CN220866253U - Dustbin - Google Patents

Abstract

The utility model discloses a garbage can, which comprises a can body, a can cover component and a handle component; the garbage can comprises a can body, a can cover assembly and a can cover, wherein the can body is provided with a garbage inlet, and the can cover assembly is rotationally connected with the can body so as to enable the can cover assembly to switch the garbage inlet; the handle assembly is rotationally connected with the barrel body, so that the handle assembly has a lifting position and a free position; the handle assembly is in power connection with the barrel cover assembly, so that the handle assembly drives the barrel cover assembly to rotate relative to the barrel body, and the barrel cover assembly can open or close the garbage inlet. When the garbage can is used, the handle assembly can drive the can cover assembly to rotate relative to the can body through the handle assembly, so that the can cover assembly can open or close the garbage inlet, a user does not need to be in direct contact with the can cover assembly, and the can cover assembly polluted by garbage is prevented from polluting hands.

Description

Dustbin

Technical Field

The utility model belongs to the field of articles for daily use, and particularly relates to a garbage can.

Background

The garbage can is one of necessary articles in family life/daily office, and a can cover is arranged on the garbage can in order to prevent odor generated by garbage from overflowing from the garbage can. However, during use, the put-in waste may dirty the lid and if the lid is opened by hand, the hands may be soiled.

Disclosure of utility model

The utility model mainly aims to provide a dustbin, which solves the problem that hands are easy to dirty when a barrel cover is opened by the existing dustbin.

In order to solve the problems, the utility model adopts the following technical scheme:

a garbage can comprises a can body, a can cover component and a handle component;

The garbage can comprises a can body, a can cover assembly and a can cover, wherein the can body is provided with a garbage inlet, and the can cover assembly is rotationally connected with the can body so as to enable the can cover assembly to switch the garbage inlet;

The handle assembly is rotationally connected with the barrel body, so that the handle assembly has a lifting position and a free position;

The handle assembly is in power connection with the barrel cover assembly, so that the handle assembly drives the barrel cover assembly to rotate relative to the barrel body, and the barrel cover assembly can open or close the garbage inlet.

In one possible embodiment, the handle assembly is integrally formed with the lid assembly; or, the handle component is fixedly connected with the barrel cover component.

In one possible embodiment, the handle assembly is removably connected to the lid assembly.

In one possible embodiment, the handle assembly is detachably connected with the barrel cover assembly through a connecting assembly;

the connecting assembly comprises a first connecting piece and a second connecting piece which are detachably connected, the first connecting piece is arranged on the handle assembly, and the second connecting piece is arranged on the barrel cover assembly.

In a possible implementation manner, the handle assembly is rotatably connected with the tub body through a first rotating shaft, and the tub cover assembly is rotatably connected with the tub body through a second rotating shaft.

In a possible implementation manner, the first rotating shaft is the first connecting piece, the second rotating shaft is the second connecting piece, the first rotating shaft is sleeved with the second rotating shaft, and a matching surface between the first rotating shaft and the second rotating shaft is non-circular; and/or the number of the groups of groups,

The first rotating shaft and the second rotating shaft are coaxially arranged, the first connecting piece is arranged on one side of the first rotating shaft, and the second connecting piece is correspondingly arranged on one side of the second rotating shaft.

In one possible embodiment, the handle assembly is fastened to the outside of the tub.

In a possible implementation manner, a first limiting component is arranged between the handle component and the barrel body and is used for limiting the handle component to move to the outer side of the barrel body.

In a possible implementation manner, the first limiting component comprises a limiting groove and a limiting block, the limiting block is arranged in the limiting groove and slides in the limiting groove, and the end part of the limiting block is provided with a first barb which limits the limiting block to move out of the limiting groove;

One of the limiting grooves and the limiting blocks is arranged on the handle assembly, and the other one of the limiting grooves and the limiting blocks is arranged on the barrel body.

In a possible implementation manner, the handle assembly is rotatably connected with the barrel body through a first rotating shaft, the handle assembly and the barrel body are provided with an auxiliary operation structure positioned at one side of the first rotating shaft, and the auxiliary operation structure is used for assisting the first rotating shaft to stably operate.

