CN111806927A

CN111806927A - Solid-liquid separation garbage bin device

Info

Publication number: CN111806927A
Application number: CN202010700904.0A
Authority: CN
Inventors: 袁建军
Original assignee: Pujiang Secondary Environmental Protection Technology Co ltd
Current assignee: Pujiang Secondary Environmental Protection Technology Co ltd
Priority date: 2020-07-20
Filing date: 2020-07-20
Publication date: 2020-10-23

Abstract

The invention discloses a solid-liquid separation garbage can device; the garbage bin comprises a main body bin, a garbage cover rotating cavity with an upward opening is arranged in the main body bin, a power transmission cavity is arranged on the rear side of the garbage cover rotating cavity, a gear power cavity is arranged on the rear side of the power transmission cavity, a power separation cavity is arranged on the rear side of the gear power cavity, an extrusion power cavity extending towards the lower left side is arranged on the rear side of the power separation cavity, the action of closing a garbage bin cover plate is used as power, the garbage is crushed, the storage capacity of the garbage bin is increased, the crushed garbage is extruded into a liquid garbage bin by waste liquid under the extrusion action of an extrusion plate, the garbage is prevented from being mixed and rotted too fast, solid garbage residues are pushed into the solid garbage bin under the vibration effect of an oscillation wheel and the effect of an extrusion plate, the solid garbage and liquid garbage classification work is finished, the storage space of the garbage can be saved, and the.

Description

Solid-liquid separation garbage bin device

Technical Field

The invention relates to the technical field of sanitation correlation, in particular to a solid-liquid separation garbage can device.

Background

Present garbage bin is when using, because most of rubbish is comparatively fluffy, and is bulky, often can lead to needing manually to press and just to make space make full use of, if not in time clear up will lead to rubbish to spill over the condition of dustbin, simultaneously, on the other hand when solid-liquid state rubbish together is lost into the garbage bin in, often can lead to rubbish to mix the back fast rotten smelly, thereby influence the appearance of the city influence and use experience.

Disclosure of Invention

Aiming at the technical defects, the invention provides a solid-liquid separation garbage can device which can overcome the defects.

The invention relates to a solid-liquid separation garbage can device which comprises a main body box, wherein a garbage cover rotating cavity with an upward opening is arranged in the main body box, a power transmission cavity is arranged at the rear side of the garbage cover rotating cavity, a gear power cavity is arranged at the rear side of the power transmission cavity, a power separation cavity is arranged at the rear side of the gear power cavity, an extrusion power cavity extending towards the left lower side is arranged at the rear side of the power separation cavity, a vibration belt pulley cavity positioned at the right side of the extrusion power cavity is also arranged at the rear side of the power separation cavity, the vibration belt pulley cavity extends downwards, an object pushing plate power cavity extending downwards is arranged at the rear side of the vibration belt pulley cavity, a feeding cavity is communicated with the lower side of the garbage cover rotating cavity, a gear cavity is communicated with the lower side of the feeding cavity, a garbage separation cavity is communicated with the lower side of the gear cavity, and a squeezing plate transmission cavity positioned, the garbage separating chamber is characterized in that a vibration chamber is communicated with the right side of the garbage separating chamber, an object pushing plate working chamber is communicated with the front side of the garbage separating chamber, a bevel gear transmission chamber is arranged on the right side of the object pushing plate working chamber, a garbage bin chamber with a leftward opening and a downward opening is communicated with the lower side of the garbage separating chamber, an extrusion plate is communicated with the rear side of the garbage separating chamber, an extrusion plate transmission shaft which extends leftward into the extrusion plate transmission chamber is connected with the right end wall of the extrusion plate transmission chamber in a rotating fit manner, an extrusion plate sleeve which is connected with the extrusion plate transmission chamber in a sliding fit manner is connected onto the extrusion plate transmission shaft in a threaded fit manner, a sliding shaft which is positioned in the garbage separating chamber is fixedly connected onto the lower end face of the extrusion plate sleeve, a sliding chamber with a rightward opening is arranged in the sliding shaft, and an extrusion, the extrusion pushing plate is connected with a fixed shaft which extends backwards to be connected with the extrusion plate in a sliding fit manner in a rotating fit manner.

