CN204445700U - A kind of clean robot - Google Patents

Abstract

The utility model discloses a kind of clean robot, comprise the direction of advance along clean robot, the cleaning agent sequentially arranged dawdle device, cleaning agent blots device, clear water smears cleaning device and clear water blots device.Implement the technical solution of the utility model, this clean robot to be cleaned through once, just can carry out that cleaning agent is dawdled, cleaning agent blots to the spot on to be cleaned, clear water smears and to wash and clear water blots the clean of four steps, no matter make spot be hydrolyzable, or all can being cleaned by this clean robot of non-hydrolysable is clean, thus this clean robot is practical, easy to operate, use simple.

Description

A kind of clean robot

Technical field

The utility model relates to Smart Home field, especially relates to a kind of clean robot.

Background technology

The hygiene of family and public activity localized ground always is a time and effort consuming and dirty tired work, although domestic burnisher as dust catcher, wash the popularization and application of dryer etc. alleviate the burden of people's cleaning floor health to a great extent, but need manual operation, and also need manual cleaning after using, then general domestic burnisher cannot adapt to the requirement of modern society people.Along with the progress of society's science and technology, also there is a lot of automatic or automanual sweeper or clean robot.

But the workflow of clean robot on the market mostly only includes and spills clear water, scrubs, reclaims sewage three key steps at present.This workflow is adequate for hydrolyzable spot, but for the spot of non-hydrolysable, this clean robot just cannot clean up.

Utility model content

The technical problems to be solved in the utility model is, provides a kind of Novel clean robot.

The utility model solves the technical scheme that its technical problem adopts: construct a kind of clean robot, comprise the direction of advance along described clean robot, the cleaning agent sequentially arranged dawdle device, cleaning agent blots device, clear water smears cleaning device and clear water blots device;

Described cleaning agent device of dawdling comprises the first crawler attachment contacted with to be cleaned, and cleaning agent tank; Cleaning agent in described cleaning agent tank is applied on described to be cleaned by described first crawler attachment, and reclaims sewage;

Described cleaning agent blots device and comprises and described to be cleaned the second crawler attachment contacted; Described second crawler attachment blots the detergent remnants on described to be cleaned, and reclaims sewage;

Clear water is smeared cleaning device and is comprised the 3rd crawler attachment contacted with described to be cleaned, and clear water tank; Clear water in described clear water tank is applied on described to be cleaned by described 3rd crawler attachment, and reclaims sewage;

Clear water blots device and comprises the 4th crawler attachment contacted with described to be cleaned; Described 4th crawler attachment blots the fresh residual water on described to be cleaned, and reclaims sewage.

In clean robot of the present utility model, described first crawler attachment comprises three the first supporting revolving shafts, the first crawler belt, a pair first grip force rotating shafts and the first drive motors;

Described first crawler belt winding is in the outside of described three the first supporting revolving shafts, and described a pair first grip force rotating shaft held tight are at the surfaces externally and internally of described first crawler belt, and described first drive motors is connected with described a pair first grip force rotating shaft transmissions;

During described first drive motors work, drive described a pair first grip force rotating shafts to rotate in opposite directions, the frictional force between described a pair first grip force rotating shafts and described first crawler belt drives described first crawler belt to rotate, and extrudes the sewage of the outer surface of described first crawler belt.

In clean robot of the present utility model, described first crawler belt forms del structure around described three the first supporting revolving shafts, described first crawler belt is pressed to ground by described first supporting revolving shaft being positioned at bottom, rubs with the contact realizing described first crawler belt and described to be cleaned.

In clean robot of the present utility model, described second crawler attachment comprises three the second supporting revolving shafts, the second crawler belt, a pair second grip force rotating shafts and the second drive motors;

Described second crawler belt winding is in the outside of described three the second supporting revolving shafts, and described a pair second grip force rotating shaft held tight are at the surfaces externally and internally of described second crawler belt, and described second drive motors is connected with described a pair second grip force rotating shaft transmissions;

During described second drive motors work, drive described a pair second grip force rotating shafts to rotate in opposite directions, the frictional force between described a pair second grip force rotating shafts and described second crawler belt drives described second crawler belt to rotate, and extrudes the sewage of the outer surface of described second crawler belt.

