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Activated carbon automatic feeding system and its control method and device

An automatic feeding, activated carbon technology, applied in transportation and packaging, packaging, loading/unloading, etc., can solve the problem of low efficiency of activated carbon

Active Publication Date: 2020-10-27
ZHONGYE-CHANGTIAN INT ENG CO LTD +1
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0006] This application provides an activated carbon automatic feeding system and its control method and device to solve the problem of low efficiency of the existing activated carbon feeding process for the adsorption system of the activated carbon flue gas purification system

Method used

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  • Activated carbon automatic feeding system and its control method and device
  • Activated carbon automatic feeding system and its control method and device
  • Activated carbon automatic feeding system and its control method and device

Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0084] This embodiment provides an activated carbon automatic feeding system, see Figure 3 to Figure 5 , the system includes: the first crane 1, the first crane track 2 for the first crane 1 to drive, the second crane 3, the winch 4 and the spreader 5 arranged on the second crane 3 and the material receiving port arranged on the upper hopper 6 grid plates 7;

[0085] The setting position of the first crane track 2 is higher than the material receiving port 6 and makes the first crane 1 line go through the material receiving port 6;

[0086] The first crane 1 is provided with the second crane rail 11 for the driving of the second crane 3; the second crane 3 is connected with the first crane 1 through the second crane rail 11; the first crane rail 2 is arranged along the X-axis direction, and the second crane The track 11 is arranged along the Y-axis direction perpendicular to the X-axis direction, so that the driving direction of the first crane 1 and the second crane 2 is pe...

Embodiment 2

[0105] Figure 9 It is an example of a spreader structure shown in this application. The beam body of the spreader is provided with 4 sets of hooks, namely the first set of hooks G11, G12, the second set of hooks G21, G22, and the third set of hooks G31 , G32, the fourth group of hooks G41, G42; in order to ensure the force balance of the spreader beam body when lifting the activated carbon bag, the 4 groups of hooks are equidistant on the beam body and symmetrically arranged about the midpoint of the beam body.

[0106] The sling of the present embodiment structure can hoist up to 8 active carbon bags at the same time, such as Figure 10 As shown, single hooks G11, G12, G21, G22, G31, G32, G41 and G42 respectively lift an activated carbon bag. In addition, in the specific implementation, by controlling the actions of the first crane, the second crane and the winch, the spreader of this embodiment can realize the hoisting of the activated carbon package to be lifted in differ...

Embodiment 3

[0109] refer to Figure 12 , as a preferred embodiment, two suspension points (511 / 512) are provided on the beam body 51 of the spreader in this embodiment, and the two suspension points are respectively arranged symmetrically with respect to the midpoint of the beam body at positions close to the two ends of the beam body , on the beam body between the two suspension points, there are two sets of hooks, and each set of hooks is equipped with two single hooks, namely the first set of hooks G11, G12, the second set of hooks G21, G22, the Two sets of hooks are arranged symmetrically about the midpoint of the beam body, and the distance between the two sets of hooks is W2=L, where L represents the width of the activated carbon package to be hoisted.

[0110] In the specific implementation, by controlling the actions of the first crane, the second crane and the hoisting, the spreader of this embodiment can be hoisted in different ways for the activated carbon package to be lifted,...

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Abstract

The invention discloses an automatic active carbon feeding system and a control method and device thereof. Firstly, the position information of active carbon bags to be lifted is detected, secondly, alifting appliance is moved to a start position by controlling the movement of a first crane and second crane; thirdly, the lifting appliance is controlled to lift the active carbon bags according tothe number and position layout of the active carbon bags to be lifted; and, the position layout of the active carbon bags to be lifted on the lifting appliance is determined according to the obtainedmeasured value of each weighing sensor, the first crane, the second crane and a hoist machine are controlled, the lifted active carbon bags are moved to a preset bag breaking position above a materialreceiving opening, the bags are broken, and the hoist is controlled to move the active carbon bags to a discharging position to start discharging. According to the invention, the automatic bag breaking and discharging operations of a plurality of active carbon bags are achieved at the same time, the manual participation is reduced, and the feeding efficiency of active carbon feeding on an adsorption system of an active carbon flue gas purification system is improved.

Description

technical field [0001] The present application relates to the technical field of activated carbon flue gas purification, in particular to an activated carbon automatic feeding system and its control method and device. Background technique [0002] The sintering flue gas produced by iron and steel enterprises contains a large amount of SO 2 , NO X , dioxins, dust, heavy metals and other pollutants, the sintering flue gas synchronous treatment technology based on the activated carbon flue gas purification system can realize simultaneous desulfurization, denitrification, removal of dioxins, heavy metals and other pollutants, thus gradually gaining recognition in the industry attention and use. The activated carbon flue gas purification system uses activated carbon as the adsorbent, and uses the non-selective adsorption and catalytic effects of activated carbon to simultaneously absorb and remove multiple pollutants, thereby purifying the sintering flue gas. [0003] Typicall...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): B65G65/00B65G65/32B65G65/40B65G69/00B65B69/00
CPCB65B69/0033B65G65/005B65G65/32B65G65/40B65G69/00
Inventor 刘雁飞刘昌齐陈红
Owner ZHONGYE-CHANGTIAN INT ENG CO LTD