CN220130985U - Garbage bin grille - Google Patents

Abstract

The utility model discloses a garbage bin grid, which comprises a garbage bin and a leachate cavity which are communicated with each other; and a leaching grid is arranged at the communication part of the garbage bin and the leaching liquid cavity, the leaching grid comprises a vibration state, garbage in the garbage bin is driven to vibrate through the leaching grid in the vibration state, and water in the garbage is promoted to permeate the leaching grid to be leached out to the leaching liquid cavity. The infiltration grille is positioned on the inner side wall of the garbage bin, and the infiltration grille in a vibration state can vibrate the garbage in the garbage bin laterally. The utility model solves the problem that the garbage in the garbage bin is difficult to drain due to accumulation and water seepage by the aid of the seepage grids which are arranged on the inner side wall of the garbage bin and can vibrate.

Description

Garbage bin grille

Technical Field

The utility model belongs to the technical field of garbage leachate gratings, and particularly relates to a garbage bin grating.

Background

The grid is arranged in the garbage bin, so that water in garbage can be leached out, which is equivalent to filtering out the water. Because the grid is arranged at the bottom of the garbage bin and isolated from the leaching cavity, but is influenced by the continuous increase of the garbage accumulation amount, the water in the garbage is difficult to be leached out independently.

Disclosure of Invention

The utility model aims to: in order to overcome the defects in the prior art, the utility model provides the garbage bin grating, and the problem that garbage in a bin is difficult to drain due to accumulation of water seepage is solved by the aid of the seepage grating which is arranged on the inner side wall of the garbage bin and can vibrate.

The technical scheme is as follows: in order to achieve the above purpose, the utility model provides a garbage bin grille, which comprises a garbage bin and a leachate cavity which are communicated with each other; the garbage bin is provided with a leachate cavity, the leachate cavity is communicated with the garbage bin, the leachate cavity is provided with a leachate grating, the leachate grating comprises a vibration state, garbage in the garbage bin is driven to vibrate through the leachate grating in the vibration state, and water in the garbage is promoted to permeate the leachate cavity through the leachate grating.

Further, a vibration interval is arranged between the garbage bin and the leachate cavity, and a path of displacement of the leachate grating caused by vibration is positioned in the vibration interval.

Further, the infiltration grid is positioned on the inner side wall of the garbage bin, and the infiltration grid in a vibration state can form lateral vibration on garbage in the garbage bin.

Further, the vibration guide shaft is provided in the vibration space along the width direction of the vibration space, and the displacement guide of the percolation grating in the vibration state is performed by the vibration guide shaft.

Further, the device comprises an elastic component corresponding to the leaching grid and a vibration driving part; the percolation grating is arranged on the vibration guide shaft in an elastic sliding way through an elastic part, and provides vibration driving force through the vibration driving part.

Further, the edge of the leaching grid is provided with a sealing surrounding edge connected with the liquid outlet of the garbage bin, and the sealing surrounding edge is of an elastic sealing structure.

Further, a door body is hinged on the leaching grid; the door body is close to the bottom setting of rubbish storehouse, and the degree of depth in rubbish storehouse is less than the degree of depth in leachate chamber.

The beneficial effects are that: the utility model provides the inner side wall of the garbage bin provided with the infiltration grid, is convenient for the garbage in a stacking form to infiltrate water, and then is matched with the vibration state of the infiltration grid to further promote the water filtering out of the garbage.

Drawings

FIG. 1 is a schematic view of a grid structure;

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

fig. 3 is a schematic diagram of the overall structure of the present utility model.

Detailed Description

The utility model will be further described with reference to the accompanying drawings.

The grid is arranged in the garbage bin, so that water in garbage can be leached out, which is equivalent to filtering out the water. Because the grid is arranged at the bottom of the garbage bin and isolated from the leaching cavity, but is influenced by the continuous increase of the garbage accumulation amount, the water in the garbage is difficult to be leached out independently.

In order to solve the problems, the technical scheme provided by the utility model is as shown in figure 3, and the garbage bin grille comprises a garbage bin 1 and a leachate cavity 2 which are communicated with each other; the garbage bin 1 and the leachate cavity 2 are communicated, the leachate grid 3 is arranged and comprises a vibration state, the leachate grid 3 drives garbage in the garbage bin 1 to vibrate through the vibration state, and water in the garbage is promoted to permeate the leachate grid 3 to be filtered out to the leachate cavity 2. More specifically, the leaching grille 3 is positioned on the inner side wall of the garbage bin 1, and the leaching grille 3 in a vibration state generates lateral vibration to garbage in the garbage bin 1. Firstly, the inner side wall of the garbage bin 1 provided with the infiltration grid 3 is convenient for the garbage in a stacking form to infiltrate water, and then the vibration state of the infiltration grid 3 is matched to further promote the water in the garbage to be filtered out.

It is worth noting that the inner side wall of the garbage bin 1 provided with the leaching grid 3 is arranged at the bottom of the bin, and the garbage bin has the advantage of preventing garbage from being damaged by hanging.

