CN111360015B - Recycling bin and cleaning device - Google Patents

Abstract

The embodiment of the invention provides a recycling bin and a cleaning device, wherein the recycling bin comprises: the barrel comprises a barrel main body, wherein a mounting structure is arranged in the barrel main body; a separation device comprising a filter plate; wherein the separation device is detachably connected with the mounting structure; the filter plate is located on a pouring path of the tub body. According to the technical scheme provided by the embodiment of the invention, when the barrel body pours the substances in the barrel through the pouring path, the substances can be filtered through the filter plate on the separating device, part of the substances in the barrel are poured out after passing through the filter plate, and part of the substances are isolated in the barrel, so that the separate treatment of different substances can be realized; meanwhile, the separating device is connected with the mounting structure, so that the connection stability of the separating device can be enhanced, and the separating device is prevented from being separated from the barrel body when the barrel body is toppled over materials.

Description

Recycling bin and cleaning device

Technical Field

The invention relates to the technical field of cleaning machines, in particular to a recycling bin and a cleaning device.

Background

The existing cleaning machine can suck water and solid substances into the recycling bin simultaneously when in work, is convenient and fast, reduces the labor intensity and is accepted by the market.

However, since water and solid matter are simultaneously sucked into the recovery tank, the solid and liquid may be mixed with the garbage in the recovery tank. When the solid-liquid mixed garbage is treated, people often pour the sewage containing solid matters into a sewer or a closestool directly, the solid matters in the recovery barrel easily cause the blockage of the sewer or the closestool, and inconvenience is brought to people.

Disclosure of Invention

The present invention has been made in view of the above problems, and provides a recycling bin and a cleaning device that solve the above problems. One aspect is to filter the material in the barrel by a filter plate on the separating device to separate different materials in the barrel, thereby achieving the purpose of separate treatment of different materials.

In one embodiment of the present invention, there is provided a recycling bin including:

the barrel comprises a barrel main body, wherein a mounting structure is arranged in the barrel main body;

a separation device comprising a filter plate; the separation device is detachably connected with the mounting structure; the filter plate is located on a pouring path of the tub body.

Optionally, the separation device further comprises a connecting bracket;

the filter sets up on the linking bridge, the linking bridge stretches into in the bucket main part with mounting structure is connected.

Optionally, the filter panel is located at the pour spout of the tub body and covers at least a portion of the pour spout;

part of the edge of the filter plate abuts against the upper end face of the pouring opening.

Optionally, the filter panel is located within the tub body and covers at least a portion of a pour spout of the tub body;

part of the edge of the filter plate is abutted against the inner wall of the barrel body.

Optionally, a notch is formed in the edge of the filter plate, which is abutted to the inner wall of the barrel body, and the notch and the inner wall of the barrel body form a through hole.

Optionally, an air guide pipe is arranged in the barrel main body, and the air guide pipe is the mounting structure.

Optionally, the connecting bracket includes at least two supporting arms and a socket;

one end of each of the at least two supporting arms is connected with the filter plate, and the other end of each of the at least two supporting arms is connected with the sleeving part;

the sleeving part is sleeved on the air guide pipe, and the air guide pipe is located between the at least two supporting arms.

Optionally, the at least two support arms have elasticity, and the at least two support arms clamp the air guide pipe; and/or

The sleeving part is elastic and clamps the air guide pipe.

Optionally, an anti-slip structure is arranged on the inner wall surface of the connecting support, the connecting support is sleeved on the air guide pipe, and the anti-slip structure is tightly abutted to the air guide pipe.

Optionally, the sleeving part is of a first arc-shaped structure, and the radian of the first arc-shaped structure is matched with the radian of the outer wall of the air guide pipe.

Optionally, a limiting structure is arranged on the connecting bracket, and the limiting structure abuts against the air guide pipe to limit the installation position of the connecting bracket relative to the air guide pipe.

Optionally, the limiting structure is connected with the at least two supporting arms and is located between the socket part and the filter plate;

when the connecting support is connected with the air guide pipe, the limiting structure is abutted to the port of the air guide pipe.

Optionally, the limiting structure is a second arc-shaped structure, and the radian of the second arc-shaped structure is matched with the radian of the port of the air guide pipe.

Optionally, the separating means comprises an operating portion located on an opposite side of the connecting bracket, the operating portion extending away from the connecting bracket.