In clean robot of the present utility model, described second crawler belt forms equilateral triangle structure around described three the second supporting revolving shafts, described second crawler belt is pressed to ground by two described second supporting revolving shafts being positioned at bottom, rubs with the contact realizing described second crawler belt and described to be cleaned.

In clean robot of the present utility model, described 3rd crawler attachment comprises three the 3rd supporting revolving shafts, the 3rd crawler belt, a pair the 3rd grip force rotating shafts and the 3rd drive motors;

Described 3rd crawler belt winding is in the outside of described three the 3rd supporting revolving shafts, and described a pair the 3rd grip force rotating shaft held tight are at the surfaces externally and internally of described 3rd crawler belt, and described 3rd drive motors is connected with described a pair the 3rd grip force rotating shaft transmissions;

During described 3rd drive motors work, drive described a pair the 3rd grip force rotating shafts to rotate in opposite directions, the frictional force between described a pair the 3rd grip force rotating shafts and described 3rd crawler belt drives described 3rd crawler belt to rotate, and extrudes the sewage of the outer surface of described 3rd crawler belt.

In clean robot of the present utility model, described 3rd crawler belt forms del structure around described three the 3rd supporting revolving shafts, described 3rd crawler belt is pressed to ground by three described 3rd supporting revolving shafts being positioned at bottom, rubs with the contact realizing described 3rd crawler belt and described to be cleaned.

In clean robot of the present utility model, described 4th crawler attachment comprises three the 4th supporting revolving shafts, the 4th crawler belt, a pair the 4th grip force rotating shafts and four-wheel drive motors;

Described 4th crawler belt winding is in the outside of described three the 4th supporting revolving shafts, and described a pair the 4th grip force rotating shaft held tight are at the surfaces externally and internally of described 4th crawler belt, and described four-wheel drive motor is connected with described a pair the 4th grip force rotating shaft transmissions;

During described four-wheel drive machine operation, drive described a pair the 4th grip force rotating shafts to rotate in opposite directions, the frictional force between described a pair the 4th grip force rotating shafts and described 4th crawler belt drives described 4th crawler belt to rotate, and extrudes the sewage of the outer surface of described 4th crawler belt.

In clean robot of the present utility model, described 4th crawler belt forms equilateral triangle structure around described three the 4th supporting revolving shafts, described 4th crawler belt is pressed to ground by two described 4th supporting revolving shafts being positioned at bottom, rubs with the contact realizing described 4th crawler belt and described to be cleaned.

In clean robot of the present utility model, described clean robot also comprises housing, mobile wheels, foul water tank and power supply;

Described cleaning agent dawdle device, described cleaning agent blots device, described clear water smears cleaning device and described clear water blots device and is all arranged on position placed in the middle, the bottom of described housing;

Described mobile wheels comprise the bottom universal guide wheel being foremost arranged on described housing, and are arranged on the driven pulley that described universal guide wheel rear is positioned at the two bottom sides of described housing;

Described foul water tank is arranged on the rear portion of described housing, and described cleaning agent is dawdled device, described cleaning agent blots device, described clear water smears cleaning device and described clear water blots device and includes drainage trough or drainage tube for sewage being drained to described foul water tank;

Described power supply is arranged on the top of described housing, for give described cleaning agent dawdle device, described cleaning agent blots device, described clear water smears cleaning device and described clear water blots device and powers.

Implement the technical solution of the utility model, at least there is following beneficial effect: this clean robot to be cleaned through once, just can carry out that cleaning agent is dawdled, cleaning agent blots to the spot on to be cleaned, clear water smears and to wash and clear water blots the clean of four steps, no matter make spot be hydrolyzable, or all can being cleaned by this clean robot of non-hydrolysable is clean, thus this clean robot is practical, easy to operate, use simple.

