CN214567955U - Recycling bin and cleaning equipment - Google Patents

Abstract

The application discloses recycling bin and cleaning equipment, this a solid-liquid separation recycling bin for cleaning equipment includes: a first barrel; a second barrel removably disposed on the first barrel, the second barrel being at least partially within the first barrel when it is disposed thereon; a separation channel disposed on the second bucket and communicating with the first bucket when the second bucket is disposed on the first bucket. The technical scheme that this application provided can solve because the current solid-liquid rubbish absorbed in the recycling bin is difficult to separate and handle the problem respectively.

Description

Recycling bin and cleaning equipment

Technical Field

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

Background

Some wet and dry cleaning equipment have been on the market at present, and this wet and dry cleaning equipment embeds there is the dirt bucket, has filter component on the dirt bucket, and when using, this wet and dry cleaning equipment can suck away some solid waste and liquid rubbish on the ground, and the mixed air current that later has partial solid waste and liquid rubbish can be sucked and enter into the dirt bucket, discharges after filter component filters again. The dust barrel can be taken down and the garbage in the dust barrel can be dumped at the later stage, so that the dust barrel is convenient to use.

However, the existing dry and wet cleaning equipment only has one built-in dust bin, and when solid garbage and liquid garbage are sucked into the dust bin and then the garbage in the dust bin is treated, the solid garbage and the liquid garbage are difficult to separate, so that the treatment of the garbage mixed with solid and liquid is relatively laborious. For example, on the one hand, the sewage is directly poured into the toilet for treatment by the general user, but the solid waste in the toilet may block the drainage channel of the toilet, which causes great inconvenience to the user. On the other hand, solid garbage and liquid garbage are mixed, and the dust barrel can become moldy and smelly for a long time, so that the user experience is seriously influenced.

SUMMERY OF THE UTILITY MODEL

An object of this application is to provide a recycling bin and cleaning device, can solve because the current solid-liquid rubbish that absorbs in the recycling bin is difficult to separate and carry out the problem handled respectively.

To achieve the above object, in one aspect, the present application provides a solid-liquid separation recycling bin for a cleaning apparatus, comprising: a first barrel; a second tub removably disposed on the first tub, at least a portion of the second tub being located within the first tub; and the separation channel is arranged on the second barrel and is communicated with the first barrel.

To achieve the above object, another aspect of the present application further provides a cleaning apparatus including: a filter assembly; a first barrel; a second tub removably disposed on the first tub, at least a portion of the second tub being located within the first tub; a separation channel disposed on the second barrel and communicating with the first barrel; the filter assembly is detachably disposed on the second tub.

It can be seen that the recycling bin provided by the application can enable the mixed airflow formed by the solid garbage and the liquid garbage to be sucked into the cleaning device and enter the second bin through the fluid channel after the second bin is mounted on the first bin, and then the mixed airflow is filtered and discharged through the filtering component. Owing to set up the separation channel on the second bucket for liquid rubbish that enters into in the second bucket can ooze from solid rubbish gradually, and flow out along the separation channel on the second bucket, thereby enter into first bucket, through this kind of mode, can make the solid rubbish and the mutual separation of liquid rubbish that enter into in the recycling bin, accept liquid rubbish in making first bucket, solid rubbish is accepted to the second bucket. The second bin can then be directly detached from the first bin and the liquid waste in the first bin and the solid waste in the second bin can be separately or selectively disposed of. Make the solid refuse and the liquid refuse autosegregation who enters into in the recycling bin like this, it is more convenient when making the user later stage clear up rubbish. Follow-up after finishing to rubbish clearance, can directly install the second bucket in order to continue to use in first bucket, it is also simpler to control to have got up to user's use experience has been improved.

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 the overall structure of a recycling bin according to an embodiment of the present disclosure;

FIG. 2 is a schematic diagram of a second drum and filter assembly in a recovery drum in an embodiment provided herein;

FIG. 3 is a schematic illustration of an exploded configuration between the second barrel of the recovery barrel and the filter assembly in one embodiment provided herein;

FIG. 4 is a schematic perspective view of a recycling bin according to an embodiment of the present disclosure;

fig. 5 is a schematic front view of a recycling bin according to an embodiment of the present disclosure.

