CN114098558A - Cleaning device - Google Patents

Abstract

The invention relates to the technical field of intelligent cleaning household appliances, in particular to a cleaning device. The cleaning device comprises a main body, a dust suction assembly and a dehumidifying mechanism. Wherein, the dust absorption assembly is arranged on the main body and can absorb dust through air flow. The dehumidifying mechanism is communicated with the dust collection assembly and can extract and recycle moisture in the dust collection assembly, so that the moisture on the ground is cleaned, and the problem that the ground is wet in the 'return south' season is solved. The dehumidifying mechanism is beneficial to enhancing the adaptability of the cleaning device to the environment, can enhance the cleaning capability, can be used in different ground environments, and has no limitation on the cleaning effect; especially, the cleaning agent has obvious effect on cleaning accumulated water and wet garbage.

Description

Cleaning device

Technical Field

The invention relates to the technical field of intelligent cleaning household appliances, in particular to a cleaning device.

Background

With the development of smart home technology, the application of the cleaning device in the life of people is becoming wide. The cleaning device can automatically realize the functions of sweeping the floor, mopping the floor, recycling garbage and the like.

However, when the floor has a large area or the amount of accumulated water is large, the conventional cleaning device is difficult to solve. To solve this problem, the prior art proposes a new cleaning device comprising a drying assembly and a cleaning assembly. The cleaning assembly is used for cleaning the ground, and the drying assembly is used for drying by blowing air to the ground, so that the problem of ground moisture is solved. However, the scheme is only suitable for the condition of less water quantity, and the method for drying the water by blowing consumes long time and has low efficiency.

In order to solve the above problems, it is desirable to provide a cleaning device, which solves the problem of low dehumidification efficiency when a large area of ground is wet.

Disclosure of Invention

The invention aims to provide a cleaning device to achieve the effect of efficiently removing large-area water on the ground.

In order to achieve the purpose, the invention adopts the following technical scheme:

a cleaning device, comprising:

a main body;

a dust suction assembly provided on the main body, the dust suction assembly being capable of sucking dust by a flow of air; and

a dehumidifying mechanism comprising:

a dehumidifying assembly in communication with the dust extraction assembly, the dehumidifying assembly configured to extract moisture from an airflow exhausted from the dust extraction assembly; and

a recovery assembly coupled to the dehumidifying assembly, the recovery assembly configured to recover the moisture extracted by the dehumidifying assembly.

As an alternative, the recovery assembly comprises:

a recovery box capable of communicating with the dehumidifying component to contain the moisture extracted by the dehumidifying component; and

and the switch module is arranged between the dehumidifying component and the recovery box and can enable the dehumidifying component to be communicated with or closed off the recovery component.

As an alternative, a first water inlet is opened on the recovery box, and the switch module includes:

the door body is arranged corresponding to the first water inlet and can open or close the first water inlet; and

the door body driving part is arranged on the main body and connected with the door body, and the door body driving part can drive the door body to be opened.

As an alternative, the door body driving member includes:

a first stationary magnet disposed on the main body; and

and the first moving magnet is connected with the door body, and after the first fixed magnet is electrified, the first moving magnet can approach the first fixed magnet to drive the door body to be opened.

As an alternative, the switch module further comprises:

the reset piece extends along the moving direction of the door body and is connected with the first moving magnet, the reset piece is configured to drive the first moving magnet to reset, and when the first fixed magnet is not electrified, the reset piece drives the first moving magnet to be far away from the first fixed magnet, so that the door body is closed.

As an alternative, the recovery assembly further comprises:

a diversion opening disposed between the first water inlet of the recovery box and the dehumidifying component, wherein the moisture collected by the dehumidifying component flows to the first water inlet through the diversion opening and then enters the recovery box.

As an alternative, the dehumidifying assembly comprises:

an evaporation member in communication with the outlet end of the dust extraction assembly, the evaporation member being capable of heating the moisture extracted from the airflow exiting the dust extraction assembly to evaporate the moisture; and

a cooling member connected to the evaporation member, the cooling member configured to cool the evaporated moisture so that the moisture is condensed into water and discharged into the recovery assembly.

As an alternative, the dehumidifying assembly further comprises:

the cooling piece, with the refrigeration piece is connected, the cooling piece can be for the refrigeration piece cooling.

