CN102273993A - Method for automatically cleaning and drying mop and double-unit mop bucket for implementing same - Google Patents

Method for automatically cleaning and drying mop and double-unit mop bucket for implementing same Download PDF

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Publication number
CN102273993A
CN102273993A CN2011101697527A CN201110169752A CN102273993A CN 102273993 A CN102273993 A CN 102273993A CN 2011101697527 A CN2011101697527 A CN 2011101697527A CN 201110169752 A CN201110169752 A CN 201110169752A CN 102273993 A CN102273993 A CN 102273993A
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CN
China
Prior art keywords
mop
power transmission
transmission shaft
motor
circuit plate
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CN2011101697527A
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Chinese (zh)
Inventor
杨汉标
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广东银润实业有限公司
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Priority to CN2011101697527A priority Critical patent/CN102273993A/en
Publication of CN102273993A publication Critical patent/CN102273993A/en

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Abstract

The invention discloses a method for automatically cleaning and drying a mop, which comprises the following steps of: (1) preparing a bucket body which comprises a water storage space at the upper part and a driving space at the lower part; (2) arranging a draining screen and a spiral body in the water storage space of the bucket body in a way that the draining screen can rotate and move up and down and the spiral body can rotate and move up and down; (3) arranging a driving device in the driving space, wherein the driving device comprises a first driving component connected with the draining screen and a second driving component connected with the spiral body; (4) pouring water into the water storage space of the bucket body, soaking the dirty mop in the water, and pressing the spiral body, so that the second driving component works to enable the water to rotate and agitate, thereby cleaning the dirty mop; and (5) putting the cleaned wet mop into the draining screen, and pressing the draining screen, so that the first driving component works to spin off the water on the wet mop under the action of centrifugal force. The invention also discloses a double-unit mop bucket.