Accompanying drawing explanation

Below in conjunction with drawings and Examples, the utility model is described in further detail, in accompanying drawing:

Fig. 1 be clean robot in an embodiment of the present utility model look up structural representation;

Fig. 2 is the side-looking structural representation of the clean robot in an embodiment of the present utility model;

Wherein, 1, cleaning agent is dawdled device; 11, the first crawler attachment; 111, the first supporting revolving shaft; 112, the first crawler belt; 113, the first grip force rotating shaft; 12, cleaning agent tank;

2, cleaning agent blots device; 21, the second crawler attachment; 211, the second supporting revolving shaft; 212, the second crawler belt; 213, the second grip force rotating shaft;

3, clear water smears cleaning device; 31, the 3rd crawler attachment; 311, the 3rd supporting revolving shaft; 312, the 3rd crawler belt; 313, the 3rd grip force rotating shaft; 32, clear water tank;

4, clear water blots device; 41, the 4th crawler attachment; 411, the 4th supporting revolving shaft; 412, the 4th crawler belt; 413, the 4th grip force rotating shaft;

5, housing; 6, universal guide wheel; 7, driven pulley; 8, foul water tank; 9, power supply; 10, sensing controler.

Detailed description of the invention

In order to there be understanding clearly to technical characteristic of the present utility model, object and effect, now contrast accompanying drawing and describe detailed description of the invention of the present utility model in detail.

Fig. 1 to Fig. 2 shows a kind of clean robot in the utility model, this clean robot relates generally to Domestic floor nursing electric equipment products field, particularly, this clean robot can complete the link mopped floor in daily housework well, and this clean robot also has lifting to a certain extent in intellectuality and automation, makes this clean robot can adapt to the demand in intelligent interconnection epoch instantly well.

Fig. 1 be clean robot in an embodiment of the present utility model look up structural representation.Fig. 2 is the side-looking structural representation of the clean robot in an embodiment of the present utility model.

As shown in Figure 1, this clean robot comprises the direction of advance along clean robot, the cleaning agent sequentially arranged dawdle device 1, cleaning agent blots device 2, clear water smears cleaning device 3 and clear water blots device 4.Then this clean robot can realize that cleaning agent is dawdled, cleaning agent blots, clear water is smeared to wash and blotted this four steps with clear water consistently.

This cleaning agent device 1 of dawdling comprises the first crawler attachment 11 contacted with to be cleaned, and cleaning agent tank 12.There are multiple choices the position of this cleaning agent tank 12, cleaning agent tank 12 in the utility model is preferably arranged on the top of this first crawler belt 112, then cleaning agent is under gravity direct outlet flow to the first crawler attachment 11 bottom cleaning agent tank 12.Then, the cleaning agent in cleaning agent tank 12 is applied on to be cleaned by this first crawler attachment 11, and reclaims sewage.Namely the first crawler attachment 11 with cleaning agent carries out CONTACT WITH FRICTION with face to be cleaned, thus completes the step that cleaning agent dawdles.

This cleaning agent blots device 2 and comprises the second crawler belt 212 device 21 contacted with to be cleaned.This second crawler belt 212 device 21 blots the detergent remnants on to be cleaned, and reclaims sewage.Namely CONTACT WITH FRICTION is carried out in the second crawler belt 212 device 21 and face to be cleaned, thus completes the step that cleaning agent blots.

This clear water is smeared cleaning device 3 and is comprised the 3rd crawler belt 312 device 31 contacted with to be cleaned, and clear water tank 32.There are multiple choices the position of this clear water tank 32, and the clear water tank 32 in the utility model is preferably arranged on the top of this first crawler belt 112, then clear water under gravity direct outlet flow bottom clear water tank 32 to the 3rd crawler belt 312 device 31.Then, the clear water in clear water tank 32 is applied on to be cleaned by the 3rd crawler belt 312 device 31, and reclaims sewage.Namely the 3rd crawler belt 312 device 31 with clear water carries out CONTACT WITH FRICTION with face to be cleaned, thus completes clear water and smear the step of washing.