As an alternative, the recovery tank comprises: the recovery box comprises a recovery box body and a drainage structural member; the drainage structure includes:

a second water inlet provided in the recovery box body so that the moisture in the recovery box body can flow into the drainage structure from the second water inlet; and

and the second water outlet is formed in the bottom of the recovery box body, and the moisture in the drainage structural part can flow out of the second water outlet.

As an alternative, the recovery box further comprises:

a water outlet switch, the water outlet switch comprising:

the silica gel pad is provided with an opening communicated with the second water inlet and the second water outlet;

a second stationary magnet disposed on the main body; and

the second moving magnet is arranged on the recovery box body, the second moving magnet and the second fixed magnet are arranged at intervals and correspondingly, when the second fixed magnet is electrified, the second moving magnet and the second fixed magnet repel each other, the second moving magnet is located at the first position and can cover and extrude the silica gel pad so as to avoid the outflow of the water, and when the second fixed magnet is not electrified, the second moving magnet is located at the second position close to the second fixed magnet and is far away from the silica gel pad so as to enable the water to flow out through the drainage structural member.

As an alternative, the cleaning device further comprises:

and the cleaning piece is arranged on the recovery box, and the moisture can flow out of the recovery box to the cleaning piece so as to clean the floor.

The invention has the beneficial effects that:

the invention provides a cleaning device which comprises a main body, a dust suction assembly and a dehumidifying mechanism. Wherein, the dust absorption assembly is arranged on the main body and can absorb dust through air flow. The dehumidifying mechanism is communicated with the dust collection assembly and can extract and recycle moisture in the dust collection assembly, so that the moisture on the ground is cleaned, and the problem that the ground is wet in the 'return south' season is solved. The dehumidifying mechanism is beneficial to enhancing the adaptability of the cleaning device to the environment, can enhance the cleaning capability, can be used in different ground environments, and has no limitation on the cleaning effect; especially, the cleaning agent has obvious effect on cleaning accumulated water and wet garbage.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present invention, the drawings used in the description of the embodiments of the present invention will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the contents of the embodiments of the present invention and the drawings without creative efforts.

FIG. 1 is a schematic structural diagram of a cleaning device provided in an embodiment of the present invention;

FIG. 2 is a schematic structural diagram of a recycling assembly provided by an embodiment of the present invention;

FIG. 3 is a schematic structural diagram of a recycling bin provided in an embodiment of the present invention;

fig. 4 is a schematic cross-sectional view of a recycling bin according to an embodiment of the present invention.

The figures are labeled as follows:

100-a body;

200-a dust extraction assembly; 210-a dust box; 211-an air outlet; 212-a dust suction opening; 220-a dust extraction drive; 230-a filter element;

300-a dehumidifying mechanism; 310-a dehumidifying component; 311-an evaporation member; 312-a refrigeration member; 313-a cooling member; 3131 — a cooling section; 3132-a cooling drive; 320-a recovery assembly; 321-a recovery box; 3211-recovering box body; 32111-first water inlet; 3212-drainage structures; 32121-a second water inlet; 32122-a second water outlet; 3213-water outlet switch; 32131-silica gel pad; 32132-a second moving magnet; 3214-fixing column; 322-a switch module; 3221-door body; 32211-a first door body; 32212-a second door body; 3222-door body driving piece; 32221-a first fixed magnet; 32222-a first moving magnet; 3223-a restoring member; 3224-a flow guide port; 32241-side wall;

400-cleaning member.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings and examples. It is to be understood that the specific embodiments described herein are merely illustrative of the invention and are not limiting of the invention. It should be further noted that, for convenience of description, only the structural parts related to the present invention are shown in the drawings, not the entire structure.

In the description of the present invention, unless expressly stated or limited otherwise, the terms "connected," "connected," and "fixed" are to be construed broadly, e.g., as meaning permanently connected, removably connected, or integral to one another; can be mechanically or electrically connected; they may be directly connected or indirectly connected through intervening media, or may be structurally related or interoperable between two elements. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

In the present invention, unless otherwise expressly stated or limited, "above" or "below" a first feature means that the first and second features are in direct contact, or that the first and second features are not in direct contact but are in contact with each other via another feature therebetween. Also, the first feature being "on," "above" and "over" the second feature includes the first feature being directly on and obliquely above the second feature, or merely indicating that the first feature is at a higher level than the second feature. A first feature being "under," "below," and "beneath" a second feature includes the first feature being directly under and obliquely below the second feature, or simply meaning that the first feature is at a lesser elevation than the second feature.