Description

A kind of mop cleans automatically and takes off dried method and implement the bitubular mop-pail stands of this method
Technical field
The present invention relates to mop-pail stands, particularly a kind of mop cleans automatically and takes off dried method and a kind of bitubular mop-pail stands of implementing this method.
Background technology
In the modern life, people pay attention to the household health very much, often need carry out cleaning to the family environment.Mop is a kind of burnisher commonly used, often uses in daily life, and mop is placed on behind the plate that mops and stirs in the clear water in the mop-pail stands removing the foul on the mop as far as possible, and then mop is wrung out.The existing mode of wringing out commonly used is a kind of to be to be provided with a pair of nip rolls on mop-pail stands, wet mop places in the middle of two nip rolls, after making nip rolls produce certain chucking power to clamp wet mop by pedal and corresponding transmission device, the same mop of mentioning of exerting oneself then squeezes out sewage; Another kind of mode is to be provided with a mop crush zone on one side at the mop staving, firmly squeezes by wet mop to remove sewage after wet mop is placed crush zone.The weak point of this dual mode is, sewage degree of wringing out on the wet mop is relatively poor, be difficult to reach the effect of wringing out, and this dual mode all needs to impose suitable strength and just can reach and wring out effect, for the people a little less than the power, above-mentioned dual mode all is very limited, if undue force is easy to cause the discomfort on the health.How wet mop is cleaned like a cork and dewatered and washed to divide be the industry difficult problem of tackling key problems for a long time always.
Summary of the invention
The objective of the invention is to, provide a kind of mop to clean automatically and take off dried method, use by this method, realize the automatic cleaning of dirty mop and take off dried, by bitubular mop-pail stands being provided with an automatic cleaning part and an automatic dehydration part, can finish the cleaning and the dehydration of dirty mop automatically, time saving and energy saving, reduce the labour intensity of daily household sanitized, improve the life quality.
The present invention also provides a kind of bitubular mop-pail stands that described mop cleaned and took off dried method automatically of implementing.
The technical scheme that the present invention is adopted for achieving the above object is:
A kind of mop cleans automatically and takes off dried method, and it may further comprise the steps:
(1) one barrel of body of preparation, this barrel body comprises the dress hydrospace on top and the driving space of bottom, sealing is isolated between this dress hydrospace and the driving space;
(2) the drainage sieve and the conveyor screw that can rotate and move up and down that can rotate and move up and down is set in the dress hydrospace of this barrel body, this drainage sieve is located at the top of this dress hydrospace one side, this conveyor screw is located at the bottom of this dress hydrospace opposite side, agitate, shake and to place the dirty mop of water body to clean up thereby rotate to drive water body in the water body high speed, thereby will place the moisture on the wet mop of drainage sieve to take off dried by this drainage sieve high speed rotating with centrifugal force by this conveyor screw;
(3) in this driving space, a drive unit is set, this drive unit comprises that one is connected and orders about first transmission component that the drainage sieve rotates and is connected and orders about the conveyor screw rotation with described conveyor screw second transmission component with described drainage sieve, first power transmission shaft in this first transmission component stretches out this driving space and is connected with the drainage sieve, and second power transmission shaft in this second transmission component stretches out this driving space and is connected with conveyor screw;
(4) water filling in the dress hydrospace of this barrel body, water surface elevation is lower than the bottom of this drainage sieve, this moment, this conveyor screw was dipped in the water, stretch into dirty mop in the water and push conveyor screw, thereby make this second transmission component work, order about the conveyor screw high speed rotating by second power transmission shaft, make water body rotate, agitate, thereby dirty mop is cleaned up;
(5) wet mop after will cleaning extend in the drainage sieve and pushes the drainage sieve, thereby makes this first transmission component work, drives this drainage sieve high speed rotating by first power transmission shaft, by action of centrifugal force the moisture on the wet mop is thrown away, and reaches and takes off dried purpose.
As a further improvement on the present invention, described first transmission component comprises one first motor, one first power transmission shaft, one first trigger switch and one first delay switch circuit plate, this first motor output shaft up is located in this driving space, described first power transmission shaft is rotatable and can stretch out this driving space up or down, the top of this first power transmission shaft is connected with described drainage sieve, described first trigger switch and delay switch circuit plate are located at the below of this first power transmission shaft successively, between this first trigger switch and the first delay switch circuit plate, be provided with one first back-moving spring, be respectively equipped with one first travelling gear on the output shaft of this first motor and first power transmission shaft, be meshed between these two first travelling gears.
