CN110537870A - Cleaning device and working method thereof - Google Patents

Abstract

the invention provides a cleaning device and a working method of the cleaning device, wherein the cleaning device comprises a floor brush component, a dust barrel, a sewage barrel and a motor component, the floor brush component is provided with a recovery pipeline for connecting the dust barrel and the sewage barrel, the cleaning device is provided with a dust suction mode and a water suction mode, when in the dust suction mode, dust enters the dust barrel through the recovery pipeline by suction force generated by the motor component, when in the water suction mode, sewage enters the sewage barrel through the recovery pipeline by suction force generated by the motor component, and water and dirt are respectively stored so as to be convenient for distinguishing, cleaning and washing.

Description

Cleaning device and working method thereof

Technical Field

The invention relates to the technical field of cleaning equipment, in particular to a cleaning device and a working method of the cleaning device.

Background

The cleaning electric appliances mainly used at present mainly comprise a vacuum cleaner, a wet type cleaning machine or a dry and wet dual-purpose dust collector and the like. Due to the limitation of the product structure, except for the dry-wet dual-purpose dust collector, other cleaners have single use function, cannot achieve multiple purposes, and solves the cleaning requirements of multiple life scenes in domestic household daily life at present. If a plurality of clean household appliances are purchased, the use is inconvenient, the living cost is increased, and the living activity area of the family is reduced, which invisibly reduces the living quality of people.

Chinese patent publication No. 207000414 discloses a conventional wet and dry vacuum cleaner, which is used by first sucking dust into a dust collecting and collecting chamber through a dust suction pipe. After dust collection is finished, the part needing water washing is washed, and then the sewage is sucked into the dust collection and water collection chamber through the dust collection pipe by using the dry and wet dust collection head. The existing wet and dry dust collector has the defects that: dust and sewage are placed in the dust collecting and water collecting chamber simultaneously, and sewage and dust are mixed to ensure that dirt is difficult to clean after the dust collector is used, thereby causing troubles to users.

Disclosure of Invention

The invention provides a cleaning device capable of easily cleaning dirt and a working method of the cleaning device.

The invention provides a cleaning device which comprises a floor brush assembly, a dust bucket, a sewage bucket and a motor assembly, wherein the floor brush assembly is provided with a recovery pipeline for connecting the dust bucket and the sewage bucket, the cleaning device is provided with a dust suction mode and a water suction mode, dust enters the dust bucket through the recovery pipeline by means of suction force generated by the motor assembly in the dust suction mode, and sewage enters the sewage bucket through the recovery pipeline by means of suction force generated by the motor assembly in the water suction mode.

Further, the cleaning device also comprises a switching device which controls a passage between the motor assembly and the recovery pipeline, so that the cleaner is in a water absorption mode or an ash absorption mode.

Further, the switching device is disposed between the motor assembly and the dust bucket and the slop pail, and the switching device closes/communicates the passage between the motor assembly and the slop pail when communicating/closing the passage between the motor assembly and the dust bucket.

Further, the cleaning device further comprises a base body, and the motor assembly and the conversion device are assembled to the base body.

Further, the seat body is provided with a base portion, an accommodating portion extending from the base portion, and a first connecting portion and a second connecting portion extending from the accommodating portion, the base portion is provided with an opening, the accommodating portion is provided with an accommodating space for accommodating the conversion device, the first connecting portion is communicated with the dust barrel, the second connecting portion is communicated with the sewage barrel, the conversion device is provided with a through communicating portion, and the communicating portion is communicated with the opening and the first connecting portion or the opening and the second connecting portion.

Further, the cleaning device further comprises a handle which drives the conversion device to rotate, so that the communication part is communicated with the opening and the first connecting part or the opening and the second connecting part.

Further, the cleaning device further comprises an upper cover assembled to the base body, and a first switch and a second switch assembled to the upper cover, when the handle contacts with the first switch, the communicating part communicates with the opening and the first connecting part, and when the handle contacts with the second switch, the communicating part communicates with the opening and the second connecting part.