In the description of the present embodiment, the terms "upper", "lower", "left", "right", and the like are used based on the orientations and positional relationships shown in the drawings only for convenience of description and simplification of operation, and do not indicate or imply that the referred device or element must have a specific orientation, be configured and operated in a specific orientation, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first" and "second" are used only for descriptive purposes and are not intended to have a special meaning.

With the development of smart home technology, the application of the cleaning device in the life of people is becoming wide. The cleaning device can automatically realize the functions of sweeping the floor, mopping the floor, recycling garbage and the like.

The present embodiment provides a cleaning apparatus, as shown in fig. 1, including a main body 100 and a dust suction assembly 200. Wherein the dust suction assembly 200 is provided on the main body 100, and the dust suction assembly 200 can suck dust through air flow. Specifically, the dust suction assembly 200 includes a dust box 210 and a dust suction driving member 220, wherein the dust box 210 has a dust suction opening 212 and an air outlet 211, the dust suction driving member 220 is disposed outside the air outlet 211, the dust suction driving member 220 can provide vacuum suction force for dirt entering the dust box 210, and dirt on the floor enters the dust box 210 from the dust suction opening 212, so that the floor that the cleaning device passes through can be cleaned. Illustratively, the suction drive 220 is preferably a fan that generates a driving force by rotation of the blades to achieve a dirt suction effect. Meanwhile, the fan belongs to conventional parts, is low in cost and convenient to purchase.

Meanwhile, the cleaning device further comprises a cleaning piece 400, when the cleaning device is in a cleaning working mode, the dust collection assembly 200 can absorb dirt on the ground, and the cleaning piece 400 can clean the ground so as to realize simultaneous sweeping and mopping, thereby effectively improving the working efficiency of the cleaning device. Illustratively, the cleaning member 400 is preferably a cloth that is laid flat on the surface of the body 100 opposite the floor and that can function as a wipe of the floor as the cleaning device is moved.

Every time the spring is late, most families in southern areas have a common annoyance-return to south. When the 'return to south' appears, the air humidity is nearly saturated, water drops can appear on the ground and the wall, and great potential safety hazards exist in life; and can make some goods and food moist, and thus go mouldy and rot. Or when a user carelessly spills a large amount of water on the ground, the conventional cleaning device is difficult to solve.

In order to solve the above problem, the cleaning apparatus further includes a dehumidifying mechanism 300. The dehumidifying mechanism 300 is communicated with the dust collection assembly 200, and the dehumidifying mechanism 300 can extract and recycle moisture in airflow discharged by the dust collection assembly 200, so that the moisture on the ground can be cleaned, and the problem of damp ground in the 'return south' season is solved. The dehumidifying mechanism 300 is beneficial to enhancing the adaptability of the cleaning device to the environment, can enhance the cleaning capability, can be used in different ground environments, and has no limitation on the cleaning effect; especially, the cleaning agent has obvious effect on cleaning accumulated water and wet garbage.

As an alternative, as shown in FIGS. 1-2, the dehumidifying mechanism 300 includes a dehumidifying component 310 and a recovery component 320. Wherein, the dehumidifying component 310 is communicated with the dust suction component 200, the recovering component 320 is connected with the dehumidifying component 310, and the recovering component 320 can recover the moisture extracted by the dehumidifying component 310, thereby keeping the floor dry and clean and improving the cleaning capability of the cleaning device.

Specifically, the recycling assembly 320 includes a recycling box 321, the recycling box 321 can communicate with the dehumidifying assembly 310 to contain the moisture extracted by the dehumidifying assembly 310, the moisture extracted by the dehumidifying assembly 310 is prevented from being discharged into the air again to increase the humidity of the air, the moisture is condensed on the ground again to generate moisture on the ground, and the recycling box 321 is utilized to contain the extracted moisture, so as to facilitate the thorough recycling of the moisture on the ground, and solve the problem of large humidity of the indoor air and the ground.