As a further improvement on the present invention, described second transmission component comprises one second motor, one second power transmission shaft, one second trigger switch and one second delay switch circuit plate, the output shaft of this second motor is arranged in this driving space down, this second power transmission shaft is rotatable and can stretch out this driving space up or down, the top of this second power transmission shaft is connected with described conveyor screw, this second trigger switch and the second delay switch circuit plate are located at the below of this second power transmission shaft successively, between this second trigger switch and the second delay switch circuit plate, be provided with one second back-moving spring, be respectively equipped with one second travelling gear on the output shaft of this second motor and second power transmission shaft, between these two second travelling gears, also be provided with several second travelling gears, be meshed between described second travelling gear.
As a further improvement on the present invention, between this step (3) and (4), one supply unit also is set, this supply unit comprises this first motor that is of being located in this driving space, the charging plug and one that the battery and of second motor power supply is located at this barrel body outer wall is used to cut off this first motor, the isolating switch of second motor power, this charging plug is connected with battery, this battery and the described first delay switch circuit plate, the second delay switch circuit plate is connected, this isolating switch is located at this battery top, use by this isolating switch, when not needing drainage sieve or conveyor screw work, with the battery and the first delay switch circuit plate, the connection of the second delay switch circuit plate disconnects, and drainage sieve or conveyor screw are rotated.
As a further improvement on the present invention, after described drainage sieve or conveyor screw press some seconds of setting-up time rotation, this first delay switch circuit plate or the second delay switch circuit plate disconnected circuit automatically, stop drainage and sieve or spirochetal rotation work.
A kind ofly implement the bitubular mop-pail stands that aforementioned mop cleaned and took off dried method automatically, it comprises one barrel of body, be provided with a drainage sieve that can rotate at a high speed in the top, dress hydrospace of this barrel body one side, this drainage sieve can move up and down, opposite side is provided with a rotatable conveyor screw that will be loaded on the intrinsic water driven rotary of this barrel in the bottom, dress hydrospace of this barrel body, be provided with a driving space that isolates with the dress hydrospace of described bucket body in the below of described drainage sieve, one drive unit is arranged in this driving space, and described drive unit comprises that one is connected and orders about first transmission component that the drainage sieve rotates and is connected and orders about the conveyor screw rotation with described conveyor screw second transmission component with described drainage sieve.
As a further improvement on the present invention, described first transmission component comprises one first motor, one first power transmission shaft, one first trigger switch and one first delay switch circuit plate, this first motor output shaft up is located in this driving space, described first power transmission shaft is rotatable and can stretch out this driving space up or down, the top of this first power transmission shaft is connected with described drainage sieve, described first trigger switch and delay switch circuit plate are located at the below of this first power transmission shaft successively, between this first trigger switch and the first delay switch circuit plate, be provided with one first back-moving spring, be respectively equipped with one first travelling gear on the output shaft of this first motor and first power transmission shaft, be meshed between these two first travelling gears.
As a further improvement on the present invention, described second transmission component comprises one second motor, one second power transmission shaft, one second trigger switch and one second delay switch circuit plate, the output shaft of this second motor is arranged in this driving space down, this second power transmission shaft is rotatable and can stretch out this driving space up or down, the top of this second power transmission shaft is connected with described conveyor screw, this second trigger switch and the second delay switch circuit plate are located at the below of this second power transmission shaft successively, between this second trigger switch and the second delay switch circuit plate, be provided with one second back-moving spring, be respectively equipped with one second travelling gear on the output shaft of this second motor and second power transmission shaft, between these two second travelling gears, also be provided with several second travelling gears, be meshed between described second travelling gear.
As a further improvement on the present invention, it also comprises a supply unit, this supply unit comprises that the battery of being located in this driving space and for the power supply of this first motor, second motor is located at the isolating switch that the charging plug and of this barrel body outer wall is used to cut off this first motor, second motor power, this charging plug is connected with battery, this battery is connected with the described first delay switch circuit plate, the second delay switch circuit plate, and this isolating switch is located at this battery top.
As a further improvement on the present invention, it also comprises a handle, and these handle two ends are hinged on this mop-pail stands bodies top both sides; Described drainage sieves and is the circle peviform to be interval with dehydrated mouth on this drainage sieve, and described drainage sieve turns by a support and can be arranged at this barrel upper part of body one side up or down.