In order to facilitate the discharge of leachate and garbage smaller than the filtering holes, the leachate grating 3 is hinged with a door body 9, and a door bolt is arranged between the door body 9 and the grating, so that the door can be opened and closed conveniently; the door body 9 is arranged near the bottom of the garbage bin 1, and the depth of the garbage bin 1 is smaller than that of the leachate cavity 2. In order to more conveniently drain the leachate, the leachate cavity 2 is generally externally connected with a drainage interface, and of course, in the scheme, an implementation measure of stretching into the water pumping equipment from the door body 9 to pump the leachate is added.

As shown in fig. 3, in order to reserve a space for vibration activity for the leaching grid 3, a vibration space 4 is provided between the garbage bin 1 and the leaching liquid cavity 2, and a path of displacement of the leaching grid 3 caused by vibration is located in the vibration space 4.

As shown in fig. 1, 1 and 3, the vibration guide shaft 5 provided in the width direction of the vibration gap 4 is provided in the vibration gap 4, and the displacement guide of the percolation grating 3 in the vibration state is performed by the vibration guide shaft 5. The purpose of the guiding is to displace the vibration of the leachate grating 3 in a horizontal direction between the refuse bin 1 and the leachate chamber 2, thus directly creating side vibrations to the refuse. The percolation grating 3 is provided with a mounting lug 14, and the vibration guide shaft 5 slides through an earhole of the mounting lug 14. The shaft end of the vibration guide shaft 5 is provided with a baffle plate 12, the plate surface of the baffle plate 12 is provided with a first embedded installation part 13, and the first embedded installation part 13 is embedded and fixed in a garbage bin civil engineering 15.

The utility model comprises an elastic member 6 and a vibration driving part 7 corresponding to the percolation grating 3; the percolating grid 3 is elastically slidably disposed on the vibration guide shaft 5 by an elastic member 6, and provides a vibration driving force by the vibration driving part 7. The elastic member 6 is a spring fitted over the shaft body of the vibration guide shaft 5 between the baffle 12 and the mounting lugs 14, and the vibration driving unit 7 is a vibrator mounted on the percolating grid 3.

In order to carry out banding to the infiltration grid 3, avoid rubbish to leak to the infiltration liquid intracavity 2 from the gap, the edge of infiltration grid 3 is provided with the sealed surrounding edge 8 of being connected with the liquid outlet of rubbish storehouse 1, and this sealed surrounding edge 8 is elastic seal structure, and concrete material can adopt elastic rubber pad. The sealing surrounding edge 8 is connected with a metal frame 10, a second embedded installation part 11 is arranged on the metal frame 10, the second embedded installation part 11 is embedded and fixed in the garbage bin civil engineering 15, and the metal frame 10 is attached to the garbage bin civil engineering 15.

The foregoing is only a preferred embodiment of the utility model, it being noted that: it will be apparent to those skilled in the art that various modifications and adaptations can be made without departing from the principles of the present utility model, and such modifications and adaptations are intended to be comprehended within the scope of the utility model.

Claims (7)

1. A garbage bin grid, characterized in that: comprises a garbage bin (1) and a leachate cavity (2) which are communicated with each other; the garbage bin (1) is provided with a leaching grid (3) at the communication position of the leaching liquid cavity (2), the leaching grid (3) comprises a vibration state, garbage in the garbage bin (1) is driven to vibrate through the leaching grid (3) in the vibration state, and water in garbage is promoted to permeate the leaching grid (3) to be filtered out to the leaching liquid cavity (2).

2. A waste bin grate as claimed in claim 1, wherein: a vibration interval (4) is arranged between the garbage bin (1) and the leachate cavity (2), and a path of displacement of the leachate grating (3) caused by vibration is positioned in the vibration interval (4).

3. A waste bin grate as claimed in claim 2, wherein: the leaching grid (3) is positioned on the inner side wall of the garbage bin (1), and the leaching grid (3) in a vibration state can vibrate the garbage in the garbage bin (1) laterally.

4. A waste bin grate as claimed in claim 3, wherein: the vibration interval (4) is internally provided with a vibration guide shaft (5) arranged along the width direction of the vibration interval (4), and the displacement guide of the percolation grating (3) in a vibration state is carried out through the vibration guide shaft (5).

5. A waste bin grate as claimed in claim 4, wherein: comprises an elastic component (6) and a vibration driving part (7) which correspond to the leaching grid (3); the leaching grid (3) is arranged on the vibration guide shaft (5) in an elastic sliding way through an elastic component (6), and provides vibration driving force through the vibration driving part (7).

6. A waste bin grate as claimed in claim 5, wherein: the edge of the leaching grid (3) is provided with a sealing surrounding edge (8) connected with a liquid outlet of the garbage bin (1), and the sealing surrounding edge (8) is of an elastic sealing structure.

7. A waste bin grate as claimed in claim 6 wherein: a door body (9) is hinged on the leaching grid (3); the door body (9) is arranged close to the bottom of the garbage bin (1), and the depth of the garbage bin (1) is smaller than that of the leachate cavity (2).