CN113249564A - Intelligent pile changing method for sintering and blending ore - Google Patents

Abstract

The invention relates to an intelligent heap replacement method for sintering and blending ores, which comprises the following steps: obtaining a sintering blending ore pile changing adjustment parameter, obtaining the maximum adjustment times, and calculating a target bin position of the blending ore bin position balance participating in pile changing; obtaining the residual bin positions in the blending ore bins participating in pile changing, carrying out slot position balance calculation according to the difference value between the target bin position and the residual bin positions of the slot position balance, and distributing the actual blanking amount and proportion of the blending ore proportioning bins; blanking each raw material bin according to the actual blanking amount and proportion, and realizing that each blending ore bin participating in pile changing can reach a target bin position at the same time; and after the slot position balance is finished, uniformly distributing the total proportion of the uniformly mixed ore to the uniformly mixed ore bins participating in pile replacement, calculating the actual blanking amount and proportion of each uniformly mixed ore bin, and blanking. The invention can reduce the quality fluctuation of the sintering ore in the pile changing process.

Description

Intelligent pile changing method for sintering and blending ore

Technical Field

The invention relates to the technical field of sintering of uniform mixed ores, in particular to an intelligent heap replacement method for sintering uniform mixed ores.

Background

The uniform ore is a main iron-containing raw material used in a sintering process, consists of iron ores with various components and properties, and is obtained by mixing and stacking according to the quality requirement of sintering on the uniform ore and the characteristics of different iron ores. The method is characterized in that the common enterprise mixed ore is two material strips and two material piles or one material strip and two material piles, one material pile can be used only after the stacking plan is completed and the material sealing is completed, and the ore blending structure and components between each two material piles have certain difference, so that the sintering process uses the mixed ore of different material piles, the quality has certain fluctuation in the pile changing process, the switching between the common enterprise mixed ore piles and the pile is manually operated, the estimation is completed by manual experience, the defects of large workload, low accuracy, low adaptability and the like exist, the whole pile changing process needs several hours, the quality fluctuation of the sintered ore in the pile changing process is large, and the direct operation influence on a blast furnace in the next process is large.

Disclosure of Invention

The invention aims to solve the technical problem of providing an intelligent pile changing method for sintering and blending ores, which can reduce the fluctuation of the quality of the sintering ores in the pile changing process.

The technical scheme adopted by the invention for solving the technical problems is as follows: the intelligent heap replacement method for the sintering blending ore comprises the following steps:

(1) obtaining a sintering blending ore pile changing adjustment parameter, obtaining the maximum adjustment times, and calculating a target bin position of the blending ore bin position balance participating in pile changing;

(2) obtaining the residual bin positions in the blending ore bins participating in pile changing, carrying out slot position balance calculation according to the difference value between the target bin position and the residual bin positions of the slot position balance, and distributing the actual blanking amount and proportion of the blending ore proportioning bins;

(3) blanking each raw material bin according to the actual blanking amount and proportion, and realizing that each blending ore bin participating in pile changing can reach a target bin position at the same time;

(4) and after the slot position balance is finished, uniformly distributing the total proportion of the uniformly mixed ore to the uniformly mixed ore bins participating in pile replacement, calculating the actual blanking amount and proportion of each uniformly mixed ore bin, and blanking.

And (2) in the step (1), acquiring the maximum adjusting times of the pile changing of the sintered mixed ore through the mixed ore pile changing plan, and calculating the target bin position of the slot position balance of each mixed ore bin participating in pile changing according to the sintered mixed ore pile changing technical standard.

And (3) judging whether the actual blanking amount of each distributed blending ore bin meets the minimum cut-out amount or not between the step (2) and the step (3), if so, entering the step (3), otherwise, performing downshift processing, wherein the downshift processing is to reduce the slot position balance target bin position and perform slot position balance calculation again.

And (4) judging whether new materials are put into each blending ore bin participating in pile changing, and if so, performing parameter adjustment control according to the residual proportion of the old materials.

Advantageous effects

Due to the adoption of the technical scheme, compared with the prior art, the invention has the following advantages and positive effects: the invention can analyze and judge according to the actual production conditions, correct the pile changing parameters and adjust the quality in time, realize the accurate control of the pile changing process, reduce the workload of personnel and improve the stability of the quality of sintered mineral products in the pile changing process.

Drawings

FIG. 1 is a flow chart of the present invention.

Detailed Description

The invention will be further illustrated with reference to the following specific examples. It should be understood that these examples are for illustrative purposes only and are not intended to limit the scope of the present invention. Further, it should be understood that various changes or modifications of the present invention may be made by those skilled in the art after reading the teaching of the present invention, and such equivalents may fall within the scope of the present invention as defined in the appended claims.