Beneficial effect of the present invention is: the present invention designs ingenious, this bitubular mop-pail stands is rational in infrastructure, this bitubular mop-pail stands is provided with an automatic cleaning part and an automatic dehydration part, can finish the cleaning and the dehydration of dirty mop automatically, time saving and energy saving, reduce the labour intensity of daily household sanitized, improve the life quality.
Below in conjunction with accompanying drawing and embodiment, the present invention is further described.
Description of drawings
Fig. 1 is a perspective view of the present invention;
Fig. 2 is a fractionation schematic diagram 1 of the present invention;
Fig. 3 is a fractionation schematic diagram 2 of the present invention;
Fig. 4 is that drive unit of the present invention partly splits schematic diagram.
The specific embodiment
Embodiment: see Fig. 1 to Fig. 4, a kind of mop of the present invention cleans automatically and takes off dried method, and it may further comprise the steps:
(1) one barrel of body 1 of preparation, this barrel body 1 comprises the dress hydrospace 11 on top and the driving space 12 of bottom, sealing is isolated between this dress hydrospace 11 and the driving space 12;
(2) 2 and conveyor screws 3 that can rotate and move up and down of drainage sieve that can rotate and move up and down are set in the dress hydrospace 11 of this barrel body 1, this drainage sieve 2 is located at the top of these dress hydrospace 11 1 sides, this conveyor screw 3 is located at the bottom of these dress hydrospace 11 opposite sides, agitate, shake and to place the dirty mop of water body to clean up thereby rotate to drive water body in the water body high speed, thereby the moisture that sieves on 2 high speed rotating will place drainage sieve 2 with centrifugal force the wet mop by this drainage takes off dried by this conveyor screw 3;
(3) drive unit 4 is set in this driving space 12, this drive unit 4 comprises that one is connected and orders about first transmission components 41 that drainage sieve 2 rotates and are connected and order about conveyor screw 3 rotations with described conveyor screw 3 second transmission component 42 with described drainage sieve 2, first power transmission shaft 412 in this first transmission component 41 stretches out this driving space 12 and is connected with drainage sieve 2, and second power transmission shaft 422 in this second transmission component 42 stretches out this driving space 12 and is connected with conveyor screw 3;
(4) water filling in the dress hydrospace 11 of this barrel body 1, water surface elevation is lower than the bottom of this drainage sieve 2, this moment, this conveyor screw 3 was dipped in the water, stretch into dirty mop in the water and push conveyor screw 3, thereby make this second transmission component, 42 work, order about conveyor screw 3 high speed rotating by second power transmission shaft 422, make water body rotate, agitate, thereby dirty mop is cleaned up;
(5) wet mop after will cleaning extend in the drainage sieve 2 and pushes drainage sieve 2, thereby make this first transmission component, 41 work, drive this drainage by first power transmission shaft 412 and sieve 2 high speed rotating, the moisture on the wet mop is thrown away, reach and take off dried purpose by action of centrifugal force.
Described first transmission component 41 comprises one first motor 411, one first power transmission shaft 412, one first trigger switch 414 and one first delay switch circuit plate, these first motor, 411 output shafts up are located in this driving space 12, described first power transmission shaft 412 turns and can stretch out this driving space 12 up or down, the top of this first power transmission shaft 412 is connected with described drainage sieve 2, described first trigger switch 414 and delay switch circuit plate are located at the below of this first power transmission shaft 412 successively, between this first trigger switch 414 and the first delay switch circuit plate, be provided with one first back-moving spring 416, be respectively equipped with one first travelling gear 413 on the output shaft of this first motor 411 and first power transmission shaft 412, be meshed between these two first travelling gears 413.
Described second transmission component 42 comprises one second motor 421, one second power transmission shaft 422, one second trigger switch 424 and one second delay switch circuit plate, the output shaft of this second motor 421 is arranged in this driving space 12 down, this second power transmission shaft 422 turns and can stretch out this driving space 12 up or down, the top of this second power transmission shaft 422 is connected with described conveyor screw 3, this second trigger switch 424 and the second delay switch circuit plate are located at the below of this second power transmission shaft 422 successively, between this second trigger switch 424 and the second delay switch circuit plate, be provided with one second back-moving spring 426, be respectively equipped with one second travelling gear 423 on the output shaft of this second motor 421 and second power transmission shaft 422, between these two second travelling gears 423, also be provided with several second travelling gears 423, be meshed between described second travelling gear 423.
Between this step (3) and (4), one supply unit also is set, this supply unit comprises this first motor 411 that is of being located in this driving space 12, the charging plug 52 and one that the battery 51 and of second motor, 421 power supplies is located at this barrel body 1 outer wall is used to cut off this first motor 411, the isolating switch 53 of second motor, 421 power supplys, this charging plug 52 is connected with battery 51, this battery 51 and the described first delay switch circuit plate, the second delay switch circuit plate is connected, this isolating switch 53 is located at this battery 51 tops, use by this isolating switch 53, when not needing drainage sieve 2 or conveyor screw 3 work, with the battery 51 and the first delay switch circuit plate, the connection of the second delay switch circuit plate disconnects, and drainage sieve 2 or conveyor screw 3 are rotated.
