CN215198255U - Fluidized bed waste recycling and tobacco shred recycling system - Google Patents

Abstract

The utility model relates to a fluidized bed waste recovery and tobacco shred recycling system, which comprises a feeding device, a first vibrating screen, an air vibrating screen and a second vibrating screen; the first end of the feeding device is positioned on the ground, the second end of the feeding device extends to the upper part of the feeding hole of the first vibrating screen, and the feeding device is used for feeding and conveying materials to the feeding hole of the first vibrating screen; the bottom of the first vibrating screen is provided with a first impurity outlet, a discharge hole of the first vibrating screen is communicated with a feed hole of the air vibrating screen, and the first vibrating screen is used for primary screening of materials; the lower part of the feeding hole of the air vibrating screen is connected with a second impurity outlet, the top of the air vibrating screen is provided with a fan, the discharging hole of the air vibrating screen is communicated with the feeding hole of the second vibrating screen, and the air vibrating screen is used for performing secondary screening on materials; the bottom of second shale shaker is provided with the third and goes out miscellaneous mouthful, and the second shale shaker is used for carrying out tertiary screening to the material. The utility model discloses filter totally and efficient.

Description

Fluidized bed waste recycling and tobacco shred recycling system

Technical Field

The utility model relates to a pipe tobacco recovery unit technical field specifically is about a fluidized bed waste recycling and pipe tobacco system of recycling.

Background

The tobacco shreds are raw materials for making cigarettes, and the tobacco shreds are cut from tobacco leaves. The tobacco leaves are mixed with impurities, such as dust, stalks, dust and the like, when being harvested and made into cut tobacco, so the cut tobacco must be subjected to an impurity filtering procedure before being used.

In the past, the filtered impurities are generally filtered by matching with a filter screen manually, so that the traditional filtering mode has low filtering efficiency and unclean filtering.

SUMMERY OF THE UTILITY MODEL

In view of the above, the present invention is directed to a fluidized bed waste recycling and tobacco recycling system to avoid the inefficiency of the traditional filtering method and the unclean problem of filtering.

In order to achieve the purpose, the utility model adopts the following technical proposal:

the fluidized bed waste recovery and tobacco shred recycling system comprises a feeding device, a first vibrating screen, an air vibrating screen and a second vibrating screen; the first end of the feeding device is positioned on the ground, the second end of the feeding device extends to the position above the feeding hole of the first vibrating screen, and the feeding device is used for feeding and conveying materials to the feeding hole of the first vibrating screen; the bottom of the first vibrating screen is provided with a first impurity outlet, a discharge hole of the first vibrating screen is communicated with a feed hole of the air vibrating screen, and the first vibrating screen is used for primary screening of materials; the lower part of the feeding hole of the air vibrating screen is connected with a second impurity outlet, the top of the air vibrating screen is provided with a fan, the discharging hole of the air vibrating screen is communicated with the feeding hole of the second vibrating screen, and the air vibrating screen is used for performing secondary screening on materials; the bottom of second shale shaker is provided with the third miscellaneous mouth of going out, the second shale shaker is used for carrying out tertiary screening to the material.

Fluidized bed waste recycling and pipe tobacco system of recycling, preferably, feed arrangement includes hopper, belt lifting machine and settling cask, the hopper set up in the top of belt lifting machine's first end, belt lifting machine's second end with the settling cask is connected, the settling cask is located the top of the feed inlet of first shale shaker.

The fluidized bed waste recycling and tobacco shred recycling system preferably further comprises a machine frame, wherein the machine frame mainly comprises an upper supporting plate and supporting legs, and the upper ends of the four supporting legs are respectively connected with four corners of the upper supporting plate; the first vibrating screen, the air vibrating screen and the second vibrating screen are arranged on an upper supporting plate of the rack.

The fluidized bed waste recycling and tobacco shred recycling system preferably further comprises a stair, and the stair is arranged on one side of the rack; the upper end of the stair is connected with the upper supporting plate, and the lower end of the stair extends to the ground.

The fluidized bed waste recycling and tobacco shred recycling system preferably further comprises a discharge chute and a material conveying belt, wherein the discharge chute and the material conveying belt are arranged on one opposite side of the stair; the upper end of blown down tank with the discharge gate of second shale shaker is connected, and its lower extreme extends to the top of material conveyer belt.