The embodiment of the invention relates to an intelligent heap replacement method for sintering and blending ores, which comprises the following steps as shown in figure 1: obtaining a sintering blending ore pile changing adjustment parameter, obtaining the maximum adjustment times, and calculating a target bin position of the blending ore bin position balance participating in pile changing; obtaining the residual bin positions in the blending ore bins participating in pile changing, carrying out slot position balance calculation according to the difference value between the target bin position and the residual bin positions of the slot position balance, and distributing the actual blanking amount and proportion of the blending ore proportioning bins; blanking each raw material bin according to the actual blanking amount and proportion, and realizing that each blending ore bin participating in pile changing can reach a target bin position at the same time; and after the slot position balance is finished, uniformly distributing the total proportion of the uniformly mixed ore to the uniformly mixed ore bins participating in pile replacement, calculating the actual blanking amount and proportion of each uniformly mixed ore bin, and blanking.

According to the implementation mode of the invention, the pile changing model of the sintering blending ores can be established in the intelligent sintering system, and the existing pile changing full-manual operation mode is subjected to one-key intelligent control in the intelligent sintering system, so that the pile changing process is accurately controlled, the workload of personnel is reduced, and the stability of the quality of the sintering ores in the pile changing process is improved. The method specifically comprises the following steps:

adjusting and controlling pile changing parameters; after the new mixed ore piles are sealed, after the mixed ore pile changing plan of the intelligent sintering system is finished, the intelligent pile changing system automatically grabs adjusting parameters such as R (sintered ore alkalinity), MgO, C and the like, calculates target bin positions with balanced slot positions according to parameter adjusting values and maximum adjusting times, and calculates the target bin positions with balanced slot positions of the mixed ore bins participating in pile changing according to the technical standard of mixed ore pile changing.

And (4) slot position balance control: after the old material is taken out, the system automatically captures the residual material level of the ore bin participating in the change of the material and mixing, performs slot balance calculation according to the difference value of a slot balance target bin level and the residual bin level, distributes the actual blanking amount and proportion of each bin, and realizes the purpose that the old material participating in the change of the material bin simultaneously reaches the target bin level through balance control.

It is worth mentioning that after distributing the actual blanking amount and proportion of each bin, before blanking each blending ore bin, whether the actual blanking amount of each distributed raw material bin meets the minimum cut-out amount is judged, if yes, blanking is carried out on each blending ore bin, otherwise, downshift processing is carried out, namely, the target bin position of slot position balance is reduced, and slot position balance calculation is carried out again.

And (3) parameter adjustment control: and evenly distributing the blending ore ratio of each bin after the slot position balance is finished, and performing parameter adjustment control according to the old material residual ratio determined by the parameter adjustment times and the adjustment value after new materials are fed into the bins participating in the stockpiling change.

The method has the advantages that one-key intelligent control can be realized by using the method for replacing the sintered and mixed ore, the workload of personnel is greatly reduced, the accuracy of the replacement operation is greatly improved, and various conditions in the replacement process are free. The pile changing and adjusting accuracy and the stability of the sintered mineral quality are obviously improved.

Claims (4)

1. An intelligent heap replacement method for sintering blending ores is characterized by comprising the following steps:

(1) obtaining a sintering blending ore pile changing adjustment parameter, obtaining the maximum adjustment times, and calculating a target bin position of the blending ore bin position balance participating in pile changing;

(2) obtaining the residual bin positions in the blending ore bins participating in pile changing, carrying out slot position balance calculation according to the difference value between the target bin position and the residual bin positions of the slot position balance, and distributing the actual blanking amount and proportion of the blending ore proportioning bins;

(3) blanking each raw material bin according to the actual blanking amount and proportion, and realizing that each blending ore bin participating in pile changing can reach a target bin position at the same time;

(4) and after the slot position balance is finished, uniformly distributing the total proportion of the uniformly mixed ore to the uniformly mixed ore bins participating in pile replacement, calculating the actual blanking amount and proportion of each uniformly mixed ore bin, and blanking.

2. The intelligent blending ore heap changing method according to claim 1, wherein in the step (1), the maximum adjusting times of blending ore heap changing of the sintering blending ore is obtained through a blending ore heap changing plan, and the target bin position of slot position balance of each blending ore bin participating in heap changing is calculated according to the blending ore heap changing technical standard of the sintering blending ore.

3. The intelligent heap changing method for the sinter blending ores according to claim 1, wherein the step (2) and the step (3) further comprise the step of judging whether the actual blanking amount of each blending ore bin which is distributed meets the minimum cut-out amount, if so, the step (3) is carried out, otherwise, downshift processing is carried out, wherein the downshift processing is to reduce the slot position balance target bin position, and slot position balance calculation is carried out again.

4. The intelligent blending ore replacing method according to claim 1, wherein the step (4) is followed by judging whether new materials are put into each blending ore bin involved in the replacement, and if so, performing parameter adjustment control according to the residual proportion of old materials.

Images