Correspondingly, the embodiment of the invention also provides a cleaning device, which comprises:

a body having an accommodating cavity;

the recycling bin, the recycling bin is located the holding intracavity, wherein, the recycling bin includes:

the barrel comprises a barrel main body, wherein a mounting structure is arranged in the barrel main body;

a separation device comprising a filter plate; the separation device is detachably connected with the mounting structure; the filter plate is located on a pouring path of the tub body.

Additionally, optionally, the separation device further comprises a connecting bracket;

the filter sets up on the linking bridge, the linking bridge stretches into in the bucket main part with mounting structure is connected.

According to the technical scheme provided by the embodiment of the invention, on one hand, the separating device is arranged on the barrel body, when the barrel body pours the substances in the barrel through the pouring path, the substances in the barrel can be filtered through the filter plate on the separating device, part of the substances in the barrel are poured out after passing through the filter plate, and part of the substances are isolated in the barrel, so that the separate treatment of different substances is realized, the guarantee is provided for the subsequent treatment, and the cleaning efficiency is further improved. Meanwhile, the separation device is connected with the mounting structure, so that the connection stability of the separation device can be enhanced, and the separation device and the barrel body are prevented from being separated when the barrel body is toppled over materials.

Drawings

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

Fig. 1 is a schematic plan view of a recycling bin according to an embodiment of the present invention;

fig. 2 is a schematic perspective view of a separating device according to an embodiment of the present invention;

FIG. 3 is a schematic cross-sectional view of a recycling bin according to an embodiment of the present invention;

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

FIG. 5 is a schematic view of an installation state of a partition and an installation structure according to an embodiment of the present invention;

fig. 6 is a schematic perspective view of a separating device at another viewing angle according to an embodiment of the present invention.

Detailed Description

In order to make the technical solutions of the present invention better understood, the technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention.

In the prior art, when the cleaning machine works, water and solid substances can be sucked into the recycling bin at the same time. However, the simultaneous suction of water and solid matter into the recovery tank causes mixing of the solid and liquid waste. When the solid-liquid mixed garbage is treated, because the filter device is not arranged on the recovery barrel, when people pour the solid-liquid mixed garbage, the solid and the liquid can not be separated, water containing solid matters is often poured into a sewer or a closestool directly, the solid matters in the recovery barrel easily cause blockage of the sewer or the closestool, and inconvenience is brought to people.

In order to solve the problems, the invention provides a recycling bin and a cleaning device. One aspect is to filter the material in the barrel by a filter plate on the separating device to separate different materials in the barrel, thereby achieving the purpose of separate treatment of different materials.

The technical solution in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention. It is to be understood that the described embodiments are merely exemplary of the invention, and not restrictive of the full scope of the invention. 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 invention.

Example 1

Fig. 1 is a schematic plan structure view of a recycling bin according to an embodiment of the present invention, fig. 2 is a schematic perspective structure view of a partition device according to an embodiment of the present invention, and fig. 3 is a schematic cross-sectional structure view of the recycling bin according to an embodiment of the present invention, as shown in fig. 1 to fig. 3.

In one embodiment of the present invention, there is provided a recycling bin including: a tub body 10 and a partition 20.

Wherein, a mounting structure 11 is provided in the tub body 10. The separating means 20 comprises a filter plate 23. The filter plate 23 has filter holes 22. The spacer 20 is detachably connected to the mounting structure 11. The filter plate 23 is located on a pouring path of the tub body 10. Preferably, the filter plate 23 is located at the top of the tub body 10, or the filter plate 23 is located inside the through body 10 and near the top of the tub body 10.

According to the technical scheme provided by the embodiment of the invention, on one hand, the separating device 20 is arranged on the barrel main body 10, when the barrel main body 10 dumps materials in the barrel through a dumping path, the materials in the barrel can be filtered through the filter plate 23 on the separating device 20, part of the materials in the barrel are dumped out after passing through the filter plate 23, and part of the materials are isolated in the barrel, so that the separate treatment of different materials is realized, the guarantee is provided for the subsequent treatment, and the cleaning efficiency is further improved. Meanwhile, the separation device 20 is connected with the mounting structure 11, so that the connection stability of the separation device 20 can be enhanced, and the separation device 20 is prevented from being separated from the tub body 10 when the tub body 10 is dumped.

For example, in use, referring to fig. 3 and 4, the keg body 10 has a pouring spout 12, through which pouring spout 12 the keg body 10 can pour the contents of the keg. The dotted line indicates the position of the water line, and A indicates the solid matter contained in the water, such as hair, flakes, noodles, or large particles of dust.

