CN218105794U

CN218105794U - Cleaning device

Info

Publication number: CN218105794U
Application number: CN202122755770.5U
Authority: CN
Inventors: 白红太; 廖军焕
Original assignee: Shenzhen Qiwei Robot Technology Co ltd
Current assignee: Shenzhen Qiwei Robot Technology Co ltd
Priority date: 2021-11-11
Filing date: 2021-11-11
Publication date: 2022-12-23
Anticipated expiration: 2031-11-11

Abstract

The utility model relates to a cleaning equipment, the host computer, the base with dry by the fire and wash the device, the host computer includes fuselage and base, be provided with round brush and driver on the base, the driver is connected with the round brush drive, the first fluid passage through the round brush has on the host computer, the base is configured to detachable assembly base, the second fluid passage has on the base, the second fluid passage is configured to can assemble the first fluid passage of intercommunication under the state of base at the base, it includes the supply box to dry by the fire and wash the device, the dirt case, the suction source, negative pressure source and heater, the supply box, the dirt case, suction source and/or negative pressure source set up on the host computer, suction source and supply box intercommunication, the negative pressure source, first fluid passage and dirt case communicate each other, the heater sets up on the base. After the cleaning equipment enters the drying and washing mode, the roller brush can simultaneously obtain self-cleaning of cleaning media and drying of high-temperature gas, and the cleaning effect and the drying efficiency of the roller brush can be effectively improved by matching with the rotation of the roller brush.

Description

Cleaning device

Technical Field

The utility model relates to the technical field of household appliances, especially, relate to a cleaning device.

Background

Along with the popularization of automatic cleaning products, more and more families select to adopt cleaning equipment such as mopping machine to carry out the cleanness in the room, and cleaning equipment adopts the round brush usually, and the round brush includes the roller and sets up at the surperficial fine hair of roller, need drench the round brush when adopting cleaning equipment to treat clean surface and clean, need clear up and dry the round brush after cleaning equipment finishes using to avoid the round brush to breed the bacterium, produce the stink. Although the existing cleaning equipment has the functions of automatic cleaning and automatic drying of the roller brush, the cleaning effect is poor, the heat drying efficiency is low, and the use convenience of a user is reduced.

SUMMERY OF THE UTILITY MODEL

In view of this, it is necessary to provide a cleaning apparatus for solving the problems of poor cleaning effect and low heat drying efficiency of the cleaning apparatus.

The utility model provides a cleaning device, cleaning device includes:

the main machine comprises a machine body and a base, wherein the base is provided with a rolling brush and a driver, the driver is in driving connection with the rolling brush, and the main machine is provided with a first fluid channel passing through the rolling brush;

a base configured to detachably mount the base, the base having a second fluid passage thereon configured to be capable of communicating with the first fluid passage in a state in which the base is mounted to the base;

a drying and washing device comprising a supply tank, a dirt tank, a suction source, a negative pressure source and a heater, wherein the supply tank, the dirt tank, the suction source and/or the negative pressure source are/is arranged on the main machine, the suction source is communicated with the supply tank, the negative pressure source, the first fluid channel and the dirt tank are communicated with each other, and the heater is arranged on the base;

the base is assembled to the base:

the cleaning device further comprises a self-cleaning working mode, when the cleaning device is started in the self-cleaning working mode, the cleaning device enters a drying mode, in the drying mode, the driver is configured to drive the rolling brush to rotate, the suction source is configured to drive a cleaning medium stored in the supply box to be supplied to the rolling brush, so that the rolling brush rotates and self-cleans by using the cleaning medium, the heater is configured to heat at least a part of gas flowing through the second fluid channel when the rolling brush is self-cleaned, so as to form high-temperature gas, the negative pressure source is configured to drive the high-temperature gas to flow along the second fluid channel and the first fluid channel, the high-temperature gas passes through the rolling brush to assist the cleaning medium in drying and cleaning the rolling brush, and the negative pressure source can also drive dirt on the rolling brush to flow into the dirt box along the first fluid channel.

In one implementation, the base has a wash bowl thereon configured to receive at least a portion of the roll brush and allow the roll brush to rotate within the wash bowl.

In one implementation, the base is provided with at least one first fluid outlet communicated with the second fluid channel, and the first fluid outlet is positioned in front of the drying and washing tank;

and/or the base is provided with at least one second fluid outlet communicated with the second fluid channel, and the second fluid outlet is positioned on the side of the drying and washing tank.

In one embodiment, the number of the first fluid outlets is plural, and the plural first fluid outlets are arranged along a straight line, and the direction of the straight line is configured to be parallel to the axial direction of the rolling brush in a state where the base is fitted to the base;

and/or the number of the second fluid outlets is even, the second fluid outlets are symmetrically arranged on two opposite sides of the drying and washing tank respectively, and the symmetrically arranged symmetry axes are configured to be perpendicular to the axial direction of the rolling brush in a state that the base is assembled on the base.

In one implementation, the cleaning apparatus includes:

the rolling brush cover is assembled on the base, the rolling brush cover and the base form an accommodating cavity communicated with the first fluid channel, the rolling brush is assembled in the accommodating cavity, the accommodating cavity is configured to be communicated with the second fluid channel in a state that the base is assembled on the base, and the inner wall of the rolling brush cover is attached to at least one part of the rolling brush bristles.

In one implementation, the cleaning apparatus includes:

a filter assembly disposed at an outlet of the foul tank, the filter assembly configured to filter high temperature gases passing through the foul tank.