Further, the handle is provided with a contact piece which is in contact conduction with the first switch and the second switch, and the motor assembly is started when the contact piece is in conduction with the first switch and the second switch.

Further, the cleaning device also comprises a detection device, when the cleaning device is in a dust suction mode, the motor assembly is closed if the detection device detects that water exists on the floor brush assembly, and when the cleaning device is in a water suction mode, the motor assembly is closed if the detection device detects that no water exists on the floor brush assembly.

When the cleaning device is in the dust absorption mode, if the detection device detects that water exists on the floor brush assembly, the driving assembly is started and drives the conversion device to rotate, so that the cleaning device is converted into the water absorption mode.

Further, the cleaning device further comprises a sealing ring positioned between the conversion device and the base body.

Furthermore, after the dust in the dust barrel is separated and filtered, the separated gas enters the motor assembly through the opening of the base body to be discharged, and the dust and the particle dirt are recovered in the dust barrel.

Furthermore, sewage in the sewage bucket is separated by gravity, the separated gas enters the motor assembly through the opening of the base body to be discharged, and the sewage is recovered in the sewage bucket.

Furthermore, the cleaning device also comprises a cleaning water bucket positioned on the main body, clean water is filled in the cleaning water bucket, and when cleaning is required, the water in the cleaning water bucket can flow out for cleaning.

Furthermore, a first pipeline communicated with the recovery pipeline is arranged in the sewage bucket, the sewage flows into the sewage bucket through the first pipeline, and the height of the sewage in the sewage bucket is lower than that of a liquid outlet of the first pipeline in the sewage bucket.

The invention also provides a working method of the cleaning device, the cleaning device is provided with an ash absorption mode and a water absorption mode, and the cleaning device comprises a dust bucket for containing dust, a sewage bucket for containing sewage, a detection device for detecting that the cleaning device absorbs water and a conversion device for switching the cleaning device between the ash absorption mode and the water absorption mode; the working method comprises the following steps:

when the cleaning device is in the dust absorption mode, if the detection device detects that the cleaning device absorbs water, the switching device switches the cleaning device from the dust absorption mode to the water absorption mode;

When the cleaning device is in the water absorption mode, if the detection device does not detect that the cleaning device absorbs water, the switching device switches the cleaning device from the water absorption mode to the dust absorption mode.

Furthermore, the cleaning device also comprises a floor brush component and a motor component, wherein the floor brush component is provided with a recovery pipeline for connecting the dust bucket and the sewage bucket; wherein the cleaning device is in a dust suction mode, and the suction force generated by the motor assembly causes dust to enter the dust bucket through the recovery pipeline; when the cleaning device is in a water suction mode, the suction force generated by the motor assembly enables sewage to enter the sewage bucket through the recovery pipeline.

Further, the detection device is arranged on the floor brush assembly, and if water is detected on the floor brush assembly, the cleaning device is judged to absorb water.

Further, the switching device includes a driving assembly that drives the switching device to switch between the ash suction mode and the water suction mode.

Further, when the cleaning device is switched from the water suction mode to the dust suction mode or from the dust suction mode to the water suction mode, the cleaning device gives a sound or blinks an indicator light to remind an operator of the current working mode.

When the cleaning device is used, sewage is sucked into the sewage barrel, dust is sucked into the dust barrel, water and dirt are respectively stored, and cannot be mixed into a slurry-like object, so that the cleaning device is convenient to distinguish, clean and wash.

Drawings

figure 1 is an exploded view of the cleaning device of the present invention.

Figure 2 is an exploded view of a portion of the components of the cleaning device shown in figure 1.

fig. 3 is an assembled view of the exploded view shown in fig. 2.

Fig. 4 is an assembled view of the cleaning device shown in fig. 1.