This clear water blots device 4 and comprises the 4th crawler belt 412 device 41 contacted with to be cleaned.4th crawler belt 412 device 41 blots the fresh residual water on to be cleaned, and reclaims sewage.And now to be cleaned likely can remain certain cleaning agent, cleaning agent after then being diluted by clear water is also blotted by the 4th crawler belt 412 device 41 in the lump, namely CONTACT WITH FRICTION is carried out in the 4th crawler belt 412 device 41 and face to be cleaned, thus completes the step that clear water blots.

To sum up, this clean robot to be cleaned through once, just can carry out that cleaning agent is dawdled, cleaning agent blots to the spot on to be cleaned, clear water smears and to wash and clear water blots the clean of four steps, no matter make spot be hydrolyzable, or all can being cleaned by this clean robot of non-hydrolysable is clean, thus this clean robot is practical, easy to operate, use simple.

In certain embodiments, consult Fig. 1, this first crawler attachment 11 comprises three the first supporting revolving shaft 111, first crawler belts 112, a pair first grip force rotating shafts 113 and the first drive motors.Generally, the linear speed of this first crawler attachment 11 is greater than the advance linear speed of this clean robot, makes the cleaning effect of this clean robot more remarkable.

First crawler belt 112 winding is in the outside of three the first supporting revolving shafts 111, and a pair first grip force rotating shaft 113 held tight are at the surfaces externally and internally of the first crawler belt 112, and the first drive motors and a pair first grip force rotating shafts 113 are in transmission connection.And three the first supporting revolving shafts 111 and a pair first grip force rotating shafts 113 are all by support fixed support.

During the first drive motors work, a pair first grip force rotating shafts 113 are driven to rotate in opposite directions.Frictional force between a pair first grip force rotating shafts 113 and the first crawler belt 112 drives the first crawler belt 112 to rotate, and extrudes the sewage of the outer surface of the first crawler belt 112.The Main Function of these a pair first grip force rotating shafts 113 is that the first crawler belt 112 applies grip force and rotatory force, makes this first crawler belt 112 be subject to the traction of the frictional force between a pair first grip force rotating shafts 113 and the first crawler belt 112, rotates.And this first crawler belt 112 is when a pair first grip force rotating shafts 113, the chucking power between a pair first grip force rotating shafts 113 can extrude the sewage of the first crawler belt 112 outer surface.

Further, the first crawler belt 112 forms del structure around three the first supporting revolving shafts 111, and the first crawler belt 112 is pressed to ground by first supporting revolving shaft 111 being positioned at bottom, rubs with the contact realizing the first crawler belt 112 and to be cleaned.Understandably, the benefit forming del structure is that structure is more stable, the stability of the use of this clean robot can be ensured, and the first crawler belt 112 in del structure is equivalent to a walking unit of this clean robot, then leg-of-mutton shape can adapt to common earth bulging, is convenient to this clean robot and carries out activity in the various scenes of indoor.

Further, the first crawler belt 112 in the utility model is preferably an one side Water adsorption towel crawler belt, i.e. the outer surface one side water suction of this first crawler belt 112, and the inner surface of this first crawler belt 112 is high friction surface.

In certain embodiments, consult Fig. 1, this second crawler belt 212 device 21 comprises three the second supporting revolving shaft 211, second crawler belts 212, a pair second grip force rotating shafts 213 and the second drive motors; Generally, the linear speed of this second crawler belt 212 device 21 is greater than the advance linear speed of this clean robot, makes the cleaning effect of this clean robot more remarkable.

Second crawler belt 212 winding is in the outside of three the second supporting revolving shafts 211, and a pair second grip force rotating shaft 213 held tight are at the surfaces externally and internally of the second crawler belt 212, and the second drive motors and a pair second grip force rotating shafts 213 are in transmission connection.And three the second supporting revolving shafts 211 and a pair second grip force rotating shafts 213 are all by support fixed support.

During the second drive motors work, a pair second grip force rotating shafts 213 are driven to rotate in opposite directions.Frictional force between a pair second grip force rotating shafts 213 and the second crawler belt 212 drives the second crawler belt 212 to rotate, and extrudes the sewage of the outer surface of the second crawler belt 212.The Main Function of these a pair second grip force rotating shafts 213 is that the first crawler belt 112 applies grip force and rotatory force, makes this second crawler belt 212 be subject to the traction of the frictional force between a pair second grip force rotating shafts 213 and the second crawler belt 212, rotates.And this second crawler belt 212 is when a pair second grip force rotating shafts 213, the chucking power between a pair second grip force rotating shafts 213 can extrude the sewage of the second crawler belt 212 outer surface.