In a possible embodiment, the auxiliary running structure comprises a sliding block and a sliding groove, wherein the sliding block can slide in the sliding groove;

one of the sliding block and the sliding groove is arranged on the handle assembly, and the other is arranged on the barrel body.

In a possible embodiment, the end of the slider has a second barb that limits the movement of the slider out of the chute.

In one possible embodiment, the barrel cover assembly is arranged on the inner side of the barrel body, and the handle assembly is arranged on the outer side of the barrel body.

In one possible embodiment, the lid assembly includes a lid and a second limiting member, the lid is rotatably connected to the tub, and the second limiting member is disposed on the lid and is configured to limit a maximum rotation angle of the lid.

In a possible implementation manner, the second limiting piece comprises a flange which is formed by extending outwards from the front end of the cover body, and when the garbage inlet is closed, the lower edge of the flange is abutted with the edge of the garbage inlet; and/or when the garbage inlet is fully opened, the upper edge of the flange is abutted with the edge of the garbage inlet.

In one possible embodiment, the cover has a sector-shaped cross section, and/or,

The central angle of the cross section of the cover body is smaller than or equal to 90 degrees.

In one possible embodiment, the connection part of the handle assembly and the barrel body is disc-shaped.

In a possible implementation manner, the barrel body comprises an inner barrel and an outer cover, the outer cover is sleeved on the outer side of the inner barrel, the garbage inlet is formed in the outer cover, the barrel cover component is arranged on the inner side of the outer cover, and the handle component is arranged on the outer side of the outer cover.

In a possible embodiment, the lid assembly is closed when the handle assembly is in the lifted position, and is opened when the handle assembly is in the free position; or alternatively, the first and second heat exchangers may be,

When the handle assembly is in the lifting position, the barrel cover assembly is opened, and when the handle assembly is in the free position, the barrel cover assembly is closed.

The beneficial effects of adopting above-mentioned technical scheme to produce lie in: the barrel cover component is rotationally connected with the barrel body, so that the barrel cover component can open and close the garbage inlet of the barrel body; the handle assembly is rotatably connected with the barrel body, so that the handle assembly has a lifting position and a free position; and the handle assembly is also in power connection with the barrel cover assembly, and when the garbage can is used, the handle assembly can drive the barrel cover assembly to rotate relative to the barrel body through the action force applied to the handle assembly, so that the barrel cover assembly can open or close the garbage inlet, and a user does not need to be in direct contact with the barrel cover assembly, so that the barrel cover assembly polluted by garbage is prevented from polluting hands.

Drawings

The accompanying drawings, which are included to provide a further understanding of the utility model, illustrate and explain the utility model and are not to be construed as limiting the utility model.

Fig. 1 is a schematic diagram of the overall structure of a dustbin provided by an embodiment of the present utility model (the dustbin is closed at the inlet);

Fig. 2 is a schematic diagram of the overall structure of a dustbin provided by the embodiment of the utility model (the dustbin is completely opened);

fig. 3 is an exploded view of a structure of a trash can according to an embodiment of the present utility model;

FIG. 4 is a schematic view of a lid assembly in a trash can according to an embodiment of the present utility model;

FIG. 5 is a schematic view of a handle assembly in a trash can according to an embodiment of the present utility model;

FIG. 6 is an enlarged view of a portion of FIG. 5 at A;

FIG. 7 is a schematic diagram of the connection of a lid assembly and a handle assembly in a trash can according to an embodiment of the present utility model;

FIG. 8 is a partial enlarged view at B in FIG. 7;

FIG. 9 is a schematic diagram of the connection of a lid assembly to a can body in a trash can according to an embodiment of the present utility model;

Fig. 10 is a partial enlarged view at C in fig. 9.

In the figure:

1. A tub body; 11. an inner barrel; 12. an outer cover; 100. a garbage inlet; 2. a barrel cover assembly; 21. a cover body; 22. a second limiting piece; 221. a flange; 3. a handle assembly; 31. a first rotation shaft; 32. a second rotation shaft; 4. a connection assembly; 41. a first connector; 42. a second connector; 5. a first limit assembly; 51. a limiting block; 52. a limit groove; 6. an auxiliary operation structure; 61. a slide block; 62. and a sliding groove.

