CN102100514A - Circulating dehydration device and method - Google Patents

Abstract

The invention discloses a circulating dehydration device, which comprises a cylindrical body, a filtering structure, a porous groove body, a water supply module and a driving module, wherein an isolating structure is arranged inside the cylindrical body to separate the cylindrical body into a first accommodating space and a second accommodating space; a valve is arranged on the isolating structure; the filtering structure is arranged in the first accommodating space; the porous groove body is rotationally arranged in the second accommodating space; the water supply module comprises a water supply moving piece and a guide pipe, wherein the water supply moving piece corresponds to the porous groove body and is arranged in the second accommodating space; the guide pipe extends from the second accommodating space to the filtering structure in the first accommodating space; and the driving module extends from the exterior of the cylindrical body to the interior of the cylindrical body and is linked to the porous groove body and the water supply moving piece. Due to the structure, the circulating dehydration device can be used for draining liquid of a mop and circulating, filtering and cleaning the liquid. The circulating dehydration device has water-saving, time-saving, energy-saving and environmentally-friendly characteristics.

Description

The dehydration cycle devices and methods therefor

Technical field

The present invention relates to a kind of dehydration cycle devices and methods therefor, refer to a kind of especially in order to drain the dehydration cycle devices and methods therefor of mop.

Background technology

People during the floor, generally can use mop in cleaning, and can be fast, in large area that floor-cleaning is clean.For example,, above-mentioned mop is soaked in a steel ladle clean again, yet through after repeatedly cleaning, it is dirty that the water in the bucket can become, and be full of many dirty compositions to remove ground dirty composition in the use earlier with the mop cleaning floor.Therefore the general user is when mopping floor operation, must be repeatedly and the water in the frequent replacing steel ladle, with the situation of avoiding dragging dirtier and dirtier, but consuming fast in the environment of earth resource, people must realize the exhausted problem of resource meeting, therefore setting about from little, be issued to the purpose that cleans the floor as the situation of how saving most water resource, then is the problem that allows the people think deeply about.

Defective when the present invention is installed on actual using in view of above-mentioned known mop cleaning, and for many years experience on the accumulation related industry exploitation practice study intensively, and provide a kind of reasonable in design and effectively improve the structure of the problems referred to above.

Summary of the invention

Main purpose of the present invention, be to provide a kind of energy-conservation mop cleaning device, it utilizes the mode of circulating filtration to keep the cleanliness factor of the liquid that cleans mop, making does not need to change continually water (if improve the ability of filtering in the process that mops floor, then can only use one barrel of water to finish the operation that mops floor), make dehydration cycle device of the present invention have water-saving, timesaving energy-conserving and environment-protective characteristic.

Another object of the present invention, be to provide a kind of dehydration cycle device, it utilizes the mode of circulating filtration to keep the cleanliness factor of the liquid that cleans mop, no matter so number of times that cleans, mop all can be cleaned by clean liquid, and in other words, mop can be cleaned completely, to avoid that the dirty composition in the liquid is taken back ground again, so can improve the efficient of cleaning floor (operation promptly mops floor) and the cleanliness factor on ground.

In order to achieve the above object, the invention provides a kind of dehydration cycle device, comprise: a tubular body, its inside are provided with an isolation structure forming one first accommodation space and one second accommodation space, and more are provided with a valve on this isolation structure; One filtration, it is located in this first accommodation space; One porous cell body, it rotatably is arranged in this second accommodation space; One send the water module, it comprises that sending hydrodynamic(al) spare and to be communicated with this send the conduit of hydrodynamic(al) spare, wherein this send hydrodynamic(al) spare to be located in this second accommodation space corresponding to this porous cell body, and this conduit is then extended to the filtration of this first accommodation space by this second accommodation space; And one extend to the intrinsic driver module of this tubular outward by this tubular body, its interlock send hydrodynamic(al) spare in this porous cell body and this, according to said structure, this dehydration cycle device can be in order to the liquid of the cleaning section that drains a mop, and with this liquid filter cleaning in addition.

