CN217827733U - Cleaning equipment and recycling bin and filtering device applied to same - Google Patents

Abstract

The application discloses cleaning equipment and recycling bin, filter equipment of using thereof. Dirty and the dirty mixture of solid of liquid gets into the filter chamber from the release bottom, and the dirty outside of filtering to the filter chamber of liquid is filtered to the subassembly, and solid is dirty to be left in the filter chamber, and this application realizes the dirty separation of liquid and solid promptly, can the clean recycling bin of convenience of customers. And, move along with blowdown subassembly orientation release bottom, the blowdown subassembly drives through the linkage subassembly and releases the drain that the bottom cancelled and cover filtering component, and the blowdown subassembly drives the solid dirty discharge through the drain in the filter chamber simultaneously. In other words, when this application blowdown subassembly clearance filter chamber in solid is dirty, still order about release bottom in step and cancel and cover the drain for the dirty direct drain that passes through of solid that the blowdown subassembly clearance got off is discharged, and the dirty clearance of solid and discharge in the one-step realization filter chamber, the clean recycling bin of the local user of facilitating the use of very big degree.

Description

Cleaning equipment and recycling bin and filtering device applied to same

Technical Field

The application relates to the technical field of cleaning equipment, in particular to cleaning equipment and a recycling bin and a filtering device applied to the cleaning equipment.

Background

The washing machine and the floor washing machine having the cleaning function of washing the floor, mopping the floor and the like can replace a user to carry out cleaning work of cleaning the floor and the like, bring convenience to the user, and are widely applied. Currently, the devices for the recovery and storage of liquid dirt (mainly the recovery tank) in most household washing machines and floor washing machines on the market have the following drawbacks: (1) The liquid dirt and the solid dirt recovered in the recovery barrel can be mixed together, and the liquid dirt and the solid dirt are not convenient to pour into the garbage can directly; (2) Part of solid dirt can be adhered to the recycling bin, and the recycling bin needs to be additionally cleaned; (3) The inner wall of the recycling bin is stained and blackened due to the adhesion of solid stains, and the appearance of the product is influenced. Due to the factors, the cleaning process of the recycling bin is complicated, the user is not convenient to clean, and the use experience of the user is greatly influenced.

SUMMERY OF THE UTILITY MODEL

The application provides a cleaning equipment and recycling bin, filter equipment of using thereof can realize the dirty separation of liquid and solid to can clean the recycling bin by convenience of customers.

The application provides a be applied to cleaning device's recycling bin. This recycling bin includes: the interior of the barrel body assembly is provided with a sewage storage cavity; the filtering component is arranged in the sewage storage cavity and is provided with a filtering cavity and a sewage discharge port communicated with the filtering cavity; a release bottom cover for selectively covering the drain outlet; the liquid dirt is filtered to the outside of the filter cavity through the filter assembly and received by the dirt storage cavity, and the solid dirt is reserved in the filter cavity; the sewage discharge assembly is movably arranged in the filter cavity; the blowdown assembly is in transmission fit with the release bottom cover through the linkage assembly; the bottom cover is driven to release by the blowdown assembly through the linkage assembly, the blowdown assembly cancels covering of the blowdown port, and solid dirt in the filter cavity is driven by the blowdown assembly to be discharged through the blowdown port.

In one embodiment of the present application, the linkage assembly includes an enabling member and a connecting mechanism; the enabling piece is arranged on the sewage discharging assembly, and the filtering assembly and the releasing bottom cover are detachably connected through a connecting mechanism; wherein, moving towards the release bottom cover along with the sewage discharging component, the enabling piece drives the connecting mechanism to allow the release bottom cover to be far away from the sewage draining exit, so that the release bottom cover is not covered on the sewage draining exit.

In an embodiment of the application, the enabling member comprises a push rod; the connecting mechanism comprises a buckling piece and a buckling position piece; the buckle piece is arranged on the release bottom cover, the buckling piece is arranged on the filter assembly, and the buckle piece can be selectively buckled on the buckling piece; wherein, moving towards the release bottom cover along with the blowdown subassembly, the ejector pin can support the buckle spare for the buckle spare breaks away from the knot position spare, keeps away from the drain with the permission release bottom.

In an embodiment of the present application, the fastening member includes a connecting portion, a fastening portion, and an abutting portion; the connecting part is connected with the release bottom cover and is connected with the abutting part through the hasp part, the abutting part is close to the middle position of the release bottom cover relative to the connecting part, the hasp part is used for being selectively buckled on the buckling part, and the ejector rod is used for abutting against the abutting part; wherein, in response to the ejector pin exerting the top force that pushes up of butt portion, connecting portion are towards middle part position bending deformation, and butt portion moves towards the release bottom lid, makes hasp portion break away from detaining the position piece.

In an embodiment of the application, the release bottom cover is further rotatably connected with the filter assembly through a rotating shaft; wherein, after the buckle spare breaks away from the position spare of detaining, release the bottom and can keep away from the drain and rotate.

In an embodiment of the present application, a waste assembly includes: the moving piece is movably arranged in the filter cavity; and the dirt scraping part is arranged on the moving part and close to the side wall of the filter cavity so as to peel off solid dirt on the side wall of the filter cavity in the process of moving along with the moving part and discharge the solid dirt through a sewage discharge outlet.

In one embodiment of the present application, the dirt scraping member is an elastomer.

In an embodiment of the application, the scraping member is arranged at an end of the moving member facing the release bottom cover.

In an embodiment of the present application, the recycling bin further comprises: the elastic piece is connected with the moving piece and used for driving the moving piece to move towards the direction far away from the bottom cover.

In one embodiment of the present application, the filter assembly is removably disposed in the dirt storage chamber.

In an embodiment of the present application, the tub assembly includes: a tub main body; the barrel cover body is detachably covered on the barrel main body and matched with the barrel main body to form a sewage storage cavity; the recycling bin further comprises: a handle connected with the filtering component; wherein, the bung body passes through handle restriction filter component and removes towards the bung body.

In an embodiment of the present application, the soil exhaust assembly is provided with a first guide; the recycling bin further comprises: a handle connected with the filtering component and provided with a second guiding piece; wherein at least one of the first guide and the second guide extends toward the release bottom cover such that the first guide and the second guide cooperate to guide the soil exhaust assembly to move toward the release bottom cover.

In an embodiment of the present application, the tub assembly includes: a tub main body; the barrel cover body is detachably covered on the barrel main body and matched with the barrel main body to form a sewage storage cavity; wherein, the filtering component is fixedly connected with the barrel cover body.

In an embodiment of the present application, the recycling bin further comprises: the guide post, movably wears to locate the bucket lid body and is connected to the blowdown subassembly, the user is through controlling the guide post to order about the blowdown subassembly and remove towards release bottom.

In an embodiment of the present application, the recycling bin further comprises: the button is arranged at the end part of the guide post far away from the pollution discharge assembly, and a user controls the guide post through the button; the elastic piece is clamped between the button and the barrel cover body and is used for driving the pollution discharge assembly to move towards the barrel cover body.

In one embodiment of the present application, a filter assembly comprises: the frame is enclosed to form a filter cavity and a sewage draining outlet; the filter screen is located the frame and encloses the periphery of locating the filter chamber.

In an embodiment of the present application, the recycling bin further comprises: the air inlet pipe is arranged in the sewage storage cavity; the release bottom cap includes: a bottom cover main body; the sewage inlet cylinder is convexly arranged on one side of the bottom cover main body facing the sewage discharging assembly, and the end part of the sewage inlet cylinder body far away from the bottom cover main body is provided with a sewage inlet and a lap joint part surrounding the periphery of the sewage inlet; wherein, advance dirty barrel and pass through overlap joint portion overlap joint in the intake pipe, the dirty mixture that liquid dirt and solid are retrieved to the intake pipe loops through and advances dirty barrel and the dirty mouth of dirty entering filter chamber.

In one embodiment of the present application, the filter assembly is located above the release bottom cap. Wherein, the dirty mixture of liquid and solid gets into the filter chamber through releasing the bottom from bottom to top, and filters to the dirty bottom of gathering in storing up dirty chamber under the action of self gravity at least of the outside liquid of filter chamber.

Correspondingly, the application also provides a filtering device. The filtering device comprises: the filtering component is provided with a filtering cavity and a sewage draining outlet communicated with the filtering cavity; a release bottom cover for selectively covering the drain outlet; wherein the mixture of the liquid dirt and the solid dirt enters the filter cavity from the release bottom cover, liquid dirt is filtered to the outside of the filter cavity through the filter assembly, and solid dirt is remained in the filter cavity; the sewage discharge assembly is movably arranged in the filter cavity; the blowdown assembly is in transmission fit with the release bottom cover through the linkage assembly; the bottom cover is driven to release by the blowdown assembly through the linkage assembly, the blowdown assembly cancels covering of the blowdown port, and solid dirt in the filter cavity is driven by the blowdown assembly to be discharged through the blowdown port.

