CN214637126U - High-efficient multistage breaker of active carbon - Google Patents

Abstract

The utility model belongs to the field of active carbon processing, in particular to a high-efficiency active carbon multistage crushing device; the device comprises a raw material bin, a first elevator, a second lossless elevator, a first-stage feeding bin, a first-stage crushing device, a screening device, a second-stage feeding bin, a second-stage crushing device, a finished material packaging device and a screen discharging bin; the utility model discloses simple structure adopts the broken harmless promotion of two-stage, through adjusting the respective broken dynamics of one-level breaker and second grade breaker, can fine promotion broken yield for the broken yield of active carbon can reach more than 85%.

Description

High-efficient multistage breaker of active carbon

The technical field is as follows:

the utility model belongs to active carbon processing field, concretely relates to high-efficient active carbon multistage breaker.

Background art:

the existing market has strict requirements on the size of the activated carbon, and the size specification has multiple types. The active carbon with larger particles produced by the activation furnace is required to be crushed into an active carbon product with smaller particles meeting the order requirement through a crushing system, and in the active carbon crushing process, the larger the crushing size difference is, the more undersize materials are generated by crushing, and the larger the material loss is. The existing crushing equipment has large crushing loss to the active carbon and low yield.

The utility model has the following contents:

in order to solve the technical problem, the utility model provides a high-efficient multistage breaker of active carbon, simple structure adopts the second grade breakage, and production efficiency is high, and the loss is low.

A high-efficiency activated carbon multistage crushing device comprises a raw material bin, a first lifting machine, a second lifting machine, a primary feeding bin, a primary crushing device, a screening device, a secondary feeding bin, a secondary crushing device, a finished product packaging device and a screen underflow bin, wherein a feeding port of the first lifting machine is fixedly connected with an outlet of the raw material bin; the material outlet of the second elevator is connected with the material inlet of the second-stage feeding bin, the material outlet of the second-stage feeding bin is fixedly connected with the material inlet of the second-stage crushing device, and the material outlet of the second-stage crushing device is connected with the material inlet of the screening device.

Preferably, an upper screen and a lower screen are arranged in the screening device in parallel, the interior of the screening device is divided into an upper part, a middle part and a lower part, the upper part is arranged above the upper screen, and the upper part is fed into the secondary crushing device for crushing through an upper screen discharge port and a second elevator; a middle part is arranged between the upper screen and the lower screen, and the middle part of the materials flow out from a finished product discharge port and are packaged by a finished product packaging device; the lower part is arranged below the lower screen, and the lower part of the material flows into a material bin below the screen through a material outlet below the screen.

Preferably, the first hoisting machine and the second hoisting machine are lossless hoisting machines.

Preferably, the primary crushing device and the secondary crushing device crush the materials in a double-roller crushing mode.

The utility model discloses simple structure adopts the broken harmless promotion of two-stage, through adjusting the respective broken dynamics of one-level breaker and second grade breaker, can fine promotion broken yield for the broken yield of active carbon can reach more than 85%.

Description of the drawings:

fig. 1 is a schematic structural diagram of the present invention.

In the figure, a raw material bin 1, a first hoisting machine 2, a screening device 3, a finished product discharge port 4, a finished product packaging device 5, a screen underflow bin 6, a screen underflow discharge port 7, a screen overflow discharge port 8, a screening machine feed port 9, a second hoisting machine 10, a primary crushing device 11, a secondary crushing device 12, a primary feed bin 13 and a secondary feed bin 14 are arranged.

The specific implementation mode is as follows:

as shown in fig. 1, a high-efficiency activated carbon multistage crushing device comprises a raw material bin 1, a first elevator 2, a second elevator 10, a first-stage feeding bin 13, a first-stage crushing device 11, a screening device 3, a second-stage feeding bin 14, a second-stage crushing device 12, a finished product packaging device 5 and an undersize bin 6, wherein a feeding port of the first elevator 2 is fixedly connected with an outlet of the raw material bin 1, a discharging port of the first elevator 2 is fixedly connected with a feeding port of the first-stage feeding bin 13, a discharging port of the first-stage feeding bin 13 is fixedly connected with a feeding port 9 of the screening device, and the screening device 3 is provided with a finished product discharging port 4, an undersize discharging port 7 and an oversize discharging port 8; the screen top discharge port 8 is fixedly connected with the feed port of the second elevator 10, the finished product discharge port 4 is fixedly connected with the feed port of the finished product packaging device 5, the screen bottom discharge port 7 is connected with the feed port of the screen bottom bin 6, the discharge port of the second elevator 10 is connected with the feed port of the second-stage feeding bin 14, the discharge port of the second-stage feeding bin 14 is fixedly connected with the feed port of the second-stage crushing device 12, and the discharge port of the second-stage crushing device 12 is fixedly connected with the feed port of the screening device 3.

An upper screen and a lower screen are arranged in parallel in the screening device 3 according to the size requirement of a finished product material, the interior of the screening device is divided into an upper part, a middle part and a lower part, the upper part is arranged above the upper screen, and the upper part material is sent into a secondary crushing device 12 for crushing through an upper screen discharge port 8 and a second elevator 10; a middle part is arranged between the upper screen and the lower screen, and the middle part of the materials flow out from a finished product discharge port 4 and enter a finished product packaging device 5 for packaging; the lower part is arranged below the upper screen, and the lower part of the material flows into a screen lower bin 6 from a screen lower discharge port 7; the first hoisting machine 2 and the second hoisting machine 10 are lossless hoisting machines; the primary crushing device 11 and the secondary crushing device 12 crush materials in a double-roller crushing mode.

Claims (4)

1. The utility model provides a multistage breaker of high-efficient active carbon which characterized in that: the multistage crushing device comprises a raw material bin, a first lifting machine, a second lifting machine, a first-stage feeding bin, a first-stage crushing device, a screening device, a second-stage feeding bin, a second-stage crushing device, a finished material packaging device and an undersize bin, wherein a feeding hole of the first lifting machine is fixedly connected with an outlet of the raw material bin, a discharging hole of the first lifting machine is fixedly connected with an inlet of the first-stage feeding bin, an outlet of the first-stage feeding bin is fixedly connected with a feeding hole of the screening device, and the screening device is provided with a finished material discharging hole, an undersize discharging hole and an oversize discharging hole; the material outlet of the second elevator is connected with the material inlet of the second-stage feeding bin, the material outlet of the second-stage feeding bin is fixedly connected with the material inlet of the second-stage crushing device, and the material outlet of the second-stage crushing device is connected with the material inlet of the screening device.

2. The efficient activated carbon multistage crushing device according to claim 1, wherein: an upper screen and a lower screen are arranged in parallel in the screening device, the interior of the screening device is divided into an upper part, a middle part and a lower part, the upper part is arranged above the upper screen, and the upper part of materials are sent into a secondary crushing device for crushing through an upper screen discharge port and a second elevator; a middle part is arranged between the upper screen and the lower screen, and the middle part of the materials flow out from a finished product discharge port and are packaged by a finished product packaging device; the lower part is arranged below the lower screen, and the lower part of the material flows into a material bin below the screen through a material outlet below the screen.

3. The efficient activated carbon multistage crushing device according to claim 1, wherein: the first hoisting machine and the second hoisting machine are lossless hoisting machines.

4. The efficient activated carbon multistage crushing device according to claim 1, wherein: the primary crushing device and the secondary crushing device crush materials in a double-roller crushing mode.

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