Meanwhile, the recycling assembly 320 further includes a switch module 322, the switch module 322 is disposed between the dehumidifying assembly 310 and the recycling box 321, and the switch module 322 enables the dehumidifying assembly 310 to be communicated with or closed off from the recycling assembly 320. The switch module 322 can connect the dehumidifying assembly 310 with the recycling box 321 only when the cleaning device is in the dehumidifying mode, so as to achieve the purpose of recycling the moisture. When the cleaning device is not in the dehumidification operation mode, the switch module 322 is closed to cut off the communication between the dehumidification assembly 310 and the recovery box 321, so as to prevent the moisture in the recovery box 321 from volatilizing to increase the air humidity, and prevent the moisture in the recovery box 321 from spilling out during the operation of the cleaning device.

Further, as shown in fig. 2, the switch module 322 includes a door 3221 and a door driving member 3222, the door 3221 is disposed corresponding to the first water inlet 32111 formed on the recovery box 321, and the door 3221 can open or close the first water inlet 32111. Door body drive 3222 is provided on main body 100 and connected to door body 3221, and door body drive 3222 can drive door body 3221 to open. The door body 3221 is driven to be automatically opened and closed through the door body driving part 3222, so that the intelligent working capacity of the cleaning device is improved.

Specifically, door 3221 includes a first door 32211 and a second door 32212 disposed opposite to each other. The first door 32211 and the second door 32212 have rectangular plate-shaped structures, and the first door 32211 and the second door 32212 can slide along the longitudinal direction to approach each other to close the door 3221, thereby cutting off the communication between the dehumidifying assembly 310 and the recovery box 321. The first door 32211 and the second door 32212 are slidable in a longitudinal direction away from each other to open the door 3221, so that the dehumidifying assembly 310 communicates with the recovery box 321. The cleaning device is simple in structure and convenient to realize, and the relative sliding structure is favorable for saving space, so that the overall structure of the cleaning device is simplified.

Alternatively, the cleaning device includes a control system that is electrically connected to the dehumidifying mechanism 300. The door body driving part 3222 includes a first fixed magnet 32221 and a first moving magnet 32222. It can be understood that door body driving parts 3222 are distributed at opposite ends of the first door body 32211 and the second door body 32212, so that the door body driving parts 3222 can drive the first door body 32211 and the second door body 32212 to approach or separate from each other, so as to achieve the purpose of closing or opening the door bodies 3221. The structure of the door body driving member 3222 at one side (the first door body 32211) will be described as an example. The first fixed magnet 32221 is disposed on the main body 100, the first moving magnet 32222 is connected to the first door body 32211, and after the first fixed magnet 32221 is powered on, the first moving magnet 32222 and the first fixed magnet 32221 attract each other, so that the first moving magnet 32222 can approach to the first fixed magnet 32221 to drive the first door body 32211 to move away from the second door body 32212, thereby opening the door body 3221. It can be understood that when the first fixed magnet 32221 is powered off, the first fixed magnet 32221 loses magnetism, and the first door body 32211 can move towards the direction close to the second door body 32212, so as to close the door body 3221. The structure can realize the opening and closing of the door body 3221 only by the mutual attraction or repulsion of the first fixed magnet 32221 and the first moving magnet 32222, and has simple structure and convenient space saving.

Alternatively, the door body 3221 may only include the first door body 32211, which covers the first water inlet 32111 and is slidable in the longitudinal direction to open or close the first water inlet 32111, and a door body driving member 3222 is disposed at one side of the first door body 32211, and the structure of the door body driving member 3222 is the same as the structure of the door body driving member 3222 at one side (the first door body 32211) as described above.

Further, as shown in fig. 2, in order to enable the door body 3221 to be closed more quickly and stably in the power-off state of the first fixed magnet 32221, the switch module 322 further includes a reset member 3223 disposed on the door body driving member 3222, and the reset member 3223 can drive the door body 3221 to be closed. The resetting piece 3223 extends along the moving direction of the door body 3221 and is connected to the first moving magnet 32222, the resetting piece 3223 can drive the first moving magnet 32222 to reset, and when the first fixed magnet 32222 is not electrified, the resetting piece 3223 drives the first moving magnet 32222 to move away from the first fixed magnet 32221, so that the door body 3221 is closed. When the first fixed magnet 32221 is powered off, under the driving of the reset element 3223, the first door body 32211 and the second door body 32212 can be close to each other to close the door body 3221, which is beneficial to faster and more stable closing of the door body 3221 in the powered-off state of the first fixed magnet 32221, so that the sealing performance of the door body 3221 in the automatic closing state is prevented from being poor, and the moisture in the recovery box 321 is prevented from leaking. Illustratively, as shown in fig. 2, the restoring member 3223 is preferably a tension spring, the restoring of the first door body 32211 and the second door body 32212 to the closed state is realized by an elastic tension action of the spring, and the spring is a conventional component and is low in cost.