Fig. 5 is a schematic sectional view of a dust recovery mode of the cleaning apparatus shown in fig. 4.

Fig. 6 is a schematic sectional view of a sewage recovery mode of the cleaning apparatus shown in fig. 4.

Detailed Description

Reference will now be made in detail to the exemplary embodiments, examples of which are illustrated in the accompanying drawings. When the following description refers to the accompanying drawings, like numbers in different drawings represent the same or similar elements unless otherwise indicated. The embodiments described in the following exemplary embodiments do not represent all embodiments consistent with the present invention. Rather, they are merely examples of apparatus and methods consistent with certain aspects of the invention, as detailed in the appended claims.

The cleaning device and the operation method thereof according to the present invention will be described in detail with reference to the accompanying drawings.

Referring to fig. 1 to 6, the cleaning apparatus of the present invention includes a main body 1, a floor brush assembly 2 on the main body 1, a dust bucket 3, a slop bucket 4, a clean water bucket 5, and a machine body assembly 6.

The floor brush assembly 2 is provided with a recovery duct 22 through which dust or sewage passes. The recovery pipe 22 is provided with a first end 220 connected to the dust bin 3 and a second end 221 connected to the slop bin 4. The dust barrel 3 is provided with a first through hole 31 communicated with the first end 220 and a second through hole 32 communicated with the machine body assembly 6. The slop pail 4 is provided with a third through hole 41 communicating with the second end 221 and a fourth through hole 42 communicating with the body assembly 6. In this embodiment, a first pipe 43 communicating with the recycling pipe 22 is provided in the slop pail 4, and the slop water flows into the slop pail 4 through the first pipe 43. The height of the sewage in the slop pail 4 is lower than the height of the liquid outlet of the first pipe 43 in the slop pail 4, preventing the sewage from overflowing from the first pipe 43. For example, a liquid level detection probe can be specifically arranged, and when the sewage liquid level reaches the height of the probe, the controller automatically closes the machine body assembly 6; or a floating body can be arranged, and the water outlet is automatically blocked by the floating body under the action of buoyancy when the liquid level reaches a preset height. Clean water is filled in the clean water barrel 5, and when cleaning is required, the clean water in the clean water barrel 5 flows out for cleaning.

Referring to fig. 2 and 3, the body assembly 6 includes a base 60, a motor assembly 61 assembled to the base 60, a conversion device 62, an upper cover 63, a sealing ring 64 located between the conversion device 62 and the base 60, a first switch 64 and a second switch 65 assembled to the upper cover 63, and a handle 66 assembled to the conversion device 62.

The base 60 has a base 601, a receiving portion 602 extending downward from the base 601, and a first connecting portion 603 and a second connecting portion 604 extending from the receiving portion 602. The base 601 is provided with an opening 6011. The housing portion 602 is provided with a housing space 6021 for housing the conversion device 62. The first connecting portion 603 communicates with the second through hole 32 of the dust bucket 3, and the second connecting portion 604 communicates with the fourth through hole 42 of the slop bucket 4.

The switching device 62 is provided with a through communication portion 621. When the handle 66 rotates, the converting device 62 is driven to rotate, so that the communicating portion 621 communicates the opening 6011 with the first connecting portion 603 or communicates the opening 6011 with the second connecting portion 604. The handle 66 is provided with a contact member 661 that contacts the first switch 64 and the second switch 65. When the contact 661 is in contact with the first switch 64, the communication portion 621 communicates the opening 6011 with the first connection portion 603, the opening 6011 is not communicated with the second connection portion 604, and the motor assembly 61 is turned on; when the contact member 661 is in contact with the second switch 65, the opening 6011 is in communication with the second connection portion 604, the opening 6011 is not in communication with the first connection portion 603, and the motor assembly 61 is turned on; when the contact member 661 is disconnected from the first switch 64 and the second switch 65, the opening 6011 is not communicated with the first connection portion 603 and the opening 6011 is not communicated with the second connection portion 604, and the motor assembly 61 is turned off. The use of the first switch 64 and the second switch 65 in contact with the contact member 661 on the handle 66 to activate the motor assembly 61 saves space on the body assembly 6, thereby making the cleaning device of the present invention smaller.