Detailed Description

To make the objects, technical solutions and advantages of the present application more clear, embodiments of the present application will be described in further detail below with reference to the accompanying drawings. Terms such as "upper," "above," "lower," "below," "first end," "second end," "one end," "another end," and the like, used herein to denote relative spatial positions, are used for ease of description to describe one element or feature's relationship to another element or feature as illustrated in the figures. The spatially relative positional terms may be intended to encompass different orientations of the device in use or operation in addition to the orientation depicted in the figures. For example, if the device in the figures is turned over, elements described as "below" or "beneath" other elements or features would then be oriented "above" the other elements or features. Thus, the exemplary term "below" can encompass both an orientation of above and below. The device may be otherwise oriented (rotated 90 degrees or at other orientations) and the spatially relative descriptors used herein interpreted accordingly.

Furthermore, the terms "mounted", "disposed", "provided", "connected", "slidably connected", "fixed" and "sleeved" are to be understood in a broad sense. For example, "connected" may be a fixed connection, a detachable connection, or a unitary construction; can be a mechanical connection, or an electrical connection; may be directly connected, or indirectly connected through intervening media, or may be in internal communication between two devices, elements or components. The specific meaning of the above terms in the present application can be understood by those of ordinary skill in the art as appropriate.

Generally, after cleaning device used up, need take out this cleaning device well dirt bucket to empty out the rubbish in the dirt bucket, thereby in time clear up the rubbish in the dirt bucket, guarantee when this cleaning device is used in the later stage, have sufficient space in this dirt bucket to hold rubbish.

Among the prior art, the opening part on this dirt bucket is provided with detachable filtering component, when utilizing cleaning device to clear up subaerial rubbish, subaerial solid waste and liquid rubbish can be adsorbed, and the mixed air current that later part solid waste and liquid rubbish formed can be sucked into the dirt bucket through fluid passage, discharges after filtering component filters again. The filter assembly can be detached from the dust bucket when the garbage in the dust bucket needs to be dumped, the garbage in the dust bucket is dumped, and the filter assembly is mounted on the dust bucket again after the dumping is finished so as to be used continuously.

However, in the existing cleaning device, the adsorbed solid garbage and the liquid garbage can enter the dust bin together, so that the solid garbage and the liquid garbage are mixed in the dust bin, and when the garbage in the dust bin is dumped later, the solid garbage and the liquid garbage can only be dumped together, so that the garbage in the dust bin can not be reasonably separated, and the use experience of a user is influenced.

Therefore, how to improve the dust bin of the cleaning device so as to separate the solid garbage and the liquid garbage adsorbed in the dust bin without affecting the storage of the garbage, so as to clean the solid garbage and the liquid garbage respectively at a later stage, is a problem to be solved in the field.

To the last problem, the application provides a recycling bin, a solid-liquid separation for cleaning equipment, it is through dividing into first bucket and second bucket with this recycling bin, the second bucket sets up in first bucket, and set up separation channel on the second bucket, make solid waste and liquid waste get into behind the second bucket, liquid waste can enter into first bucket from separation channel, and solid waste then stops in first bucket, thereby realize solid-liquid separation in the recycling bin, can respectively topple over the rubbish in two buckets when toppling over rubbish afterwards, this application solves through this kind of mode because solid waste and liquid waste mix together in the dirt bucket and be difficult to carry out the separation processing's problem to it.

The technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the accompanying drawings. It should be apparent that the embodiments described in this application are only some embodiments of the present application, and not all embodiments of the present application. All other embodiments, which can be obtained by a person skilled in the art without making any inventive step based on the embodiments in the present application, are within the scope of protection of the present application.

Referring to fig. 1 to 3, in an achievable embodiment, the recycling bin comprises a first bin 1 and a second bin 2, the second bin 2 is arranged on the first bin 1, and the second bin 2 is detachably connected with the first bin 1, at least part of the second bin 2 is located inside the first bin 1 when the second bin 2 is arranged on the first bin 1. Wherein, first bucket 1 is used for accepting liquid rubbish, and second bucket 2 is used for accepting solid rubbish, after first bucket 1 and second bucket 2 all were equipped with certain rubbish, can dismantle second bucket 2 to clear up the rubbish in first bucket 1 and the second bucket 2 respectively.

As shown in fig. 3, the recycling bin further includes a separation passage provided on the second bin 2 and communicating with the first bin 1 when the second bin 2 is provided on the first bin 1, for allowing the liquid garbage introduced into the second bin 2 to flow out into the first bin 1 while preventing the solid garbage from being discharged through the separation passage. After the solid waste and the liquid waste are sucked into the second tub 2 by the cleaning device, the liquid waste can flow out along the separation channel and into the first tub 1 while the solid waste remains in the second tub 2, so that the solid waste and the liquid waste are separated from each other.