Further, two reset members 3223 are disposed, and the two reset members 3223 are disposed in parallel and at intervals on two sides of the door body 3221, so as to ensure that the stress on two sides of the first door body 32211 and the second door body 32212 is uniform, so that the first door body 32211 and the second door body 32212 move stably, and the occurrence of phenomena such as jamming is avoided.

As an option, the recycling assembly 320 further includes a flow guide opening 3224 disposed between the first water inlet 32111 of the recycling box 321 and the dehumidifying assembly 310, and the moisture collected by the dehumidifying assembly 310 flows to the first water inlet 32111 through the flow guide opening 3224 to enter the recycling box 321. Meanwhile, the flow guide opening 3224 can prevent moisture recovered from the dehumidifying assembly 310 from flowing into the main body 100, so as to prevent dangers such as short circuit of other structures disposed in the main body 100, which is beneficial to improving the safety performance of the cleaning device.

Specifically, the lower end of the diversion port 3224 is disposed on the main body 100 and is composed of four side walls 32241 connected end to end, and the side walls 32241 can form a tight diversion channel between the dehumidifying assembly 310 and the recovery box 321, thereby further improving the recovery rate of the moisture. Meanwhile, a guide hole is formed in the side wall 32241 of the flow guide opening 3224, and the door body 3221 passes through the guide hole, so that the first door body 32211 and the second door body 32212 slide in the guide hole, and a guide effect is provided for the movement of the first door body 32211 and the second door body 32212, so as to improve the working stability of the switch module 322.

As shown in fig. 1, the dehumidifying assembly 310 includes an evaporating member 311 and a cooling member 312, the evaporating member 311 is communicated with the outlet end of the dust suction assembly 200, and the evaporating member 311 can heat the moisture extracted from the air exhausted from the dust suction assembly 200 to evaporate the moisture; the refrigeration piece 312 is connected with the evaporation piece 311, and the refrigeration piece 312 can cool the evaporated moisture to make the moisture condensate into water and discharge to the recovery assembly 320, thereby the realization will be from the steam that the dust absorption assembly 200 extracted and come under the effect of refrigeration piece 312 condensate into water, and retrieve through the recovery assembly 320, in order to reach the purpose of getting rid of ground moisture. Illustratively, the evaporator 311 is preferably a vaporizer, which is a conventional component and is readily available for purchase. Meanwhile, the evaporator has a flow guide channel, which is disposed along the vertical direction in this embodiment, so that the water vapor can flow downward along the flow guide channel after being condensed and be recycled to the recycling assembly 320. Meanwhile, the cooling member 312 is preferably a semiconductor cooling plate, which is divided into a cooling surface and a heating surface, wherein the cooling surface is attached to the back surface of the evaporator, so that the cooling surface provides low temperature for the evaporator to ensure that the water vapor is condensed into water in a low temperature state and flows downward for recycling.

Since the heating surface of the semiconductor cooling plate generates a large amount of heat, the operation performance of the dehumidifying module 310 is affected when the temperature is too high. In order to solve the above problem, the dehumidifying assembly 310 further includes a cooling member 313 connected to the cooling member 312, and the cooling member 313 can cool the cooling member 312. Thereby avoid taking out wet subassembly 310 high temperature and lead to the condensation effect to descend, and avoid high temperature to lead to taking place danger, improve the security and the work efficiency of taking out wet subassembly 310.