On the basis of the technical scheme, rubbish lid rotates chamber rear end wall normal running fit and is connected and extends to backward the power transmission intracavity and extends to forward the driving shaft of rubbish lid rotation intracavity, rubbish lid rotate the intracavity be equipped with driving shaft fixed connection's rubbish lid, rubbish covers the terminal fixedly connected with handle in terminal left side of the up end, the terminal fixedly connected with bearing of driving shaft rear side, normal running fit is connected with drive gear on the bearing, power transmission chamber rear end wall normal running fit is connected with and extends to forward the power transmission intracavity and extend backward and run through gear power chamber extremely the power transmission axle in the power separation intracavity, the terminal fixedly connected with of power transmission axle front side with the translation drive gear of drive gear meshing.

On the basis of the technical scheme, the front and back symmetrical fixed connection on the power transmission shaft is provided with a half gear positioned in the power separation cavity, the rear end wall of the power separation cavity is connected with an extrusion power shaft which extends backwards into the extrusion power cavity and forwards extends into the power separation cavity, the extrusion power shaft is positioned on the left side of the power transmission shaft, the tail end of the front side of the extrusion power shaft is fixedly connected with an extrusion one-way bearing which can be meshed with the half gear on the front side, an extrusion reset spring is fixedly connected between the rear end surface of the extrusion power shaft and the rear end wall of the extrusion power cavity, the rear end wall of the power separation cavity is connected with a power distribution shaft which extends backwards, penetrates through the vibration belt pulley cavity and the material pushing plate power cavity and forwards extends into the power separation cavity, and the power distribution shaft is positioned on the right side of the power transmission shaft, and the tail end of the front side of the power distribution shaft is fixedly connected with a component force one-way bearing which can be meshed with the rear side half gear.

On the basis of the technical scheme, bilateral symmetry normal running fit is connected with and extends to forward in the gear chamber rear end wall gear pivot, right side gear pivot ranging back to in the gear power intracavity, right side gear pivot with power transmission is connected with between the axle power fit is located the gear power wheel in the gear power intracavity, the gear intracavity be equipped with gear pivot fixed connection and intermeshing's gear, stripper plate transmission chamber rear end wall normal running fit is connected with and extends to forward stripper plate transmission intracavity and ranging back to the stripper plate drive wheel in the extrusion power intracavity, the stripper plate drive wheel with power fit is connected with and is located between the extrusion power axle extrusion power intracavity's extrusion belt pulley.

On the basis of the technical scheme, the rear end wall of the extrusion plate transmission cavity is connected with an extrusion plate transmission wheel which extends backwards into the vibration belt pulley cavity and extends forwards into the extrusion plate transmission cavity in a rotating fit mode, the extrusion plate transmission wheel and the power distribution shaft are connected with a vibration belt pulley positioned in the vibration belt pulley cavity in a rotating fit mode, the extrusion plate transmission wheel is fixedly connected with a fixed wheel positioned in the extrusion plate transmission cavity, the right end wall of the extrusion plate transmission cavity is connected with an extrusion plate transmission shaft which extends leftwards into the extrusion plate transmission cavity in a rotating fit mode, and the tail end of the left side of the extrusion plate transmission shaft is fixedly connected with a rotating bevel gear meshed with the fixed wheel.

On the basis of the technical scheme, vibrations intracavity sliding fit is connected with and extends to left promote the thing board of putting in the reset spring, put the thing board up end with fixedly connected with vibrations spring between the vibrations chamber upper end wall, vibrations chamber rear end wall internal rotation cooperation is connected with and extends to forward vibrations intracavity and ranging back to vibrations power shaft in the vibrations belt pulley intracavity, vibrations power shaft is located put the thing board downside, the power distribution axle with power fit is connected with and is located between the vibrations power shaft vibrations belt pulley intracavity vibrations belt pulley.

On the basis of the technical scheme, the upper end face of the object placing plate is provided with an object pushing plate in sliding connection, the front end wall of the object pushing plate is fixedly connected with an object pushing plate sleeve in the object pushing plate working cavity, the right end wall of the object pushing plate working cavity is in rotating fit with an object pushing plate transmission shaft which extends leftwards into the object pushing plate working cavity and rightwards into the bevel gear transmission cavity, the right side of the object pushing plate transmission shaft is in threaded connection with the object pushing plate sleeve in the object pushing plate working cavity and a turning bevel gear in the bevel gear transmission cavity respectively, the bevel gear transmission shaft which extends backwards into the object pushing plate power cavity and is in power connection with an object pushing plate power wheel is arranged in the bevel gear transmission cavity, the front end face of the bevel gear transmission shaft is in power connection with a transmission bevel gear, and the transmission bevel gear and the turning bevel gear are in right.