It should be noted that, when the second barrel 2 is disposed on the first barrel 1, at least a portion of the second barrel 2 is located in the first barrel 1, and the separation channel is required to communicate the second barrel with the first barrel, so that the separation channel is disposed at a position where the second barrel 2 is located in at least a portion of the first barrel 1, which further ensures that the liquid garbage entering the second barrel 2 flows into the first barrel 1 without flowing to the outside of the first barrel 1.

Wherein the separation channel is arranged on the side wall and/or the bottom wall of the second tub 2.

Specifically, this separation channel can set up on the lateral wall of second bucket 2, makes the liquid waste who enters into second bucket 2 flow out in the separation channel on the lateral wall of second bucket 2, and at this moment, when installing second bucket 2 on first bucket 1, have first preset interval between the outer wall of second bucket 2 and the inner wall of first bucket 1, through the setting of first preset interval, thereby can guarantee that the outer wall of first bucket 1 can not seal the separation channel on second bucket 2, so as to ensure that the liquid waste in second bucket 2 can be smooth to flow out through the separation channel. The second tub 2 is substantially tapered, the diameter of which is gradually reduced toward the bottom wall; since the first tub 1 is substantially cylindrical, the first predetermined interval is gradually increased toward the bottom wall of the second tub 2 so that the bottom wall and at least a portion of the side wall of the second tub 2 are suspended in the first tub 1.

Further, the separation channel may be disposed on the bottom wall of the second barrel 2, so that the liquid waste entering the second barrel 2 can flow out through the separation channel on the bottom wall of the second barrel 2, at this time, when the second barrel 2 is mounted on the first barrel 1, a second preset interval is provided between the outer bottom wall of the second barrel 2 and the inner bottom wall of the first barrel 1, and the liquid waste in the second barrel 2 can flow into the first barrel 1 along the separation channel by the arrangement of the second preset interval. Because store liquid rubbish in the first bucket 1, store solid rubbish in the second bucket 2, for avoiding the solid rubbish in the second leads to 2 to soak in the liquid in the first bucket 1, the interval is predetermine to the second and is greater than or equal to half of the height of first bucket 1. As a preferred embodiment, the second preset distance is three quarters of the height of the first tub 1.

It should be noted that, the above-mentioned side wall and bottom wall of the second barrel 2 can be provided with separate channels, so that the garbage entering the second barrel 2 can flow out through the separate channels on the side wall and bottom wall, respectively, so that the liquid garbage entering the second barrel 2 can flow out into the first barrel more quickly. In this case, it is necessary to provide a predetermined interval between the sidewall of the second barrel 2 and the inner wall of the first barrel 1, and between the outer bottom wall of the second barrel 2 and the inner bottom wall of the first barrel 1, so as to ensure that the liquid garbage entering the second barrel 2 can be discharged from the sidewall and the bottom wall of the second barrel 2, and to accelerate the speed of discharging the second barrel 2 into the first barrel 1.

In an achievable embodiment, as shown in fig. 4 and 5, the separation channel may be a plurality of through holes 3 penetrating through the wall surface of the second barrel 2, and the plurality of through holes 3 may be uniformly arranged on the side wall and/or the bottom wall of the second barrel 2.

It should be noted that when the plurality of through holes 3 are provided on the sidewall of the second barrel 2, the through holes 3 can be provided at a position below the sidewall of the second barrel 2, and the aperture of the through holes 3 can be set relatively small, so that the solid waste in the mixed gas flow entering the second barrel 2 can be blocked from entering the first barrel 1 from the through holes 3 without affecting the flow of the liquid waste out of the through holes 3.

In an implementable embodiment, as shown in fig. 4, a radially outwardly protruding cover part 5 is integrally formed on the outer wall of the second tub 2 at the opening edge, and when the second tub 2 is completely mounted on the first tub 1, the cover part 5 can be attached to the opening edge of the first tub 1, so that the second tub 2 is relatively fixed to the first tub 1, and thereafter the second tub 2 and the first tub 1 can be separated from each other by lifting the second tub 2 upward.

