moisture on the mophead from throwing away water fender outside dehydration tube via this cleaning opening, is arranged between this dehydration opening and this cleaning opening and is adjacent to a side of this dehydration basket.

Images