Referring to fig. 5, when the cleaning device of the present invention is in the dust suction mode, the handle 66 is rotated to make the contact member 661 and the first switch 64 in contact and conductive, at this time, the communication portion 621 of the switching device 62 communicates the opening 6011 and the first connection portion 603, the motor assembly 61 is started to generate suction force, dust and particulate dirt are thrown up from the ground via the scrubbing brush assembly 2, enter the recovery duct 22 along with the airflow flowing to the motor assembly 61 at high speed, and reach the dust barrel 3 along the recovery duct 22, after separation and filtration, the separated gas enters the motor assembly 61 via the opening 6011 of the base 60 to be discharged, and the dust and particulate dirt are recovered in the dust barrel 3 to be disposed after cleaning. In this process, since the opening 6011 is not communicated with the second connecting portion 604, the suction force generated by the motor assembly 61 does not reach the tub 4, and therefore, no dust enters the tub 4.

Referring to fig. 6, when the cleaning device of the present invention is in the water suction mode, after clean water flows to the ground from the clean water tank 5 and is cleaned by the floor brush assembly 2, the handle 66 is rotated to make the contact member 661 in contact with the second switch 65, at this time, the communication portion 621 of the switching device 62 communicates with the opening 6011 and the second connection portion 604, the motor assembly 61 is started to generate suction, the sewage enters the recovery pipe 22 along with the airflow flowing to the motor assembly 61 at a high speed and reaches the sewage tank 4 along the recovery pipe 22, the sewage and the gas are separated by gravity, the separated gas enters the motor assembly 61 through the opening 6011 of the seat body 60 to be discharged, the sewage is recovered in the sewage tank 4, and after cleaning is completed, the sewage is treated. In this process, since the opening 6011 is not communicated with the first connection portion 603, the suction force generated by the motor assembly 61 does not reach the dust tub 3, and therefore, no sewage enters the dust tub 3.

In this embodiment, the switch device 62 is used to switch the dust channel and the sewage channel, but the present invention is not limited thereto, and two motor assemblies are provided to connect the dust bucket and the sewage bucket respectively, and when the switch device works, the corresponding motor assemblies are correspondingly turned on/off, and the purpose of separately recycling sewage and dust can also be achieved.

The cleaning device of the present invention is further provided with a detection means (not shown) which may be a humidity sensor or a conductive sensor. If the cleaning device is in a dust absorption mode when the cleaning device is started, the contact element 661 of the handle 66 is in contact conduction with the first switch 64, the motor component 61 is started to enter the dust absorption mode, in the process, if the detection device detects that water exists on the floor brush component 2, the motor component 61 is closed, the cleaning device stops working, and at the moment, the cleaning device can make a sound or make an indicator light flash to remind an operator of being in a misoperation state at the moment; if the cleaning device is in a water absorption mode when the cleaning device is started, the contact element 661 of the handle 66 is in contact with the second switch 65, the motor component 61 is started to enter the water absorption mode, in the process, if the detection device detects that no water exists on the ground brush component 2, the motor component 61 is closed, the cleaning device stops working, and at the moment, the cleaning device can make a sound or make an indicator light flash to remind an operator of the misoperation state; if the cleaning device of the present invention is switched on between the water suction mode and the dust suction mode, the motor assembly 61 is turned off and the cleaning device of the present invention is not operated because the contact member 661 of the handle 66 is disconnected from both the first switch 64 and the second switch 65. The cleaning device provided by the invention is provided with the detection device, so that the occurrence of misoperation is effectively prevented.