In an implementable embodiment, as shown in fig. 4, the recycling bin further comprises a sealing ring 6, the sealing ring 6 is arranged on the outer wall of the second bin 2, and the sealing ring 6 abuts against the lower edge of the cover part 5. When the second barrel 2 is arranged on the first barrel 1, and the cover sealing part 5 covers the opening edge of the first barrel 1, the sealing ring 6 is attached to the inner wall of the first barrel 1. By means of the arrangement of the sealing ring 6, good sealing can be formed between the first barrel 1 and the second barrel 2, so that garbage can be prevented from leaking out of a gap between the first barrel 1 and the second barrel 2. In addition, through the setting of sealing washer 6, can strengthen the connection compactness between first bucket 1 and the second bucket 2 to further prevent to make second bucket 2 rock wantonly when using cleaning device, also can avoid making second bucket 2 drop out from first bucket 1 by oneself.

The sealing ring 6 may be made of elastic sealing material, such as rubber, silica gel, etc.

In the present embodiment, as shown in fig. 4, a positioning portion 7 for positioning the gasket 6 is further formed on the outer wall of the second tub 2, and the positioning portion 7 is integrally formed at a position of the side wall of the second tub 2 near the lid portion 5. After the sealing ring 6 is sleeved on the outer wall of the second barrel 2, the sealing ring 6 can be limited by the positioning part 7, and the sealing ring 6 is prevented from sliding off from the side wall of the second barrel 2 to influence the sealing between the first barrel 1 and the second barrel 2.

In an achievable embodiment, shown with reference to fig. 2 and 4, the second tub 2 has a grip 4 which is located outside the first tub 1 when the second tub 2 is arranged on the first tub 1, i.e. at least part of the second tub 2 is located inside the first tub and another part of the second tub 2 is located outside the first tub 1 when the second tub 2 is arranged on the first tub 1, the grip 4 being formed at the part of the second tub 2 which is located outside the first tub 1. By the arrangement of the grip portion 4, a user can grasp the grip portion 4 with a hand to lift the second tub 2. Since the holding part 4 is disposed at the position of the second tub 2 outside the first tub 1, the holding part 4 is not contaminated by the garbage sucked into the first and second tubs 1 and 2, so that the user can grasp the holding part 4 to dump the garbage in the second tub 2 to prevent the user's hand from being contaminated by the garbage.

Specifically, since the sealing portion 5 can be covered and connected to the opening of the first barrel 1 after the second barrel 2 is completely placed in the first barrel 1, at this time, the sealing portion 5 of the second barrel 2 is located at the outer side of the first barrel 1, and therefore, the holding portion 4 can be integrally formed at the outer side of the sealing portion 5 of the second barrel 2, so as to be held by a user in a later use.

It should be noted that the holding portion 4 may be a sheet-like structure protruding outward, a U-shaped handle structure, or other form of structure capable of being held, which is only a structure for allowing a user to conveniently hold the holding portion 4 to lift the second barrel 2.

Based on the same technical concept, the present application further provides a cleaning apparatus, which includes the filter assembly 8 and the recycling bin as described in the above embodiments, the recycling bin includes a first bin 1 and a second bin 2, the second bin 2 is detachably disposed on the first bin 1, and at least a portion of the second bin 2 is located in the first bin 1; the separation channel is arranged on the second barrel 2 and is communicated with the first barrel 1; the filter assembly 8 is detachably provided on the second tub 2. Wherein, because filtering component 8 sets up on the recycling bin, and the entry of filtering component 8 is linked together with the export of the second bucket 2 of recycling bin. Thus, the cleaning device sucks the garbage into the recycling bin through the fluid channel, and then filters and discharges the garbage through the filtering component 8.

Above-mentioned filter assembly 8 sets up on second bucket 2 with dismantling, and when using this cleaning device, the second bucket 2 of recycling bin is used for accepting solid rubbish, after being equipped with certain rubbish in the second bucket 2, can dismantle filter assembly 8 from second bucket 2 and get off in order to handle the rubbish in the second bucket 2.

In an achievable embodiment, a radially outwardly projecting lid portion is formed on the outside of the filter assembly 8, and when the filter assembly 8 is mounted to the second tub 2, the lid portion is capped to the opening edge of the second tub 2, thereby mounting the filter assembly 8 to the second tub 2.

Further, the position fixed mounting that is located lid joint portion lower limb in filtering component 8 outside has an elastic sealing ring, when making filtering component 8 install on second bucket 2, the laminating of elastic sealing ring is to the inner wall of second bucket 2 to guarantee the sealed between filtering component 8 and the second bucket 2, further make simultaneously that filtering component 8 is stable fixed to on second bucket 2.