Correspondingly, the application also provides a cleaning device. The cleaning device includes: the cleaning assembly is used for cleaning a surface to be cleaned; the recycling tank is used for storing liquid dirt and solid dirt recycled by the cleaning component; the recycling bin includes: the interior of the barrel body assembly is provided with a sewage storage cavity; the filtering component is arranged in the sewage storage cavity and is provided with a filtering cavity and a sewage discharge port communicated with the filtering cavity; a release bottom cover for selectively covering the drain outlet; the liquid dirt is filtered to the outside of the filter cavity through the filter assembly and received by the dirt storage cavity, and the solid dirt is reserved in the filter cavity; the sewage discharge assembly is movably arranged in the filter cavity; the blowdown assembly is in transmission fit with the release bottom cover through the linkage assembly; wherein, remove along with blowdown subassembly orientation release bottom, the blowdown subassembly orders about through the linkage subassembly that release bottom cancels and covers the drain, and the blowdown subassembly orders about the solid dirty discharge through the drain in the filter chamber simultaneously.

The beneficial effect of this application is: be different from prior art, this application provides a cleaning device and recycling bin, filter equipment of using thereof. This recycling bin includes filtering component and detachably sets up in filtering component's release bottom. Dirty and the dirty mixture of solid of liquid gets into the filter chamber from the release bottom, and the dirty outside of filtering to the filter chamber of liquid is filtered to the subassembly, and solid is dirty to be left in the filter chamber, and this application realizes the dirty separation of liquid and solid promptly, can the clean recycling bin of convenience of customers.

And, this recycling bin still includes blowdown subassembly. And the blowdown assembly drives the release bottom cover to cover a blowdown port of the filtering assembly through the linkage assembly along with the movement of the blowdown assembly towards the release bottom cover, and simultaneously drives solid dirt in the filtering cavity to be discharged through the blowdown port. In other words, when this application blowdown subassembly clearance filter chamber in solid is dirty, still order about release bottom in step and cancel and cover the drain for the dirty direct drain that passes through of solid that the blowdown subassembly clearance got off is discharged, and the dirty clearance of solid and discharge in the one-step realization filter chamber, the clean recycling bin of the local user of facilitating the use of very big degree.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present application, the drawings needed to be used in the description of the embodiments are briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present application, and it is obvious for those skilled in the art to obtain other drawings based on these drawings without creative efforts.

FIG. 1 is a schematic view of an embodiment of a recycling bin of the present application;

FIG. 2 is a schematic cross-sectional view of an embodiment of the filter apparatus of the present application;

FIG. 3 is a schematic illustration of an explosive structure of an embodiment of the filtering apparatus of the present application;

FIG. 4 is a schematic view of the filter apparatus of FIG. 2 in another state;

FIG. 5 is a schematic view of the area A of the filter device shown in FIG. 2;

FIG. 6 is a schematic view of the area B of the filter device of FIG. 2;

FIG. 7 is a schematic cross-sectional view of another embodiment of a filtration apparatus of the present application;

FIG. 8 is a schematic structural view of another embodiment of the recycling bin of the present application;

FIG. 9 is a schematic view of the recycling bin of FIG. 8 with the main body of the bin removed;

FIG. 10 is a schematic view of the construction of the area C of the recycling bin shown in FIG. 9;

FIG. 11 is a schematic view of the recycling bin of FIG. 9 in another configuration;

FIG. 12 is a schematic view of an embodiment of the cleaning apparatus of the present application.

Description of reference numerals:

10 cleaning equipment, 20 cleaning components, 30 recycling barrels, 31 elastic pieces, 32 handles, 33 second guide pieces, 34 guide posts, 35 buttons, 36 air inlet pipes, 40 barrel components, 41 dirt storage cavities, 42 barrel bodies, 43 barrel cover bodies, 50 filtering components, 51 filtering cavities, 52 dirt discharging openings, 53 frames, 54 filtering nets, 60 release bottom covers, 61 dirt inlet openings, 62 bottom cover bodies, 63 dirt inlet barrel bodies, 64 rotating shafts, 65 lap joint parts, 70 dirt discharging components, moving pieces, 72 dirt scraping pieces, 73 first guide pieces, 80 linkage components, 81 ejector rods, 82 buckling pieces, 821 connecting parts, 822 lap joint parts, 823 butt joint parts and 83 buckling pieces.

Detailed Description

The technical solutions in the embodiments of the present application will be described clearly and completely with reference to the drawings in the embodiments of the present application, and it is obvious that the described embodiments are only some embodiments of the present application, and not all embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present application. Furthermore, it should be understood that the detailed description and specific examples, while indicating preferred embodiments of the present application, are given by way of illustration and explanation only, and are not intended to limit the present application. In the present application, unless otherwise specified, the use of directional terms such as "upper", "lower", "left" and "right" generally refer to upper, lower, left and right in the actual use or operation of the device, and specifically to the orientation of the drawing figures.

The application provides a cleaning equipment and recycling bin, filter equipment of using thereof, detailed description is respectively given below. It should be noted that the following description of the embodiments is not intended to limit the preferred order of the embodiments in this application. In the following embodiments, the descriptions of the respective embodiments have respective emphasis, and reference may be made to related descriptions of other embodiments for parts that are not described in detail in a certain embodiment.

In the prior art, devices for the recovery and storage of liquid soiled in washing machines and floor washers (mainly the recovery tank) have the following drawbacks:

(1) Liquid dirt and solid dirt recovered from the recovery barrel can be mixed together, and the liquid dirt and the solid dirt are usually inconvenient to pour into the garbage barrel directly;

(2) Part of solid dirt can be adhered to the recycling bin, and the recycling bin needs to be additionally cleaned;

(3) The inner wall of the recycling bin is dirty and blackened due to the adhesion of solid dirt, and the appearance of the product is influenced.

Because above-mentioned several factors, the user often needs extra clearance recycling bin, for example washes the recycling bin with the water, contacts the recycling bin with bare-handed even and clears up the work, leads to the clean process of recycling bin complicated, and the user of being inconvenient in carries out cleaning work, has greatly influenced user's use experience degree.

In view of this, embodiments of the present application provide a cleaning device and a recycling bin and a filtering apparatus applied thereto, which can solve the technical problem that the recycling bin is inconvenient for a user to clean in the prior art, and are respectively described in detail below.

Referring to fig. 1 to 3, fig. 1 is a schematic structural diagram of an embodiment of a recycling bin of the present application, fig. 2 is a schematic sectional structural diagram of an embodiment of a filtering apparatus of the present application, and fig. 3 is a schematic exploded structural diagram of an embodiment of a filtering apparatus of the present application.

In one embodiment, the recycling bin 30 is applied to a cleaning apparatus. The cleaning device may be a washing machine, a floor washing machine with a cleaning function of washing, mopping or the like. The cleaning device has a floor brush for cleaning the surface to be cleaned, and the cleaning device recovers liquid dirt and solid dirt on the surface to be cleaned through the floor brush, and the liquid dirt and the solid dirt recovered by the cleaning device are stored in the recovery tank 30 for the user to intensively clean the liquid dirt and the solid dirt. The surface to be cleaned can be the ground, or the surface to be cleaned of an object, etc.

The recovery tank 30 includes a tank body assembly 40. The barrel assembly 40 is used for connecting a cleaning device, and liquid dirt and solid dirt recovered by the cleaning device are stored in the barrel assembly 40. Specifically, a dirt storage cavity 41 is formed inside the barrel assembly 40, and the dirt storage cavity 41 is at least used for storing liquid dirt recovered by the cleaning device.

Recycling bin 30 also includes a filter assembly 50. A filter assembly 50 is disposed in the dirt storage chamber 41, and the filter assembly 50 is used for separating liquid dirt and solid dirt recovered by the cleaning device. Specifically, the filter assembly 50 is provided with a filter chamber 51 and a sewage draining outlet 52 communicated with the filter chamber 51. The mixture of liquid and solid contaminants is separated in filter chamber 51, i.e., liquid contaminants are filtered outside filter chamber 51 by filter assembly 50 and received by reservoir chamber 41, while solid contaminants remain in filter chamber 51. Solid contaminants remaining in the filter chamber 51 are discharged through the drain outlet 52.

Optionally, the filter assembly 50 includes a frame 53 and a filter screen 54. The frame 53 encloses and forms a filter chamber 51 and a sewage draining exit 52, the filter screen 54 is arranged on the frame 53 and encloses the periphery of the filter chamber 51, and the filter screen 54 is used for separating liquid dirt and solid dirt. The filter 54 may be made of metal, nylon, or the like, and the filter 54 is fixed to the frame 53 by injection molding, adhesion, or the like. Of course, in other embodiments of the present application, the Filter assembly 50 may also be a HEPA (High efficiency air Filter) assembly, a Filter cotton assembly, a Filter tube assembly, and the like, which are not limited herein.

The recycling bin 30 further includes a release bottom cover 60, the release bottom cover 60 for selectively covering the waste outlet 52. When the release bottom cap 60 covers the soil discharge opening 52, the release bottom cap 60 can restrict the solid soil in the filter chamber 51 from being discharged through the soil discharge opening 52, and when the release bottom cap 60 is removed from covering the soil discharge opening 52, the solid soil in the filter chamber 51 is allowed to be discharged through the soil discharge opening 52. Wherein a mixture of liquid and solid contaminants enters the filter chamber 51 from the release bottom cap 60.