In fig. 3, water and solid matter are simultaneously sucked into the recycling bin, resulting in mixing of solid and liquid waste. If the solid-liquid mixed garbage is dumped into a sewer or a closestool without the filter plate 23, the solid matters in the recycling bin can easily block the sewer or the closestool, and inconvenience is brought to people.

In fig. 4, in the case of the filter sheet 23, the tub body 10 is tilted so that the material in the tub body 10 flows to the pouring spout 12 through the pouring path, and the material in the tub passes through the filter sheet 23 to be filtered when passing through the pouring path. The water flows out through the filtering holes 22 and is poured into a sewer or a toilet. The solid matter is isolated in the barrel by the filter plate 23, and the separation of the liquid garbage and the solid garbage is realized. After the water is poured, the solid garbage left in the garbage can be poured into the garbage can. The partition 20 can enhance the coupling stability of the partition 20 by coupling with the mounting structure 11 in the tub. When the main body 10 is tilted, the mounting structure 11 provides a supporting force for the partition 20 as a whole, and prevents the partition 20 from being separated from the main body 10 when the main body 10 is tilted. Further, to facilitate cleaning or replacement of the spacer 20, the spacer 20 is removably connected to the mounting structure 11.

With continued reference to fig. 2 and 3, to further enhance the stability of the connection of the spacer 20, in the embodiment of the present invention, the spacer 20 further includes a connecting bracket 21. The filter plate 22 is arranged on the connecting support 21, and the connecting support 21 extends into the barrel body 10 and is connected with the mounting structure 11. The connection stability of the partition means 20 can be further enhanced by connecting the connecting bracket 21 with the mounting structure 11, and when the tub main body 10 is tilted, the connecting bracket 21 and the mounting structure 11 together provide a supporting force for the partition means 20 to separate the partition means 20 from the tub main body 10. Meanwhile, the connecting bracket 21 extends into the barrel body 10, thereby avoiding occupying the space outside the barrel body 10. Further, the attachment bracket 21 is removably attached to the mounting structure 11 to facilitate cleaning or replacement of the separator 20.

In the present embodiment, the mounting position of the filter plate 23 can be set at different positions according to different filtering requirements. In an achievable manner, with reference to fig. 1, the filter plate 23 is located at the pouring opening 12 of the tub body 10 and covers at least a part of the pouring opening 12. Part of the edge of the filter plate 23 abuts against the upper end face of the pouring spout 12. In this manner, the filter plate 23 can be disposed outside the tub body 10, and the upper end surface of the pouring spout 12 can provide a supporting force for the filter plate 23. In case the partition 20 further comprises a connecting bracket 21, the upper end face of the pouring spout 12 together with the connecting bracket 21 provides a supporting force for the filter plate 23. In use, the contents of the bin can be poured out through the covered portion of the pour spout 12, and in the pouring process, the liquid waste is poured out through the filtering holes 22 of the filtering plate 23, and the solid waste is separated in the bin by the filtering plate 23. After the liquid garbage is poured out, the solid garbage can be poured in the following two modes: after the liquid garbage is poured out, the recovery barrel is still kept in a pouring state, so that the solid garbage is concentrated on the filter plate 23 of the separating device 20, then the separating device 20 is detached, and the solid garbage on the filter plate 23 is poured into the garbage barrel; after the liquid waste is poured out, the collection vessel is returned from the pouring position to the upright position, the solid waste is returned to the bottom of the collection vessel, and then the collection vessel is rotated to pour the solid waste from the uncovered portion of the pouring port 12.

Alternatively, referring to fig. 3, the filter sheet 23 is positioned within the tub body 10 and covers at least a portion of the pouring spout 12 of the tub body 10. Part of the edge of the filter plate 23 abuts against the inner wall of the tub body 10. In this manner, the filter 23 is disposed inside the tub body 10, and the inner wall of the tub body 10 provides a supporting force for the filter 23. In case the partition 20 further includes the connection bracket 21, the inner wall of the tub body 10 provides a supporting force for the filter plate 23 together with the connection bracket 21. The filter 23 is located inside the barrel main body 10, and does not occupy the space outside the barrel main body 10, thereby avoiding the large volume of the barrel to be recycled. When the garbage can is used, the materials in the can be poured out from the covered part of the pouring opening 12, when the garbage can be poured out, the liquid garbage is poured out through the filtering holes 22 on the filtering plate 23, and the solid garbage is separated in the can by the filtering plate 23. After the liquid garbage is poured out, the solid garbage can be poured in the following two modes: after the liquid garbage is poured out, the recovery barrel is still kept in a pouring state, so that the solid garbage is concentrated on the filter plate 23 of the separating device 20, then the separating device 20 is detached, and the solid garbage on the filter plate 23 is poured into the garbage barrel; after the liquid waste is poured out, the collection vessel is returned from the pouring position to the upright position, the solid waste is returned to the bottom of the collection vessel, and then the collection vessel is rotated to pour the solid waste from the uncovered portion of the pouring port 12.