In an implementation, referring to fig. 4, a limiting structure for preventing the filter assembly 8 from moving is disposed between the second barrel 2 and the filter assembly 8, so that the filter assembly 8 is further prevented from moving relative to the second barrel 2 after the filter assembly 8 is mounted on the second barrel 2.

Above-mentioned limit structure can be spacing post 9, and this spacing post 9 an organic whole is formed at the opening part of second bucket 2, and the position that corresponds the spacing post 9 of second bucket 2 at the outer wall of filter assembly 8 is formed with the spacing groove, and back in making filter assembly 8 install second bucket 2, this spacing post 9 can be blocked in the spacing groove to in the use, can prevent that filter assembly 8 from removing 2 second buckets relatively.

It should be noted that the limiting structure is not limited to the structure that the limiting post 9 is disposed on the second barrel 2, and other limiting structures may be correspondingly changed or used, for example, the limiting post 9 is disposed on the filtering component 8, and a groove is correspondingly disposed on the second barrel 2, so long as the limiting of the filtering component 8 and the second barrel 2 can be achieved.

The above description is only exemplary of the present application and should not be taken as limiting the present application, as any modification, equivalent replacement, or improvement made within the spirit and principle of the present application should be included in the protection scope of the present application.

The recycling bin and the cleaning device are described in detail below with reference to specific application scenarios.

Application scenario one

When the user needs to use the cleaning machine to clean, some solid garbage and liquid garbage on the ground can be absorbed away together, thereby entering the recycling bin through the fluid passage and being discharged after being filtered by the filtering component. Solid rubbish and liquid rubbish in the recycling bin mix one, and the later stage need be with dismantling of recycling bin when needs empty rubbish, because solid-liquid rubbish wherein is difficult to separate, can go mildy and foul for a long time, seriously influences user experience. Therefore, the recycling bin is improved in the scene, so that the solid garbage and the liquid garbage entering the recycling bin are automatically separated, and the solid garbage and the liquid garbage are respectively cleaned.

First, when a user cleans the garbage on the ground using the cleaning machine, in order to relatively separate the solid and liquid garbage introduced into the recycling bin, the second bin may be installed into the first bin, and the filter assembly may be installed to the second bin. Carry out the in-process of clearance, can pass through fluid passage at solid rubbish and liquid rubbish and get into treat the second bucket after, solid rubbish and liquid rubbish can pile up the second bucket in, and because be provided with the through-hole on the second bucket for pile up the liquid rubbish that piles up in the second bucket and can flow, and flow along the position of through-hole, thereby make liquid rubbish enter into first bucket. And after the user finishes cleaning the garbage on the ground, the recovery barrel is detached, the solid garbage in the second barrel and the liquid garbage in the first barrel are cleaned, and the solid garbage and the liquid garbage absorbed into the recovery barrel are automatically separated.

When the rubbish in the recycling bin is treated, the filtering component can be detached from the second bin, then a user can grasp the holding part on the second bin by hands to draw the second bin out of the first bin, and then the solid rubbish in the second bin can be poured into a rubbish bag or other places for storing the solid rubbish. And the position of the holding part is always held by hands in the process of treating the garbage in the second barrel, so that the hands of a user are not easy to be polluted. Simultaneously, after the second barrel is taken out, the solid garbage in the second barrel can be conveniently and cleanly treated, and the situation that part of residual solid garbage flows in the recycling bin at the same time is avoided. After the solid garbage in the second barrel is treated, the liquid garbage in the first barrel can be directly poured into a closestool or other vessels for treatment. Therefore, the solid garbage and the liquid garbage in the recycling bin are respectively cleaned and are conveniently treated.

After the waste is disposed of, the second basket may be re-mounted to the first basket and the filter assembly mounted to the second basket for continued use.

Application scenario two

To relatively separate solid and liquid waste entering the recovery bin when a user cleans a floor using the washing machine, a second bin may be mounted in the first bin and a filter assembly mounted to the second bin. In the cleaning process, after solid garbage and liquid garbage can enter the second barrel through the fluid channel, and because the through hole is formed in the second barrel, the liquid garbage in the second barrel can flow out along the position of the through hole, so that the liquid garbage can enter the first barrel, and the solid garbage is retained in the second barrel. When the user cleans the floor, the recycling bin is detached and is selectively cleaned. Because the clean environment on floor is less liquid rubbish, and solid waste is more, so, the user only need clear up the solid waste in the second bucket, need not clear up the liquid waste in the first bucket temporarily. This kind of recycling bin provides solid-liquid separation's function promptly, can let the user clear up the recycling bin again selectively, and different clean environment, solid waste and liquid rubbish's quantity are different, and the user clears up solid waste or liquid rubbish selectively, alleviates user's burden, improves user experience.