The invention provides a kind of dehydration cycle method, comprise following steps: this first accommodation space and this second accommodation space of this tubular body are contained liquid; The cleaning section of this mop is placed in this porous cell body in this second accommodation space; And force in this driver module repeatedly, send hydrodynamic(al) spare to be rotated with the cleaning section that drives this mop, this porous cell body and this, making the liquid thereby of this second accommodation space help this send hydrodynamic(al) spare to flow to the filtration of this first accommodation space along this conduit, and the liquid after will filtering flows into this first accommodation space, simultaneously, drained by means of the rotation of this mop and this porous cell body cleaning section this mop.

The present invention has following useful effect: it is two accommodation spaces that the present invention separates a tubular body, one is reservoir (first accommodation space), another then is rinse bath (second accommodation space), dirty mop then is positioned in the rinse bath and cleans, and utilize the rotary centrifugal force of porous cell body that mop is drained, the filtration that dirty liquid is sent to reservoir filters simultaneously, make and contain clean liquid in the reservoir, and can make and be back in the rinse bath once more with the clean liquid in the reservoir, to carry out cleaning mop operation next time, so by means of above-mentioned circulating filtration, can guarantee that mop cleans with clean liquid, so can improve the cleanliness factor on ground; In addition, dehydration cycle device of the present invention can be saved the problem that needs repeatedly to change water in the process of mopping floor, and advances to reach the effect of water saving, environmental protection.

For enabling further to understand feature of the present invention and technology contents, see also following about detailed description of the present invention and accompanying drawing, yet accompanying drawing only provide with reference to and the explanation usefulness, be not to be used for the present invention is limited.

Description of drawings

Fig. 1 is the schematic diagram that the dehydration cycle device of first embodiment of the invention cleans mop;

Figure 1A drains mop for the dehydration cycle device of first embodiment of the invention and carries out the schematic diagram of filter liquide;

Fig. 2 is the schematic diagram that the dehydration cycle device of second embodiment of the invention cleans mop;

Fig. 2 A is the vertical view of the dehydration cycle device of the present invention two embodiment;

Fig. 2 B is that the dehydration cycle device of second embodiment of the invention drains mop and carries out the schematic diagram of filter liquide;

Fig. 3 is the schematic diagram that the dehydration cycle device of third embodiment of the invention cleans mop;

Fig. 3 A is the vertical view of the dehydration cycle device of the present invention three embodiment;

Fig. 3 B is that the dehydration cycle device of third embodiment of the invention drains mop and carries out the schematic diagram of filter liquide.

[main element description of reference numerals]

1 dehydration cycle device

10 tubular bodies, 100 isolation structures

1001 valves

101 first accommodation spaces

102 second accommodation spaces

103 support members

11 filtrations

12 porous cell bodies

13 send water module 131 to send hydrodynamic(al) spare

132 conduits

14 driver modules, 141 force-applying pieces

142 drive mechanisms

143 rotating shafts

1431 supporting constructions

2 mops

21 cleaning sections

22 turn sections 221 plug the space

23 holding sections

3 liquid

The specific embodiment

At first, see also shown in Fig. 1 and Figure 1A, it is the first embodiment of the present invention, the present invention proposes a kind of dehydration cycle device 1, it is mainly in order to the liquid 3 of the cleaning section 21 that drains a mop 2, and with this liquid 3 filter cleaning in addition, when making this mop 2 reuse this dehydration cycle device 1, available comparatively clean liquid 3 cleans, to solve the big problem of conventional clean mop hourly water consumption.This dehydration cycle device 1 comprises: a tubular body 10, a filtration 11, a porous cell body 12, send a water module 13 and a driver module 14.