Further, the second crawler belt 212 forms equilateral triangle structure around three the second supporting revolving shafts 211, and the second crawler belt 212 is pressed to ground by two the second supporting revolving shafts 211 being positioned at bottom, rubs with the contact realizing the second crawler belt 212 and to be cleaned.Understandably, the benefit forming equilateral triangle structure is that the contact area between the second crawler belt 212 and to be cleaned is comparatively large, can ensure the cleaning effect of this clean robot.And the second crawler belt 212 in equilateral triangle structure is also equivalent to a walking unit of this clean robot, then leg-of-mutton shape can adapt to common earth bulging, is convenient to this clean robot and carries out activity in the various scenes of indoor.

Further, the second crawler belt 212 in the utility model is preferably an one side Water adsorption towel crawler belt, i.e. the outer surface one side water suction of this second crawler belt 212, and the inner surface of this second crawler belt 212 is high friction surface.

In certain embodiments, consult Fig. 1, the 3rd crawler belt 312 device 31 comprises three the 3rd supporting revolving shafts 311, the 3rd crawler belt 312, a pair the 3rd grip force rotating shafts 313 and the 3rd drive motors.Generally, the linear speed of this first crawler attachment 11 is greater than the advance linear speed of this clean robot, makes the cleaning effect of this clean robot more remarkable.

3rd crawler belt 312 winding is in the outside of three the 3rd supporting revolving shafts 311, and a pair the 3rd grip force rotating shaft 313 held tight are at the surfaces externally and internally of the 3rd crawler belt 312, and the 3rd drive motors and a pair the 3rd grip force rotating shafts 313 are in transmission connection.And three the 3rd supporting revolving shafts 311 and a pair the 3rd grip force rotating shafts 313 are all by support fixed support.

During the 3rd drive motors work, a pair the 3rd grip force rotating shafts 313 are driven to rotate in opposite directions.Frictional force between a pair the 3rd grip force rotating shafts 313 and the 3rd crawler belt 312 drives the 3rd crawler belt 312 to rotate, and extrudes the sewage of the outer surface of the 3rd crawler belt 312.The Main Function of these a pair the 3rd grip force rotating shafts 313 is that the 3rd crawler belt 312 applies grip force and rotatory force, makes the 3rd crawler belt 312 be subject to the traction of the frictional force between a pair the 3rd grip force rotating shafts 313 and the 3rd crawler belt 312, rotates.And the 3rd crawler belt 312 is when a pair the 3rd grip force rotating shafts 313, the chucking power between a pair the 3rd grip force rotating shafts 313 can extrude the sewage of the 3rd crawler belt 312 outer surface.

Further, the 3rd crawler belt 312 forms del structure around three the 3rd supporting revolving shafts 311, and the 3rd crawler belt 312 is pressed to ground by three the 3rd supporting revolving shafts 311 being positioned at bottom, rubs with the contact realizing the 3rd crawler belt 312 and to be cleaned.Understandably, the benefit forming del structure is that structure is more stable, the stability of the use of this clean robot can be ensured, and the 3rd crawler belt 312 in del structure is equivalent to a walking unit of this clean robot, then leg-of-mutton shape can adapt to common earth bulging, is convenient to this clean robot and carries out activity in the various scenes of indoor.

Further, the 3rd crawler belt 312 in the utility model is preferably an one side Water adsorption towel crawler belt, i.e. the outer surface one side water suction of the 3rd crawler belt 312, and the inner surface of the 3rd crawler belt 312 is high friction surface.

In certain embodiments, consult Fig. 1, the 4th crawler belt 412 device 41 comprises three the 4th supporting revolving shafts 411, the 4th crawler belt 412, a pair the 4th grip force rotating shafts 413 and four-wheel drive motors; Generally, the linear speed of the 4th crawler belt 412 device 41 is greater than the advance linear speed of this clean robot, makes the cleaning effect of this clean robot more remarkable.