Detailed Description

The present utility model will be described in further detail with reference to the following examples in order to make the objects, technical solutions and advantages of the present utility model more apparent. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the scope of the utility model.

In the description of the present utility model, it should be clearly understood that terms such as "vertical", "horizontal", "longitudinal", "front", "rear", "left", "right", "upper", "lower", "horizontal", and the like indicate an orientation or a positional relationship based on that shown in the drawings, and are merely for convenience of describing the present utility model, and do not mean that the apparatus or element referred to must have a specific orientation or position, and thus should not be construed as limiting the present utility model.

In the description of the present utility model, it should be noted that, unless explicitly specified and limited otherwise, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be either fixedly connected, detachably connected, or integrally connected, for example; can be mechanically or electrically connected; can be directly connected or indirectly connected through an intermediate medium. The specific meaning of the above terms in the present utility model will be understood in specific cases by those of ordinary skill in the art.

Examples

The embodiment of the utility model provides a garbage can, which is shown in fig. 1, 2 and 3, and comprises a can body 1, a can cover assembly 2 and a handle assembly 3.

The garbage inlet 100 is arranged on the barrel body 1, and the barrel cover component 2 is rotationally connected with the barrel body 1, so that the barrel cover component 2 can open and close the garbage inlet 100.

The handle assembly 3 is rotatably connected with the tub 1 such that the handle assembly 3 has a lifting position and a free position. Wherein the lifting position is a fixed position, and a user can lift the whole garbage can through the lifting handle assembly 3 at the lifting position. The free position is not fixed but is actually equivalent to a movable range, and the handle assembly 3 in the movable range can rotate freely around an axis to any point in the movable range. As shown in fig. 1, the lifting position may be the handle assembly 3 in an upright or near upright position.

The handle assembly 3 is in power connection with the bucket cover assembly 2, so that the bucket cover assembly 2 is driven to rotate relative to the bucket body 1 through the handle assembly 3, and the bucket cover assembly 2 can open or close the garbage inlet 100. The handle assembly 3 and the barrel cover assembly 2 can be directly connected, and also can be connected through a transmission mechanism (at the moment, the handle assembly 3 is connected with the input end of the transmission mechanism, and the barrel cover assembly 2 is connected with the output end of the transmission mechanism).

After the technical scheme is adopted, when the garbage can is used, the handle assembly 3 only needs to apply acting force to the handle assembly 3, the barrel cover assembly 2 can be driven to rotate relative to the barrel body 1 through the handle assembly 3, and when the handle assembly 3 rotates to the lifting position, the barrel cover assembly 2 is driven to rotate so as to close the garbage inlet 100; when the handle assembly 3 is rotated to the free position, the lid assembly 2 is rotated to open the waste inlet 100. Or when the handle assembly 3 rotates to the lifting position, the barrel cover assembly 2 is driven to rotate so as to open the garbage inlet 100; when the handle assembly 3 is rotated to the free position, the lid assembly 2 is rotated to close the waste inlet 100. The user controls the opening and closing of the garbage inlet 100 by rotating the handle assembly 3, and the user does not need to directly contact with the barrel cover assembly 2, so that the barrel cover assembly 2 polluted by garbage is prevented from polluting hands.

In one possible embodiment, the handle assembly 3 may be configured to: when the handle assembly 3 is in the lifting position, the barrel cover assembly 2 is closed, and when the handle assembly 3 is in the free position, the barrel cover assembly 2 is half-opened or fully opened. Through this kind of structural design, handle subassembly 3 not only can be used to open or close bung subassembly 2, and the user can also rotate handle subassembly 3 to carry the position to carry the garbage bin through snatching handle subassembly 3, because bung subassembly 2 is in the closed condition this moment, consequently the rubbish in staving 1 also can not spill because of rocking in the handling.

In another possible embodiment, the handle assembly 3 may be further configured to: when the handle assembly 3 is in the lifting position, the barrel cover assembly 2 is half-opened or completely opened, and when the handle assembly 3 is in the free position, the barrel cover assembly 2 is closed.