In one implementation, the cleaning apparatus includes:

a blower disposed within the susceptor, the blower configured to drive the high-temperature gas to flow along the second fluid passage toward the first fluid passage in a state in which the pedestal is mounted to the susceptor.

In one implementation, the cleaning apparatus includes:

a water separator in communication with the supply tank, the water separator including a first distribution flow passage communicating to the roller brush and/or a second distribution flow passage for diversion to outside of a host, the suction source being connected with the supply tank and the water separator, the suction source being configured to drive a cleaning medium in the supply tank to flow to the first distribution flow passage and/or the second distribution flow passage.

In one implementation, the cleaning apparatus includes:

the power supply is a rechargeable power supply and is at least in power supply connection with the drying and washing device;

a first charging contact disposed on the base, the first charging contact configured to connect to an external power source;

the second charging contact is arranged on the host, the first charging contact is electrically connected with the power supply, and the first charging contact and the second charging contact are configured to be electrically connected in a state that the base is assembled on the base so as to charge the power supply by using the external power supply.

In one implementation, the cleaning apparatus includes:

a control panel electrically connected to at least the power source and the laundry device, the control panel being configured to at least receive control information for turning on or off the laundry device and/or to display power information of the power source;

the self-cleaning function key is electrically connected with the control panel, when a user triggers the self-cleaning function key, the self-cleaning working mode is started, the cleaning equipment enters a drying and washing mode, the host responds to the self-cleaning working mode and sends a working instruction matched with the self-cleaning working mode to the base, and the base responds to the working instruction of the self-cleaning working mode and controls the heater on the base to be started.

Above-mentioned cleaning device, after getting into to dry by the fire washing mode, the round brush can obtain cleaning medium's self-cleaning and high-temperature gas's stoving simultaneously, also under the pivoted circumstances simultaneously at round brush self, the round brush can obtain the efficient cleanness, and continuously keep higher stoving temperature, improve cleaning performance and stoving efficiency effectively, and the drive of negative pressure source can make the dirt that washes off on high-temperature gas and the round brush continue to flow to the dirt case along first fluid passage, utilize the dirt case to collect the dirt, can allow high-temperature gas to pass through the dirt case simultaneously and discharge, this also forms the stoving to the dirt case, avoid bacterial growing.

Drawings

FIG. 1 is a schematic perspective view of a cleaning apparatus provided in an embodiment of the present application;

FIG. 2 is a cross-sectional view of a cleaning apparatus provided in an embodiment of the present application;

FIG. 3 is a schematic diagram of a separation of a host and a base provided in one embodiment of the present application;

FIG. 4 is a schematic view of an assembly position structure of a driver provided in an embodiment of the present application;

FIG. 5 is a perspective view of a base according to an embodiment of the present application;

FIG. 6 is a perspective view of a base from a second perspective in accordance with an embodiment of the present application;

FIG. 7 is a partial perspective cross-sectional view of a base provided in an embodiment of the present application;

FIG. 8 is a schematic view of an internal structure of a base provided in an embodiment of the present application;

FIG. 9 is a partial cross-sectional view of a cleaning apparatus provided in an embodiment of the present application;

FIG. 10 is a partial cross-sectional view of a cleaning medium remaining in a launder provided in one embodiment of the present application;

FIG. 11 is a cross-sectional view of a cleaning apparatus provided in another embodiment of the present application;

fig. 12 is a schematic diagram of a separation of a host and a base provided in another embodiment of the present application.

Reference numerals:

001. a cleaning medium; 002. high temperature gas;

100. a host; 200. a base;

110. a first fluid channel; 120. a body; 130. a base; 140. rolling and brushing; 150. a driver; 160. a rolling brush cover; 170. a filter assembly;

131. a drying and washing tank; 132. a fan; 133. a first charging contact; 134. a second charging contact;

210. a second fluid passage; 211. a first fluid outlet; 212. a second fluid outlet;

310. a dirt box; 320. a source of negative pressure; 330. a heater.

Detailed Description

In order to make the above objects, features and advantages of the present invention more comprehensible, embodiments of the present invention are described in detail below with reference to the accompanying drawings. In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present invention. The present invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein, as those skilled in the art will be able to make similar modifications without departing from the spirit and scope of the present invention.

In the description of the present invention, it is to be understood that the terms "center", "longitudinal", "lateral", "length", "width", "thickness", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", "clockwise", "counterclockwise", "axial", "radial", "circumferential", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and for simplicity of description, and do not indicate or imply that the device or element referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the present invention.

Furthermore, the terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or to implicitly indicate the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include at least one such feature. In the description of the present invention, "a plurality" means at least two, e.g., two, three, etc., unless specifically limited otherwise.

In the present invention, unless otherwise expressly stated or limited, the terms "mounted," "connected," and "fixed" are to be construed broadly and may, for example, be fixedly connected, detachably connected, or integrally formed; can be mechanically or electrically connected; they may be directly connected or indirectly connected through intervening media, or they may be connected internally or in any other suitable relationship, unless expressly stated otherwise. The specific meaning of the above terms in the present invention can be understood according to specific situations by those of ordinary skill in the art.

In the present application, unless expressly stated or limited otherwise, a first feature "on" or "under" a second feature may be directly contacting the second feature or the first and second features may be indirectly contacting the second feature through intervening media. Also, a first feature "on," "over," and "above" a second feature may be directly or diagonally above the second feature, or may simply indicate that the first feature is at a higher level than the second feature. A first feature being "under," "below," and "beneath" a second feature may be directly under or obliquely under the first feature, or may simply mean that the first feature is at a lesser elevation than the second feature.