Specifically, cooling member 313 includes a cooling portion 3131 and a cooling driving portion 3132, in which cooling portion 3131 is disposed between cooling member 312 and cooling driving portion 3132, and cooling driving portion 3132 can power cooling portion 3131 such that cooling portion 3131 can take away the high temperature of cooling member 312. Illustratively, the cooling driving portion 3132 is preferably a heat dissipating fan, the cooling portion 3131 is preferably a heat dissipating device, the heat dissipating device and the heat dissipating fan are fixedly connected by a fixing frame, the heat dissipating device is close to the cooling surface of the semiconductor cooling plate, when the semiconductor cooling plate is powered on to start working, the dehumidifying assembly 310 starts working, the heat dissipating fan rotates to help the heat dissipating fins of the heat dissipating device dissipate heat, and the temperature is prevented from being too high, and the heat dissipating fan and the heat dissipating device are conventional components and convenient to purchase.

It can be understood that, in order to prevent the impurities from being recovered into the recovery assembly 320, as shown in fig. 1-2, the dust collection assembly 200 further includes a filter 230, the filter 230 is disposed in the dust box 210, the dust collected from the floor by the dust collection assembly 200 is filtered by the filter 230, the dust remains in the dust box 210, the air is exhausted by the fan and then enters the dehumidifying assembly 310, so that the dirt in the moisture is filtered by the filter 230, and the relatively clean moisture can pass through the filter 230 in the form of water vapor and enter the dehumidifying assembly 310. This configuration is advantageous for preventing the dirt from adhering to the evaporation element 311, for improving the service life of the dehumidifying assembly 310, and for ensuring the dehumidifying efficiency of the dehumidifying assembly 310.

Further, as shown in fig. 2 to 3, the recovery box 321 includes a recovery box body 3211 and a drainage structure 3212, the drainage structure 3212 is disposed on the recovery box body 3211, and can discharge the moisture in the recovery box body 3211 to the cleaning element 400 for wiping the floor, thereby realizing the recycling of the recovered moisture and being beneficial to the effect of saving water. Meanwhile, the water in the recovery box body 3211 is guided to the cleaning piece 400 to be recycled, so that the frequency of adding water to the floor and pouring out the water in the recovery box 321 is effectively reduced, the use convenience of a user is improved, and the satisfaction degree of the user on the cleaning device is improved.

Specifically, as shown in fig. 3 to 4, the drainage structure 3212 includes a second water inlet 32121 and a second water outlet 32122. A flow passage for water is provided in the recovery box body 3211, a second water inlet 32121 is provided on a side wall 32241 of the flow passage, and a second water outlet 32122 is provided on the bottom of the recovery box body 3211. Moisture in the recovery box body 3211 can flow in from the second water inlet 32121 and flow out through the second water outlet 32122, and moisture flowing out from the second water outlet 32122 can flow onto the cleaning member 400, so as to ensure that the cleaning member 400 has certain moisture to wipe the floor. Further, two second water inlets 32121 are provided, and two second water inlets 32121 are provided on different side walls of the flow passage, so that moisture can flow in from different directions, and the water flow rate is increased, thereby ensuring that sufficient moisture is provided on the cleaning member 400 for mopping. More preferably, the drainage structures 3212 are provided in two sets, and the two sets of drainage structures 3212 are spaced apart from each other on the recovery box body 3211 to drain water to different positions of the cleaning element 400, so that the cleaning element 400 is in a wet state as much as possible, and the ability of cleaning the floor is improved.

As shown in fig. 3 to 4, in order to prevent the moisture from being discharged from the recovery box body 3211 when the cleaning device is not in the cleaning operation mode, the recovery box 321 further includes a water outlet switch 3213 capable of controlling whether the moisture can flow out from the water discharge structure or not. Specifically, the water outlet switch 3213 includes a silicone rubber pad 32131, a second fixed magnet, and a second moving magnet 32132. Wherein, the silicon rubber pad 32131 is opened with an opening communicated with the second water inlet 32121 and the second water outlet 32122, the second fixed magnet is disposed on the main body 100, the second moving magnet 32132 is disposed on the recovery box body 3211, the second moving magnet 32132 is disposed at an interval and corresponding to the second fixed magnet, when the second fixed magnet is energized, the second moving magnet 32132 and the second fixed magnet repel each other, the second moving magnet 32132 is at the first position and can cover and press the silicon rubber pad 32131, so that the silicon rubber pad 32131 compresses and deforms and blocks the second water inlet 32121 and the second water outlet 32122, so as to avoid the outflow of water, when the second fixed magnet is in the de-energized state, the magnetic force between the second moving magnet 32132 and the second fixed magnet disappears, the silicon rubber pad 32131 jacks up the second moving magnet 32, so that the second moving magnet 32 is at the second position close to the second fixed magnet and far from the silicon rubber pad 32131, to allow moisture to escape through the drain 3212. Meanwhile, the water outlet switch 3213 is electrically connected to the control system, so that a user can control the power-on state of the second stationary magnet through the control system. This structure is favorable to ensureing cleaning device's intelligent work degree, and the user operation of being convenient for, provides convenience for the user uses. Wherein, silica gel pad 32131 belongs to conventional material, and is with low costs, and silica gel pad 32131 has stable performance, even in the environment that has water, still can keep better sealing performance, effectively avoids moisture to discharge under non-clean mode, avoids cleaning device to leak scheduling problem, is favorable to improving cleaning device's security.