In the present embodiment, the cleaning device of the present invention uses the rotation of the handle 66 to switch the water suction mode and the dust suction mode, but the present invention is not limited thereto.

In another embodiment, the cleaning device of the present invention further comprises a detection device (not shown) for automatically switching between the water absorption mode and the ash absorption mode. The cleaning device of the present invention further includes a drive assembly (not shown) connected to the switch 62. When the cleaning device is started, the driving assembly works to switch the conversion device 62 to the dust absorption mode, in the process, if the detection device detects that water exists on the floor brush assembly 2, the driving assembly is started to drive the conversion device 62 to rotate, at the moment, the dust channel is closed, and the sewage channel is opened, the cleaning device is automatically switched to the water absorption mode, and reminds an operator of the current working mode by making a sound or flickering an indicator light; when the cleaning device is in the water absorption mode, if the detection device does not detect that water exists on the floor brush assembly 2, the driving assembly is started and drives the conversion device 62 to rotate, at the moment, the sewage channel is closed, the dust channel is opened, and the cleaning device is automatically switched to the dust absorption mode and reminds an operator of the current working mode by making a sound or flashing an indicator light.

When the cleaning device is used at home or in places such as markets, dust is sucked into the dust barrel 3 in a dust suction mode, the dust suction mode is switched to a water suction mode when the cleaning device is used at places needing water for cleaning or needs water for suction, sewage enters the sewage barrel 4, water and dirt are respectively stored and cannot be mixed into a slurry-shaped object, so that the cleaning device is convenient to distinguish and clean, the problem that the cleaning device is difficult to clean because the water and the dirt are mixed together in the existing dust collector is solved, the workload and the time of a user are saved, and good experience is brought to the user.

Although the present invention has been described with reference to a preferred embodiment, it should be understood that various changes, substitutions and alterations can be made herein without departing from the spirit and scope of the invention as defined by the appended claims.

Claims (20)

1. The cleaning device is characterized by comprising a scrubbing brush component, a dust bucket, a sewage bucket and a motor component, wherein the scrubbing brush component is provided with a recovery pipeline for connecting the dust bucket and the sewage bucket, the cleaning device is provided with a dust suction mode and a water suction mode, when the dust suction mode is adopted, the suction force generated by the motor component enables dust to pass through the recovery pipeline to enter the dust bucket, and when the water suction mode is adopted, the suction force generated by the motor component enables sewage to pass through the recovery pipeline to enter the sewage bucket.

2. The cleaning apparatus as claimed in claim 1, further comprising a switching device for controlling the passage between the motor assembly and the recovery duct to place the cleaner in a water suction mode or an ash suction mode.

3. The cleaning apparatus of claim 2, wherein the switch device is disposed between the motor assembly and the dirt and slop buckets, and wherein the switch device closes/communicates the passage between the motor assembly and the dirt bucket when the switch device communicates/closes the passage between the motor assembly and the slop bucket.

4. The cleaning apparatus as claimed in claim 3, further comprising a housing, wherein the motor assembly and the converting means are assembled to the housing.

5. The cleaning device of claim 4, wherein the housing has a base, an accommodating portion extending from the base, and a first connecting portion and a second connecting portion extending from the accommodating portion, the base has an opening, the accommodating portion has an accommodating space for accommodating the converting device, the first connecting portion communicates with the dust bin, the second connecting portion communicates with the waste bin, the converting device has a communicating portion therethrough, and the communicating portion communicates with the opening and the first connecting portion or the opening and the second connecting portion.

6. The cleaning device of claim 5, further comprising a handle that rotates the switching device such that the communication portion communicates the opening with the first connection portion or the opening with the second connection portion.

7. The cleaning device of claim 6, further comprising an upper cover assembled to the housing and a first switch and a second switch assembled to the upper cover, wherein when the handle contacts the first switch, the communication portion communicates the opening with the first connection portion, and when the handle contacts the second switch, the communication portion communicates the opening with the second connection portion.