4th crawler belt 412 winding is in the outside of three the 4th supporting revolving shafts 411, and a pair the 4th grip force rotating shaft 413 held tight are at the surfaces externally and internally of the 4th crawler belt 412, and four-wheel drive motor and a pair the 4th grip force rotating shafts 413 are in transmission connection.And three the 4th supporting revolving shafts 411 and a pair the 4th grip force rotating shafts 413 are all by support fixed support.

During four-wheel drive machine operation, a pair the 4th grip force rotating shafts 413 are driven to rotate in opposite directions.Frictional force between a pair the 4th grip force rotating shafts 413 and the 4th crawler belt 412 drives the 4th crawler belt 412 to rotate, and extrudes the sewage of the outer surface of the 4th crawler belt 412.The Main Function of these a pair the 4th grip force rotating shafts 413 is that the first crawler belt 112 applies grip force and rotatory force, makes the 4th crawler belt 412 be subject to the traction of the frictional force between a pair the 4th grip force rotating shafts 413 and the 4th crawler belt 412, rotates.And the 4th crawler belt 412 is when a pair the 4th grip force rotating shafts 413, the chucking power between a pair the 4th grip force rotating shafts 413 can extrude the sewage of the 4th crawler belt 412 outer surface.

Further, the 4th crawler belt 412 forms equilateral triangle structure around three the 4th supporting revolving shafts 411, and the 4th crawler belt 412 is pressed to ground by two the 4th supporting revolving shafts 411 being positioned at bottom, rubs with the contact realizing the 4th crawler belt 412 and to be cleaned.Understandably, the benefit forming equilateral triangle structure is that the contact area between the 4th crawler belt 412 and to be cleaned is comparatively large, can ensure the cleaning effect of this clean robot.And the 4th crawler belt 412 in equilateral triangle structure is also equivalent to a walking unit of this clean robot, then leg-of-mutton shape can adapt to common earth bulging, is convenient to this clean robot and carries out activity in the various scenes of indoor.

Further, the 4th crawler belt 412 in the utility model is preferably an one side Water adsorption towel crawler belt, i.e. the outer surface one side water suction of the 4th crawler belt 412, and the inner surface of the 4th crawler belt 412 is high friction surface.

In certain embodiments, consult Fig. 1 and Fig. 2, this clean robot also comprises housing 5, mobile wheels, foul water tank 8 and power supply 9.

The Main Function of this housing 5 is effectively to support and protect above-mentioned all parts, makes this clean robot be integrated into a unified body.Then this cleaning agent dawdle device 1, cleaning agent blots device 2, clear water smears cleaning device 3 and clear water blots device 4 and is all arranged on position placed in the middle, the bottom of housing 5;

This moves wheels and comprises the bottom universal guide wheel 6 being foremost arranged on housing 5, and namely this universal guide wheel 6 is arranged at this clean robot direction of advance foremost.This moves wheels and also comprises and be arranged on the driven pulley 7 that universal guide wheel 6 rear is positioned at the two bottom sides of housing 5.And universal guide wheel 6 in the utility model and driven pulley 7 preferably use the material of high friction to make with the wheel face of earth surface.

This foul water tank 8 is arranged on the rear portion of housing 5, and cleaning agent is dawdled device 1, cleaning agent blots device 2, clear water smears cleaning device 3 and clear water blots device 4 and includes drainage trough or drainage tube for sewage being drained to foul water tank 8;

Power supply 9 is arranged on the top of housing 5, and for device 1 of dawdling to cleaning agent, cleaning agent blots device 2, clear water smears cleaning device 3 and clear water blots device 4 and powers.

In certain embodiments, consult Fig. 2, this clean robot also can comprise sensing controler 10, this sensing controler 10 is arranged on the position near top in housing 5, and this sensing controler 10 can accept the signal of housing contacts sensor, clear water liquid level sensor, sewage level sensor, humidity sensor and step detecting sensor feedback and process.Generally, this housing contacts sensor setting is in the outside of housing 5, this clear water liquid level sensor is arranged in clear water tank 32, this sewage level sensor is arranged in foul water tank 8, this humidity sensor is arranged on the outer peripheral edge of housing 5, and this step detecting sensor is arranged on housing 5 foremost.