The invention has the beneficial effects that: action that will close the garbage bin apron is as power, accomplishes the crushing work to rubbish, increases the storage capacity of garbage bin, and rubbish after crushing accomplishes to extrude the rubbish waste liquid to the liquid dustbin in the stripper plate extrusion effect down, prevents that rubbish from mixing the corruption too fast, and solid-state rubbish residue pushes down to the solid-state dustbin in the vibrations effect of vibrations wheel and the effect of pushing away the thing board in to accomplish solid-liquid waste classification's work, can save the storage space of rubbish and prevent solid-liquid rubbish from mixing the corruption too fast.

Drawings

In order to more clearly illustrate the embodiments of the 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 only some embodiments of the invention, and it is obvious for those skilled in the art that other drawings can be obtained based on these drawings without creative efforts.

FIG. 1 is a schematic structural diagram of a solid-liquid separation garbage can device of the present invention;

FIG. 2 is an enlarged schematic view of the structure at A in FIG. 1;

FIG. 3 is a schematic sectional view taken along line B-B in FIG. 1;

FIG. 4 is an enlarged view of the structure of FIG. 3 at C;

fig. 5 is a schematic sectional view of the structure of fig. 1 taken along the direction D-D.

Detailed Description

All of the features disclosed in this specification, or all of the steps in any method or process so disclosed, may be combined in any combination, except combinations and/or steps that are mutually exclusive.

The invention will now be described in detail with reference to fig. 1-5, for convenience of description, the following orientations will now be defined: the up, down, left, right, and front-back directions described below correspond to the up, down, left, right, and front-back directions in the projection relationship of fig. 1 itself.

As shown in fig. 1-5, the multifunctional trash can device capable of performing solid-liquid separation of the device of the present invention comprises a main body box 38, a trash cap rotating cavity 65 with an upward opening is arranged in the main body box 38, a power transmission cavity 60 is arranged at the rear side of the trash cap rotating cavity 65, a gear power cavity 42 is arranged at the rear side of the power transmission cavity 60, a power separation cavity 44 is arranged at the rear side of the gear power cavity 42, an extrusion power cavity 66 extending to the left lower side is arranged at the rear side of the power separation cavity 44, a vibrating pulley cavity 46 located at the right side of the extrusion power cavity 66 is further arranged at the rear side of the power separation cavity 44, the vibrating pulley cavity 46 extends downward, an object pushing plate power cavity 48 extending downward is arranged at the rear side of the vibrating pulley cavity 46, a feeding cavity 13 is communicated with the lower side of the trash cap rotating cavity 65, a gear cavity 16 is communicated with the lower side of the feeding cavity, a garbage separation cavity 55 is communicated with the lower side of the gear cavity 16, a squeezing plate transmission cavity 33 positioned on the left side of the gear cavity 16 is communicated with the upper side of the garbage separation cavity 55, a vibration cavity 19 is communicated with the right side of the garbage separation cavity 55, an object pushing plate working cavity 57 is communicated with the front side of the garbage separation cavity 55, a bevel gear transmission cavity 63 is arranged on the right side of the object pushing plate working cavity 57, a garbage box cavity 22 with a leftward opening and a downward opening is communicated with the lower side of the garbage separation cavity 55, a squeezing plate 36 is communicated with the rear side of the garbage separation cavity 55, a squeezing plate transmission shaft 31 extending leftward into the squeezing plate transmission cavity 33 is connected with the right end wall of the squeezing plate transmission cavity 33 in a rotating fit manner, a squeezing plate sleeve 32 connected with the squeezing plate transmission cavity 33 in a sliding fit manner is connected with the squeezing plate transmission shaft 31 in a threaded fit manner, and a sliding shaft 37 positioned in the garbage separation cavity 55 is fixedly connected with, be equipped with the opening sliding chamber 18 to the right in the sliding shaft 37, sliding chamber 18 sliding fit is connected with and extends to the right extrusion slurcam 34 in the rubbish separation chamber 55, extrusion slurcam 34 internal rotation fit is connected extend to backward with the fixed axle 35 that the extrusion board 36 sliding fit is connected.