It will be understood that when an element is referred to as being "secured to" or "disposed on" another element, it can be directly on the other element or intervening elements may also be present. When an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present. As used herein, the terms "vertical," "horizontal," "upper," "lower," "left," "right," and the like are for purposes of illustration only and do not denote a single embodiment.

Referring to fig. 1 to 12, an embodiment of the present invention provides a cleaning apparatus, the cleaning apparatus includes a main body 100, a base 200, and a drying device, the main body 100 includes a body 120 and a base 130, a roller brush 140 and a driver 150 are disposed on the base 130, the driver 150 is in driving connection with the roller brush 140, the main body 100 has a first fluid passage 110 passing through the roller brush 140, the base 200 is configured to detachably mount the base 130, the base 200 has a second fluid passage 210, the second fluid passage 210 is configured to communicate with the first fluid passage 110 in a state that the base 130 is mounted on the base 200, the drying device includes a supply tank, a dirt tank 310, a suction source, a negative pressure source 320, and a heater 330, the supply tank, the dirt tank 310, the suction source, and/or the negative pressure source 320 are disposed on the main body 100, the suction source communicates with the supply tank, the negative pressure source 320, the first fluid passage 110, and the dirt tank 310 communicate with each other, and the heater 330 is disposed on the base 200; in a state where the pedestal 130 is mounted on the base 200, the driver 150 is configured to drive the rolling brush 140 to rotate, the suction source is configured to drive the cleaning medium 001 stored in the supply tank to be supplied to the rolling brush 140, the rolling brush 140 is rotated, and self-cleaning of the rolling brush 140 is performed by using the cleaning medium 001, the heater 330 is configured to heat at least a portion of gas flowing through the second fluid channel 210 to form high-temperature gas 002 when the rolling brush 140 is self-cleaned, the negative pressure source 320 is configured to drive the high-temperature gas 002 to flow along the second fluid channel 210 and the first fluid channel 110, the high-temperature gas 002 passes through the rolling brush 140 to assist the cleaning medium 001 to bake the rolling brush 140, and the negative pressure source 320 is further configured to drive dirt on the rolling brush 140 to flow into the dirt tank 310 along the first fluid channel 110.

A portion of the body 120 or an integral housing of the body 120 may serve as an upright handle, and a user may control the movement of the base 130 by holding the upright handle, thereby cleaning the floor using the roll brush 140 on the base 130, or control the base 130 to be separated from the base 200 or assembled to the base 200. The supply tank, the dirt tank 310, the suction source, and the negative pressure source 320 may be selectively disposed in the main body 120 of the main body 100 or on the base 130 of the main body 100, and may be assembled according to different adapting structures when assembled on the main body 120 or the base 130, and those skilled in the art may arrange them according to the needs, and are not limited herein. The position of the heater 330 disposed on the susceptor 200 may be in the second fluid channel 210 or adjacent to the second fluid channel 210, so as to directly or indirectly heat the gas in the second fluid channel 210 to form the high-temperature gas 002, and the specific temperature of the high-temperature gas 002 may be selected according to the actual requirement of the baking and washing, which is not limited herein.

The driver 150 can be installed in the base 130 and coupled to the rolling brush 140 by a motor, etc., and the motor can rotate the rolling brush 140 to agitate dirt on the floor for cleaning the floor, or can cooperate with the cleaning medium 001 to realize self-cleaning of the rolling brush. The supply tank may be previously filled with a cleaning medium 001 such as clean water or detergent, and then communicate with the drum brush 140 through a corresponding fluid transfer line or passage to supply the cleaning medium 001 to the drum brush 140. The dirt collected by the dirt box 310 includes, but is not limited to, the sewage or dirt left after the rolling brush 140 cleans the ground. The negative pressure source 320 may be a suction pump or the like capable of providing negative pressure suction force, and the negative pressure suction force generated by the negative pressure source 320 can suck the dirt on the floor to be cleaned into the dirt box 310 along the first fluid channel 110, and can dry the roller brush 140 by the high temperature gas 002 in the second fluid channel 210 along the first fluid channel 110 and suck the dirt remaining on the roller brush 140 into the dirt box 310, and can be discharged from the dirt box 310 after passing through the dirt box 310.

The cleaning device is provided with a unique drying and washing mode, it can be understood that the cleaning device is provided with a self-cleaning mode, the drying and washing mode mentioned here refers to that the cleaning device self-cleans a roller brush of the cleaning device when entering the self-cleaning mode, and then dries the roller brush of the cleaning device by matching with hot air or hot air flow and hot air, and the roller brush self-cleaning and drying of the cleaning device can be summarized as the drying and washing mode of the cleaning device. When a user places the base 130 of the main body 100 on the base 200 to assemble the main body 100 and the base 200 in a preset manner, the user may activate a drying mode of the cleaning apparatus in this state, in which the cleaning apparatus can issue a cooperative operation command of the main body 100 and the base 200 in cooperation, the suction source is activated to supply the cleaning medium in the tank to the roller brush 140, the control driver 150 drives the roller brush 140 to rotate, so that the cleaning medium supplied by the tank can be uniformly applied to the surface of the roller brush 140 to achieve self-cleaning, the cooperative operation command can also activate the heater 330 in the base 200, the air in the second fluid channel 210 in the base 200 is heated to form the high-temperature gas 002, the high-temperature gas 002 can be driven to flow by the source 320, the roller brush 140 is blown along the second fluid channel 210 to perform heat drying, in this state, the roller brush 140 can simultaneously obtain cleaning medium cleaning and high-temperature gas 002, the roller brush 140 can simultaneously obtain cleaning effect and continuously clean the high-temperature gas 002 and continuously flow along the first fluid channel 310 to prevent the cleaning tank from generating dirt 310, and the contamination can continuously collect the high-temperature dirt by the roller brush 140 while the negative pressure source 140 rotating, the negative pressure source 140, the cleaning effect of the cleaning tank 310 can be effectively preventing the contamination from growing.