Further, referring to fig. 2, in an achievable embodiment of the present invention, the filter plate 23 is provided with a notch 24 at an edge abutting against the inner wall of the tub body 10, and the notch 24 forms a through hole with the inner wall of the tub body 10. The recess 24 prevents the liquid waste from being caught at the junction of the edge of the filter plate 23 and the inner wall of the tub body 10. For example, in the case of the absence of the notch 24, when the tub body 10 is tilted, the liquid waste flows to the junction of the edge of the filter plate 23 and the inner wall of the tub body 10, and is blocked by the filter plate 23, so that a part of the liquid waste does not flow out. When the tub body 10 is returned, the liquid trash staying at the junction is returned into the tub. The absence of the notch 24 may result in incomplete dumping of the liquid waste in the tub body 10. In the case of the notch 24, when the tub body 10 is inclined, the liquid garbage flows to a junction of the edge of the filter plate 23 and the inner wall of the tub body 10, and flows out through the through-hole formed by the notch 24 and the inner wall of the tub body 10. When the tub body 10 is returned, no liquid garbage is returned into the tub. The liquid trash in the tub body 10 can be completely dumped by providing the notch 24.

Of course, referring to fig. 1, when the filter plate 23 is located at the pouring spout 12 of the tub main body 10, a notch 24 may be provided at an edge of the filter plate 23 abutting the upper end surface of the pouring spout 12. The recess 24 prevents liquid waste from being trapped at the connection of the edge of the filter plate 23 and the end face of the pouring spout 12.

Further, in the embodiment of the present invention, the recycling bin includes, but is not limited to, a recycling bin of a washing machine, and the recycling bin of the washing machine has an air duct. In the embodiment of the present invention, the connection of the partition device 20 may be realized by an air duct. Specifically, referring to fig. 1 and 5, a wind guide pipe is disposed in the barrel main body 10, the wind guide pipe is a part of a suction channel of the cleaning machine, solid-liquid garbage on the surface to be cleaned is sucked into the recycling barrel along the wind guide pipe, and the wind guide pipe is the mounting structure 11. The separating device 20 is directly connected with the main body through the air guide pipe, so that the barrel main body 10 is not required to be additionally provided with a connecting part, the separating device 20 can be connected without changing the structure of the existing recycling barrel, and the separating device 20 can be directly connected with the air guide pipe for use.

Further, referring to fig. 2 and 5, one way that the connecting bracket 21 can be realized is that the connecting bracket 21 includes at least two supporting arms 211 and a socket 212. One end of the at least two supporting arms 211 is connected with the filter plate 23, and the other end is connected with the sleeve joint part 212. The sleeving part 212 is sleeved on the air guide pipe, and the air guide pipe is located between the at least two supporting arms 211. The connecting support 21 can be sleeved on the air guide pipe through the sleeving part 212, and the connecting support 21 can be prevented from shaking relative to the air guide pipe through the at least two supporting arms 211, so that the filter plate 23 is prevented from shaking relative to the barrel main body 10. The filter plate 23 and the connecting bracket 21 can be an integral structure.

In order to enhance the connection strength between the connecting bracket 21 and the air duct, in an embodiment of the present invention, it is possible that the at least two supporting arms 211 have elasticity, and the at least two supporting arms 211 clamp the air duct. When the air guide pipe extends into the space between the at least two support arms 211, the at least two support arms 211 are extruded, so that the at least two support arms 211 are elastically deformed, and the at least two support arms 211 clamp the air guide pipe through elastic restoring force, so that the connection strength between the connecting support 21 and the air guide pipe is improved.