This tubular body 10 is the agent structure of dehydration cycle device 1 of the present invention, and these tubular body 10 inside are provided with an isolation structure 100 to form one first accommodation space 101 and one second accommodation space 102.In other words, the inner space of this tubular body 10 forms first accommodation space 101 and second accommodation space 102 by means of this isolation structure 100 (for example dividing plate), and this first accommodation space 101 and this second accommodation space 102 are in order to contain liquid 3, as water or cleaning solution or the like.On the other hand, have scale mark (figure does not show) on the tubular body 10, contain too much liquid 3 to avoid the user; More be provided with a valve 1001 on this isolation structure 100, the user can utilize a switch (figure do not show) to open or close this valve 1001, so that this first accommodation space 101 and this second accommodation space 102 are independently of one another or be interconnected; For example close this valve 1001 so that this first accommodation space 101 is independently of one another with this second accommodation space 102, perhaps open this valve 1001 so that this first accommodation space 101 is interconnected with this second accommodation space 102.

In this specific embodiment, isolation structure 100 is a plate shaped spacer, and this plate shaped spacer then is partitioned into the first above-mentioned accommodation space 101 and second accommodation space 102 with the inner space of tubular body 10.

11 of this filtrations are located in this first accommodation space 101 to filter by the liquid 3 in second accommodation space 102.And this filtration 11 can comprise screen pack, sieves or the like, for example utilizes the screen pack of the different meshes of multilayer to be construed as above-mentioned filtration 11, to reach preferable filter effect; And how many areas of this filtration 11 can according to the adjusting of liquid 3, to improve the speed of filtering.

Moreover, porous cell body 12 rotatably is arranged in this second accommodation space 102, this porous cell body 12 mainly utilizes rotary centrifugal force that the liquid 3 of the cleaning section 21 of mop 2 is screwed out, drains, and 3 of the liquid of those back-outs can be expelled to by the through hole of this porous cell body 12 in this second accommodation space 102.And this porous cell body 12 is arranged at the bottom position of this second accommodation space 102 best, make porous cell body 12 when rotated, still can keep the stability of dehydration cycle device 1, yet, not exceeding with above-mentioned in the position of porous cell body 12, can adjust its position according to the application of reality.

Send 13 of water modules to comprise to send hydrodynamic(al) spare 131 and to be communicated with this and send the conduit 132 of hydrodynamic(al) spare 131, this send hydrodynamic(al) spare 131 to be located in this second accommodation space 102 corresponding to this porous cell body 12, and this conduit 132 then extends to filtration 11 in this first accommodation space 101 by this second accommodation space 102; In this specific embodiment, this send hydrodynamic(al) spare 131 is to send the water flap, and its interlock is in this porous cell body 12, and in corresponding second accommodation space 102 of an end of this conduit 132 this send the water flap, the filtration 11 in then corresponding first accommodation space 101 of the other end.When sending the water flap to rotate, it can push to the liquid 3 in second accommodation space 102 this conduit 132, just the liquid 3 in second accommodation space 102 can be sent to filtration 11 along conduit 132, and enter first accommodation space 101 via filtration.

This driver module 14 is located at this tubular body 10 outsides, and by tubular body 10 outer tubular body 10 inside that extend to; This driver module 14 is force-applied and drive porous cell body 12 and send hydrodynamic(al) spare 131, for example in this specific embodiment, this driver module 14 is the inner member of dehydration cycle device 1, it comprises a force-applying piece 141 at least, one drive mechanism 142 and that is connected in this force-applying piece 141 is connected in the rotating shaft 143 of this drive mechanism 142, this rotating shaft 143 is by these tubular body 10 outer these second accommodation spaces 102 that extend in this tubular body 10, and this porous cell body 12 send hydrodynamic(al) spare 131 to be connected in this rotating shaft 143 with this, therefore, the user can force in this force-applying piece 141, strength can be by means of drive mechanism 142, the transmission of rotating shaft 143 and make porous cell body 12 and send hydrodynamic(al) spare 131 to be rotated, this send the rotation of hydrodynamic(al) spare 131 liquid 3 of second accommodation space 102 can be sent to first accommodation space 101 along conduit 132; And the rotation of this porous cell body 12 can screw out the liquid 3 of the cleaning section 21 of mop 2, drain, so can reach cleaning, drain the cleaning section 21 of mop 2 and utilize the double effects of liquid 3 dirty in filtration 11 filtrations second accommodation space 102 in first accommodation space 101.Moreover, more can be provided with a supporting construction 1431, for example a shell fragment in this rotating shaft 143, it can be in order to support mop 2, make cleaning section 21 have more space and launched, and the cleaning section 21 of this mop 2 can adjust its height according to the size of centrifugal force, can reduce the seismism of mop 2.And in an alternate embodiment, this driver module 14 can be outside driver element, for example the turn section 22 of this mop 2 and a holding section 23 that connects this turn section 22 can be screw mechanism, driving force by means of above-mentioned screw mechanism drives porous cell body 12 and the turn of sending water module 13, to carry out the action of draining and filtration.In other words, the present invention does not limit structure, the form of driver module 14, only need utilize interlock in porous cell body 12 with send the driver module 14 of water module 13 can reach the present invention.