In one embodiment, the base 200 has a drying and washing tank 131 thereon, the drying and washing tank 131 is configured to accommodate at least a portion of the rolling brush 140 and allow the rolling brush 140 to rotate in the drying and washing tank 131, the drying and washing tank 131 may be an arc-shaped inner wall, the arc shape may be adapted to the shape of the rolling brush 140, so that the rolling brush 140 can form a good fit with the drying and washing tank 131 when rotating, and a person skilled in the art sets corresponding matching structures of the rolling brush 140 and the drying and washing tank 131 according to requirements, which is not limited specifically herein. Referring to fig. 10, after the base 200 has the drying bath 131, when the cleaning medium 001 is applied to the roller brush 140, a portion of the cleaning medium 001 remains in the drying bath 131, and the portion of the cleaning medium 001 is also heated by the high-temperature gas 002, so that the dirt attached to the surface of the roller brush 140 can be dissolved by the high-temperature cleaning medium 001, thereby more efficiently cleaning the roller brush 140.

In order to sufficiently blow the high-temperature gas 002 blown out from the second fluid channel 210 to the roller brush 140, and to suitably arrange the outlets of the second fluid channel 210, referring to fig. 1 to 10, in one embodiment, at least one first fluid outlet 211 communicating with the second fluid channel 210 is formed on the base 200, the first fluid outlet 211 is located in front of the drying groove 131, at this time, the high-temperature gas 002 blown out from the second fluid channel 210 can be sufficiently blown to the roller brush 140 from the front of the roller brush 140, further, the number of the first fluid outlets 211 can be plural, the plural first fluid outlets 211 are arranged along a straight line, the direction of the straight line is arranged to be parallel to the axial direction of the roller brush 140 in a state where the base 130 is assembled on the base 200, and after the plural first fluid outlets 211 are arranged according to the form of the roller brush 140, the high-temperature gas 002 can be uniformly blown to the roller brush 140 along the plural first fluid outlets 211, and the high-temperature gas 002 can be sufficiently blown to the roller brush 140 in a state where the roller brush 140 is in contact with the axial direction of the roller brush 140, and the entire outer surface of the roller brush 140 can be sufficiently rotated.

Referring to fig. 11 and 12, in one embodiment, the base 200 is provided with at least one second fluid outlet 212 communicating with the second fluid channel 210, the second fluid outlet 212 is located at a side of the drying and washing tank 131, at this time, the high-temperature gas 002 blown out from the second fluid channel 210 may also be blown toward the rolling brush 140 from a side of the rolling brush 140, so that the side of the rolling brush 140 can be sufficiently heated, further, the number of the second fluid outlets 212 may be an even number, the plurality of second fluid outlets 212 are symmetrically disposed at two opposite sides of the drying and washing tank 131, the symmetrically disposed symmetry axes are configured to be perpendicular to the axial direction of the rolling brush 140 in a state where the base 130 is assembled on the base 200, the symmetrically disposed axis can enable the high-temperature gas 002 to be blown toward two axially symmetric ends of the rolling brush 140 from the symmetric second fluid outlet 212, then flow toward the center of the rolling brush 140, and enter the first fluid channel 110 along a position where the second fluid channel 210 and the first fluid channel 110 are communicated, so that the high-temperature gas 002 is blown into the first fluid channel 110, and the rolling brush 140 along the axial direction of the hot gas 140, thereby not only can improve the drying effect of the rolling brush 140. The first fluid outlet 211 and the second fluid outlet 212 may be separately provided, or may be provided at the same time.

In one embodiment, the cleaning apparatus includes a rolling brush cover 160, the rolling brush cover 160 is mounted on the base 130, the rolling brush cover 160 and the base 130 form a receiving cavity communicating with the first fluid passage 110, the rolling brush 140 is mounted in the receiving cavity, the receiving cavity is configured to communicate with the second fluid passage 210 in a state that the base 130 is mounted on the base 200, and an inner wall of the rolling brush cover 160 and at least a portion of bristles of the rolling brush 140 are attached to each other. The roll brush cover 160 may be detachably mounted on the base 130, and after the roll brush cover 160 and the base 130 are fitted to each other to form a receiving chamber, it is also possible to form the receiving chamber as a part of the first fluid passage 110 and form an opening of the receiving chamber as an opening of the first fluid passage 110 for communicating with the second fluid passage 210.