In certain embodiments, the first above-mentioned crawler attachment 11, second crawler belt 212 device the 21, the 3rd crawler belt 312 device the 31, the 4th crawler belt 412 device 41 and mobile wheels are provided with elastic fixing device, this elastic fixing device can ensure this move wheels when high temperature or low temperature environment, dry ground or wetland face friction summation be all greater than the friction summation of the first crawler attachment 11, second crawler belt 212 device the 21, the 3rd crawler belt 312 device 31 and the 4th crawler belt 412 device 41.

These are only preferred embodiment of the present utility model, be not limited to the utility model, for a person skilled in the art, the utility model can have various change, combination and change.All within spirit of the present utility model and principle, any amendment done, equivalent replacement, improvement etc., all should be included within right of the present utility model.

Claims (10)

1. a clean robot, is characterized in that, comprises the direction of advance along described clean robot, the cleaning agent sequentially arranged dawdle device (1), cleaning agent blots device (2), clear water smears cleaning device (3) and clear water blots device (4);

Described cleaning agent device (1) of dawdling comprises the first crawler attachment (11) contacted with to be cleaned, and cleaning agent tank (12); Cleaning agent in described cleaning agent tank (12) is applied on described to be cleaned by described first crawler attachment (11), and reclaims sewage;

Described cleaning agent blots device (2) and comprises the second crawler belt (212) device (21) contacted with described to be cleaned; Described second crawler belt (212) device (21) blots the detergent remnants on described to be cleaned, and reclaims sewage;

Clear water is smeared cleaning device (3) and is comprised the 3rd crawler belt (312) device (31) contacted with described to be cleaned, and clear water tank (32); Clear water in described clear water tank (32) is applied on described to be cleaned by described 3rd crawler belt (312) device (31), and reclaims sewage;

Clear water blots device (4) and comprises the 4th crawler belt (412) device (41) contacted with described to be cleaned; Described 4th crawler belt (412) device (41) blots the fresh residual water on described to be cleaned, and reclaims sewage.

2. clean robot according to claim 1, is characterized in that, described first crawler attachment (11) comprises three the first supporting revolving shafts (111), the first crawler belt (112), a pair first grip force rotating shafts (113) and the first drive motors;

The winding of described first crawler belt (112) is in the outside of described three the first supporting revolving shafts (111), described a pair first grip force rotating shaft (113) held tight are at the surfaces externally and internally of described first crawler belt (112), and described first drive motors and described a pair first grip force rotating shafts (113) are in transmission connection;

During described first drive motors work, described a pair first grip force rotating shafts (113) are driven to rotate in opposite directions, frictional force between described a pair first grip force rotating shafts (113) and described first crawler belt (112) drives described first crawler belt (112) to rotate, and extrudes the sewage of the outer surface of described first crawler belt (112).

3. clean robot according to claim 2, it is characterized in that, described first crawler belt (112) forms del structure around described three the first supporting revolving shafts (111), described first crawler belt (112) is pressed to ground by described first supporting revolving shaft (111) being positioned at bottom, rubs with the contact realizing described first crawler belt (112) and described to be cleaned.

4. clean robot according to claim 1, is characterized in that, described second crawler belt (212) device (21) comprises three the second supporting revolving shafts (211), the second crawler belt (212), a pair second grip force rotating shafts (213) and the second drive motors;

The winding of described second crawler belt (212) is in the outside of described three the second supporting revolving shafts (211), described a pair second grip force rotating shaft (213) held tight are at the surfaces externally and internally of described second crawler belt (212), and described second drive motors and described a pair second grip force rotating shafts (213) are in transmission connection;

During described second drive motors work, described a pair second grip force rotating shafts (213) are driven to rotate in opposite directions, frictional force between described a pair second grip force rotating shafts (213) and described second crawler belt (212) drives described second crawler belt (212) to rotate, and extrudes the sewage of the outer surface of described second crawler belt (212).