Further, retrieve the box 321 and still including setting up the fixed column 3214 on retrieving box body 3211, fixed column 3214 can make and retrieve box body 3211 and set up in the main part 100 outsidely to can dismantle with main part 100 and be connected, so that the user moisturizing or pour out unnecessary moisture, facilitate for user's operation.

The specific working process of this embodiment is as follows:

the cleaning device provided by the embodiment has two states of a cleaning working mode and a dehumidifying working mode.

When a user selects a dehumidification working mode through the control system, the dust collection driving member 220 sucks in dirt and moisture through the dust collection port 212, air coming out of the dust box 210 is blown to the evaporation member 311 by the dust collection driving member 220, water vapor is firstly filtered by the filter member 230 positioned at the air outlet 211, the filtered water vapor flows to the evaporation member 311, the temperature of one side, close to the refrigeration member 312, of the evaporation member 311 is sharply reduced by the refrigeration member 312, the temperature of the water vapor adsorbed on the evaporation member 311 is reduced along with the temperature, small water drops at a condensation position begin to condense, and the small water drops flow downwards along a flow guide channel of the evaporation member 311 and enter the flow guide port 3224.

At this time, the first fixed magnet 32221 is energized to attract the first moving magnet 32222 and the first fixed magnet 32221 to each other, the first door 32211 and the second door 32212 are separated from each other to open the door 3221, so that the dehumidifying unit 310 is communicated with the recovery box 321, and the condensed water droplets flow into the recovery box 321 to be recovered.

After the dehumidification operation is finished, the first fixed magnet 32221 is powered off, and under the action of the reset member 3223, the first door body 32211 and the second door body 32212 approach each other and close the door body 3221, so that the communication between the dehumidification assembly 310 and the recovery box 321 is cut off.

In the non-cleaning mode, the second fixed magnet and the second moving magnet 32132 repel each other, and the pressure of the second moving magnet 32132 on the silicone pad 32131 closes the second water inlet 32121 and the second water outlet 32122.

When the user selects the cleaning mode of operation via the control system, the suction assembly 200 is operated and the suction driving member 220 sucks in dirt, etc. through the suction opening 212. Meanwhile, when the second fixed magnet is not electrified, the second moving magnet 32132 is located at a second position close to the second fixed magnet, the pressure of the second moving magnet 32132 on the silica gel pad 32131 is released, moisture in the recovery box body 3211 can flow to the second water outlet 32122 through the second water inlet 32121 and then flow out of the cleaning piece 400, and the cleaning piece 400 can wipe the ground along with the movement of the cleaning device.

It is noted that the foregoing shows and describes the general principles and features of the present invention, together with the advantages thereof. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are merely illustrative of the principles of the present invention, but that various changes and modifications may be made without departing from the spirit and scope of the invention, which is defined by the appended claims and their equivalents.

Claims (11)

1. A cleaning device, comprising:

a main body (100);

a dust suction assembly (200) provided on the main body (100), the dust suction assembly (200) being capable of sucking dust through a flow of air; and

a dehumidifying mechanism (300) comprising:

a dehumidifying assembly (310), the dehumidifying assembly (310) being in communication with the dust collecting assembly (200), the dehumidifying assembly (310) being configured to extract moisture from an airflow discharged from the dust collecting assembly (200); and

a recovery assembly (320), the recovery assembly (320) coupled to the dehumidifying assembly (310), the recovery assembly (320) configured to recover the moisture extracted by the dehumidifying assembly (310).