The bristles of the rolling brush 140 may be fluff or soft fiber materials, and the design of the inner wall of the rolling brush cover 160 and the at least a portion of bristles in the attachment mode may be understood as that the inner wall of the rolling brush cover 160 directly contacts with the at least a portion of bristles or the distance between the inner wall of the rolling brush cover 160 and the at least a portion of bristles is within 5mm, and the design of the inner wall of the rolling brush cover 160 and the at least a portion of bristles in the attachment mode may not only stir dirt on the ground during the rotation of the rolling brush 140, but also continuously form friction with the inner wall of the rolling brush cover 160, that is, after the rolling brush 140 sucks cleaning medium 001 such as cleaning water, frictional extrusion force may be formed among the rolling brush 140, the rolling brush cover 160 and the cleaning medium 001, and the frictional extrusion force among the three may perform surface cleaning on the rolling brush 140 and the rolling brush cover 160, so that the cleaning apparatus always keeps the rolling brush 140 and the rolling brush cover 160 clean during the operation, and the cleaning apparatus may always keep clean after the cleaning apparatus is self-cleaned.

In one embodiment, the cleaning apparatus comprises:

the filter assembly 170 is arranged at the outlet of the dirt box 310, the filter assembly 170 is configured to filter the high-temperature gas 002 passing through the dirt box 310, when the high-temperature gas 002 is discharged from the dirt box 310, the high-temperature gas 002 firstly passes through the filter assembly 170, the high-temperature gas 002 is filtered and then discharged out of the cleaning equipment, and the high-temperature gas 002 can also dry the filter assembly 170, so that the dryness of the filter assembly is maintained.

In one embodiment, a blower 132 is further included and is disposed in the susceptor 200, and the blower 132 is configured to drive the high temperature gas 002 to flow along the second fluid channel 210 toward the first fluid channel 110 in a state where the pedestal 130 is assembled to the susceptor 200. The additional arrangement of the fan 132 can increase the heat drying efficiency of the high-temperature gas 002, the fan 132 can be started at a suitable time period after the drying and washing mode is started, for example, the fan 132 can be started at the same time when the heater 330 is started or at a certain time after the heater 330 is started, after the heater 330 forms the high-temperature gas 002, the fan 132 can blow along the second fluid channel 210, so that the high-temperature gas 002 is not only sucked and flows by the suction force formed by the negative pressure source 320, but also flows under the blowing force of the fan 132, the flow of the high-temperature gas 002 in the second fluid channel 210 and the first fluid channel 110 is accelerated, the high-temperature gas 002 is blown to the rolling brush 140 in an accelerated manner and can be fully contacted with the surface of the rolling brush 140, and a better drying effect is formed on the rolling brush 140.

In one embodiment, the cleaning apparatus includes a water separator in communication with the supply tank, the water separator includes a first distribution flow passage communicated to the roller brush 140 and a second distribution flow passage for guiding flow out of the main machine 100, the suction source is connected with the supply tank and the water separator, and the suction source is configured to drive the cleaning medium 001 in the supply tank to flow to the first distribution flow passage and/or the second distribution flow passage. A water diverter may be provided on the base 130 and then fluidly connected to the supply tank via a corresponding fluid transfer line or passage to distribute the cleaning medium 001 to the first distribution flow path or the second distribution flow path and then onto the drum brush 140 or the floor to be cleaned for cleaning the drum brush 140 and cleaning the floor, respectively.

In one embodiment, the cleaning device includes a power source, a first charging contact 133 and a second charging contact 134, the power source, the first charging contact 133 and the second charging contact 134 may cooperate with each other to form a communicated circuit, the power source may be an external power source or a rechargeable power source that can be charged and store power through the external power source, for example, the power source may be disposed on the base 130 or the body 120 of the main body 100, and the rechargeable power source used by the power source may be a battery such as a storage battery that can store electric energy, and can be charged through the external power source. The power supply is at least connected with the power supply of the drying and washing device, and in addition, the power supply can be electrically connected with other electrical appliances in the cleaning device to form power supply, the first charging contact 133 is arranged on the base 200, the first charging contact 133 is configured to be connected with an external power supply, the second charging contact 134 is arranged on the host 100, the first charging contact 133 is electrically connected with the power supply, the first charging contact 133 and the second charging contact 134 are configured to be electrically connected in a state that the base 130 is assembled on the base 200, so that the external power supply is utilized to charge the power supply, therefore, after a user places the host 100 on the base 200, the power supply, the first charging contact 133 and the second charging contact 134 can be matched with each other to form a communicated circuit, and the external power supply can supply power to the power supply through the communicated circuit.

In one embodiment, the cleaning device comprises a control panel, the control panel is at least electrically connected with the power supply and the drying device, the control panel is configured to at least receive control information for turning on or off the drying device and display electric quantity information of the power supply, the control panel is provided with a display module such as an interactive display screen, the interactive display screen can be used for forming instruction interaction with a user, namely, the user can input a corresponding control instruction through the interactive display screen and then directly control the operation of a corresponding device according to a built-in logic system, or the control instruction is converted into control information capable of controlling the controller to be transmitted to the controller, the controller indirectly controls the operation of the corresponding device according to the control information, for example, the driver 150, the drying device and the like can be controlled to be turned on or off, and the electric quantity information such as a charging state can be displayed when the cleaning device is charged, so as to prompt the user of charging.