After described drainage sieve 2 or conveyor screw 3 press some seconds of setting-up time rotation, this first delay switch circuit plate or the second delay switch circuit plate disconnected circuit automatically, stopped drainage and sieved 2 or the rotation work of conveyor screw 3.
A kind of bitubular mop-pail stands of implementing preceding method, it comprises one barrel of body 1, be provided with a drainage sieve 2 that can rotate at a high speed in 11 tops, dress hydrospace of this barrel body 1 side, this drainage sieve 2 can move up and down, be provided with a rotatable conveyor screw 3 that will be loaded on the water driven rotary in this barrel body 1 in the dress hydrospace of this barrel body 1 11 bottom opposite sides, be provided with a driving space 12 that isolates with the dress hydrospace 11 of described bucket body 1 in the below of described drainage sieve 2, one drive unit 4 is arranged in this driving space 12, and described drive unit 4 comprises that one is connected and orders about first transmission components 41 that drainage sieve 2 rotates and are connected and order about conveyor screw 3 rotations with described conveyor screw 3 second transmission component 42 with described drainage sieve 2.
Described first transmission component 41 comprises one first motor 411, one first power transmission shaft 412, one first trigger switch 414 and one first delay switch circuit plate, these first motor, 411 output shafts up are located in this driving space 12, described first power transmission shaft 412 turns and can stretch out this driving space 12 up or down, the top of this first power transmission shaft 412 is connected with described drainage sieve 2, described first trigger switch 414 and delay switch circuit plate are located at the below of this first power transmission shaft 412 successively, between this first trigger switch 414 and the first delay switch circuit plate, be provided with one first back-moving spring 416, be respectively equipped with one first travelling gear 413 on the output shaft of this first motor 411 and first power transmission shaft 412, be meshed between these two first travelling gears 413.
Described second transmission component 42 comprises one second motor 421, one second power transmission shaft 422, one second trigger switch 424 and one second delay switch circuit plate, the output shaft of this second motor 421 is arranged in this driving space 12 down, this second power transmission shaft 422 turns and can stretch out this driving space 12 up or down, the top of this second power transmission shaft 422 is connected with described conveyor screw 3, this second trigger switch 424 and the second delay switch circuit plate are located at the below of this second power transmission shaft 422 successively, between this second trigger switch 424 and the second delay switch circuit plate, be provided with one second back-moving spring 426, be respectively equipped with one second travelling gear 423 on the output shaft of this second motor 421 and second power transmission shaft 422, between these two second travelling gears 423, also be provided with several second travelling gears 423, be meshed between described second travelling gear 423.
It also comprises a supply unit, this supply unit comprises that the battery of being located in this driving space 12 51 and for this first motor 411,421 power supplies of second motor is located at the isolating switch 53 that the charging plug 52 and of this barrel body 1 outer wall is used to cut off this first motor 411, second motor, 421 power supplys, this charging plug 52 is connected with battery 51, this battery 51 is connected with the described first delay switch circuit plate, the second delay switch circuit plate, and this isolating switch is located at this battery 51 tops.
It also comprises a handle 6, and these handle 6 two ends are hinged on this both sides, mop-pail stands body 1 top.
Described drainage sieves 2 and is the circle peviform, is interval with dehydrated mouth 21 on this drainage sieve 2, and described drainage sieve 2 turns and can be arranged at up or down top one side of this barrel body 1 by a support 22.
Between the output shaft of this second motor 421 and second travelling gear 423 on second power transmission shaft 422, also be provided with two second travelling gears 423.
Dress water in this barrel body 1, water level is lower than the bottom of this drainage sieve 2, push conveyor screw 3 with mop, make second power transmission shaft 422 press down, second trigger switch 424 contacts with the second delay switch circuit plate 425, time-delay is connected battery 51 power supplies and is given second motor 421, second back-moving spring 426 makes second power transmission shaft 422, conveyor screw 3 homings, second motor 421 rotates, second travelling gear 423 by engagement successively orders about this conveyor screw 3 rotations, thereby in the dress hydrospace 11 of mop-pail stands, form rotary water current, dirty mop is put in the water, rotary water current drives mop and agitates in water, turn, obtain well automatic cleaning performance, mop after cleaning is put in the drainage sieve 2, push drainage sieve 2 with mop, the power transmission shaft 412 of winning is pressed down, first trigger switch 414 contacts with the first delay switch circuit plate 415, time-delay is connected battery 51 power supplies and is given first motor 411, first back-moving spring 416 makes the power transmission shaft 412 of winning, drainage sieves 2 homings, and first motor 411 rotates, and orders about drainage by first travelling gear 413 that meshes and sieves 2 high speed rotating, rely on centrifugal force that the moisture on the wet mop is broken away from, reach the purpose of taking off dust mop automatically.
As described in the embodiment of the invention, clean automatically with other mops of the same or similar structure of the present invention and take off dried method and implement the bitubular mop-pail stands of this method, all in protection domain of the present invention.