5. clean robot according to claim 4, it is characterized in that, described second crawler belt (212) forms equilateral triangle structure around described three the second supporting revolving shafts (211), described second crawler belt (212) is pressed to ground by two described second supporting revolving shafts (211) being positioned at bottom, rubs with the contact realizing described second crawler belt (212) and described to be cleaned.

6. clean robot according to claim 1, is characterized in that, described 3rd crawler belt (312) device (31) comprises three the 3rd supporting revolving shafts (311), the 3rd crawler belt (312), a pair the 3rd grip force rotating shafts (313) and the 3rd drive motors;

Described 3rd crawler belt (312) winding is in the outside of described three the 3rd supporting revolving shafts (311), described a pair the 3rd grip force rotating shaft (313) held tight are at the surfaces externally and internally of described 3rd crawler belt (312), and described 3rd drive motors and described a pair the 3rd grip force rotating shafts (313) are in transmission connection;

During described 3rd drive motors work, described a pair the 3rd grip force rotating shafts (313) are driven to rotate in opposite directions, frictional force between described a pair the 3rd grip force rotating shafts (313) and described 3rd crawler belt (312) drives described 3rd crawler belt (312) to rotate, and extrudes the sewage of the outer surface of described 3rd crawler belt (312).

7. clean robot according to claim 6, it is characterized in that, described 3rd crawler belt (312) forms del structure around described three the 3rd supporting revolving shafts (311), described 3rd crawler belt (312) is pressed to ground by three described 3rd supporting revolving shafts (311) being positioned at bottom, rubs with the contact realizing described 3rd crawler belt (312) and described to be cleaned.

8. clean robot according to claim 1, is characterized in that, described 4th crawler belt (412) device (41) comprises three the 4th supporting revolving shafts (411), the 4th crawler belt (412), a pair the 4th grip force rotating shafts (413) and four-wheel drive motors;

Described 4th crawler belt (412) winding is in the outside of described three the 4th supporting revolving shafts (411), described a pair the 4th grip force rotating shaft (413) held tight are at the surfaces externally and internally of described 4th crawler belt (412), and described four-wheel drive motor and described a pair the 4th grip force rotating shafts (413) are in transmission connection;

During described four-wheel drive machine operation, described a pair the 4th grip force rotating shafts (413) are driven to rotate in opposite directions, frictional force between described a pair the 4th grip force rotating shafts (413) and described 4th crawler belt (412) drives described 4th crawler belt (412) to rotate, and extrudes the sewage of the outer surface of described 4th crawler belt (412).

9. clean robot according to claim 8, it is characterized in that, described 4th crawler belt (412) forms equilateral triangle structure around described three the 4th supporting revolving shafts (411), described 4th crawler belt (412) is pressed to ground by two described 4th supporting revolving shafts (411) being positioned at bottom, rubs with the contact realizing described 4th crawler belt (412) and described to be cleaned.

10. clean robot according to claim 1, is characterized in that, described clean robot also comprises housing (5), mobile wheels, foul water tank (8) and power supply (9);

Described cleaning agent dawdle device (1), described cleaning agent blots device (2), described clear water smears cleaning device (3) and described clear water blots device (4) and is all arranged on position placed in the middle, the bottom of described housing (5);

Described mobile wheels comprise the bottom universal guide wheel (6) being foremost arranged on described housing (5), and are arranged on the driven pulley (7) that described universal guide wheel (6) rear is positioned at the two bottom sides of described housing (5);

Described foul water tank (8) is arranged on the rear portion of described housing (5), and described cleaning agent is dawdled device (1), described cleaning agent blots device (2), described clear water smears cleaning device (3) and described clear water blots device (4) and includes drainage trough for sewage being drained to described foul water tank (8) or drainage tube;

Described power supply (9) is arranged on the top of described housing (5), and for device (1) of dawdling to described cleaning agent, described cleaning agent blots device (2), described clear water smears cleaning device (3) and described clear water blots device (4) power supply.