During the charging of the power supply of the cleaning apparatus, the cleaning apparatus may still select to enter the drying and washing mode to perform the drying and washing operation on the drum brush 140, or may also select to disable the charging function of the power supply in the drying and washing mode of the cleaning apparatus. The drying and washing mode of the cleaning device includes a functional portion for forming self-cleaning by using the rotation of the cleaning medium 001 and the roller brush 140 and a functional portion for drying the roller brush 140 by the high-temperature gas 002, so that the cleaning device can select the operation of the self-cleaning functional portion independently when the host 100 is not placed in the base 200, and at this time, if the host 100 is not placed on the base 200, the control panel needs to prohibit the control signal for controlling the start of the heater 330 from being sent to the base 200, so as to prevent the heater 330 of the base 200 from being started by mistake in a state of not being matched with the host 100. Whether to control the activation of the heater 330 and the activation of the blower 132 in the drying mode may be determined by whether the host 100 is docked with the base 200, and in one embodiment, whether the host 100 is docked with the base 200 may be determined by detecting whether the first charging contact 133 and the second charging contact 134 are docked, and besides, whether the host 100 is docked with the base 200 may be detected by a distance sensor, an infrared sensor, or the like, and the detection manner that may be implemented may be other detection manners, which are not limited herein.

In order to make the heater 330 and the power charging circuit on the base 200 not affect each other, the heater 330 and the power charging circuit may use independent circuits, and after the base 200 is powered on, one circuit is used to connect to the heater 330, and the other circuit is used to connect to the first charging contact 133 of the base 200.

In order to simplify the operation of the user, a self-cleaning function button may be further disposed on the control panel, and after the self-cleaning function button is triggered, the drying and washing operation of the rolling brush 140 may be performed according to a preset control logic, for example, the self-cleaning function button is connected to the driver 150 and the drying and washing device, and when the host 100 is placed on the base 200, the user presses the self-cleaning function button to control the driver 150 and the drying and washing device to operate correspondingly according to the preset control logic, so as to perform the drying and washing operation of the rolling brush 140. When a user presses a self-cleaning function button, a self-cleaning working mode is started, the cleaning equipment enters a drying and cleaning mode, a host of the cleaning equipment responds to the self-cleaning working mode and sends a working instruction matched with the self-cleaning working mode to the base, and the base responds to the working instruction of the self-cleaning working mode and controls a heater on the base to start heating.

In one embodiment, the cleaning apparatus includes a controller, the controller is in control connection with the driver 150 and the drying device, the controller is configured to control the suction source and the driver 150 to be turned on or off, so that the roller brush 140 rotates and is self-cleaned by the cleaning medium 001, the controller can control the heater 330 and the negative pressure source 320 to be turned on or off when the roller brush 140 is self-cleaned, so that the heater 330 generates the high-temperature gas 002 and dries the roller brush 140 through the roller brush 140, thereby the controller can control the driver 150 and the drying device in the cleaning apparatus, and the driver 150 and the drying device can cooperate with each other to realize the drying operation of the roller brush 140.

It should be noted that although the cleaning apparatus can cooperatively control the corresponding devices such as the driver 150, the drying device and the like on the main body 100 and the base 200 to enter the drying mode, the specific control timing for each device in the driver 150 and the drying device may also cause the drying mode to form different drying effects, for example, the cleaning apparatus may directly or indirectly control the start and stop timings of the devices such as the driver 150, the suction source, the negative pressure source 320 and the heater 330, the start and stop timings include but are not limited to the start and stop timings between any two or more of the devices such as the driver 150, the suction source, the negative pressure source 320 and the heater 330, so that the drying mode forms different drying schemes to meet various drying requirements of the user, and those skilled in the art can set the drying schemes according to requirements, which are not specifically limited herein.

The indication that the cleaning apparatus enters the drying mode may be based on the activation of any one of the components, such as the driver 150, the suction source, the negative pressure source 320, and the heater 330, which may need to be determined according to a specific control scheme, and is not limited herein.

After the cleaning device enters the drying and washing mode, the heater 330 may respond in time at a suitable time, the heater 330 is started to heat the surrounding air, high-temperature gas 002 is formed and then blown to the roller brush 140 along the second fluid channel 210 to perform the heat drying treatment on the roller brush 140, and the high-temperature gas 002 may enter the dirt box 310 along the first fluid channel 110 after the negative pressure source 320 is started, and then is discharged out of the cleaning device through the outlet of the dirt box 310. The heater 330 may respond to the start when the cleaning apparatus enters the drying and washing mode, or may respond to the start after a time delay after the cleaning apparatus enters the drying and washing mode.

In one example, when a user presses a bake button or otherwise activates a bake mode, heater 330 may simultaneously form hot gas 002 in response to activating and heating the ambient air. In another example, when the user presses the dry-wash button or triggers the dry-wash mode in other ways, the cleaning device may not immediately activate the heater 330, but may activate the heater 330 after a time delay, for example, after the rolling brush 140 finishes adding the cleaning medium 001, or after the cleaning device is ready for the hot-wash preparation, so as to effectively improve the hot-wash efficiency and save time and power, and the specific performance of the cleaning device that is ready for the hot-wash preparation may be that the supply tank stops supplying the cleaning medium 001 to the rolling brush 140, or the negative pressure source 320 is activated, or the rotation speed of the driver 150 is increased. The above-mentioned timing can be automatically detected by the corresponding detecting device and automatically controlled by the controller after feeding back to the controller, for example, the working state of the suction source can be detected to determine when the supply tank stops supplying the cleaning medium 001 to the roller brush 140, the working state of the negative pressure source 320 can be detected to determine when the negative pressure source 320 is started, the rotation speed of the driver 150 can be detected to determine the timing of the speed change of the driver 150, and the like.

