CN212941865U

CN212941865U - Filtering and recycling mechanism

Info

Publication number: CN212941865U
Application number: CN202021570460.5U
Authority: CN
Inventors: 周品文; 沈志超
Original assignee: Zhejiang Shunlian Environmental Protection Technology Co ltd
Current assignee: Zhejiang Shunlian Environmental Protection Technology Co ltd
Priority date: 2020-07-31
Filing date: 2020-07-31
Publication date: 2021-04-13
Anticipated expiration: 2030-07-31

Abstract

A filtering and recycling mechanism comprises a discharge chute, a chute cover, a spiral auger shaft, an auger driving unit, a screen and a recycling unit, wherein the discharge chute is obliquely arranged, the chute cover covers the opening side of the discharge chute, the spiral auger shaft is rotatably positioned in the discharge chute, the auger driving unit is arranged at the top end of the discharge chute and is connected with the spiral auger shaft, and the screen and the recycling unit are arranged on the top end of the discharge chute; a material receiving port is arranged on the tank cover close to the bottom end of the discharge tank and is connected with a discharge port of a tank body; a slag outlet is formed in the bottom surface of the discharge chute close to the top end, a liquid outlet is formed in one side, facing the bottom end of the discharge chute, and the screen is located in the discharge chute and covers the liquid outlet; the recovery unit comprises an adapter, a grit chamber and a recovery pipe which are connected in sequence; the top and the liquid outlet of adaptor are connected, and the one end and the jar body coupling of adaptor are kept away from to the recovery tube. Therefore, the discharged slag is not accompanied by the slurry or the accompanied slurry is less, the slurry waste is reduced, and the utilization rate of the slurry is improved.

Description

Filtering and recycling mechanism

Technical Field

The utility model relates to a refuse treatment technical field, especially a filter and retrieve mechanism.

Background

Wet waste, particularly kitchen waste, is made into slurry, which is then stirred and initially separated from solids, and the separated fluid is then cooked in a wet and hot pot. The slag discharged by the existing separation device is still accompanied by more slurry, so that the slurry is greatly wasted, and the utilization rate of the slurry is low.

SUMMERY OF THE UTILITY MODEL

In view of this, the utility model provides a make the discharged slag charge not attach the thick liquid, or attached thick liquid is less, reduces the thick liquid extravagant and improves the filtration recovery mechanism of the utilization ratio of thick liquid to solve above-mentioned problem.

A filtering and recycling mechanism comprises a discharge chute, a chute cover, a spiral auger shaft, an auger driving unit, a screen and a recycling unit, wherein the discharge chute is obliquely arranged, the chute cover covers the opening side of the discharge chute, the spiral auger shaft is rotatably positioned in the discharge chute, the auger driving unit is arranged at the top end of the discharge chute and is connected with the spiral auger shaft, and the screen and the recycling unit are arranged on the top end of the discharge chute; a material receiving port is arranged on the tank cover close to the bottom end of the discharge tank and is connected with a discharge port of a tank body; a slag outlet is formed in the bottom surface of the discharge chute close to the top end, a liquid outlet is formed in one side, facing the bottom end of the discharge chute, and the screen is located in the discharge chute and covers the liquid outlet; the recovery unit comprises an adapter, a grit chamber and a recovery pipe which are connected in sequence; the top and the liquid outlet of adaptor are connected, and the one end and the jar body coupling of adaptor are kept away from to the recovery tube.

Further, the adaptor is L-shaped.

Furthermore, a liquid receiving port is obliquely formed in the top of the adapter and connected with the liquid outlet.

Further, the shape of the screen is a semi-circular arc, and the open end faces the slot cover.

Furthermore, the position of the groove cover corresponding to the screen is provided with an inspection opening.

Furthermore, a cleaning opening is formed in the bottom end of the discharge chute, and a movable cover is rotatably arranged at the cleaning opening.

Further, the recovery pipe is communicated with the upper part of one end, far away from the adapter, of the grit chamber.

Further, the recovery pipe is horizontally arranged.