Further, the release bottom cover 60 has a dirt inlet 61, the dirt inlet 61 communicates with the filter chamber 51, and the mixture of the liquid dirt and the solid dirt enters the filter chamber 51 from the dirt inlet 61.

Recycling bin 30 also includes a blowdown assembly 70, blowdown assembly 70 being for cleaning filter chamber 51 of solid soil. Specifically, the waste assembly 70 is movably disposed in the filter cavity 51, and the waste assembly 70 drives the solid waste in the filter cavity 51 to be discharged through the waste outlet 52 by moving the waste assembly 70 in the filter cavity 51.

The recovery tank 30 also includes a linkage assembly 80. The waste assembly 70 is drivingly engaged with the release bottom cover 60 by a linkage assembly 80. Wherein, as the waste fitting assembly 70 moves toward the release bottom cover 60, the waste fitting assembly 70 drives the release bottom cover 60 to uncover the waste outlet 52 through the linkage assembly 80, and simultaneously the waste fitting assembly 70 drives the solid waste in the filter chamber 51 to be discharged through the waste outlet 52, as shown in fig. 4.

In this way, dirty mixture of this embodiment liquid and solid is dirty from releasing bottom 60 and is gone into filter chamber 51, the dirty outside of filtering component 50 filtration to filter chamber 51 of liquid, and solid is dirty to be stayed in filter chamber 51, this embodiment has realized the dirty separation of liquid and solid promptly, make staving subassembly 40 be used for storing liquid as far as possible dirty, and solid is dirty to pass through filtering component 50 as far as possible, can alleviate the work load of the clean staving subassembly 40 of user and delay the recycling bin 30 and produce the peculiar smell, and solid in the filtering component 50 is dirty because of can directly pouring into the garbage bin with liquid dirty separation, solid is dirty need not pour the sewer along with liquid is dirty, can avoid sewer jam. As can be seen, the present embodiment can facilitate the user to clean the recycling bin 30.

Also, as the waste discharge assembly 70 moves toward the release bottom cover 60, the waste discharge assembly 70 drives the release bottom cover 60 through the linkage assembly 80 to uncover the waste outlet 52 of the filter assembly 50, and at the same time, the waste discharge assembly 70 drives the solid waste in the filter chamber 51 to be discharged through the waste outlet 52. In other words, when this embodiment blowdown subassembly 70 cleared up solid dirt in the filter chamber 51, still drive release bottom 60 in step and cancel and cover drain 52 for solid dirt that blowdown subassembly 70 cleared up down directly discharges through drain 52, realizes in one step that the dirty clearance of solid is dirty and discharges in the filter chamber 51, and the local clean recycling bin 30 of user of making things convenient for of very big degree, and can avoid the bare-handed clearance recycling bin 30 of user, be favorable to promoting user's use experience.

It should be noted that during normal use of the cleaning apparatus, the recycling bin 30 is disposed in a vertical orientation and the filter assembly 50 is positioned above the release bottom cover 60. The mixture of the liquid dirt and the solid dirt enters the filter cavity 51 from bottom to top through the release bottom cover 60, the liquid dirt filtered to the outside of the filter cavity 51 is gathered at the bottom of the dirt storage cavity 41 at least under the action of self gravity, and the bottom of the dirt storage cavity 41 is located below the release bottom cover 60.

The manner in which the linkage assembly 80 of the present embodiment achieves the driving engagement between the waste assembly 70 and the release bottom cover 60 is described below.

In one embodiment, the linkage assembly 80 includes an enabling member and a connection mechanism. The enabling piece is arranged on the sewage discharging assembly 70 and can move synchronously along with the sewage discharging assembly 70. The filter assembly 50 and the release bottom cap 60 are removably coupled by a coupling mechanism. The filter assembly 50 and the release bottom cover 60 can be connected through a connection mechanism, so that the release bottom cover 60 covers the sewage discharge outlet 52, and solid dirt in the filter cavity 51 is limited from being discharged through the sewage discharge outlet 52; also, the coupling mechanism cooperates with the enabling member to eliminate the coupling between the filter assembly 50 and the release bottom cap 60, such that the release bottom cap 60 uncovers the waste outlet 52, thereby allowing solid contaminants in the filter chamber 51 to drain through the waste outlet 52.

As the waste assembly 70 is moved toward the release bottom cap 60, the enabling member actuates the coupling mechanism to allow the release bottom cap 60 to move away from the waste outlet 52 such that the release bottom cap 60 uncovers the waste outlet 52. In the initial state, the filter assembly 50 and the release bottom cap 60 are connected by the connection mechanism, so that the release bottom cap 60 covers the sewage draining outlet 52, thereby restricting the solid sewage in the filter chamber 51 from being drained out through the sewage draining outlet 52. When the solid contamination in the filter chamber 51 reaches a certain amount, the user needs to clean the solid contamination in the filter chamber 51, and at this time, the user drives the dirt discharging assembly 70 to move towards the release bottom cover 60, so that the enabling member moves synchronously with the dirt discharging assembly 70. The enabling member triggers the coupling mechanism to decouple the filter assembly 50 from the release bottom cover 60 such that the release bottom cover 60 decouples the waste outlet 52, thereby allowing solid contaminants in the filter chamber 51 to drain through the waste outlet 52. After the solid dirt in the filter cavity 51 is completely discharged, the connection between the filter assembly 50 and the release bottom cap 60 is reestablished through the connection mechanism, so that the release bottom cap 60 covers the dirt discharge opening 52 again, and at this time, the dirt discharge assembly 70 is moved away from the release bottom cap 60 to be reset.

Specifically, referring to fig. 5, the enabling element includes a top rod 81. The attachment mechanism includes a catch 82 and a catch 83. The latch 82 is provided to the release bottom cover 60. The fastening member 83 is disposed on the filter assembly 50, and more specifically, the fastening member 83 is disposed on the frame 53, and the fastening member 83 protrudes from the frame 53. The latch 82 can be selectively latched to the catch 83. Wherein, as the waste discharge assembly 70 moves towards the release bottom cover 60, the push rod 81 can push against the latch 82, so that the latch 82 is disengaged from the catch 83 to allow the release bottom cover 60 to move away from the waste outlet 52.

In the initial state, the plunger 81 is away from the latch 82, and the latch 82 is snapped to the catch 83, so that the filter assembly 50 and the release bottom cover 60 are connected, and the release bottom cover 60 covers the waste outlet 52, thereby restricting the solid dirt in the filter chamber 51 from being discharged through the waste outlet 52. When the solid dirt in the filter cavity 51 reaches a certain amount, the user needs to clean the solid dirt in the filter cavity 51, at this time, the user drives the dirt discharging assembly 70 to move towards the release bottom cover 60, the top rod 81 moves synchronously with the dirt discharging assembly 70 to abut against the buckling piece 82, so that the buckling piece 82 is separated from the buckling piece 83, namely, the connection relationship between the filter assembly 50 and the release bottom cover 60 is cancelled, the release bottom cover 60 cancels the covering of the dirt discharge opening 52, and the solid dirt in the filter cavity 51 is allowed to be discharged through the dirt discharge opening 52, as shown in fig. 4. After the solid dirt in the filter cavity 51 is completely discharged, the fastener 82 is snapped on the fastener 83 again, that is, the connection between the filter element 50 and the release bottom cover 60 is reestablished, so that the release bottom cover 60 covers the dirt discharge opening 52 again, and at this time, the dirt discharge element 70 moves away from the release bottom cover 60 and is reset, that is, the state shown in fig. 2 is restored.

Further, the clip 82 includes a connecting portion 821, a snap portion 822, and an abutting portion 823. The connection portion 821 connects the release bottom cover 60, and the connection portion 821 connects the abutting portion 823 by the snap portion 822. The abutting portion 823 is close to the middle position of the release bottom cover 60 with respect to the connecting portion 821, the snap portion 822 is for selectively snapping on the snap member 83, and the jack 81 is for abutting against the abutting portion 823.

The user drives the dirt discharging assembly 70 to move towards the release bottom cover 60, and the ejector rod 81 abuts against the abutting portion 823 of the fastener 82 along with the synchronous movement of the dirt discharging assembly 70. At least the connecting portion 821 is an elastic body. In response to the abutting force applied to the abutting portion 823 by the jack 81, the connecting portion 821 is bent and deformed toward the middle position, and the abutting portion 823 moves toward the release bottom cover 60, that is, the entire click 82 is tilted in a direction away from the click 83 (in the direction indicated by the arrow in fig. 5), so that the click portion 822 is disengaged from the click 83, that is, the click 82 is disengaged from the click 83.

Of course, in other embodiments of the present application, the design of the push rod 81, the latch 82 and the retainer 83 is not limited to the above design, and for example, the selective connection between the filter assembly 50 and the release bottom cover 60 can be realized by a link system, a gear system, etc. between the enabling element and the connecting mechanism, which is not limited herein.

In one embodiment, the release bottom cap 60 is not only detachably connected to the filter assembly 50 by the connection mechanism, but the release bottom cap 60 is also rotatably connected to the filter assembly 50 by the rotation shaft 64, i.e., the release bottom cap 60 can rotate relative to the filter assembly 50 by the rotation shaft 64. After the catch 82 disengages the catch 83, the release bottom cap 60 can be rotated away from the waste outlet 52.