It can be seen that the activation timing of the heater 330 may be based on the activation and deactivation timings of the suction source, the negative pressure source 320 or the driver 150, and the controller is configured to turn on the heater 330 while turning on the suction source, or turn on the heater 330 after a first delay time after turning on the suction source, or turn on the heater 330 while turning off the suction source, or turn on the heater 330 while turning on the negative pressure source 320, or turn on the negative pressure source 320 while increasing the driving rotation speed of the driver 150.

After the cleaning apparatus finishes the drying and washing mode, the heater 330 may respond in time at a suitable time, and the heater 330 is turned off to stop heating the surrounding air, wherein the heating time of the heater 330 may be preset, for example, the heater 330 may be automatically turned off after the heating time of the heater 330 is preset, or the heating of the heater 330 may be actively stopped through a control instruction provided by a user after the cleaning apparatus finishes the drying and washing mode. In one embodiment, the controller is configured to control the heater 330 to turn off the heater 330 when the on time reaches a first preset time, which may be 1min to 5min, and a person skilled in the art may select a setting according to a requirement, which is not limited herein, or turn off the heater 330 when receiving a control message to turn off the heater 330.

During the on and off control of the heater 330, the indication that the cleaning apparatus enters the drying mode may be based on the activation of the suction source, and therefore, the heater 330 may also be based on the activation of the suction source in the drying mode, and after the cleaning apparatus is ready for drying, the suction source may respond in time at a suitable time to turn off the suction source to stop providing the cleaning medium 001, and the controller is configured to control the suction source to turn off the suction source at the on time reaching a second preset time, which may be set according to the requirement, and is not limited herein.

After the cleaning device enters the drying mode, the driver 150 can respond at a proper time, the actuating driver 150 can drive the roller brush 140 to rotate, when the suction source provides the cleaning medium 001 supplied to the roller brush 140, the rotation of the roller brush 140 can make the surface of the roller brush 140 and the cleaning medium 001 uniformly contact, so as to realize self-cleaning through the roller brush 140 and the cleaning medium 001, in one embodiment, the controller is configured to turn on the driver 150 at the same time of turning on the suction source, at this time, the roller brush 140 can start to rotate to uniformly wet and disperse the cleaning medium 001 on the surface of the roller brush 140 at the same time of providing the cleaning medium 001 to the roller brush 140, so as to perform self-cleaning, the self-cleaning effect can be obtained after the amount of the cleaning medium 001 reaches a certain degree, or the driver 150 is turned on after a second delay time after turning on the suction source, at this time, the roller brush 140 is already provided with a certain amount of the cleaning medium 001, and the roller brush 140 can immediately form the self-cleaning effect after rotating.

After the cleaning apparatus enters the drying mode, the negative pressure source 320 may respond at a proper time, and the activation of the negative pressure source 320 may drive the high temperature gas 002 to flow in the second fluid channel 210 and blow toward the roller brush 140 to achieve the drying, in one embodiment, the controller is configured to activate the negative pressure source 320 at the same time when the suction source is turned off, the suction source is turned off to stop supplying the cleaning medium 001 to the roller brush 140, at which time the roller brush 140 is already provided with sufficient cleaning medium 001, the roller brush 140 may continue to rotate to perform the self-cleaning operation using the cleaning medium 001 already supplied to the roller brush 140, the activation of the negative pressure source 320 may drive the high temperature gas 002 to blow toward the roller brush 140, the drying operation of the roller brush 140 is performed in cooperation with the cleaning medium 001 and the rotation of the roller brush 140, the cleaning effect and the drying efficiency of the roller brush 140 are improved, or the activation of the driver 150 after the activation of the suction source until a third delay time is reached, the self-cleaning effect of the roller brush 140 is improved, the self-cleaning effect of the negative pressure source 320 is stabilized, the self-cleaning operation of the roller brush 140 is performed in cooperation with the drying operation of the cleaning medium 140.

Referring to fig. 10, since the negative pressure source 320 is activated after the suction source is turned off, the suction source provides a certain amount of cleaning medium 001 to the rolling brush 140 before the negative pressure source 320 is activated, the cleaning medium 001 may dissolve or adhere to a part of the dirt on the rolling brush 140, the cleaning medium 001 may remain in a part of the drying tank 131, and when the negative pressure source 320 drives the high-temperature gas 002 to dry the surface of the rolling brush 140, the cleaning medium 001 remaining in the drying tank 131 may also be heated, so that the rolling brush 140 may be cleaned by the heated cleaning medium 001 in the drying tank 131 during rotation, thereby dissolving the dirt adhering to the surface of the rolling brush 140 by the heated cleaning medium, and more efficiently cleaning the rolling brush 140.

During the drying mode of the cleaning apparatus, the driver 150 may further change the rotation speed of the rolling brush 140, for example, increase the rotation speed of the rolling brush 140 or decrease the rotation speed of the rolling brush 140 at a suitable time, and increase the rotation speed of the rolling brush 140 is to enable the rolling brush 140, which is fully mixed with the cleaning medium 001, to spin the cleaning medium 001, which is adhered or dissolved with dirt, out of the surface of the rolling brush 140 under the strong suction force of the negative pressure source 320 with a greater centrifugal force, and increase the rotation speed of the rolling brush 140 may also enable the squeezing friction force between the rolling brush 140, the rolling brush cover 160, and the cleaning medium 001, which are arranged in an attached manner, to become more significant, and further facilitate the cleaning of the rolling brush 140 and the rolling brush cover 160, and keep the surfaces of the rolling brush and the rolling brush cover clean, in one embodiment, the controller may be configured to increase the driving rotation speed of the driver 150 while closing the suction source, and may increase the rotation speed of the rolling brush 140 immediately after the suction source stops supplying the cleaning medium 001 to the rolling brush 140, or may be closed until the driving of the driver 150 is opened until the driving speed of the rolling brush 140 reaches a fourth driving speed after the time of the driving of the rolling brush 140 is reached, and the driving speed is then the driving of the rolling brush 140 may be increased.