Claims (10)

1. a mop cleans automatically and takes off dried method, and it is characterized in that: it may further comprise the steps:
(1) one barrel of body of preparation, this barrel body comprises the dress hydrospace on top and the driving space of bottom, sealing is isolated between this dress hydrospace and the driving space;
(2) the drainage sieve and the conveyor screw that can rotate and move up and down that can rotate and move up and down is set in the dress hydrospace of this barrel body, this drainage sieve is located at the top of this dress hydrospace one side, this conveyor screw is located at the bottom of this dress hydrospace opposite side, agitate, shake and to place the dirty mop of water body to clean up thereby rotate to drive water body in the water body high speed, thereby will place the moisture on the wet mop of drainage sieve to take off dried by this drainage sieve high speed rotating with centrifugal force by this conveyor screw;
(3) in this driving space, a drive unit is set, this drive unit comprises that one is connected and orders about first transmission component that the drainage sieve rotates and is connected and orders about the conveyor screw rotation with described conveyor screw second transmission component with described drainage sieve, first power transmission shaft in this first transmission component stretches out this driving space and is connected with the drainage sieve, and second power transmission shaft in this second transmission component stretches out this driving space and is connected with conveyor screw;
(4) water filling in the dress hydrospace of this barrel body, water surface elevation is lower than the bottom of this drainage sieve, this moment, this conveyor screw was dipped in the water, stretch into dirty mop in the water and push conveyor screw, thereby make this second transmission component work, order about the conveyor screw high speed rotating by second power transmission shaft, make water body rotate, agitate, thereby dirty mop is cleaned up;
(5) wet mop after will cleaning extend in the drainage sieve and pushes the drainage sieve, thereby makes this first transmission component work, drives this drainage sieve high speed rotating by first power transmission shaft, by action of centrifugal force the moisture on the wet mop is thrown away, and reaches and takes off dried purpose.
2. mop according to claim 1 cleans automatically and takes off dried method, it is characterized in that, described first transmission component comprises one first motor, one first power transmission shaft, one first trigger switch and one first delay switch circuit plate, this first motor output shaft up is located in this driving space, described first power transmission shaft is rotatable and can stretch out this driving space up or down, the top of this first power transmission shaft is connected with described drainage sieve, described first trigger switch and delay switch circuit plate are located at the below of this first power transmission shaft successively, between this first trigger switch and the first delay switch circuit plate, be provided with one first back-moving spring, be respectively equipped with one first travelling gear on the output shaft of this first motor and first power transmission shaft, be meshed between these two first travelling gears.
3. mop according to claim 1 and 2 cleans automatically and takes off dried method, it is characterized in that, described second transmission component comprises one second motor, one second power transmission shaft, one second trigger switch and one second delay switch circuit plate, the output shaft of this second motor is arranged in this driving space down, this second power transmission shaft is rotatable and can stretch out this driving space up or down, the top of this second power transmission shaft is connected with described conveyor screw, this second trigger switch and the second delay switch circuit plate are located at the below of this second power transmission shaft successively, between this second trigger switch and the second delay switch circuit plate, be provided with one second back-moving spring, be respectively equipped with one second travelling gear on the output shaft of this second motor and second power transmission shaft, between these two second travelling gears, also be provided with several second travelling gears, be meshed between described second travelling gear.
4. mop according to claim 3 cleans automatically and takes off dried method, it is characterized in that, between this step (3) and (4), one supply unit also is set, this supply unit comprises this first motor that is of being located in this driving space, the charging plug and one that the battery and of second motor power supply is located at this barrel body outer wall is used to cut off this first motor, the isolating switch of second motor power, this charging plug is connected with battery, this battery and the described first delay switch circuit plate, the second delay switch circuit plate is connected, this isolating switch is located at this battery top, use by this isolating switch, when not needing drainage sieve or conveyor screw work, with the battery and the first delay switch circuit plate, the connection of the second delay switch circuit plate disconnects, and drainage sieve or conveyor screw are rotated.
5. mop according to claim 1 cleans automatically and takes off dried method, it is characterized in that, after described drainage sieve or conveyor screw press setting-up time rotation some seconds, this the first delay switch circuit plate or the second delay switch circuit plate disconnect circuit automatically, stop drainage sieve or spirochetal rotation work.
6. implement the bitubular mop-pail stands that the described mop of claim 1 cleaned and took off dried method automatically for one kind, it comprises one barrel of body, it is characterized in that: be provided with a drainage sieve that can rotate at a high speed in the top, dress hydrospace of this barrel body one side, this drainage sieve can move up and down, opposite side is provided with a rotatable conveyor screw that will be loaded on the intrinsic water driven rotary of this barrel in the bottom, dress hydrospace of this barrel body, be provided with a driving space that isolates with the dress hydrospace of described bucket body in the below of described drainage sieve, one drive unit is arranged in this driving space, and described drive unit comprises that one is connected and orders about first transmission component that the drainage sieve rotates and is connected and orders about the conveyor screw rotation with described conveyor screw second transmission component with described drainage sieve.
7. bitubular mop-pail stands according to claim 6, it is characterized in that, described first transmission component comprises one first motor, one first power transmission shaft, one first trigger switch and one first delay switch circuit plate, this first motor output shaft up is located in this driving space, described first power transmission shaft is rotatable and can stretch out this driving space up or down, the top of this first power transmission shaft is connected with described drainage sieve, described first trigger switch and delay switch circuit plate are located at the below of this first power transmission shaft successively, between this first trigger switch and the first delay switch circuit plate, be provided with one first back-moving spring, be respectively equipped with one first travelling gear on the output shaft of this first motor and first power transmission shaft, be meshed between these two first travelling gears.
8. bitubular mop-pail stands according to claim 7, it is characterized in that, described second transmission component comprises one second motor, one second power transmission shaft, one second trigger switch and one second delay switch circuit plate, the output shaft of this second motor is arranged in this driving space down, this second power transmission shaft is rotatable and can stretch out this driving space up or down, the top of this second power transmission shaft is connected with described conveyor screw, this second trigger switch and the second delay switch circuit plate are located at the below of this second power transmission shaft successively, between this second trigger switch and the second delay switch circuit plate, be provided with one second back-moving spring, be respectively equipped with one second travelling gear on the output shaft of this second motor and second power transmission shaft, between these two second travelling gears, also be provided with several second travelling gears, be meshed between described second travelling gear.
9. bitubular mop-pail stands according to claim 8, it is characterized in that, it also comprises a supply unit, this supply unit comprises that the battery of being located in this driving space and for the power supply of this first motor, second motor is located at the isolating switch that the charging plug and of this barrel body outer wall is used to cut off this first motor, second motor power, this charging plug is connected with battery, this battery is connected with the described first delay switch circuit plate, the second delay switch circuit plate, and this isolating switch is located at this battery top.
10. bitubular mop-pail stands according to claim 9 is characterized in that it also comprises a handle, and these handle two ends are hinged on this mop-pail stands bodies top both sides; Described drainage sieves and is the circle peviform to be interval with dehydrated mouth on this drainage sieve, and described drainage sieve turns by a support and can be arranged at this barrel upper part of body one side up or down.
CN2011101697527A 2011-06-23 2011-06-23 Method for automatically cleaning and drying mop and double-unit mop bucket for implementing same CN102273993A (en)