In addition, in one embodiment, the rear end wall of the garbage cover rotating cavity 65 is rotatably connected with the driving shaft 12 which extends backwards into the power transmission cavity 60 and forwards into the garbage cover rotating cavity 65, a garbage cover 11 fixedly connected with the driving shaft 12 is arranged in the garbage cover rotating cavity 65, the left end of the upper end surface of the garbage cover 11 is fixedly connected with a handle 10, the rear end of the driving shaft 12 is fixedly connected with a bearing 27, a transmission gear 39 is connected on the bearing 27 in a rotating fit manner, a power transmission shaft 40 which extends forwards into the power transmission cavity 60 and backwards extends through the gear power cavity 42 to the power separation cavity 44 is connected in a rotating fit manner in the rear end wall of the power transmission cavity 60, the tail end of the front side of the power transmission shaft 40 is fixedly connected with a translation transmission gear 41 meshed with the transmission gear 39.

In addition, in one embodiment, the power transmission shaft 40 is fixedly connected with a half gear 43 located in the power separation cavity 44 in a front-back symmetrical manner, the rear end wall of the power separation cavity 44 is connected with an extrusion power shaft 52 which extends backwards into the extrusion power cavity 66 and forwards into the power separation cavity 44 in a rotationally matched manner, the extrusion power shaft 52 is located on the left side of the power transmission shaft 40, the front end of the extrusion power shaft 52 is fixedly connected with an extrusion one-way bearing 51 which can be meshed with the half gear 43 on the front side, an extrusion return spring 53 is fixedly connected between the rear end surface of the extrusion power shaft 52 and the rear end wall of the extrusion power cavity 66, the rear end wall of the power separation cavity 44 is connected with a power distribution shaft 50 which extends backwards, penetrates through the vibration pulley cavity 46 into the material pushing plate power cavity 48 and extends forwards into the power separation cavity 44 in a rotationally matched manner, the power distribution shaft 50 is positioned at the right side of the power transmission shaft 40, and the front end of the power distribution shaft 50 is fixedly connected with a component force one-way bearing 45 capable of meshing with the rear half gear 43.

In addition, in one embodiment, the gear rotating shaft 15 which extends forwards into the gear cavity 16 is connected in a left-right symmetrical and rotating fit manner in the rear end wall of the gear cavity 16, the gear rotating shaft 15 on the right side extends backwards into the gear power cavity 42, a gear power wheel 56 which is positioned in the gear power cavity 42 is connected between the gear rotating shaft 15 on the right side and the power transmission shaft 40 in a power fit manner, a gear 14 which is fixedly connected with the gear rotating shaft 15 and is mutually meshed is arranged in the gear cavity 16, the rear end wall of the extrusion plate transmission cavity 33 is connected with an extrusion plate transmission wheel 29 which extends forwards into the extrusion plate transmission cavity 33 and backwards into the extrusion power cavity 66 in a rotating fit manner, the extrusion plate driving wheel 29 and the extrusion power shaft 52 are in power fit connection with an extrusion belt pulley 54 positioned in the extrusion power cavity 66.

In addition, in one embodiment, the rear end wall of the extrusion plate transmission cavity 33 is connected with an extrusion plate transmission wheel 29 in a rotationally matched manner, the extrusion plate transmission wheel 29 extends backwards into the vibration pulley cavity 46 and extends forwards into the extrusion plate transmission cavity 33, a vibration pulley 47 located in the vibration pulley cavity 46 is connected between the extrusion plate transmission wheel 29 and the power distribution shaft 50 in a rotationally matched manner, a fixed wheel 28 located in the extrusion plate transmission cavity 33 is fixedly connected to the extrusion plate transmission wheel 29, an extrusion plate transmission shaft 31 extending leftwards into the extrusion plate transmission cavity 33 is connected to the right end wall of the extrusion plate transmission cavity 33 in a rotationally matched manner, and a rotary bevel gear 30 meshed with the fixed wheel 28 is fixedly connected to the left end of the extrusion plate transmission shaft 31.