2. The cleaning device of claim 1, wherein the recovery assembly (320) comprises:

a recovery box (321) communicable with the dehumidifying assembly (310) to contain the moisture extracted by the dehumidifying assembly (310); and

a switch module (322) disposed between the dehumidifying assembly (310) and the recovery box (321), the switch module (322) enabling the dehumidifying assembly (310) to communicate with or be closed off from the recovery assembly (320).

3. The cleaning device according to claim 2, wherein the recovery box (321) is provided with a first water inlet (32111), and the switch module (322) comprises:

a door body (3221) provided in correspondence to the first water inlet (32111), the door body (3221) being capable of opening or closing the first water inlet (32111); and

the door body driving part (3222) is arranged on the main body (100), the door body driving part (3222) is connected with the door body (3221), and the door body driving part (3222) can drive the door body (3221) to be opened.

4. The cleaning apparatus according to claim 3, wherein the door driving member (3222) includes:

a first fixed magnet (32221) provided on the main body (100); and

and the first moving magnet (32222) is connected with the door body (3221), and after the first fixed magnet (32221) is electrified, the first moving magnet (32222) can approach the first fixed magnet (32221) to drive the door body (3221) to open.

5. The cleaning device of claim 4, wherein the switch module (322) further comprises:

the resetting piece (3223) extends along the movement direction of the door body (3221) and is connected with the first moving magnet (32222), the resetting piece (3223) is configured to drive the first moving magnet (32222) to reset, and when the first fixed magnet (32221) is not electrified, the resetting piece (3223) drives the first moving magnet (32222) to be far away from the first fixed magnet (32221) so that the door body (3221) is closed.

6. The cleaning device of claim 3, wherein the recovery assembly (320) further comprises:

a flow guide opening (3224) disposed between the first water inlet (32111) of the recovery box (321) and the dehumidifying assembly (310), wherein the moisture collected by the dehumidifying assembly (310) flows to the first water inlet (32111) through the flow guide opening (3224) to enter the recovery box (321).

7. The cleaning device as claimed in any one of claims 2 to 6, wherein the dehumidifying assembly (310) comprises:

an evaporation member (311) in communication with an outlet end of the dust collection assembly (200), the evaporation member (311) being capable of heating the moisture extracted from the airflow exhausted from the dust collection assembly (200) to evaporate the moisture; and

a cooling member (312) connected to the evaporation member (311), the cooling member (312) being configured to cool the evaporated moisture so that the moisture is condensed into water and discharged into the recovery assembly (320).

8. The cleaning device of claim 7, wherein the dehumidifying assembly (310) further comprises:

the cooling piece (313) is connected with the refrigerating piece (312), and the cooling piece (313) can cool the refrigerating piece (312).

9. The cleaning device according to any one of claims 2 to 6, wherein the recovery tank (321) includes: a recovery box body (3211) and a drainage structure (3212); the drainage structure (3212) includes:

a second water inlet (32121) provided in the collection box body (3211) and configured to allow the moisture in the collection box body (3211) to flow into the drainage structure (3212) from the second water inlet (32121); and

and the second water outlet (32122) is formed in the bottom of the recovery box body (3211), and the moisture in the drainage structural member (3212) can flow out of the second water outlet (32122).

10. The cleaning device according to claim 9, wherein the recovery tank (321) further comprises:

a water outlet switch (3213), the water outlet switch (3213) comprising:

the silica gel pad (32131), the silica gel pad (32131) is provided with an opening communicated with the second water inlet (32121) and the second water outlet (32122);

a second stationary magnet disposed on the main body (100); and

the second moving magnet (32132) is arranged on the recovery box body (3211), the second moving magnet (32132) and the second fixed magnet are spaced and arranged correspondingly, when the second fixed magnet is powered on, the second moving magnet (32132) and the second fixed magnet repel each other, the second moving magnet (32132) is located at the first position and can cover and press the silica gel pad (32131) to prevent the water from flowing out, and when the second fixed magnet is not powered on, the second moving magnet (32132) is located at the second position close to the second fixed magnet and is far away from the silica gel pad (32131) to enable the water to flow out through the drainage structural member (3212).

11. The cleaning device of claim 2, further comprising:

and a cleaning member (400) provided on the recovery box (321), the moisture being able to flow out from the recovery box (321) onto the cleaning member (400) to clean the floor.

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