Specifically, one end of the release bottom cover 60 is rotatably connected to the filter assembly 50 through the rotating shaft 64, and the other end is detachably connected to the filter assembly 50 through the connecting mechanism. As shown in FIG. 2, in the initial state, the plunger 81 is far away from the catch 82 on the release bottom cover 60, and the catch 82 is caught on the catch 83, so that the release bottom cover 60 covers the sewage draining outlet 52 and the solid sewage in the filter cavity 51 is limited to be drained through the sewage draining outlet 52. When the solid dirt in the filter cavity 51 reaches a certain amount, the user needs to clean the solid dirt in the filter cavity 51, at this time, the user drives the sewage discharging assembly 70 to move towards the release bottom cover 60, the top rod 81 synchronously moves along with the sewage discharging assembly 70 and abuts against the buckling piece 82, so that the buckling piece 82 is separated from the buckling piece 83, the release bottom cover 60 rotates relative to the filter assembly 50 away from the sewage outlet 52, the release bottom cover 60 cancels the covering of the sewage outlet 52, and the solid dirt in the filter cavity 51 is allowed to be discharged through the sewage outlet 52, as shown in fig. 4. After the solid dirt in the filter cavity 51 is completely discharged, the user rotates the release bottom cover 60 towards the dirt discharge opening 52, so that the fastener 82 is fastened on the fastening member 83 again, the release bottom cover 60 covers the dirt discharge opening 52 again, and at this time, the dirt discharge assembly 70 moves away from the release bottom cover 60 and resets, i.e., returns to the state shown in fig. 2.

Of course, in other embodiments of the present application, the release bottom cap 60 is not limited to being rotatably coupled to the filter assembly 50, and the release bottom cap 60 may be removably coupled to the filter assembly 50 only by a coupling mechanism. For example, the release bottom cap 60 may be detachably coupled to the filter assembly 50 by a plurality of sets of coupling mechanisms spaced along the circumference of the filter assembly 50 and the release bottom cap 60, and when the filter assembly 50 and the release bottom cap 60 are coupled by the plurality of sets of coupling mechanisms, the release bottom cap 60 may be relatively fixed to the filter assembly 50 to cover the waste outlet 52, and when the plurality of sets of coupling mechanisms are all removed from the coupling relationship between the filter assembly 50 and the release bottom cap 60, the release bottom cap 60 may be entirely removed from the filter assembly 50 to cover the waste outlet 52.

The waste fitting assembly 70 according to the embodiment of the present application will be explained below.

Referring to fig. 6, fig. 6 is a schematic structural view of a region B of the filter device shown in fig. 2.

In one embodiment, the soil exhaust assembly 70 includes a moving member 71. The moving member 71 is movably disposed in the filter chamber 51. The enabling member described in the above embodiment is disposed on the moving member 71, and can move synchronously with the moving member 71. The waste assembly 70 also includes a wiper 72. The scraping part 72 is arranged on the moving part 71 and can move synchronously with the moving part 71. The scraping member 72 moves synchronously with the moving member 71 to drive the solid dirt in the filter chamber 51 to be discharged through the sewage discharge outlet 52.

In addition, in consideration of the solid dirt that does not adhere to the sidewall of the filter cavity 51 in the filter cavity 51, the solid dirt that adheres to the sidewall of the filter cavity 51 can be discharged through the drain outlet 52 by itself under the action of gravity when the bottom cover 60 is released and the drain outlet 52 is not covered, and the solid dirt that adheres to the sidewall of the filter cavity 51 is difficult to be discharged through the drain outlet 52 by itself under the action of gravity, so the drain assembly 70 of the present embodiment is mainly used for stripping the solid dirt that adheres to the sidewall of the filter cavity 51. Specifically, the scraping member 72 is disposed near the sidewall of the filter chamber 51, peels off solid dirt on the sidewall of the filter chamber 51 during movement with the moving member 71, and discharges through the drain outlet 52. The cleaning effect of the filter cavity 51 can be improved by arranging the scraping piece 72 in the embodiment, so that solid dirt in the filter cavity 51 can be discharged as far as possible.

Further, scrape dirty 72 can butt in the lateral wall of filter chamber 51, so scrape dirty 72 and remove along with moving member 71 the in-process that dirty 72 removed, scrape dirty 72 and can once only peel off the solid dirt that adheres to on the lateral wall of filter chamber 51 as far as totally, further can improve the clean effect and the clean efficiency of filter chamber 51 to the solid dirt in filter chamber 51 is discharged as far as possible, avoids clearing up filter chamber 51 repeatedly and influences user's use experience.

Alternatively, the wiper 72 may be an elastomer, such as silicone or the like. Therefore, the risk that the dirt scraping piece 72 scratches the filtering component 50 can be reduced, the structural stability of the filtering component 50 can be ensured, and the service life can be prolonged. Especially for the case that the scraping member 72 abuts against the side wall of the filter chamber 51, the scraping member 72 having elasticity can not only maintain the state of abutting against the side wall of the filter chamber 51, but also provide elastic contact, avoiding scratching the filter assembly 50 as much as possible.

And, scrape dirty piece 72 and locate moving member 71 towards the tip that releases bottom 60, can furthest reduce the moving stroke of moving member 71, mean that the user only need drive moving member 71 and remove shorter distance, can scrape the solid dirt on the lateral wall of filter chamber 51, and can also order about release bottom 60 and cancel and cover drain 52, the dirty clearance and the discharge of solid in one step realization filter chamber 51 promptly, be favorable to alleviateing user's operation burden, and then be favorable to promoting user's use experience.

Referring to fig. 7, fig. 7 is a schematic cross-sectional view of another embodiment of a filter device according to the present application.

In one embodiment, the recycling bin 30 further comprises an elastic member 31. The elastic member 31 is connected to the moving member 71 for driving the moving member 71 to move away from the bottom cover 60. The user presses the moving member 71 toward the release bottom cover 60 against the elastic restoring force provided by the elastic member 31, so that the wiping member 72 peels off the solid dirt and simultaneously actuates the release bottom cover 60 to uncover the sewage discharge outlet 52. After the solid dirt in the filter cavity 51 is discharged through the sewage discharge outlet 52, the user cancels the pressing of the moving member 71, and the moving member 71 moves away from the releasing bottom cover 60 under the elastic restoring force provided by the elastic member 31 to reset.

Specifically, a portion of the moving member 71 is outside the filter chamber 51. The elastic member 31 is interposed between the portion of the moving member 71 and the filter assembly 50. When the moving member 71 moves toward the release bottom cover 60, the elastic member 31 is compressed. The elastic member 31 may be a spring, etc., and the moving member 71 and the filtering assembly 50 may be provided with a boss for limiting the elastic member 31, and both ends of the elastic member 31 are respectively sleeved on the peripheries of the boss of the moving member 71 and the filtering assembly 50. Fig. 3 and 7 exemplarily show that the recycling bin 30 includes two elastic members 31, the two elastic members 31 are respectively located at two opposite sides of the moving member 71 and the filtering assembly 50, each elastic member 31 is sandwiched between the moving member 71 and the frame 53 of the filtering assembly 50, and the moving member 71 and the frame 53 are provided with bosses for limiting the elastic members 31.

Of course, in other embodiments of the present application, when the moving member 71 moves toward the releasing bottom cover 60, the elastic member 31 is not limited to be compressed to generate an elastic restoring force for driving the moving member 71 to return, for example, the elastic member 31 may also be stretched to generate an elastic restoring force for driving the moving member 71 to return, and only the setting position of the elastic member 31 needs to be correspondingly adjusted, which is not limited herein.

The manner of engagement between the filter assembly 50 and the bowl assembly 40 according to the embodiments of the present disclosure is described below.

Please continue to refer to fig. 1 and 2. In one embodiment, the filter assembly 50 is detachably disposed in the soil storage chamber 41 of the tub assembly 40. In other words, the filtering device formed by the filtering assembly 50, the releasing bottom cover 60 and the drainage assembly 70 is independent of the tub assembly 40. When recycling bin 30 is used in conjunction with a cleaning device to recycle liquid and solid soils, the filtration device is assembled in bin assembly 40; when it is necessary to clean the recycling bin 30, the user takes out the filtering apparatus to clean the filtering apparatus and the bin assembly 40, respectively. Because the dirty and solid dirty filter equipment that has retrieved of recycling bin 30 separates, therefore mainly be liquid dirty in staving subassembly 40, and solid dirty mainly remains in filter equipment, and the user can clear up filter equipment and staving subassembly 40 very conveniently.