8. The cleaning apparatus defined in claim 7, wherein the handle is provided with contacts that are in contact with the first and second switches, the contacts activating the motor assembly when in contact with the first and second switches.

9. The cleaning apparatus defined in any one of claims 6-8, further comprising a detection device that turns off the motor assembly when the cleaning apparatus is in the dust suction mode if the detection device detects water on the floor brush assembly, and turns off the motor assembly when the cleaning apparatus is in the water suction mode if the detection device detects no water on the floor brush assembly.

10. The cleaning apparatus as claimed in any one of claims 2 to 5, further comprising a detection device and a driving assembly for controlling the rotation of the switching device, wherein when the cleaning apparatus is in the dust suction mode, the driving assembly is activated and drives the switching device to rotate when the detection device detects that water is present on the floor brush assembly, so that the cleaning apparatus is switched to the water suction mode, and when the cleaning apparatus is in the water suction mode, the driving assembly is activated and drives the switching device to rotate when the detection device detects that water is not present on the floor brush assembly, so that the cleaning apparatus is switched to the dust suction mode.

11. The cleaning apparatus defined in claim 10, further comprising a sealing ring between the transition device and the housing.

12. The cleaning apparatus as claimed in claim 10, wherein the dust in the dust barrel is separated and filtered, the separated gas enters the motor assembly through the opening of the housing to be discharged, and the dust and the particulate dirt are recovered in the dust barrel.

13. The cleaning apparatus as claimed in claim 10, wherein the sewage in the slop pail is separated by gravity, the separated air enters the motor assembly through the opening of the housing to be discharged, and the sewage is recovered in the slop pail.

14. The cleaning apparatus defined in claim 13, further comprising a clean water tank on the main body, the clean water tank containing clean water that flows out for cleaning when cleaning is required.

15. The cleaning apparatus as recited in claim 13, wherein a first conduit is provided in the wastewater tank in communication with the recycling conduit, the wastewater flowing through the first conduit into the wastewater tank, the wastewater in the wastewater tank having a lower elevation than an outlet of the first conduit in the wastewater tank.

16. A working method of a cleaning device, which is provided with an ash absorption mode and a water absorption mode, is characterized in that: the cleaning device comprises a dust barrel for containing dust, a sewage barrel for containing sewage, a detection device for detecting that the cleaning device absorbs water and a conversion device for switching the cleaning device between a dust absorption mode and a water absorption mode; the working method comprises the following steps:

When the cleaning device is in the dust absorption mode, if the detection device detects that the cleaning device absorbs water, the switching device switches the cleaning device from the dust absorption mode to the water absorption mode;

When the cleaning device is in the water absorption mode, if the detection device does not detect that the cleaning device absorbs water, the switching device switches the cleaning device from the water absorption mode to the dust absorption mode.

17. The method of operating a cleaning device of claim 16, wherein: the cleaning device also comprises a floor brush component and a motor component, wherein the floor brush component is provided with a recovery pipeline for connecting the dust bucket and the sewage bucket; wherein the cleaning device is in a dust suction mode, and the suction force generated by the motor assembly causes dust to enter the dust bucket through the recovery pipeline; when the cleaning device is in a water suction mode, the suction force generated by the motor assembly enables sewage to enter the sewage bucket through the recovery pipeline.

18. The method of operating a cleaning device of claim 17, wherein: the detection device is arranged on the floor brush assembly, and if water is detected on the floor brush assembly, the cleaning device is judged to absorb water.

19. The method of operating a cleaning device of claim 16, wherein: the conversion device comprises a driving component for driving the conversion device to switch between an ash absorption mode and a water absorption mode.

20. The method of operating a cleaning device of claim 16, wherein: when the cleaning device is switched from the water absorption mode to the dust collection mode or from the dust absorption mode to the water absorption mode, the cleaning device gives out sound or an indicator lamp flickers to remind an operator of the current working mode.