Taking the case that the bucket cover assembly 2 is closed when the handle assembly 3 is at the lifting position, and the bucket cover assembly 2 is half-opened or fully opened when the handle assembly 3 is at the free position, as shown in fig. 1, the handle assembly 3 is at the lifting position, and at this time, the handle assembly 3 is in a vertical state or an approximately vertical state, and the bucket cover assembly 2 is closed. As shown in fig. 2, the handle assembly 3 is in a free position, the handle assembly 3 is in a horizontal or nearly horizontal position, and the lid assembly 2 is opened. The handle assembly 3 is rotated to switch between a free position and a lifting position, so that the bucket cover assembly 2 is driven to switch the garbage inlet 100 between a closed state and an open state.

In practical applications, the handle assembly 3 and the lid assembly 2 may be integrally formed, for example, by casting, injection molding, 3d printing, etc.

The handle assembly 3 and the lid assembly 2 may also be designed for a fixed connection, such as by gluing, welding, riveting, etc.

In addition, the handle assembly 3 and the barrel cover assembly 2 can be designed to be detachably connected in a split mode, such as clamping, screwing and the like.

In one embodiment, the handle assembly 3 is detachably connected to the lid assembly 2 by a connecting assembly 4.

Specifically, the connecting assembly 4 comprises a first connecting piece 41 and a second connecting piece 42, wherein the first connecting piece 41 and the second connecting piece 42 are detachably connected, the first connecting piece 41 is arranged on the handle assembly 3, and the second connecting piece 42 is arranged on the barrel cover assembly 2. Through above-mentioned structural design to handle subassembly 3 and bung subassembly 2 assemble in the production process, and if handle subassembly 3 or bung subassembly 2 appear damaging in the follow-up use, but also convenient to detach changes.

As shown in fig. 4, 5 and 6, the handle assembly 3 is rotatably connected to the tub 1 through a first rotation shaft 31, and the tub cover assembly 2 is rotatably connected to the tub 1 through a second rotation shaft 32.

In one embodiment, the first rotating shaft 31 is a first connecting member 41, and the second rotating shaft 32 is a second connecting member 42. The first rotating shaft 31 is sleeved with the second rotating shaft 32. For example, a hole extending in the axial direction of the second rotating shaft 32 may be formed at one end of the second rotating shaft 32, so that the first rotating shaft 31 is inserted into the second rotating shaft 32. Alternatively, as shown in fig. 7 and 8, a hole extending in the axial direction of the first rotating shaft 31 may be formed at one end of the first rotating shaft 31, so that the second rotating shaft 32 is inserted into the first rotating shaft 31.

After the first rotating shaft 31 is sleeved with the second rotating shaft 32, the matching surface between the first rotating shaft 31 and the second rotating shaft 32 is non-circular (such as D-shaped, triangular, rectangular and the like), so that synchronous rotation of the handle assembly 3 and the barrel cover assembly 2 is realized, and relative sliding between the handle assembly 3 and the barrel cover assembly 2 is prevented.

In another embodiment, the first rotating shaft 31 and the second rotating shaft 32 are coaxially arranged, the first connecting member 41 is disposed on one side of the first rotating shaft 31, and the second connecting member 42 is correspondingly disposed on one side of the second rotating shaft 32. The first connecting piece 41 can be eccentrically arranged with the first rotating shaft 31, the second connecting piece 42 can be eccentrically arranged with the second rotating shaft 32, but when the first connecting piece 41 and the second connecting piece 42 rotate, the first connecting piece 41 and the second connecting piece 42 still rotate around the axes of the first rotating shaft 31 and the second rotating shaft 32, which is equivalent to taking the first connecting piece 41 as an output end of the handle assembly 3 and the second connecting piece 42 as an input end of the barrel cover assembly 2, and the transmission path of the driving force is as follows: handle assembly 3- & gtfirst pivot axis 31- & gtfirst connector 41- & gtsecond connector 42- & gtsecond pivot axis 32- & gtlid assembly 2.

In one embodiment, the handle assembly 3 is rotatably connected to the tub 1 through a first rotation shaft 31, and the handle assembly 3 and the tub 1 are provided with an auxiliary operation structure 6 located at one side of the first rotation shaft 31, and the auxiliary operation structure is used for assisting the smooth operation of the first rotation shaft 31.

Specifically, the auxiliary running structure 6 includes a slider 61 and a slide groove 62, and the slider 61 is slidable in the slide groove 62.