In order to reach the preferable effect that drains, this mop 2 has the holding section 23 that a turn section 22 and that connects this cleaning section 21 connects this turn section 22 best, this turn section 22 have a pair of should rotating shaft 143 plug space 221, so the user is when utilizing this dehydration cycle device 1 to clean mop 2, the cleaning section 21 of mop 2 can be positioned over the porous cell body 12 in this second accommodation space 102, and rotating shaft 143 is inserted in this plugs space 221, plug the length in space 221 by means of this, but this mop 2 of user's upper and lower displacement, the cleaning section 21 of mop 2 can fully be cleaned in the liquid 3 of this second accommodation space 102, and by means of rotating shaft 143 with plug space 221, the cleaning section 21 of this mop 2, turn section 22 stably interlock is rotated in porous cell body 12, so can reach the preferable effect that drains.

On the other hand, after the user takes out the cleaning section 21 of the mop 2 that drains in by second accommodation space 102, the user can open valve 1001, so that this first accommodation space 101 is interconnected with this second accommodation space 102, by so that the liquid 3 after filtering is refluxed in second accommodation space 102 by first accommodation space 101 again, clean the action of the cleaning section 21 of mop 2 to treat the next one.

In concrete application, the user can utilize following steps, to reach cleaning, to drain the effect of the cleaning section 21 of mop 2:

At first, the user will contain liquid 3 in this first accommodation space 101 of this tubular body 10 and this second accommodation space 102 according to the scale mark on the tubular body 10.

After the user utilizes the cleaning section 21 of a mop 2 to mop floor, the cleaning section 21 of dirty mop 2 can be placed in this porous cell body 12 in this second accommodation space 102, and shake the cleaning section 21 of cleaning mop 2 up and down with the liquid 3 that utilizes in this second accommodation space 102.Best, the user can be inserted in rotating shaft 143 plugging in the space 221 of this turn section 22, and adjusts the height (as shown in Figure 1) of mop 2 with the supporting construction in this rotating shaft 143 1431.

Then, the user can force in this driver module 14 repeatedly, send hydrodynamic(al) spare 131 to be rotated with cleaning section 21, this porous cell body 12 that drives this mop 2 with this, make the liquid 3 of this second accommodation space 102 send hydrodynamic(al) spare 131 to flow to the filtration 11 of this first accommodation space 101 along this conduit 132 by means of this, and the liquid after will filtering 3 flows into this first accommodation space 101, so that the liquid 3 of second accommodation space 102 reduces gradually, simultaneously, by means of the rotation of this mop 2 and this porous cell body 12 cleaning section 21 of this mop 2 is drained (shown in Figure 1A) again.And in this step, the user can grip the holding section 23 of this mop 2, and allows the cleaning section 21 of mop 2, turn section 22 rotate linkedly with porous cell body 12.