Compared with the prior art, the filtering and recycling mechanism of the utility model comprises an inclined discharge chute, a chute cover covering the opening side of the discharge chute, a spiral auger shaft rotatably positioned in the discharge chute, an auger driving unit arranged at the top end of the discharge chute and connected with the spiral auger shaft, a screen and a recycling unit; a material receiving port is arranged on the tank cover close to the bottom end of the discharge tank and is connected with a discharge port of a tank body; a slag outlet is formed in the bottom surface of the discharge chute close to the top end, a liquid outlet is formed in one side, facing the bottom end of the discharge chute, and the screen is located in the discharge chute and covers the liquid outlet; the recovery unit comprises an adapter, a grit chamber and a recovery pipe which are connected in sequence; the top and the liquid outlet of adaptor are connected, and the one end and the jar body coupling of adaptor are kept away from to the recovery tube. Therefore, the discharged slag is not accompanied by the slurry or the accompanied slurry is less, the slurry waste is reduced, and the utilization rate of the slurry is improved.

Drawings

Embodiments of the present invention are described below with reference to the accompanying drawings, in which:

fig. 1 is a schematic perspective view of a slurry flow-making sand-settling machine with a filtering and recycling mechanism provided by the utility model.

FIG. 2 is a schematic diagram of a slurry flow-making sand settling machine.

Fig. 3 is a perspective view of the can body of fig. 2 from another perspective.

Detailed Description

The following describes in further detail specific embodiments of the present invention based on the drawings. It should be understood that the description herein of embodiments of the invention is not intended to limit the scope of the invention.

Referring to fig. 1 to 3, the slurry flow-making sand-settling machine with the filtering and recycling mechanism provided by the present invention comprises a base 10, a tank 20 disposed on the base 10, a stirring motor 30 disposed above the tank 20, a stirring paddle assembly 40 disposed in the tank 20 and driven by the stirring motor 30 to rotate, and a filtering and recycling mechanism 50 disposed on one side of the tank 20.

The top of the tank body 20 is covered with an upper cover 21, the stirring motor 30 is vertically installed in the middle of the top surface of the upper cover 21, and the upper cover 21 is provided with at least one feed inlet 211 and at least one recovery port 212.

The circumferential side surface of the tank body 20 and the position close to the top part are provided with overflow ports 22, and the overflow ports 22 are connected with a damp and hot tank through an overflow pipe. The overflow port 22 is used to discharge the slurry.

The tank bottom 23 at the bottom of the tank body 20 is funnel-shaped, and the middle part of the tank bottom 23 protrudes downwards and is provided with a discharge hole 231.

The stirring paddle assembly 40 includes a stirring roller 41 coaxially connected to the output shaft of the stirring motor 30, a plurality of circumferential stirring blades 42 arranged on the circumferential side surface of the stirring roller 41 at intervals in the vertical direction, and a bottom stirring blade 43 arranged at the bottom of the circumferential stirring blade 42.

The circumferential stirring vanes 42 are rectangular or U-shaped, and the bottom stirring vanes 43 are F-shaped. The bottom stirring vanes 43 include outer vertical strips 431 vertically connected to the middle of the bottom of the circumferential stirring vanes 42, inner vertical strips 432 vertically connected to the bottom surface of the stirring roller 41, and oblique strips 433 obliquely connecting the outer vertical strips 431 and the inner vertical strips 432. The length of the inner vertical bar 432 is greater than the length of the outer vertical bar 431. Therefore, the shape of the bottom stirring blade 43 is matched with that of the tank bottom 23, so that the slurry close to the tank bottom 23 can be stirred, and the working efficiency is improved.

The rotation speed of the stirring paddle assembly 40 is 20-40r/min, preferably 30 r/min. So stir with slower rotational speed, avoid the thick liquids thickening, make the solid part of thick liquids can slide to discharge gate 231 along tank bottoms 23 simultaneously, realize making a class sand setting, and preliminary solid-liquid separation, separate out slag charge and thick liquids.

The filtering and recycling mechanism 50 comprises a discharge chute 51 obliquely arranged, a chute cover 52 covering the opening side of the discharge chute 51, a spiral auger shaft 53 rotatably positioned in the discharge chute 51, an auger driving unit 54 arranged at the top end of the discharge chute 51 and connected with the spiral auger shaft 53, an arc-shaped screen 55 and a recycling unit 56.

A material receiving opening 521 connected with the material outlet 231 is arranged on the groove cover 52 close to the bottom end of the material discharging groove 51, and a cleaning opening 513 is further formed at the bottom end of the material discharging groove 51. A movable cover is rotatably arranged at the cleaning port 513, and after the movable cover is opened, slag accumulated at the cleaning port 513 can be discharged.

The bottom surface of the discharge chute 51 near the top end is provided with a slag outlet 511, the discharge chute 51 is provided with a liquid outlet 512 at one side of the slag outlet 511 facing the bottom end of the discharge chute 51, and the arc screen 55 is positioned in the discharge chute 51 and covers the liquid outlet 512. The slot cover 52 is provided with an inspection opening corresponding to the arc-shaped screen 55 or the liquid outlet 512.