One of the slide 61 and the slide groove 62 is provided on the handle assembly 3, and the other is provided on the tub 1. That is, when the slider 61 is provided on the handle assembly 3, the chute 62 is provided on the tub 1; when the slider 61 is disposed on the tub 1, the chute 62 is disposed on the handle assembly 3.

Preferably, the cross-sectional width of the sliding block 61 is only slightly smaller than that of the sliding groove 62, so that the sliding block 61 can slide smoothly, the matching tightness of the sliding block 61 and the sliding groove 62 is improved, and the shaking amplitude of the handle assembly 3 during rotation is reduced.

Taking the example that the sliding blocks 61 are arranged on the handle assembly 3 and the sliding grooves 62 are arranged on the barrel body 1 as shown in fig. 6 and 10, two auxiliary operation structures 6 are arranged, wherein the two sliding blocks 61 are symmetrically arranged on two sides of the first rotating shaft 31 on the handle assembly 3, and correspondingly, the two sliding grooves 62 are symmetrically arranged on the barrel body 1. After the handle assembly 3 is connected with the barrel body 1, the sliding block 61 is inserted into the sliding groove 62, and when the handle assembly 3 rotates relative to the barrel body 1, the sliding block 61 is tightly clung to the inner wall of the sliding groove 62 to move, so that the handle assembly 3 is ensured to stably rotate around a certain axis, and the handle assembly 3 and the barrel cover assembly 2 are more stable in operation.

Further, the end of the sliding block 61 is provided with a second barb (not shown in the figure), and the second barb protrudes out of the edge of the sliding groove 62 after the end of the sliding block 61 protrudes out of the sliding groove 62, so as to prevent the sliding block 61 from being separated from the sliding groove 62, and ensure that the auxiliary operation structure continuously plays a role.

In one possible embodiment, the handle assembly 3 is fastened to the outside of the tub 1.

Further, the connecting part of the handle component 3 and the barrel body 1 is disc-shaped.

Further, a first limiting component 5 for limiting the handle component 3 to move to the outer side of the barrel body 1 is arranged between the handle component 3 and the barrel body 1.

Specifically, the first limiting component 5 includes a limiting groove 52 and a limiting block 51, the limiting block 51 is disposed in the limiting groove 52 and slides in the limiting groove 52, and the end portion of the limiting block 51 is provided with a first barb, and the first barb limits the limiting block 51 to move out of the limiting groove 52.

One of the limit groove 52 and the limit block 51 is provided on the handle assembly 3, and the other is provided on the tub 1. That is, when the limiting groove 52 is provided on the handle assembly 3, the limiting block 51 is provided on the tub 1; when the limiting groove 52 is arranged on the barrel body 1, the limiting block 51 is arranged on the handle assembly 3.

Preferably, the section width of the limiting block 51 is only slightly smaller than the section width of the limiting groove 52, so that the smooth sliding of the limiting block 51 is ensured, the tightness of the limiting block and the limiting groove 52 is improved, the stress of the handle assembly 3 and the barrel cover assembly 2 is balanced, and the shaking amplitude of the handle assembly 3 during rotation is reduced.

Taking the limiting block 51 arranged on the handle assembly 3 and the limiting groove 52 arranged on the barrel body 1 as an example for explanation, as shown in fig. 6 and 10, after the handle assembly 3 is connected with the barrel body 1, the limiting block 51 is inserted into the limiting groove 52, the end part of the limiting block 51 extends out of the limiting groove 52, and the second barb at the end part of the limiting block 51 protrudes out of the edge of the limiting groove 52, so that the limiting block 51 is prevented from falling out of the limiting groove 52, and the handle assembly 3 is prevented from moving outwards to be separated from the barrel body 1. The structure can also lead the lifting handle component 3 and the barrel cover component 2 to be stressed uniformly, and the operation is more stable.

In one possible embodiment, the lid assembly 2 is disposed inside the tub 1 and the handle assembly 3 is disposed outside the tub 1. The arrangement mode can avoid the garbage in the garbage can body 1 and volatile matters polluting the handle assembly 3, and can enable the can cover assembly 2 to be hidden in the garbage can body 1 after being completely opened, so that the occupied space is reduced, and the overall attractiveness of the garbage can is improved.