Specifically, the tub assembly 40 includes a tub body 42 and a tub cover 43. The barrel cover body 43 is detachably covered on the barrel main body 42, and the barrel cover body 43 and the barrel main body 42 are matched to form the sewage storage cavity 41. Further, the tub body 42 is provided with an air inlet pipe 36, and the air inlet pipe 36 is provided in the soil storage chamber 41. The blower of the cleaning device is in fluid communication with the inlet duct 36, the blower creating a negative pressure environment in the dirt storage chamber 41 for recovering liquid and solid dirt on the surface to be cleaned through the inlet duct 36. The filter device is provided in the inlet pipe 36 to separate liquid and solid contaminants recovered in the inlet pipe 36. The barrel cover body 43 is provided with an air duct for fluid communication with the fan, i.e. the fan, the air duct of the barrel cover body 43, the dirt storage cavity 41 and the air inlet pipe 36 are sequentially in fluid communication. Moreover, the barrel main body 42 and the barrel cover 43 can be hermetically assembled through sealing elements such as sealing rings, and the effect and efficiency of sucking liquid dirt and solid dirt can be improved.

As shown in fig. 2, the release bottom cap 60 includes a bottom cap body 62 and a contamination cylinder 63. The sewage inlet cylinder 63 is convexly arranged on one side of the bottom cover main body 62 facing the sewage discharging assembly 70, and the end part of the sewage inlet cylinder 63 far away from the bottom cover main body 62 is provided with a sewage inlet 61 and a lap joint part 65 surrounding the periphery of the sewage inlet 61. Wherein, advance dirty barrel 63 and overlap joint in intake pipe 36 through overlap joint 65, the mixture of liquid dirt and solid dirt that intake pipe 36 retrieved loops through advancing dirty barrel 63 and advancing dirty mouthful 61 entering filter chamber 51.

The recycling bin 30 of this embodiment also includes a handle 32. Handle 32 is attached to filter assembly 50, and in particular to frame 53. Further, the handle 32 may be fixed to the frame 53 by a fastener such as a screw. When the user needs to remove the filter assembly, the user lifts the filter assembly out of the bowl assembly 40 by grasping the handle 32 and then cleans the filter assembly. During the process of recycling the liquid and solid contaminants in the recycling bin 30, the fluid inside the bin body assembly 40 flows from the bin main body 42 to the bin cover 43, so the filtering device inside the bin body assembly 40 has a tendency to move toward the bin cover 43. In this embodiment, when the filtering apparatus is assembled to the barrel assembly 40, the barrel cover 43 limits the filtering apparatus 50 to move towards the barrel cover 43 through the handle 32, that is, the filtering apparatus is limited to move towards the barrel cover 43, so that the relative position of the filtering apparatus inside the barrel assembly 40 can be maintained, and the filtering apparatus can normally separate the liquid contamination and the solid contamination recovered by the air inlet pipe 36.

Further, the soil exhaust assembly 70 is provided with a first guide member 73, and the handle 32 is provided with a second guide member 33. At least one of the first and second guides 73 and 33 extends toward the release bottom cover 60 such that the first and second guides 73 and 33 cooperate to guide the drain assembly 70 to move toward the release bottom cover 60 and to guide the drain assembly 70 to move away from the release bottom cover 60.

For example, one of the first and second guide members 73 and 33 is a guide post, and the other is provided with a guide hole, the guide post is embedded in and movable along the guide hole, the guide post and the guide hole both extend toward the release bottom cover 60, and the guide post and the guide hole can cooperate to guide the drain assembly 70 to move toward the release bottom cover 60 and to guide the drain assembly 70 to move away from the release bottom cover 60. Fig. 2 exemplarily shows a case where the first guide 73 is a guide post and the second guide 33 is provided with a guide hole.

Of course, in other embodiments of the present application, the first guide 73 and the second guide 33 are not limited to the above-mentioned way of matching the guide posts and the guide holes, for example, the first guide 73 and the second guide 33 may also adopt a way of matching a slide rail and a slide block, and the like, and are not limited herein.

Referring to fig. 8 to 10 together, fig. 8 is a schematic structural view of another embodiment of the recycling bin of the present application, fig. 9 is a schematic structural view of the recycling bin shown in fig. 8 after a bin main body is removed, and fig. 10 is a schematic structural view of a region C of the recycling bin shown in fig. 9.

In an alternative embodiment, the tub assembly 40 includes a tub body 42 and a tub cover 43. The barrel cover body 43 is detachably covered on the barrel main body 42, and the barrel cover body 43 and the barrel main body 42 are matched to form the sewage storage cavity 41. The filter assembly 50 is fixedly coupled to the tub cover 43. In other words, the filter assembly 50, the release bottom cover 60 and the drainage assembly 70 of the present embodiment are fixed to the tub cover 43. When the recycling bin 30 is used to cooperate with a cleaning device to recycle liquid and solid contaminants, the filtering device is assembled in the bin assembly 40 along with the bin cover 43; when the recycling bin 30 needs to be cleaned, the user removes the lid 43, i.e. takes out the filter device, to clean the filter device and the main body 42 respectively. Since the liquid contamination and the solid contamination recovered by the recovery tank 30 have been separated by the filter device, the liquid contamination is mainly in the tank main body 42, and the solid contamination is mainly left in the filter device, so that the user can very conveniently clean the filter device and the tank main body 42.

Specifically, the recovery bucket 30 further includes a guide post 34. The guide post 34 is movably disposed through the tub cover 43 and connected to the drain assembly 70. The user actuates the drain assembly 70 toward the release bottom cover 60 by manipulating the guide post 34. After the user detaches the lower barrel cover 43 and takes out the filtering apparatus, the user presses the guiding column 34 downwards to drive the moving member 71 to move towards the release bottom cover 60 through the guiding column 34, the top rod 81 moves synchronously with the moving member 71 to abut against the buckling member 82, so that the buckling member 82 is separated from the catching member 83, the release bottom cover 60 is enabled to be cancelled to cover the sewage draining outlet 52, and then solid dirt in the filtering cavity 51 is allowed to be drained through the sewage draining outlet 52, as shown in fig. 11.

Recovery tank 30 also includes a button 35. The button 35 is provided at an end of the guide post 34 remote from the soil exhaust assembly 70 (i.e., the moving member 71). The user manipulates the guide post 34 via the button 35 to actuate the drain assembly 70 toward the release bottom cover 60. After the user detaches the lower barrel cover 43 and takes out the filtering device, the user presses the button 35 downward, that is, presses the guiding column 34 downward, so as to drive the moving member 71 to move towards the release bottom cover 60 through the guiding column 34, the top rod 81 moves synchronously with the moving member 71 and abuts against the fastener 82, so that the fastener 82 is separated from the retainer 83, so that the release bottom cover 60 cancels covering the sewage outlet 52, and solid sewage in the filtering cavity 51 is allowed to be discharged through the sewage outlet 52.

The recovery tank 30 further includes an elastic member 31. The elastic member 31 is interposed between the button 35 and the tub cover 43 for urging the soil exhaust assembly 70 toward the tub cover 43. The button 35 and the guide post 34 are relatively fixed, that is, the button 35 and the guide post 34 can move synchronously, and the elastic member 31 is connected with the moving member 71 through the button 35 and the guide post 34. The principle that the elastic member 31 drives the dirt discharging assembly 70 to move towards the tub cover 43 for resetting is described in detail in the above embodiments, and will not be described herein again.

Please continue to refer to fig. 2 to 4. In one embodiment, the filtering apparatus includes a filtering assembly 50, and the filtering assembly 50 is provided with a filtering chamber 51 and a sewage draining outlet 52 communicated with the filtering chamber 51. The filter apparatus further includes a release bottom cover 60, and the release bottom cover 60 is used to selectively cover the sewage drain opening 52. Wherein a mixture of liquid and solid contaminants enters filter cavity 51 from release bottom cap 60, the liquid contaminants are filtered outside of filter cavity 51 by filter assembly 50, and the solid contaminants remain in filter cavity 51. The filter apparatus further comprises a waste assembly 70, the waste assembly 70 being movably disposed in the filter chamber 51. The filter apparatus further comprises a linkage assembly 80, and the drain assembly 70 is in driving engagement with the release bottom cap 60 via the linkage assembly 80. Wherein, as the waste discharge assembly 70 moves towards the release bottom cover 60, the waste discharge assembly 70 drives the release bottom cover 60 to uncover the waste discharge opening 52 through the linkage assembly 80, and simultaneously the waste discharge assembly 70 drives the solid waste in the filter chamber 51 to be discharged through the waste discharge opening 52.

The dirty mixture of liquid and solid gets into filter chamber 51 from releasing bottom cover 60 in this embodiment, the dirty outside to filter chamber 51 of liquid filters through filter assembly 50 of dirty liquid, and the dirty separation of liquid dirty and solid has been realized promptly in filter chamber 51 of dirty solid, make staving subassembly 40 be used for storing the dirty liquid as far as possible, and the dirty solid is passed through filter assembly 50 as far as possible, can alleviate the work load of the clean staving subassembly 40 of user, and the dirty solid in filter assembly 50 is because of can directly pouring into the garbage bin with the dirty separation of liquid. It can be seen that the user can clean the recycling bin 30 conveniently in this embodiment.