In another implementation manner, the sleeve-joint part 212 has elasticity, and the wind guide pipe is clamped by the sleeve-joint part 212. When the air guide pipe is sleeved on the sleeving part 212, the sleeving part 212 is squeezed, so that the sleeving part 212 is elastically deformed, and the sleeving part 212 clamps the air guide pipe through elastic restoring force, so that the connection strength between the connecting support 21 and the air guide pipe is improved.

Of course, the supporting arm 211 and the sleeve joint part 212 may have elasticity at the same time, so that the connection strength between the connecting bracket 21 and the air guide pipe is improved under the effect of the dual elastic restoring force.

In order to enhance the connection strength between the connecting bracket 21 and the air guide pipe, in an embodiment of the present invention, an anti-slip structure is disposed on an inner wall surface (a surface facing the air guide pipe) of the connecting bracket 21, and the anti-slip structure may be implemented by at least one rib (not shown), protruding points, patterns, and the like. For example, the rib is preferably a vertical bar parallel to the length direction of the support arm 211, but the rib is not limited thereto, and the rib may be a block or the like. The connecting support 21 is sleeved on the air guide pipe, the anti-skid structure is tightly abutted to the air guide pipe, and when the connecting support 21 is sleeved with the air guide pipe, an external force is needed to overcome the friction force between the anti-skid structure and the air guide pipe. Wherein the external force may be provided by a user. Correspondingly, after the connecting bracket 21 and the air guide pipe are sleeved and mounted, the friction force enables the relative position of the connecting bracket 21 and the air guide pipe to be kept stable, and therefore the connecting strength between the connecting bracket 21 and the air guide pipe is improved.

With reference to fig. 5, in the embodiment of the present invention, the sleeve-joint portion 212 is a first arc-shaped structure, and the radian of the first arc-shaped structure is matched with the radian of the outer wall of the air guide pipe, so that the first arc-shaped structure can be tightly attached to the outer wall of the air guide pipe, and the first arc-shaped structure can further prevent the sleeve-joint portion 212 and the air guide pipe from shaking, and enhance the connection strength between the connecting bracket 21 and the air guide pipe.

To achieve a better filtering action of the filter plate 23, the mounting position of the connecting bracket 21 relative to the air duct needs to be defined. In the embodiment of the present invention, referring to fig. 5 and 6, a limiting structure 25 is disposed on the connecting bracket 21, and the limiting structure 25 abuts against the air guide pipe to limit an installation position of the connecting bracket 21 relative to the air guide pipe. When the connecting support 21 is connected to the air duct, the mounting position of the connecting support 21 can be limited through the limiting structure 25, so that the mounting position of the filter plate 23 is limited, specifically, the depth of the separating device 20 sleeved into the mounting structure 11 is limited, namely, the mounting depth of the filter plate 23 is limited, the filter plate 23 can at least cover one part of the pouring opening 12 at the limited position, and the filter plate 23 is prevented from covering the pouring path and affecting the separating effect.

In the embodiment of the present invention, the implementation manner of the limiting structure 25 includes various manners, for example, the limiting structure 25 includes, but is not limited to, a bump or a limiting plate. The stop 25 may be attached to the support arm 211 or to the filter plate 23.

In an implementation, referring to fig. 5, the limiting structure 25 is connected to the at least two supporting arms 211 and is located between the socket 212 and the filter plate 23. When the connecting bracket 21 is connected with the air guide pipe, the limiting structure 25 is abutted to the port of the air guide pipe. After the air guide pipe extends into the supporting arms 211 to a certain depth, the limiting structures 25 are abutted against the end faces of the air guide pipe, so that the air guide pipe cannot extend into the supporting arms any more, the relative position between the connecting support 21 and the air guide pipe is limited, the mounting position of the filter plate 23 is limited, and the filter plate 23 is prevented from covering the dumping path. The position limiting structure 25 and the supporting arm 211 can be an integrated structure.

When the limiting structure 25 abuts against the port of the air guide pipe, in order to prevent the limiting structure 25 from affecting the smoothness of the port of the air guide pipe, further, the limiting structure 25 is a second arc-shaped structure, and the radian of the second arc-shaped structure is matched with the radian of the port of the air guide pipe, so that the second arc-shaped structure can avoid the port of the air guide pipe, and the smoothness of the port of the air guide pipe is ensured.