Again on the one hand, the user can be according to what of the liquid 3 of second accommodation space 102, carry out two stage at least force mechanism, for example, carry out first application of force step earlier, impose lighter strength (for example gently stepping on) on this force-applying piece 141, send hydrodynamic(al) spare 131 to flow to this filtration 11 of this first accommodation space 101 by means of this, and make the liquid 3 after the filtration flow into this first accommodation space 101 along this conduit 132 with liquid 3 with this second accommodation space 102 with pin; When the liquid 3 of this second accommodation space 102 is less than a scheduled volume, promptly carry out second application of force step, user's body wt is imposed on this force-applying piece 141, so that the cleaning section 21 and these porous cell body 12 fast rotational of this mop 2, with the cleaning section 21 that drains this mop 2, in other words, at the liquid 3 of second accommodation space 102 more after a little while, put on the force-applying piece 141 with bigger body wt, so that the cleaning section 21 of mop 2 and this porous cell body 12 are with speed rotation faster, with the purpose that reaches dehydration, drains.

On the other hand, in order to add the effect that strong filter cleans, the user can open this valve 1001 earlier, make liquid 3 flow to this filtration 11 of this first accommodation space 101 circularly along this conduit 132 by this second accommodation space 102, and flow to this first accommodation space 101, be back to this second accommodation space 102 by this valve 1001 again, repeatedly to filter this liquid 3; Think that up to the user cleaning section 21 of mop 2 cleaned fully, close this valve 1001 again, to carry out the above-mentioned step that drains the cleaning section 21 of this mop 2.

Fig. 2 to Fig. 2 B then shows the second embodiment of the present invention, wherein, different with first embodiment be in, the position of this driver module 14 is adjusted to a side of this first accommodation space 101, and utilize structures such as roller, belt or lever will force in this force-applying piece 141 and conduct to rotating shaft 143, advance the spinning movement of sending the cleaning section 21 of hydrodynamic(al) spare 131, porous cell body 12 and mop 2 with drive, other please refer to first embodiment, do not repeat them here.

Fig. 3 to Fig. 3 B then is the third embodiment of the present invention, wherein, different with first, second embodiment be in, this isolation structure 100 is a round barrel shape dividing plate, to define this second accommodation space 102; Then form first accommodation space 101 between round barrel shape dividing plate and the tubular body 10.Therefore, second accommodation space 102 is formed at the central portion of tubular body 10, has more stability in the use.On the other hand, the bottom of this tubular body 10 has foldable support member 103, as roller etc., so the user can move this dehydration cycle device 1 by means of support member 103, and when cleaning mop 2, support member 103 can be contained in the tubular body 10, so dehydration cycle device 1 has preferable ease of use.In sum, the present invention has following all advantage:

1, dehydration cycle device of the present invention can utilize the mode of circulating filtration to keep the cleanliness factor of the liquid that cleans mop, mop can effectively be cleaned, to avoid causing the cleannes on ground to promote on the dirty ground of taking back again in the liquid.

2, dehydration cycle device of the present invention can utilize the mode of circulating filtration to keep the cleanliness factor of the liquid that cleans mop, so in the process that mops floor, need not change water, to reach water-saving, timesaving effect efficiently, make dehydration cycle device of the present invention more be applicable to energy-conservation demand.

The above only is a preferable possible embodiments of the present invention, and non-so limitation protection scope of the present invention so the equivalence that all utilizations specification of the present invention and accompanying drawing content are done changes, all is contained within protection scope of the present invention.

Claims (10)

1. a dehydration cycle device is characterized in that, in order to the liquid of the cleaning section that drains a mop, and with this liquid filter cleaning in addition, this dehydration cycle device comprises:

One tubular body, its inside are provided with an isolation structure forming one first accommodation space and one second accommodation space, and more are provided with a valve on this isolation structure;

One filtration, it is located in this first accommodation space;

One porous cell body, it rotatably is arranged in this second accommodation space;

One send the water module, it comprises that sending hydrodynamic(al) spare and to be communicated with this send the conduit of hydrodynamic(al) spare, wherein this send hydrodynamic(al) spare to be located in this second accommodation space corresponding to this porous cell body, and this conduit is then extended to the filtration of this first accommodation space by this second accommodation space; And

One driver module, its interlock send hydrodynamic(al) spare in this porous cell body and this.