Also, in the present embodiment, as the soil exhaust assembly 70 moves toward the release bottom cover 60, the soil exhaust assembly 70 drives the release bottom cover 60 to uncover the soil outlet 52 of the filter assembly 50 through the linkage assembly 80, and at the same time, the soil exhaust assembly 70 drives the solid soil in the filter cavity 51 to be discharged through the soil outlet 52. In other words, in this embodiment, while the blowdown assembly 70 cleans the solid dirt in the filter cavity 51, the release bottom cover 60 is synchronously driven to cancel the covering of the blowdown port 52, so that the solid dirt cleaned by the blowdown assembly 70 is directly discharged through the blowdown port 52, the cleaning and the discharging of the solid dirt in the filter cavity 51 are realized in one step, and a user is greatly facilitated to clean the recycling bin 30.

It should be noted that the filter device is provided as a separate component, which is separate from the recovery tank 30 of the cleaning apparatus. When the recovery tank 30 is applied to a cleaning apparatus to recover liquid dirt and solid dirt, a filtering device is mounted in the recovery tank 30 for separating the liquid dirt and the solid dirt recovered by the recovery tank 30. When a user needs to clean the recycling bin 30, the recycling bin 30 is detached from the cleaning device, and the filtering device is taken out of the recycling bin 30. Because the dirty and solid dirty filter equipment that has retrieved of recycling bin 30 separates, therefore mainly be liquid dirty in staving subassembly 40, and solid dirty mainly remains in filter equipment, and the user can clear up filter equipment and staving subassembly 40 very conveniently. The various components included in the filter device have been described in detail in the above embodiments and will not be described in detail here.

Referring to fig. 12, fig. 12 is a schematic structural diagram of an embodiment of a cleaning apparatus according to the present application.

In one embodiment, the cleaning device 10 includes a cleaning assembly 20, the cleaning assembly 20 being used to clean a surface to be cleaned. Further, the cleaning assembly 20 may be a floor brush or the like of the cleaning device 10, and the cleaning assembly 20 recovers liquid dirt and solid dirt on the surface to be cleaned during cleaning of the surface to be cleaned. The cleaning device 10 further includes a recovery tank 30, the recovery tank 30 being used to store liquid and solid soils recovered by the cleaning assembly 20.

The recycling bin 30 comprises a bin assembly 40, and a sewage storage cavity 41 is formed inside the bin assembly 40. The recycling bin 30 further comprises a filtering assembly 50, the filtering assembly 50 is arranged in the sewage storage cavity 41, and the filtering assembly 50 is provided with a filtering cavity 51 and a sewage draining outlet 52 communicated with the filtering cavity 51. The recycling bin 30 further includes a release bottom cover 60, the release bottom cover 60 for selectively covering the waste outlet 52. Wherein a mixture of liquid and solid contaminants enters filter cavity 51 from release bottom cap 60, the liquid contaminants are filtered outside filter cavity 51 by filter assembly 50 and received by dirt storage cavity 41, and the solid contaminants remain in filter cavity 51. The recycling bin 30 further includes a soil exhaust assembly 70, and the soil exhaust assembly 70 is movably disposed in the filter chamber 51. The recovery tank 30 further includes a linkage assembly 80, and the waste fitting assembly 70 is drivingly engaged with the release bottom cover 60 through the linkage assembly 80. Wherein, as the sewage discharging assembly 70 moves towards the release bottom cover 60, the sewage discharging assembly 70 drives the release bottom cover 60 to uncover the sewage discharging outlet 52 through the linkage assembly 80, and simultaneously the sewage discharging assembly 70 drives the solid sewage in the filter cavity 51 to be discharged through the sewage discharging outlet 52. The components of the recycling bin 30 have been described in detail in the above embodiments, and are not described herein again.

The dirty mixture of liquid and solid gets into filter chamber 51 from releasing bottom cover 60 in this embodiment, the dirty outside to filter chamber 51 of liquid filters through filter assembly 50 of dirty liquid, and the dirty separation of liquid dirty and solid has been realized promptly in filter chamber 51 of dirty solid, make staving subassembly 40 be used for storing the dirty liquid as far as possible, and the dirty solid is passed through filter assembly 50 as far as possible, can alleviate the work load of the clean staving subassembly 40 of user, and the dirty solid in filter assembly 50 is because of can directly pouring into the garbage bin with the dirty separation of liquid. It can be seen that the user can clean the recycling bin 30 conveniently in this embodiment.

Also, in this embodiment, as the waste discharge assembly 70 moves toward the release bottom cover 60, the waste discharge assembly 70 drives the release bottom cover 60 through the linkage assembly 80 to uncover the waste outlet 52 of the filter assembly 50, and at the same time, the waste discharge assembly 70 drives the solid waste in the filter chamber 51 to be discharged through the waste outlet 52. In other words, in this embodiment, when the blowdown assembly 70 cleans solid dirt in the filter cavity 51, the release bottom cover 60 is synchronously driven to cancel the covering of the sewage outlet 52, so that the solid dirt cleaned by the blowdown assembly 70 is directly discharged through the sewage outlet 52, the cleaning and discharging of the solid dirt in the filter cavity 51 are realized in one step, and the user is greatly facilitated to clean the recycling bin 30.

The technical solution provided in the embodiments of the present application is described below with reference to specific application scenarios.

The application scene one:

the recycling bin 30 is applied to the cleaning apparatus 10, and the cleaning apparatus 10 is a floor washing machine having a cleaning function of washing, mopping, or the like. The recycling bin 30 is used to store liquid and solid soils recycled during cleaning of the surface to be cleaned by the cleaning device 10. The recovery tank 30 is detachably provided to the cleaning apparatus 10. When the user needs to clean the recovery bucket 30, the recovery bucket 30 is detached from the cleaning apparatus 10.

The recycling bin 30 comprises a bin assembly 40, and a sewage storage cavity 41 is formed inside the bin assembly 40. The recycling bin 30 further comprises a filtering assembly 50, the filtering assembly 50 is disposed in the dirt storage cavity 41, and the filtering assembly 50 is provided with a filtering cavity 51 and a dirt discharge port 52 communicated with the filtering cavity 51. The recycling bin 30 further includes a release bottom cover 60, the release bottom cover 60 for selectively covering the waste outlet 52. Wherein a mixture of liquid and solid contaminants enters filter cavity 51 from release bottom cap 60, the liquid contaminants are filtered outside filter cavity 51 by filter assembly 50 and received by dirt storage cavity 41, and the solid contaminants remain in filter cavity 51. The recycling bin 30 further includes a soil exhaust assembly 70, and the soil exhaust assembly 70 is movably disposed in the filter chamber 51. The recovery tank 30 further includes a linkage assembly 80, and the waste fitting assembly 70 is drivingly engaged with the release bottom cover 60 through the linkage assembly 80. Wherein, as the sewage discharging assembly 70 moves towards the release bottom cover 60, the sewage discharging assembly 70 drives the release bottom cover 60 to uncover the sewage discharging outlet 52 through the linkage assembly 80, and simultaneously the sewage discharging assembly 70 drives the solid sewage in the filter cavity 51 to be discharged through the sewage discharging outlet 52.

In the initial state, the push rod 81 is far away from the fastener 82 on the release bottom cover 60, and the fastener 82 is buckled on the retainer 83, so that the release bottom cover 60 covers the sewage draining outlet 52 and the solid sewage in the filter cavity 51 is limited to be drained out through the sewage draining outlet 52. When the solid dirt in the filter cavity 51 reaches a certain amount, the user needs to clean the solid dirt in the filter cavity 51, at this time, the user drives the sewage discharging assembly 70 to move towards the release bottom cover 60, the top rod 81 synchronously moves along with the sewage discharging assembly 70 and abuts against the buckling piece 82, so that the buckling piece 82 is separated from the buckling piece 83, the release bottom cover 60 rotates relative to the filter assembly 50 away from the sewage outlet 52, the release bottom cover 60 cancels the covering of the sewage outlet 52, and the solid dirt in the filter cavity 51 is allowed to be discharged through the sewage outlet 52. After the solid dirt in the filter cavity 51 is completely discharged, the user rotates the release bottom cover 60 towards the sewage outlet 52, so that the fastener 82 is fastened on the fastener 83 again, the release bottom cover 60 covers the sewage outlet 52 again, and at this time, the sewage discharging assembly 70 moves away from the release bottom cover 60 and resets.

Dirty and the dirty mixture of solid of liquid enters filter chamber 51 from releasing bottom cover 60 in this application scenario, the dirty outside to filter chamber 51 of liquid filters through filter assembly 50 of dirty liquid, and the dirty separation of liquid dirty and solid has been realized promptly, make staving subassembly 40 be used for storing liquid as far as dirty, and the dirty solid is passed through filter assembly 50 as far as possible, can alleviate the work load of the clean staving subassembly 40 of user, and the dirty solid in filter assembly 50 is dirty because of separating with the dirty liquid and can directly pour into the garbage bin. Therefore, in the application scene, the user can clean the recycling bin 30 conveniently.

And, in this application scenario, as the sewage draining assembly 70 moves towards the release bottom cover 60, the sewage draining assembly 70 drives the release bottom cover 60 to uncover the sewage draining outlet 52 of the filtering assembly 50 through the linkage assembly 80, and at the same time, the sewage draining assembly 70 drives the solid sewage in the filtering cavity 51 to be discharged through the sewage draining outlet 52. In other words, when the blowdown component 70 cleans solid dirt in the filter cavity 51 in the application scene, the release bottom cover 60 is synchronously driven to cancel covering the sewage outlet 52, so that the solid dirt cleaned by the blowdown component 70 is directly discharged through the sewage outlet 52, the cleaning and the discharge of the solid dirt in the filter cavity 51 are realized in one step, and the user is greatly facilitated to clean the recycling bin 30.