In addition, in an embodiment, sliding fit is connected with and extends to left in vibrations chamber 19 promote the interior thing board 25 of putting of reset spring 67, put thing board 25 up end with fixedly connected with vibrations spring 17 between the vibrations chamber 19 upper end wall, vibrations chamber 19 rear end wall internal rotation fit is connected with and extends to forward in vibrations chamber 19 and extend to backward vibrations power shaft 21 in vibrations pulley chamber 46, vibrations power shaft 21 is located put thing board 25 downside, power distribution axle 50 with power fit is connected with and is located between vibrations power shaft 21 vibrations pulley chamber 46's vibrations belt pulley 47.

In addition, in one embodiment, the upper end surface of the object placing plate 25 is provided with an object pushing plate 26 which is connected in a sliding way, a pushing plate sleeve 59 positioned in the pushing plate working cavity 57 is fixedly connected with the front end wall of the pushing plate 26, an object pushing plate transmission shaft 58 which extends into the object pushing plate working cavity 57 leftwards and extends into the bevel gear transmission cavity 63 rightwards is rotatably matched on the right end wall of the object pushing plate working cavity 57, the right side of the push plate transmission shaft 58 is respectively in threaded connection with a push plate sleeve 59 in the push plate working cavity 57 and a direction-changing bevel gear 61 in a bevel gear transmission cavity 63, a bevel gear transmission shaft 64 which extends backwards into the object pushing plate power cavity 48 and is in power connection with the object pushing plate power wheel 49 is arranged in the bevel gear transmission cavity 63, the front end face of a bevel gear transmission shaft 64 in the bevel gear transmission cavity 63 is in power connection with a transmission bevel gear 62, and the transmission bevel gear 62 is meshed with the direction-changing bevel gear 61 in a right angle mode.

The applicant will now specifically describe a solid-liquid separation waste bin assembly of the present application with reference to the accompanying figures 1 to 5 and the above description: when the garbage can starts to work, the handle 10 is pulled, the garbage cover 11 rotates to be opened by taking the driving shaft 12 as a center, at the moment, the transmission gear 39 does not rotate under the action of the bearing 27, garbage is placed into the feeding cavity 13, the garbage cover 11 is closed, at the moment, the driving shaft 12 rotates reversely, the driving shaft 12 rotates to drive the transmission gear 39 to rotate through the bearing 27, the transmission gear 39 rotates to drive the power transmission shaft 40 to rotate through the translation transmission gear 41, and the power transmission shaft 40 rotates to drive the half gear 43 to rotate while driving the right gear rotating shaft 15 to rotate through the gear power wheel 56; the right gear rotating shaft 15 rotates to drive the left gear rotating shaft 15 to rotate oppositely, so that the garbage in the feeding cavity 13 is crushed and falls onto the object placing plate 25; meanwhile, the front half gear 43 is just engaged with the extrusion one-way bearing 51 and the rear half gear 43 is just disengaged from the component one-way bearing 45, the front half gear 43 rotates to drive the extrusion power shaft 52 to rotate against the elasticity of the extrusion return spring 53, so that the extrusion belt pulley 54 drives the extrusion plate driving wheel 29 to rotate, the extrusion plate driving wheel 29 rotates to drive the rotating bevel gear 30 to rotate through the fixed wheel 28, so as to drive the extrusion plate driving shaft 31 to rotate, the extrusion plate driving shaft 31 rotates to drive the extrusion plate sleeve 32 and the sliding shaft 37 to move rightwards along the extrusion plate driving shaft 31, the sliding shaft 37 moves rightwards, the extrusion pushing plate 34 drives the fixed shaft 35 to move rightwards and downwards along the extrusion plate 36, so that the extrusion pushing plate 34 moves rightwards and downwards, extrusion of garbage on the object placing plate 25 is completed, and garbage wastewater flows into the right garbage can 24 through the object placing plate, and the solid garbage residue is remained on the object placing plate 25; when the extrusion pushing plate 34 just finishes extrusion, the front side half gear 43 moves to just separate from the extrusion one-way bearing 51 and the rear side half gear 43 is just meshed with the component force one-way bearing 45, at the moment, the extrusion power shaft 52 rotates reversely under the elastic force of the extrusion return spring 53, so that the sliding shaft 37 and the extrusion pushing plate 34 are driven to return, meanwhile, the rear side half gear 43 drives the power distribution shaft 50 to rotate through the component force one-way bearing 45, and the power distribution shaft 50 rotates to drive the vibration belt pulley 47 to rotate and simultaneously drive the pusher plate power wheel 49 to rotate; the vibration belt pulley 47 rotates to drive the vibration power shaft 21 to rotate, the vibration power shaft 21 rotates to drive the vibration wheel 20 to rotate, the vibration wheel 20 is rotationally matched with the elasticity of the vibration spring 17 to drive the object placing plate 25 to reciprocate up and down along the vibration cavity 19, so that the garbage residues on the object placing plate 25 are vibrated, and the effect of assisting garbage separation is achieved; meanwhile, the pushing plate power wheel 49 rotates to drive the transmission bevel gear 62 to rotate through the bevel gear transmission shaft 64, the transmission bevel gear 62 rotates to drive the turning bevel gear 61 to rotate so as to drive the pushing plate transmission shaft 58 to rotate, the pushing plate transmission shaft 58 rotates to drive the pushing plate sleeve 59 and the pushing plate 26 to rotate leftwards along the pushing plate transmission shaft 58, and the solid garbage residues extruded on the object placing plate 25 are pushed into the garbage bin 24 on the left side through the pushing plate 26; when the object pushing plate 26 moves to the left end of the object placing plate 25, the front half gear 43 is just meshed with the extrusion one-way bearing 51, the rear half gear 43 is just disengaged from the component force one-way bearing 45, the bevel gear transmission shaft 64 rotates reversely under the action of the elastic force of the pushing return spring 67, so that the object pushing plate 26 is driven to move rightwards to return, and the device returns to the initial state.