With continued reference to fig. 3 and 6, in order to facilitate the detachment and installation of the partition device 20, in the embodiment of the present invention, the partition device 20 further includes an operating portion 26, the operating portion 26 is located at the opposite side of the connecting bracket 21, that is, the operating portion 26 and the connecting bracket 21 are respectively located at the opposite sides of the filter plate 23, and the operating portion 26 extends in a direction away from the connecting bracket 21. The operation portion 26 is easy for a user to hold, and thus, the partition device 20 can be more easily attached and detached without using an external tool. The operating portion 26 may be an integrally formed structure with the support arm 211.

Example 2

Correspondingly, the embodiment of the invention also provides a cleaning device, which comprises: a body and a recycling bin. Wherein, the recycling bin can be realized by the recycling bin in the above embodiment 1, and the related features in the embodiments 1 and 2 can be mutually referred. The cleaning device includes, but is not limited to, a washing machine, a vacuum cleaner, a cleaning vehicle, a cleaning robot, etc. The body in the embodiment of the invention includes but is not limited to a main body of a washing machine, a dust collector, a cleaning vehicle and a cleaning robot. Of course, the recycling bin may be used as a separate component, and is not limited thereto.

The cleaning device described in the following embodiments is described by taking a washing machine as an example, and it should be noted that the cleaning device is described by taking a washing machine as an example only, which does not limit the embodiments of the present invention.

An embodiment of the present invention further provides a cleaning apparatus, including: a body and a recycling bin.

Wherein, the body has the holding chamber. The recycling bin is located the holding intracavity, wherein, the recycling bin includes: a tub body 10 and a partition 20. A mounting structure 11 is provided in the tub body 10. The separating means 20 comprises a filter plate 23. The spacer 20 is detachably connected to the mounting structure 11. The filter plate 23 is located on a pouring path of the tub body 10.

Further, the separating device 20 further comprises a connecting bracket 21. The filter plate 23 is arranged on the connecting support 21, and the connecting support 21 extends into the barrel main body 10 and is connected with the mounting structure 11.

According to the technical scheme provided by the embodiment of the invention, on one hand, the recycling bin can be taken out from the accommodating cavity of the cleaning device so as to dump substances in the recycling bin. When the barrel main body 10 pours the materials in the barrel through the pouring path, the materials in the barrel can be filtered by the filter plates 23 on the separating device 20, part of the materials in the barrel are poured out after passing through the filter plates 23, and part of the materials are isolated in the barrel, so that the separate treatment of different materials is realized, the guarantee is provided for the subsequent treatment, and the cleaning efficiency is improved. Meanwhile, the separation device 20 is connected with the mounting structure 11, so that the connection stability of the separation device 20 can be enhanced, and the separation device 20 is prevented from being separated from the tub body 10 when the tub body 10 is dumped.

The technical solution adopted in the embodiments of the present invention is described below with reference to specific application scenarios to help understanding. The following application scenario is exemplified by a washer.

Application scenario one

When the cleaning machine works normally, the cleaning machine can take sewage and solid garbage into the recycling bin simultaneously, so that the cleaning machine is convenient and fast and reduces the labor intensity. After the cleaning machine works for a period of time, the materials in the recycling bin need to be cleaned, the recycling bin is internally provided with sewage and various fixed garbage, and the solid garbage comprises hair, sheet-shaped objects, strip-shaped objects, large-particle dust and the like.

If the recycling bin is not provided with a separating device, after the materials in the bin are poured into a sewer or a closestool, the sewer or the closestool is easily blocked by the hair, the sheet, the strip or the large-particle dust and other materials in the recycling bin, so that inconvenience is brought to people.

If the recycling bin is the recycling bin provided by the embodiment of the invention, the separating device is connected to the bin main body. When using, will incline the bucket main part earlier for the material in the bucket main part flows to the pouring opening through empting the route, and the material filters through the filter when empting the route in the bucket. The water flows out through the filtering holes and is poured into a sewer or a closestool. The solid matter is kept apart in the bucket by the filter, realizes liquid rubbish and solid refuse separation. After the water is poured, the solid garbage left in the garbage can be poured into the garbage can.

Application scenario two

In an application scenario i, the recycling bin is provided by the embodiment of the invention, when the recycling bin dumps substances in the bin, the connecting bracket provides a supporting force for the whole separating device, and the separating device is prevented from being separated from the bin main body when the bin main body dumps the substances. Meanwhile, the connecting bracket extends into the barrel main body, so that the space outside the barrel main body is prevented from being occupied.