The recovery unit 56 includes an L-shaped adaptor 561, a grit chamber 562, and a recovery pipe 563, which are connected in sequence. The top of the L-shaped adaptor 561 is obliquely provided with a liquid receiving port, which is connected with the liquid outlet 512.

The recovery pipe 563 is communicated with an upper portion of one end of the grit chamber 562 remote from the adaptor 561, so that the grit chamber 562 has a function of sedimentation buffering. The recovery pipe 563 is horizontally disposed.

An end of the recovery pipe 563 remote from the L-shaped adaptor 561 is connected to the recovery port 212 of the upper cap 21.

The auger driving unit 54 drives the auger shaft 53 to rotate, so that the slag with the slurry moves upwards along the discharge chute 51, and when the slag with the slurry passes through the arc-shaped screen 55, the slurry enters the recovery unit 56 through the arc-shaped screen 55 and then returns to the tank body 20. The slag continues to move upward and is finally discharged through the slag outlet 511. Therefore, the discharged slag is not accompanied by the slurry or is accompanied by less slurry, and the utilization rate of the slurry is higher.

Compared with the prior art, the filtering and recycling mechanism of the utility model comprises a discharge chute 51 which is obliquely arranged, a chute cover 52 which covers the opening side of the discharge chute 51, a spiral auger shaft 53 which is rotationally positioned in the discharge chute 51, an auger driving unit 54 which is arranged at the top end of the discharge chute 51 and is connected with the spiral auger shaft 53, a screen 55 and a recycling unit 56; a receiving opening 521 is arranged on the tank cover 52 close to the bottom end of the discharging tank 51, and the receiving opening 521 is connected with a discharging opening 231 of the tank body 20; a slag outlet 511 is formed in the bottom surface of the discharge chute 51 close to the top end, a liquid outlet 512 is formed in one side of the discharge chute 51, facing the bottom end of the discharge chute 51, of the slag outlet 511, and the screen 55 is located in the discharge chute 51 and covers the liquid outlet 512; the recovery unit 56 comprises an adapter 561, a grit chamber 562 and a recovery pipe 563 which are connected in sequence; the top of the adaptor 561 is connected with the liquid outlet 512, and one end of the recycling pipe 563 far away from the adaptor 561 is connected with the tank 20. Therefore, the discharged slag is not attached with the slurry or the attached slurry is less, the slurry is prevented from polluting the environment, the slurry waste is reduced, and the utilization rate of the slurry is improved.

The above description is only for the preferred embodiment of the present invention and should not be construed as limiting the scope of the present invention, and any modification, equivalent replacement or improvement within the spirit of the present invention is encompassed by the claims of the present invention.

Claims

1. A filter recovery mechanism, its characterized in that: the spiral auger shaft is rotatably arranged in the discharge chute, and an auger driving unit, a screen and a recovery unit are arranged at the top end of the discharge chute and connected with the spiral auger shaft; a material receiving port is arranged on the tank cover close to the bottom end of the discharge tank and is connected with a discharge port of a tank body; a slag outlet is formed in the bottom surface of the discharge chute close to the top end, a liquid outlet is formed in one side, facing the bottom end of the discharge chute, and the screen is located in the discharge chute and covers the liquid outlet; the recovery unit comprises an adapter, a grit chamber and a recovery pipe which are connected in sequence; the top and the liquid outlet of adaptor are connected, and the one end and the jar body coupling of adaptor are kept away from to the recovery tube.

2. The filtration recovery mechanism of claim 1, wherein: the adapter is L-shaped.

3. The filtration recovery mechanism of claim 2, wherein: the top of the adapter is obliquely provided with a liquid receiving port, and the liquid receiving port is connected with the liquid outlet.

4. The filtration recovery mechanism of claim 1, wherein: the shape of screen cloth is half-circular arc, and open end is towards the capping.

5. The filtration recovery mechanism of claim 4, wherein: and the position of the groove cover corresponding to the screen is provided with an inspection opening.

6. The filtration recovery mechanism of claim 1, wherein: a cleaning opening is formed in the bottom end of the discharge chute, and a movable cover is rotatably arranged at the cleaning opening.

7. The filtration recovery mechanism of claim 1, wherein: the recovery pipe is communicated with the upper part of one end, far away from the adapter, of the grit chamber.

8. The filtration recovery mechanism of claim 7, wherein: the recovery pipe is horizontally arranged.