Application scenario three

When a user cleans the ground by using the sweeping robot, in order to relatively separate the solid garbage and the liquid garbage entering the recycling bin, the second bin can be installed in the first bin, and the filtering assembly can be installed on the second bin. In the cleaning process, after solid garbage and liquid garbage can enter the second barrel through the fluid channel, and because the through hole is formed in the second barrel, the liquid garbage in the second barrel can flow out along the position of the through hole, so that the liquid garbage can enter the first barrel, and the solid garbage is retained in the second barrel. When a user cleans the ground by using the sweeping robot, the recycling bin is detached and is selectively cleaned. Less liquid rubbish in the clean environment on ground, solid rubbish is more, and the user only need clear up the solid rubbish in the second bucket, need not clear up the liquid rubbish in the first bucket temporarily. This kind of recycling bin provides solid-liquid separation's function promptly, can let the user clear up the recycling bin again selectively, and different clean environment, solid waste and liquid rubbish's quantity are different, and the user clears up solid waste or liquid rubbish selectively, alleviates user's burden, improves user experience.

Application scenario four

When a user cleans the floor of a mall using a commercial cleaning robot, in order to relatively separate solid and liquid garbage introduced into the recycling bin, the second bin may be installed into the first bin, and the filter assembly may be installed to the second bin. In the cleaning process, after solid garbage and liquid garbage can enter the second barrel through the fluid channel, and because the through hole is formed in the second barrel, the liquid garbage in the second barrel can flow out along the position of the through hole, so that the liquid garbage can enter the first barrel, and the solid garbage is retained in the second barrel. When a user cleans the ground by using the sweeping robot, the recycling bin is detached and is selectively cleaned. Less liquid rubbish in the clean environment on ground, solid rubbish is more, and the user only need clear up the solid rubbish in the second bucket, need not clear up the liquid rubbish in the first bucket temporarily. This kind of recycling bin provides solid-liquid separation's function promptly, can let the user clear up the recycling bin again selectively, and different clean environment, solid waste and liquid rubbish's quantity are different, and the user clears up solid waste or liquid rubbish selectively, alleviates user's burden, improves user experience.

Claims (10)

1. A recycling bin for solid-liquid separation of cleaning equipment, comprising:

a first barrel;

a second tub removably disposed on the first tub, at least a portion of the second tub being located within the first tub;

and the separation channel is arranged on the second barrel and is communicated with the first barrel.

2. A recycling bin according to claim 1, wherein the separation channel is provided on a side wall and/or a bottom wall of the second bin.

3. The recycling bin according to claim 2, wherein when the separation passage is provided on the sidewall of the second bin, a first predetermined interval is provided between the outer wall of the second bin and the inner wall of the first bin.

4. The recycling bin of claim 2, wherein when the separation channel is disposed on the bottom wall of the second bin, there is a second predetermined spacing between the outside bottom wall of the second bin and the inside bottom wall of the first bin.

5. The recycling bin according to any one of claims 1 to 4, wherein said separation channel is a through hole passing through the wall of said second bin.

6. The recycling bin of claim 1, wherein said second bin has a grip located outside said first bin.

7. The recycling bin according to claim 1, wherein the outer wall of the second bin is formed with a radially outwardly projecting cover portion which is capped to the opening edge of the first bin.

8. The recycling bin of claim 7, further comprising a sealing ring disposed on the outer wall of the second bin, wherein the sealing ring abuts against the lower edge of the cover, and the sealing ring is attached to the inner wall of the first bin.

9. A cleaning apparatus, comprising:

a filter assembly;

a first barrel;

a second tub removably disposed on the first tub, at least a portion of the second tub being located within the first tub;

a separation channel disposed on the second barrel and communicating with the first barrel;

the filter assembly is detachably disposed on the second tub.

10. The cleaning apparatus defined in claim 9, wherein a stop structure is disposed between the second bucket and the filter assembly to prevent movement of the filter assembly.

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