Application scenario three

In an application scenario one, the recycling bin is provided in the embodiment of the present invention, and when the recycling bin dumps the substance in the bin, solid waste is left on the filter plate. At this time, the separating device can be detached from the barrel body, and cleaning is convenient. After cleaning, the separating device is arranged on the barrel main body.

Finally, it should be noted that: the above examples are only intended to illustrate the technical solution of the present invention, but not to limit it; although the present invention has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some technical features may be equivalently replaced; and such modifications or substitutions do not depart from the spirit and scope of the corresponding technical solutions of the embodiments of the present invention.

Claims (15)

1. A recycling bin, comprising:

the barrel comprises a barrel main body, wherein a mounting structure is arranged in the barrel main body and adopts an air guide pipe;

a partition located within the tub body, the partition including a filter plate; the separation device is detachably connected with the mounting structure and comprises a sleeve-joint part which is sleeved on the air guide pipe, a part of the separation device corresponding to the outlet of the air guide pipe is not provided with a filter hole, and the separation device shields the outlet of the air guide pipe through the part which is not provided with the filter hole along the axial direction of the air guide pipe; the filter plate is located on a pouring path of the tub body.

2. The recycling bin of claim 1, wherein said partition means further comprises a connecting bracket;

the filter sets up on the linking bridge, the linking bridge stretches into in the bucket main part with mounting structure is connected.

3. The recovery bucket according to claim 1, wherein said filter panel is located at a pour opening of said bucket body and covers at least a portion of said pour opening;

part of the edge of the filter plate abuts against the upper end face of the pouring opening.

4. The recovery bucket according to claim 1, wherein said filter panels are positioned within said bucket body and cover at least a portion of a pour opening of said bucket body;

part of the edge of the filter plate is abutted against the inner wall of the barrel body.

5. The recycling bin according to claim 4, wherein the edge of said filter plate abutting against the inner wall of said bin body is provided with a notch forming a through hole with the inner wall of said bin body.

6. The recycling bin of claim 2, wherein said connecting bracket includes at least two support arms and said socket;

one end of the at least two supporting arms is connected with the filter plate, the other end of the at least two supporting arms is connected with the sleeving part, and the air guide pipe is located between the at least two supporting arms.

7. The recycling bin of claim 6, wherein the at least two support arms are elastic and clamp the air duct; and/or

The sleeving part is elastic and clamps the air guide pipe.

8. The recycling bin as claimed in claim 6, wherein an anti-slip structure is arranged on the inner wall surface of the connecting bracket, the connecting bracket is sleeved on the air guide pipe, and the anti-slip structure is tightly abutted to the air guide pipe.

9. The recycling bin of claim 6, wherein the sleeving part is a first arc-shaped structure, and the radian of the first arc-shaped structure is matched with the radian of the outer wall of the air guide pipe.

10. The recycling bin of claim 6, wherein the connecting bracket is provided with a limiting structure, and the limiting structure abuts against the air guide pipe to limit the installation position of the connecting bracket relative to the air guide pipe.

11. The recycling bin of claim 10, wherein said limiting structure is connected to said at least two support arms and located between said sleeve and said filter plate;

when the connecting support is connected with the air guide pipe, the limiting structure is abutted to the port of the air guide pipe.

12. The recycling bin of claim 11, wherein the limiting structure is a second arc-shaped structure, and the radian of the second arc-shaped structure is matched with the radian of the port of the air guide pipe.

13. The recycling bin of claim 6, wherein said partition means includes an operating portion located on an opposite side of said connecting bracket, said operating portion extending away from said connecting bracket.

14. A cleaning device, comprising:

a body having an accommodating cavity;

the recycling bin, the recycling bin is located the holding intracavity, wherein, the recycling bin includes:

the barrel comprises a barrel main body, wherein a mounting structure is arranged in the barrel main body, and the mounting structure adopts an air guide pipe;

a partition located within the tub body, the partition including a filter plate; the separation device is detachably connected with the mounting structure and comprises a sleeve-joint part which is sleeved on the air guide pipe, a part of the separation device corresponding to the outlet of the air guide pipe is not provided with a filter hole, and the separation device shields the outlet of the air guide pipe through the part which is not provided with the filter hole along the axial direction of the air guide pipe; the filter plate is located on a pouring path of the tub body.

15. The cleaning apparatus defined in claim 14, wherein the partition further comprises a connecting bracket;

the filter sets up on the linking bridge, the linking bridge stretches into in the bucket main part with mounting structure connects.

Images