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CN2011101697527A CN102273993A (en) 2011-06-23 2011-06-23 Method for automatically cleaning and drying mop and double-unit mop bucket for implementing same

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CN2011101697527A CN102273993A (en) 2011-06-23 2011-06-23 Method for automatically cleaning and drying mop and double-unit mop bucket for implementing same

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Publication number Priority date Publication date Assignee Title
CN102871625A (en) * 2012-10-17 2013-01-16 王又增 Mop cleaning dryer
CN107890329A (en) * 2017-11-18 2018-04-10 钱思辰 One kind is kept a public place clean with the automatic cleaning and dewatering device of mop

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CN201481354U (en) * 2009-07-21 2010-05-26 曾玉叶 Dual-layer dewatering structure
CN201542584U (en) * 2009-09-04 2010-08-11 杨朝虎 Mop or rag dewatering device
CN101912246A (en) * 2010-08-30 2010-12-15 任永海 Double-driving transmission mechanism used for rotary mop bucket

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Publication number Priority date Publication date Assignee Title
CN201481354U (en) * 2009-07-21 2010-05-26 曾玉叶 Dual-layer dewatering structure
CN201542584U (en) * 2009-09-04 2010-08-11 杨朝虎 Mop or rag dewatering device
CN101912246A (en) * 2010-08-30 2010-12-15 任永海 Double-driving transmission mechanism used for rotary mop bucket

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* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN102871625A (en) * 2012-10-17 2013-01-16 王又增 Mop cleaning dryer
CN107890329A (en) * 2017-11-18 2018-04-10 钱思辰 One kind is kept a public place clean with the automatic cleaning and dewatering device of mop
CN107890329B (en) * 2017-11-18 2020-08-21 钱思辰 Mop self-cleaning dewatering device for keeping clean

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Application publication date: 20111214