The barrel body 1 can be of a single-layer structure or a double-layer structure. When staving 1 is bilayer structure, including interior bucket 11 and dustcoat 12, dustcoat 12 detachable locates the interior bucket 11 outside, and rubbish is thrown into mouth 100 and is located on dustcoat 12, and dustcoat 12 inboard is located to bung subassembly 2, and the dustcoat 12 outside is located to handle subassembly 3. The put garbage is contained in the inner tub 11, and when the garbage is poured, the outer cover 12 is removed, and the inner tub 11 is poured alone.

The barrel cover assembly 2 comprises a cover body 21 and a second limiting piece 22, wherein the cover body 21 is rotationally connected with the barrel body 1, and the second limiting piece 22 is arranged on the cover body 21 and used for limiting the maximum rotation angle of the cover body 21.

Further, as shown in fig. 4, the second stopper 22 includes a flange 221 formed to extend outward from the front end of the cover 21, and when the garbage inlet 100 is closed, the lower edge of the flange 221 abuts against the edge of the garbage inlet 100, and when the garbage inlet 100 is fully opened, the upper edge of the flange 221 abuts against the edge of the garbage inlet 100.

Illustratively, the outer cover 12 is sleeved outside the inner barrel 11, the handle assembly 3 is arranged outside the outer cover 12 and is rotatably connected with the outer cover 12, the garbage inlet 100 is arranged on the outer cover 12, and the cover body 21 is arranged at the garbage inlet 100 and is positioned inside the outer cover 12. As shown in fig. 1, the handle assembly 3 is in the lifting position, at this time, the handle assembly 3 is in an approximately vertical state, the lower edge of the upper flange 221 of the cover 21 abuts against the edge of the garbage inlet 100, and the garbage inlet 100 is closed. As shown in fig. 2, the handle assembly 3 is in a free position, the handle assembly 3 is in an approximately horizontal state, the upper edge of the upper flange 221 of the cover 21 is abutted against the edge of the garbage inlet 100, and the garbage inlet 100 is fully opened.

Further, the cross section of the cover body 21 is fan-shaped, and the central angle of the cross section of the cover body 21 is smaller than or equal to 90 degrees, so that the garbage inlet 100 has a larger opening area in a completely opened state, garbage can be conveniently put in, and the cover body 21 does not occupy the inner space of the barrel body 1 too much at this time, and the cover body 21 is prevented from being in contact with the garbage in the barrel body 1.

The operation process of the embodiment of the utility model is (taking the example that when the handle assembly 3 is in the lifting position, the barrel cover assembly 2 is closed, and when the handle assembly 3 is in the free position, the barrel cover assembly 2 is opened):

① Rotating the handle assembly 3 to drive the cover body 21 to rotate until the handle assembly 3 is close to a horizontal state, and abutting the upper edge of the flange 221 on the cover body 21 with the edge of the garbage inlet 100 to fully open the garbage inlet 100;

② Putting garbage into the inner barrel 11;

③ Rotating the handle assembly 3 to drive the cover body 21 to rotate until the handle assembly 3 is close to a vertical state, wherein the lower edge of the flange 221 on the cover body 21 is abutted against the edge of the garbage inlet 100, so that the garbage inlet 100 is closed;

④ When dumping garbage, the inner barrel 11 is separated from the outer cover 12, and the inner barrel 11 is dumped independently.

Other detailed structures and operations of the trash can according to the embodiments of the present utility model are known to those skilled in the art, and will not be described herein.

The present utility model is not limited to the above-mentioned embodiments, and any changes or substitutions that can be easily understood by those skilled in the art within the technical scope of the present utility model are intended to be included in the scope of the present utility model. Therefore, the protection scope of the present utility model should be subject to the protection scope of the claims.

Claims (19)

1. The garbage can is characterized by comprising a can body, a can cover component and a handle component;

The garbage can comprises a can body, a can cover assembly and a can cover, wherein the can body is provided with a garbage inlet, and the can cover assembly is rotationally connected with the can body so as to enable the can cover assembly to switch the garbage inlet;

The handle assembly is rotationally connected with the barrel body, so that the handle assembly has a lifting position and a free position;

The handle assembly is in power connection with the barrel cover assembly, so that the handle assembly drives the barrel cover assembly to rotate relative to the barrel body, and the barrel cover assembly can open or close the garbage inlet.