Fluidized bed waste recycling and pipe tobacco system of recycling, preferably, still be provided with between the discharge gate of air vibrating screen and the feed inlet of second shale shaker and close the wind ware, close the wind ware with the feed inlet of second shale shaker is connected, the discharge gate of air vibrating screen extend to close the top of the feed inlet of wind ware and with the feed inlet intercommunication of closing the wind ware.

Fluidized bed waste recycling and pipe tobacco system of recycling, preferably, still include the block terminal, the block terminal with first shale shaker, air vibration sieve and second shale shaker electricity are connected, the block terminal is used for supplying power to entire system.

The utility model discloses owing to take above technical scheme, it has following advantage:

the utility model can efficiently extract the available tobacco shreds from the tobacco stems and remove the dust, stems and dust in the tobacco shreds; just the utility model discloses a complete machine equipment easily clears up, easy maintenance.

Drawings

Fig. 1 is a schematic structural view of the present invention;

FIG. 2 is a front view of FIG. 1;

FIG. 3 is a right side view of FIG. 1;

fig. 4 is a left side view of fig. 1.

The figures are numbered:

1-a feeding device; 101-a hopper; 102-belt hoist; 103-a settling tank; 2-a first vibrating screen; 201-a first miscellaneous outlet; 3-an air vibrating screen; 301-a second outlet; 4-a second vibrating screen; 401-third miscellaneous outlet; 5, a fan; 6-a frame; 7-stairs; 8-a discharge chute; 9-a material conveyor belt; 10-a wind-blocking device; 11-distribution box.

Detailed Description

The preferred embodiments of the present invention will be described in detail below with reference to the accompanying drawings so that the objects, features and advantages of the invention can be more clearly understood. It should be understood that the embodiments shown in the drawings are not intended as limitations on the scope of the invention, but are merely illustrative of the true spirit of the technical solution of the invention.

As shown in fig. 1 to 4, the fluidized bed waste recycling and tobacco shred recycling system provided by the present invention comprises a feeding device 1, a first vibrating screen 2, an air vibrating screen 3 and a second vibrating screen 4; the first end of the feeding device 1 is positioned on the ground, the second end of the feeding device extends to the upper part of the feeding hole of the first vibrating screen 2, and the feeding device 1 is used for feeding and conveying materials to the feeding hole of the first vibrating screen 2; a first impurity outlet 201 (see fig. 3) is arranged at the bottom of the first vibrating screen 2, a discharge hole of the first vibrating screen 2 is communicated with a feed hole of the air vibrating screen 3, and the first vibrating screen 2 is used for primary screening of materials; the lower part of the feeding hole of the air vibrating screen 3 is connected with a second impurity outlet 301, the top of the air vibrating screen 3 is provided with a fan 5, and the fan 5 is used for blowing away the dust of the tobacco shreds entering the air vibrating screen; a discharge hole of the air vibrating screen 3 is communicated with a feed hole of the second vibrating screen 4, and the air vibrating screen 3 is used for secondary screening of materials; the bottom of the second vibrating screen 4 is provided with a third impurity outlet 401 (see fig. 4), and the second vibrating screen 4 is used for carrying out three-stage screening on the materials.

In the above embodiment, preferably, the feeding device 1 includes a hopper 101, a belt elevator 102, and a settling tank 103, the hopper 101 is disposed above a first end of the belt elevator 102, a second end of the belt elevator 102 is connected to the settling tank 103, and the settling tank 103 is located above the feeding port of the first vibrating screen 2. Therefore, materials are fed through the hopper 101 and conveyed into the settling box 103 through the belt elevator 102, the discharge hole of the settling box 103 is aligned with the feed hole of the first vibrating screen 2, and the materials enter the first vibrating screen 2.

In the above embodiment, preferably, the utility model further comprises a frame 6, the frame 6 mainly comprises an upper support plate and four legs, and the upper ends of the four legs are respectively connected with four corners of the upper support plate; the first vibrating screen 2, the air vibrating screen 3 and the second vibrating screen 4 are arranged on an upper supporting plate of the frame 6. The frame thus provides support for the first 2, air 3 and second 4 vibrating screens.