Application scenario two:

the cleaning device 10 is a floor washing machine having a cleaning function of washing, mopping, etc. The cleaning device 10 includes a cleaning assembly 20, the cleaning assembly 20 being for cleaning a surface to be cleaned. The cleaning assembly 20 may be a floor brush of the cleaning device 10, and the cleaning assembly 20 recovers liquid and solid soils from the surface to be cleaned during cleaning of the surface to be cleaned. The cleaning device 10 further includes a recovery tank 30, the recovery tank 30 being used to store liquid and solid soils recovered by the cleaning assembly 20.

The recycling bin 30 comprises a bin assembly 40, and a sewage storage cavity 41 is formed inside the bin assembly 40. The recycling bin 30 further comprises a filtering assembly 50, the filtering assembly 50 is disposed in the dirt storage cavity 41, and the filtering assembly 50 is provided with a filtering cavity 51 and a dirt discharge port 52 communicated with the filtering cavity 51. The recycling bin 30 further includes a release bottom cover 60, the release bottom cover 60 for selectively covering the waste outlet 52. Wherein a mixture of liquid and solid contaminants enters the filter chamber 51 from the release bottom cap 60, the liquid contaminants are filtered outside the filter chamber 51 by the filter assembly 50 and received by the contaminant storage chamber 41, and the solid contaminants are retained in the filter chamber 51. The recycling bin 30 further includes a soil exhaust assembly 70, the soil exhaust assembly 70 being movably disposed in the filter chamber 51. Recycling bin 30 further includes a linkage assembly 80, and waste fitting assembly 70 is drivingly engaged with release bottom cap 60 via linkage assembly 80. Wherein, as the sewage discharging assembly 70 moves towards the release bottom cover 60, the sewage discharging assembly 70 drives the release bottom cover 60 to uncover the sewage discharging outlet 52 through the linkage assembly 80, and simultaneously the sewage discharging assembly 70 drives the solid sewage in the filter cavity 51 to be discharged through the sewage discharging outlet 52.

In the initial state, the top rod 81 is far away from the fastener 82 on the release bottom cover 60, and the fastener 82 is buckled on the retainer 83, so that the release bottom cover 60 covers the sewage draining outlet 52 and the solid sewage in the filter cavity 51 is limited to be drained out through the sewage draining outlet 52. When the solid dirt in the filter cavity 51 reaches a certain amount, the user needs to clean the solid dirt in the filter cavity 51, at this time, the user drives the sewage discharging assembly 70 to move towards the release bottom cover 60, the top rod 81 synchronously moves along with the sewage discharging assembly 70 and abuts against the buckling piece 82, so that the buckling piece 82 is separated from the buckling piece 83, the release bottom cover 60 rotates relative to the filter assembly 50 away from the sewage outlet 52, the release bottom cover 60 cancels the covering of the sewage outlet 52, and the solid dirt in the filter cavity 51 is allowed to be discharged through the sewage outlet 52. After the solid dirt in the filter cavity 51 is completely discharged, the user rotates the release bottom cover 60 towards the sewage outlet 52, so that the fastener 82 is fastened on the fastener 83 again, the release bottom cover 60 covers the sewage outlet 52 again, and at this time, the sewage discharging assembly 70 moves away from the release bottom cover 60 and resets.

Dirty and the dirty mixture of solid of liquid enters filter chamber 51 from releasing bottom 60 in this application scene, the dirty outside of filtering chamber 51 is filtered to through filtering component 50 to liquid, and the dirty separation in filtering chamber 51 of solid has been saved, the dirty and dirty separation of solid of liquid has been realized promptly, make staving subassembly 40 be used for storing liquid as far as possible dirty, and the dirty solid is as far as possible through filtering component 50, can alleviate the work load of the clean staving subassembly 40 of user, and the dirty solid among the filtering component 50 is dirty because of separating with the dirty liquid and can directly pour into the garbage bin. Therefore, in the application scene, the user can clean the recycling bin 30 conveniently.

And, in this application scenario, as the sewage draining assembly 70 moves towards the release bottom cover 60, the sewage draining assembly 70 drives the release bottom cover 60 to uncover the sewage draining outlet 52 of the filtering assembly 50 through the linkage assembly 80, and at the same time, the sewage draining assembly 70 drives the solid sewage in the filtering cavity 51 to be discharged through the sewage draining outlet 52. In other words, when the blowdown component 70 cleans solid dirt in the filter cavity 51 in the application scene, the release bottom cover 60 is synchronously driven to cancel covering the sewage outlet 52, so that the solid dirt cleaned by the blowdown component 70 is directly discharged through the sewage outlet 52, the cleaning and the discharge of the solid dirt in the filter cavity 51 are realized in one step, and the user is greatly facilitated to clean the recycling bin 30.

Application scenario three:

the filter device is provided as a separate component from the recovery tank 30 of the cleaning apparatus 10. When the recovery tank 30 is applied to the cleaning apparatus 10 to recover liquid dirt and solid dirt, a filtering device is mounted in the recovery tank 30 for separating the liquid dirt and the solid dirt recovered by the recovery tank 30. When a user needs to clean the recovery tank 30, the recovery tank 30 is detached from the cleaning device 10, and the filtering device is taken out of the recovery tank 30. Because the dirty and solid dirty filter equipment that has retrieved of recycling bin 30 separates, therefore mainly be liquid dirty in staving subassembly 40, and solid dirty mainly remains in filter equipment, and the user can clear up filter equipment and staving subassembly 40 very conveniently.

The filtering device comprises a filtering component 50, and the filtering component 50 is provided with a filtering cavity 51 and a sewage draining outlet 52 communicated with the filtering cavity 51. The filter apparatus further includes a release bottom cover 60, and the release bottom cover 60 is used to selectively cover the sewage drain opening 52. Wherein a mixture of liquid and solid contaminants enters filter cavity 51 from release bottom cap 60, the liquid contaminants are filtered outside of filter cavity 51 by filter assembly 50, and the solid contaminants remain in filter cavity 51. The filter apparatus further comprises a waste assembly 70, the waste assembly 70 being movably disposed in the filter chamber 51. The filter apparatus further includes a linkage assembly 80, and the drain assembly 70 is drivingly engaged with the release bottom cover 60 through the linkage assembly 80. Wherein, as the sewage discharging assembly 70 moves towards the release bottom cover 60, the sewage discharging assembly 70 drives the release bottom cover 60 to uncover the sewage discharging outlet 52 through the linkage assembly 80, and simultaneously the sewage discharging assembly 70 drives the solid sewage in the filter cavity 51 to be discharged through the sewage discharging outlet 52.

In the initial state, the push rod 81 is far away from the fastener 82 on the release bottom cover 60, and the fastener 82 is buckled on the retainer 83, so that the release bottom cover 60 covers the sewage draining outlet 52 and the solid sewage in the filter cavity 51 is limited to be drained out through the sewage draining outlet 52. When the solid dirt in the filter cavity 51 reaches a certain amount, the user needs to clean the solid dirt in the filter cavity 51, at this time, the user drives the sewage discharging assembly 70 to move towards the release bottom cover 60, the top rod 81 synchronously moves along with the sewage discharging assembly 70 and abuts against the buckling piece 82, so that the buckling piece 82 is separated from the buckling piece 83, the release bottom cover 60 rotates relative to the filter assembly 50 away from the sewage outlet 52, the release bottom cover 60 cancels the covering of the sewage outlet 52, and the solid dirt in the filter cavity 51 is allowed to be discharged through the sewage outlet 52. After the solid dirt in the filter cavity 51 is completely discharged, the user rotates the release bottom cover 60 towards the sewage outlet 52, so that the fastener 82 is fastened on the fastener 83 again, the release bottom cover 60 covers the sewage outlet 52 again, and at this time, the sewage discharging assembly 70 moves away from the release bottom cover 60 and resets.

Dirty and the dirty mixture of solid of liquid enters filter chamber 51 from releasing bottom 60 in this application scene, the dirty outside of filtering chamber 51 is filtered to through filtering component 50 to liquid, and the dirty separation in filtering chamber 51 of solid has been saved, the dirty and dirty separation of solid of liquid has been realized promptly, make staving subassembly 40 be used for storing liquid as far as possible dirty, and the dirty solid is as far as possible through filtering component 50, can alleviate the work load of the clean staving subassembly 40 of user, and the dirty solid among the filtering component 50 is dirty because of separating with the dirty liquid and can directly pour into the garbage bin. Therefore, in the application scene, the user can clean the recycling bin 30 conveniently.