The above description is only an embodiment of the invention, but the scope of the invention is not limited thereto, and any changes or substitutions that are not thought of through the inventive work should be included in the scope of the invention. Therefore, the protection scope of the invention should be subject to the protection scope defined by the claims.

Claims

1. A solid-liquid separation garbage can device comprises a main body box and is characterized in that a garbage cover rotating cavity with an upward opening is arranged in the main body box, a power transmission cavity is arranged on the rear side of the garbage cover rotating cavity, a gear power cavity is arranged on the rear side of the power transmission cavity, a power separation cavity is arranged on the rear side of the gear power cavity, an extrusion power cavity extending towards the lower left side is arranged on the rear side of the power separation cavity, a vibration belt pulley cavity positioned on the right side of the extrusion power cavity is also arranged on the rear side of the power separation cavity, the vibration belt pulley cavity extends downwards, an object pushing plate power cavity extending downwards is arranged on the rear side of the vibration belt pulley cavity, a feeding cavity is communicated with the lower side of the garbage cover rotating cavity, a gear cavity is communicated with the lower side of the feeding cavity, a garbage separation cavity is communicated with the lower side of the gear cavity, and an extrusion plate transmission cavity positioned on the left side of, the garbage separating chamber is characterized in that a vibration chamber is communicated with the right side of the garbage separating chamber, an object pushing plate working chamber is communicated with the front side of the garbage separating chamber, a bevel gear transmission chamber is arranged on the right side of the object pushing plate working chamber, a garbage bin chamber with a leftward opening and a downward opening is communicated with the lower side of the garbage separating chamber, an extrusion plate is communicated with the rear side of the garbage separating chamber, an extrusion plate transmission shaft which extends leftward into the extrusion plate transmission chamber is connected with the right end wall of the extrusion plate transmission chamber in a rotating fit manner, an extrusion plate sleeve which is connected with the extrusion plate transmission chamber in a sliding fit manner is connected onto the extrusion plate transmission shaft in a threaded fit manner, a sliding shaft which is positioned in the garbage separating chamber is fixedly connected onto the lower end face of the extrusion plate sleeve, a sliding chamber with a rightward opening is arranged in the sliding shaft, and an extrusion, the extrusion pushing plate is connected with a fixed shaft which extends backwards to be connected with the extrusion plate in a sliding fit manner in a rotating fit manner.

2. The solid-liquid separation trash can device of claim 1, wherein: rubbish lid rotates the chamber rear end wall normal running fit and is connected and extends to backward the power transmission intracavity and extend forward the rubbish lid rotates the driving shaft of intracavity, rubbish lid rotate the intracavity be equipped with driving shaft fixed connection's rubbish lid, rubbish covers the terminal fixedly connected with handle in terminal left side of up end, the terminal fixedly connected with bearing in driving shaft rear side, the normal running fit is connected with drive gear on the bearing, power transmission chamber rear end wall normal running fit is connected with and extends forward the power transmission intracavity and extend backward and run through gear power chamber extremely the power transmission axle in the power separation intracavity, the terminal fixedly connected with in power transmission axle front side with the translation drive gear of drive gear meshing.