In the above embodiment, preferably, the utility model further comprises a stair 7, the stair 7 is arranged on one side of the frame 6; the upper end of the stair 7 is connected with the upper supporting plate of the frame 6, and the lower end of the stair extends to the ground. The stair can facilitate the operator to enter the frame 6 for the maintenance of the system equipment.

In the above embodiment, preferably, the utility model further comprises a discharge chute 8 and a material conveyor belt 9, wherein the discharge chute 8 and the material conveyor belt 9 are both arranged on the opposite side of the stair 7; the upper end of the discharge chute 8 is connected with the discharge hole of the second vibrating screen 4, and the lower end of the discharge chute extends to the upper part of the material conveying belt 9. Therefore, the materials after the three-stage filtration are guided to a material conveying belt 9 through a discharging groove 8 and conveyed to a fixed position for later use.

In the above embodiment, preferably, an air lock 10 is further disposed between the discharge port of the air vibrating screen 3 and the feed port of the second vibrating screen 4, the air lock 10 is connected to the feed port of the second vibrating screen 4, and the discharge port of the air vibrating screen 3 extends to above the feed port of the air lock 10 and is communicated with the feed port of the air lock 10. The airlock 10 is used to seal the material entering the feed opening of the second vibrating screen 4.

In the above embodiment, preferably, the utility model discloses still include block terminal 11, block terminal 11 is connected with first shale shaker 2, air vibration sieve 3 and second shale shaker 4 electricity, and block terminal 11 is used for supplying power to entire system.

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

Claims (7)

1. A fluidized bed waste recycling and tobacco shred recycling system is characterized by comprising a feeding device, a first vibrating screen, an air vibrating screen and a second vibrating screen;

the first end of the feeding device is positioned on the ground, the second end of the feeding device extends to the position above the feeding hole of the first vibrating screen, and the feeding device is used for feeding and conveying materials to the feeding hole of the first vibrating screen;

the bottom of the first vibrating screen is provided with a first impurity outlet, a discharge hole of the first vibrating screen is communicated with a feed hole of the air vibrating screen, and the first vibrating screen is used for primary screening of materials;

the lower part of the feeding hole of the air vibrating screen is connected with a second impurity outlet, the top of the air vibrating screen is provided with a fan, the discharging hole of the air vibrating screen is communicated with the feeding hole of the second vibrating screen, and the air vibrating screen is used for performing secondary screening on materials;

the bottom of second shale shaker is provided with the third miscellaneous mouth of going out, the second shale shaker is used for carrying out tertiary screening to the material.

2. The fluidized bed waste recovery and tobacco shred recycling system according to claim 1, wherein the feeding device comprises a hopper, a belt elevator and a settling tank, the hopper is arranged above a first end of the belt elevator, a second end of the belt elevator is connected with the settling tank, and the settling tank is positioned above a feeding hole of the first vibrating screen.

3. The fluidized bed waste recycling and tobacco shred recycling system according to claim 1, further comprising a frame, wherein the frame mainly comprises an upper support plate and four support legs, and the upper ends of the four support legs are respectively connected with four corners of the upper support plate; the first vibrating screen, the air vibrating screen and the second vibrating screen are arranged on an upper supporting plate of the rack.

4. The fluidized bed waste recovery and shredded tobacco recycling system according to claim 3, further comprising a stair disposed at one side of the rack; the upper end of the stair is connected with the upper supporting plate, and the lower end of the stair extends to the ground.

5. The fluidized bed waste recovery and shredded tobacco recycling system according to claim 4, further comprising a discharge chute and a material conveyor belt, both disposed on opposite sides of the staircase; the upper end of blown down tank with the discharge gate of second shale shaker is connected, and its lower extreme extends to the top of material conveyer belt.

6. The fluidized bed waste recycling and tobacco shred recycling system according to claim 1, wherein an air closing device is further arranged between the discharge hole of the air vibrating screen and the feed hole of the second vibrating screen, the air closing device is connected with the feed hole of the second vibrating screen, and the discharge hole of the air vibrating screen extends to the upper part of the feed hole of the air closing device and is communicated with the feed hole of the air closing device.

7. The fluidized bed waste recovery and shredded tobacco recycling system according to any one of claims 1 to 6, further comprising a distribution box electrically connected to the first, air and second vibrating screens, the distribution box being used to power the entire system.

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