2. The trash can of claim 1 wherein the handle assembly is integrally formed with the lid assembly; or, the handle component is fixedly connected with the barrel cover component.

3. The trash can of claim 1 wherein the handle assembly is removably connected to the lid assembly.

4. A dustbin according to claim 3, wherein the handle assembly is detachably connected to the lid assembly by a connecting assembly;

the connecting assembly comprises a first connecting piece and a second connecting piece which are detachably connected, the first connecting piece is arranged on the handle assembly, and the second connecting piece is arranged on the barrel cover assembly.

5. The trash can of claim 4 wherein the handle assembly is rotatably connected to the can body by a first rotational axis and the can lid assembly is rotatably connected to the can body by a second rotational axis.

6. The trash can of claim 5, wherein the first rotating shaft is the first connecting piece, the second rotating shaft is the second connecting piece, the first rotating shaft is sleeved with the second rotating shaft, and a mating surface between the first rotating shaft and the second rotating shaft is non-circular; and/or the number of the groups of groups,

The first rotating shaft and the second rotating shaft are coaxially arranged, the first connecting piece is arranged on one side of the first rotating shaft, and the second connecting piece is correspondingly arranged on one side of the second rotating shaft.

7. The trash can of any one of claims 1-6, wherein the handle assembly is fastened to an outside of the can body.

8. The trash can of claim 7, wherein a first limiting assembly is disposed between the handle assembly and the can body, the first limiting assembly being configured to limit movement of the handle assembly to an outside of the can body.

9. The trash can of claim 8, wherein the first stop assembly comprises a stop slot and a stop block, the stop block being disposed to slide within the stop slot and having a first barb at an end thereof, the first barb limiting removal of the stop block from the stop slot;

One of the limiting grooves and the limiting blocks is arranged on the handle assembly, and the other one of the limiting grooves and the limiting blocks is arranged on the barrel body.

10. The trash can of claim 5 or 6, wherein the handle assembly and the can body are provided with an auxiliary operation structure at one side of the first rotation shaft, the auxiliary operation structure being for assisting the first rotation shaft to operate smoothly.

11. The trash can of claim 10 wherein the auxiliary travel structure comprises a slide and a chute, the slide being slidable within the chute;

one of the sliding block and the sliding groove is arranged on the handle assembly, and the other is arranged on the barrel body.

12. The trash can of claim 11 wherein the end of the slider has a second barb that limits the slider from moving out of the chute.

13. The trash can of any one of claims 1-6, 8, 9, 11, 12 wherein the can lid assembly is located inside the can body and the handle assembly is located outside the can body.

14. The trash can of claim 13 wherein the can lid assembly comprises a cover rotatably connected to the can body and a second stop member disposed on the cover for limiting a maximum angle of rotation of the cover.

15. The trash can of claim 14, wherein the second stopper includes a flange formed to extend outwardly from the front end of the cover, a lower edge of the flange abutting against a rim of the trash inlet when the trash inlet is closed; and/or when the garbage inlet is fully opened, the upper edge of the flange is abutted with the edge of the garbage inlet.

16. The trash can of claim 14, wherein the cover is fan-shaped in cross section and/or,

The central angle of the cross section of the cover body is smaller than or equal to 90 degrees.

17. The trash can of any one of claims 1-6, 8, 9, 11, 12, 14-16 wherein the connection of the handle assembly to the can body is disc-shaped.

18. The trash can of any one of claims 1-6, 8, 9, 11, 12, 14-16 wherein the can body comprises an inner can and an outer can, the outer can is sleeved outside the inner can, the trash inlet is formed in the outer can, the can lid assembly is formed inside the outer can, and the handle assembly is formed outside the outer can.

19. The trash can of any one of claims 1-6, 8, 9, 11, 12, 14-16 wherein the lid assembly is closed when the handle assembly is in the lifted position and the lid assembly is open when the handle assembly is in the free position; or alternatively, the first and second heat exchangers may be,

When the handle assembly is in the lifting position, the barrel cover assembly is opened, and when the handle assembly is in the free position, the barrel cover assembly is closed.