In the process of the drying and washing mode of the cleaning apparatus, a cooperation may be further formed between the turning on of the negative pressure source 320 and the increasing of the rotation speed of the rolling brush 140, in one embodiment, the third delay time is equal to the fourth delay time, the rotation speed of the rolling brush 140 is increased while the negative pressure source 320 is turned on, or the third delay time is greater than the fourth delay time, the rotation speed of the rolling brush 140 is increased at a suitable time after the negative pressure source 320 is turned on, or the third delay time is less than the fourth delay time, the rotation speed of the rolling brush 140 may be increased first, and then the negative pressure source 320 is turned on after the suitable time. The first delay time, the second delay time, the third delay time and the fourth delay time can be selected according to requirements, and are not limited herein.

In one preferred embodiment, in the drying mode, the controller comprises the following control steps:

s1: controlling the supply box to supply a cleaning medium to the roller brush, and controlling the roller brush to rotate at a first rotation speed:

s2: controlling the supply box to stop supplying the cleaning medium to the roller brush and controlling the heater to start;

s3: controlling the negative pressure source to start, and controlling the rolling brush to rotate at a second rotating speed which is greater than the first rotating speed;

s4: and controlling the negative pressure source to be closed, controlling the heater to be closed, and controlling the rolling brush to stop rotating.

The technical features of the embodiments described above may be arbitrarily combined, and for the sake of brevity, all possible combinations of the technical features in the embodiments described above are not described, but should be considered as being within the scope of the present specification as long as there is no contradiction between the combinations of the technical features.

The above-mentioned embodiments only represent several embodiments of the present invention, and the description thereof is specific and detailed, but not to be construed as limiting the scope of the invention. It should be noted that, for those skilled in the art, without departing from the spirit of the present invention, several variations and modifications can be made, which are within the scope of the present invention. Therefore, the protection scope of the present invention should be subject to the appended claims.

Claims

1. A cleaning device, characterized in that the cleaning device comprises:

a washing and drying device, comprising a supply tank, a dirt tank, a suction source, a negative pressure source and a heater, wherein the supply tank, the dirt tank, the suction source and/or the negative pressure source are/is arranged on the main machine, the suction source is communicated with the supply tank, the negative pressure source, the first fluid channel and the dirt tank are communicated with each other, and the heater is arranged on the base;

the base is assembled on the base;

the cleaning device further comprises a self-cleaning operation mode, when the cleaning device is started from the self-cleaning operation mode, the cleaning device enters a drying mode, in the drying mode, the driver is configured to drive the roller brush to rotate, the suction source is configured to drive the cleaning medium stored in the supply box to be supplied to the roller brush, the roller brush is enabled to rotate and self-clean by using the cleaning medium, the heater is configured to heat at least a part of gas flowing through the second fluid channel when the roller brush is self-cleaned so as to form high-temperature gas, the negative pressure source is configured to drive the high-temperature gas to flow along the second fluid channel and the first fluid channel, the high-temperature gas passes through the roller brush to assist the cleaning medium in drying the roller brush, and the negative pressure source is further capable of driving dirt on the roller brush to flow into the dirt box along the first fluid channel.

2. The cleaning apparatus defined in claim 1, wherein the base has a rinse bath thereon that is configured to receive at least a portion of the roller brush and allow the roller brush to rotate within the rinse bath.

3. The cleaning apparatus as claimed in claim 2, wherein the base defines at least one first fluid outlet in communication with the second fluid passage, the first fluid outlet being located in front of the launder;

and/or at least one second fluid outlet communicated with the second fluid channel is formed in the base, and the second fluid outlet is positioned on the side of the baking and washing tank.

4. The cleaning apparatus according to claim 3, wherein the number of the first fluid outlets is plural, the plural first fluid outlets are arranged in a straight line, and a direction of the straight line is configured to be parallel to an axial direction of the roll brush in a state where the base is fitted to the base;

5. The cleaning apparatus of claim 1, wherein the cleaning apparatus comprises:

the rolling brush cover is assembled on the base, an accommodating cavity communicated with the first fluid channel is formed by the rolling brush cover and the base, the rolling brush is assembled in the accommodating cavity, the accommodating cavity is configured to be communicated with the second fluid channel in a state that the base is assembled on the base, and the inner wall of the rolling brush cover is attached to at least one part of the rolling brush bristles.

6. The cleaning apparatus of claim 1, wherein the cleaning apparatus comprises:

7. The cleaning apparatus of claim 1, wherein the cleaning apparatus comprises:

8. The cleaning apparatus of claim 1, wherein the cleaning apparatus comprises:

9. The cleaning apparatus of claim 1, wherein the cleaning apparatus comprises:

10. The cleaning apparatus as recited in claim 9, wherein the cleaning apparatus comprises:

the self-cleaning function key is electrically connected with the control panel, when a user triggers the self-cleaning function key, the self-cleaning working mode is started, the cleaning equipment enters a drying and washing mode, the host responds to the self-cleaning working mode and sends a working instruction matched with the self-cleaning working mode to the base, and the base responds to the working instruction of the self-cleaning working mode to control the heater on the base to be started.