And, in this application scenario, as the sewage draining assembly 70 moves towards the release bottom cover 60, the sewage draining assembly 70 drives the release bottom cover 60 to uncover the sewage draining outlet 52 of the filtering assembly 50 through the linkage assembly 80, and at the same time, the sewage draining assembly 70 drives the solid sewage in the filtering cavity 51 to be discharged through the sewage draining outlet 52. In other words, when the blowdown subassembly 70 clears up solid dirt in the filter chamber 51 in this application scenario, it still drives the release bottom 60 in step to cancel and cover the drain 52 for solid dirt that the blowdown subassembly 70 cleared up gets off directly discharges through drain 52, realizes clearing up and discharging of solid dirt in the filter chamber 51 in one step, and the user of great convenience cleans the recycling bin 30.

The cleaning device and the recycling bin and the filtering device applied thereto provided by the present application are described in detail above, and specific examples are applied herein to illustrate the principle and the embodiment of the present application, and the description of the above embodiments is only used to help understand the method and the core idea of the present application; meanwhile, for a person skilled in the art, according to the idea of the present application, there may be variations in the specific embodiments and the application scope, and in summary, the content of the present specification should not be construed as a limitation to the present application.

Claims (20)

1. A recycling bin for cleaning equipment, comprising:

the interior of the barrel body assembly is provided with a sewage storage cavity;

the filtering component is arranged in the sewage storage cavity and is provided with a filtering cavity and a sewage discharge port communicated with the filtering cavity;

a release bottom cover for selectively covering the drain outlet; wherein a mixture of liquid soil and solid soil enters the filter cavity from the release bottom cover, the liquid soil is filtered outside the filter cavity by the filter assembly and received by the soil storage cavity, and the solid soil is retained in the filter cavity;

the sewage draining assembly is movably arranged in the filter cavity; and

the linkage assembly is used for driving and matching the pollution discharge assembly with the release bottom cover;

the sewage draining assembly drives the release bottom cover to cover the sewage draining outlet through the linkage assembly along with the movement of the sewage draining assembly towards the release bottom cover, and simultaneously drives the solid sewage in the filter cavity to be discharged through the sewage draining outlet.

2. The recycling bin of claim 1,

the linkage assembly comprises an enabling piece and a connecting mechanism;

the enabling piece is arranged on the pollution discharge assembly, and the filter assembly and the release bottom cover are detachably connected through the connecting mechanism;

the enabling piece drives the connecting mechanism to allow the release bottom cover to be far away from the sewage draining exit along with the movement of the sewage draining assembly towards the release bottom cover, so that the release bottom cover cancels the covering of the sewage draining exit.

3. The recycling bin of claim 2,

the enabling piece comprises a mandril;

the connecting mechanism comprises a buckle piece and a buckling piece;

the buckle piece is arranged on the release bottom cover, the buckling piece is arranged on the filter assembly, and the buckle piece can be buckled on the buckling piece selectively;

the ejector rod can abut against the buckling piece along with the movement of the sewage discharging component towards the releasing bottom cover, so that the buckling piece is separated from the buckling piece, and the releasing bottom cover is allowed to be far away from the sewage discharging port.

4. The recycling bin of claim 3,

the buckle piece comprises a connecting part, a buckle part and a butt part;

the connecting part is connected with the release bottom cover and is connected with the abutting part through the hasp part, the abutting part is close to the middle position of the release bottom cover relative to the connecting part, the hasp part is used for being selectively hasp on the buckling part, and the ejector rod is used for abutting against the abutting part;

and in response to the abutting force applied to the abutting part by the ejector rod, the connecting part bends and deforms towards the middle position, and the abutting part moves towards the release bottom cover, so that the buckling part is separated from the buckling piece.

5. The recycling bin of claim 3,

the release bottom cover is also rotationally connected with the filter assembly through a rotating shaft;

after the buckle piece is separated from the buckle position piece, the release bottom cover can rotate away from the sewage draining exit.

6. The recycling bin of any one of claims 1 to 5,

the soil exhaust assembly includes:

the moving piece is movably arranged in the filter cavity;

and the dirt scraping part is arranged on the moving part and close to the side wall of the filter cavity so as to strip solid dirt on the side wall of the filter cavity in the moving process along with the moving part and discharge the solid dirt through the sewage outlet.

7. The recycling bin of claim 6,

the dirt scraping piece is an elastic body.

8. The recycling bin of claim 6,

the dirt scraping piece is arranged at the end part, facing the release bottom cover, of the moving piece.

9. The recycling bin of claim 6,

the recycling bin further comprises:

and the elastic piece is connected with the moving piece and used for driving the moving piece to move towards the direction far away from the bottom cover.

10. The recycling bin of any one of claims 1 to 5,

the filtering component is detachably arranged in the sewage storage cavity.

11. The recycling bin of claim 10,

the bucket body assembly comprises:

a tub main body;

the barrel cover body is detachably arranged on the barrel main body in a covering mode and matched with the barrel main body to form the sewage storage cavity;

the recycling bin further comprises:

a handle connected to the filter assembly;

the bucket cover body limits the filter assembly to move towards the bucket cover body through the lifting handle.

12. The recycling bin of claim 10,

the sewage draining assembly is provided with a first guide piece;

the recycling bin further comprises:

the handle is connected with the filtering assembly and is provided with a second guide piece;

wherein at least one of the first guide and the second guide extends toward the release bottom cover such that the first guide and the second guide cooperate to guide the drain assembly to move toward the release bottom cover.

13. The recycling bin of any one of claims 1 to 5,

the bucket body assembly comprises:

a tub main body;

the bucket cover body is detachably arranged on the bucket main body in a covering mode and matched with the bucket main body to form the sewage storage cavity;

wherein, filtering component fixed connection the bucket lid body.

14. The recycling bin of claim 13,

the recycling bin further comprises:

the guide post movably penetrates through the bucket cover body and is connected to the pollution discharge assembly, and a user controls the guide post to drive the pollution discharge assembly to move towards the release bottom cover.

15. The recycling bin of claim 14,

the recycling bin further comprises:

the button is arranged at the end part of the guide post, which is far away from the pollution discharge assembly, and a user operates the guide post through the button;

the elastic piece is clamped between the button and the bucket cover body and is used for driving the pollution discharge assembly to move towards the bucket cover body.

16. The recycling bin of any one of claims 1 to 5,

the filter assembly includes:

the frame is arranged in a surrounding manner to form the filter cavity and the sewage draining outlet;

the filter screen is arranged on the frame and surrounds the periphery of the filter cavity.

17. The recycling bin of any one of claims 1 to 5,

the recycling bin further comprises:

the air inlet pipe is arranged in the sewage storage cavity;

the release bottom cover includes:

a bottom cover main body;

the sewage inlet cylinder is convexly arranged on one side of the bottom cover main body facing the sewage discharge assembly, and the end part of the sewage inlet cylinder, which is far away from the bottom cover main body, is provided with a sewage inlet and a lap joint part which surrounds the periphery of the sewage inlet;

the sewage inlet cylinder body is connected with the air inlet pipe in an overlapping mode through the overlapping portion, and a mixture of liquid sewage and solid sewage recovered by the air inlet pipe sequentially passes through the sewage inlet cylinder body and the sewage inlet to enter the filter cavity.

18. The recycling bin of any one of claims 1 to 5,

the filter assembly is positioned above the release bottom cap;

and the mixture of liquid dirt and solid dirt enters the filter cavity from bottom to top through the release bottom cover, and the liquid dirt filtered to the outside of the filter cavity is gathered at the bottom of the dirt storage cavity at least under the action of self gravity.

19. A filter device, comprising:

the filtering component is provided with a filtering cavity and a sewage draining outlet communicated with the filtering cavity;

a release bottom cover for selectively covering the drain outlet; wherein a mixture of liquid soil and solid soil enters the filter cavity from the release bottom cap, the liquid soil is filtered out of the filter cavity by the filter assembly, and the solid soil remains in the filter cavity;

the sewage draining assembly is movably arranged in the filter cavity; and

the linkage assembly is used for driving and matching the drainage assembly with the release bottom cover;

the sewage draining assembly drives the release bottom cover to cover the sewage draining outlet through the linkage assembly along with the movement of the sewage draining assembly towards the release bottom cover, and simultaneously drives the solid sewage in the filter cavity to be discharged through the sewage draining outlet.

20. A cleaning apparatus, comprising:

the cleaning assembly is used for cleaning a surface to be cleaned;

the recycling bin is used for storing the liquid dirt and the solid dirt recycled by the cleaning assembly;

the recycling bin includes:

the inner part of the barrel body component is provided with a sewage storage cavity;

the filtering component is arranged in the sewage storage cavity and is provided with a filtering cavity and a sewage discharge port communicated with the filtering cavity;

a release bottom cover for selectively covering the drain outlet; wherein a mixture of liquid soil and solid soil enters the filter cavity from the release bottom cover, the liquid soil is filtered outside the filter cavity by the filter assembly and received by the soil storage cavity, and the solid soil is retained in the filter cavity;

the sewage draining assembly is movably arranged in the filter cavity; and

the linkage assembly is used for driving and matching the pollution discharge assembly with the release bottom cover;

the sewage draining assembly drives the release bottom cover to cover the sewage draining outlet through the linkage assembly along with the movement of the sewage draining assembly towards the release bottom cover, and simultaneously drives the solid sewage in the filter cavity to be discharged through the sewage draining outlet.

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