3. The solid-liquid separation trash can device of claim 2, wherein: the front and back symmetrical fixed connection on the power transmission shaft is provided with a half gear positioned in the power separation cavity, the rear end wall of the power separation cavity is connected with an extrusion power shaft which extends backwards into the extrusion power cavity and extends forwards into the power separation cavity, the extrusion power shaft is positioned on the left side of the power transmission shaft, the front end of the extrusion power shaft is fixedly connected with an extrusion one-way bearing which can be meshed with the half gear on the front side, an extrusion reset spring is fixedly connected between the rear end surface of the extrusion power shaft and the rear end wall of the extrusion power cavity, the rear end wall of the power separation cavity is connected with a power distribution shaft which extends backwards, penetrates through the vibration belt pulley cavity and extends forwards into the material pushing plate power cavity and extends forwards into the power separation cavity, and the power distribution shaft is positioned on the right side of the power transmission shaft, and the tail end of the front side of the power distribution shaft is fixedly connected with a component force one-way bearing which can be meshed with the rear side half gear.

4. The solid-liquid separation trash can device of claim 4, wherein: bilateral symmetry normal running fit is connected with and extends to forward gear pivot in the gear cavity, the right side gear pivot ranging back to gear power intracavity, right side gear pivot with power transmission is connected with between the axle and is located gear power wheel in the gear power intracavity, gear intracavity be equipped with gear pivot fixed connection and intermeshing's gear, stripper plate transmission cavity rear end wall normal running fit is connected with and extends to forward stripper plate transmission intracavity and ranging back to the stripper plate drive wheel in the extrusion power intracavity, the stripper plate drive wheel with power fit is connected with between the extrusion power axle and is located the extrusion belt pulley in the extrusion power intracavity.

5. The solid-liquid separation trash can device of claim 4, wherein: the rear end wall of the extrusion plate transmission cavity is connected with an extrusion plate transmission wheel which extends backwards into the vibration belt pulley cavity and extends forwards into the extrusion plate transmission cavity in a rotating fit mode, the extrusion plate transmission wheel and the power distribution shaft are connected with a vibration belt pulley positioned in the vibration belt pulley cavity in a power fit mode, a fixed wheel positioned in the extrusion plate transmission cavity is fixedly connected onto the extrusion plate transmission wheel, an extrusion plate transmission shaft which extends leftwards into the extrusion plate transmission cavity is connected onto the right end wall of the extrusion plate transmission cavity in a rotating fit mode, and a rotating bevel gear meshed with the fixed wheel is fixedly connected to the left end of the extrusion plate transmission shaft.

6. The solid-liquid separation trash can device of claim 6, wherein: vibrations intracavity sliding fit is connected with and extends to left promote the thing board of putting in the reset spring, put the thing board up end with fixedly connected with vibrations spring between the vibrations chamber upper end wall, vibrations chamber rear end wall normal running fit is connected with and extends forward vibrations intracavity and ranging back to vibrations power shaft in the vibrations belt pulley intracavity, vibrations power shaft is located put the thing board downside, the power distribution axle with power fit is connected with and is located between the vibrations power shaft vibrations belt pulley intracavity's vibrations belt pulley.

7. The solid-liquid separation trash can device of claim 6, wherein: the article pushing device is characterized in that the upper end face of the article placing plate is provided with an article pushing plate in sliding connection, the front end wall of the article pushing plate is fixedly connected with an article pushing plate sleeve in the article pushing plate working cavity, the right end wall of the article pushing plate working cavity is in rotating fit with an article pushing plate transmission shaft which extends into the article pushing plate working cavity from the left side and extends into the bevel gear transmission cavity from the right side, the right side of the article pushing plate transmission shaft is in threaded connection with the article pushing plate sleeve in the article pushing plate working cavity and a bevel gear turning shaft in the bevel gear transmission cavity respectively, the bevel gear transmission shaft extends into the article pushing plate power cavity from the bevel gear transmission cavity backwards and is in power connection with an article pushing plate power wheel, the bevel gear transmission cavity is in power connection with the front end face of the bevel gear transmission shaft, and the.