2. dehydration cycle device as claimed in claim 1, it is characterized in that, this valve closing is so that this first accommodation space and this second accommodation space are independently of one another, perhaps this valve opening is so that this first accommodation space and this second accommodation space are interconnected, and this porous cell body is located at the bottom position of this second accommodation space.

3. dehydration cycle device as claimed in claim 1, it is characterized in that, this driver module comprises that at least drive mechanism and that a force-applying piece, is connected in this force-applying piece is connected in the rotating shaft of this drive mechanism, this rotating shaft extends to intrinsic this second accommodation space of this tubular outward by this tubular body, and this porous cell body and this send hydrodynamic(al) spare to be connected in this rotating shaft.

4. dehydration cycle device as claimed in claim 3 is characterized in that, this send hydrodynamic(al) spare is to send the water flap, and more is provided with a supporting construction in this rotating shaft.

5. dehydration cycle device as claimed in claim 3 is characterized in that, this mop comprises that more a turn section and that connects this cleaning section connects the holding section of this turn section, this turn section have a pair of should rotating shaft plug the space.

6. a dehydration cycle method is characterized in that, is applied to the liquid of dehydration cycle device as claimed in claim 1 with the cleaning section that drains a mop, and with this liquid filter cleaning in addition, this dehydration cycle method comprises following steps:

This first accommodation space and this second accommodation space of this tubular body are contained liquid;

The cleaning section of this mop is placed in this porous cell body in this second accommodation space; And

Force in this driver module repeatedly, send hydrodynamic(al) spare to be rotated with the cleaning section that drives this mop, this porous cell body and this, making the liquid thereby of this second accommodation space help this send hydrodynamic(al) spare to flow to the filtration of this first accommodation space along this conduit, and the liquid after will filtering flows into this first accommodation space, simultaneously, drained by means of the rotation of this mop and this porous cell body cleaning section this mop.

7. dehydration cycle method as claimed in claim 6 wherein after forcing in the step of this driver module with the cleaning section that drains this mop repeatedly, is characterized in that, more may further comprise the steps:

This mop is taken out by this tubular body, and open this valve and flow into this second accommodation space so that be arranged in the liquid of this first accommodation space;

Treat that the liquid level of this second accommodation space roughly is same as the liquid level of this first accommodation space, closes this valve.

8. dehydration cycle method as claimed in claim 6, it is characterized in that, this driver module comprises a force-applying piece at least, one drive mechanism and that is connected in this force-applying piece is connected in the rotating shaft of this drive mechanism, this rotating shaft extends to intrinsic this second accommodation space of this tubular outward by this tubular body, and this porous cell body and this send hydrodynamic(al) spare to be connected in this rotating shaft, this mop comprises that more a turn section and that connects this cleaning section connects the holding section of this turn section, this turn section have a pair of should rotating shaft plug the space, place the step of this porous cell body in cleaning section, this rotating shaft is inserted in this turn section this mop.

9. dehydration cycle method as claimed in claim 8 is characterized in that, in the step that forces in this driver module repeatedly, comprises two stage at least application of force step:

First application of force step imposes lighter strength on this force-applying piece, help this with the liquid thereby with this second accommodation space and send hydrodynamic(al) spare to flow to this filtration of this first accommodation space along this conduit, and the liquid after will filtering flows into this first accommodation space;

The liquid for the treatment of this second accommodation space is less than a scheduled volume, promptly carries out second application of force step, user's body wt is imposed on this force-applying piece, so that the cleaning section of this mop and this porous cell body fast rotational, to drain the cleaning section of this mop.

10. dehydration cycle method as claimed in claim 6 is characterized in that, in the step that forces in this driver module repeatedly, comprising:

With this valve opening, make liquid flow to this filtration of this first accommodation space by this second accommodation space along this conduit circularly earlier, and flow to this first accommodation space, again by this valve return to this second accommodation space, repeatedly to filter this liquid;

Close this valve again, with the step of the cleaning section that drains this mop.

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