CN101396793A - Large column distance technique collocation method - Google Patents

Abstract

The invention relates to a large column distance process configuration method, belonging to the field of aluminium metal process configuration method. Large-span columns (6 rows and 1 line) with two adjacent column distance are designed between the 1-15 and 1-19 columns in lines of 1-B, 1-C, 1-D, 1-E, 1-F and 1-G at the hot rolling area and the middle thick plate processing area; the distance of the large-span column is 42m; the large column distance process configuration method effectively solves the technical problem that the prior art is difficult to meet the process needed by large-specification aluminium and aluminium alloy plate of more than 22m, ensures the production of the large-specification aluminium and aluminium alloy plate, and has important significance for the process configuration and workshop design in domestic aluminium processing industry. The large column distance process configuration method is mainly used for the production process configuration design of large-specification aluminium and aluminium alloy plate.

Description

A kind of large column distance technique collocation method

Technical field

The present invention relates to aluminum metal processing technology collocation method, a kind of specifically large column distance technique collocation method.

Background technology

For producing high-quality big specification aluminium and aluminum alloy sheets and strips, we adopted ingot casting-mill face-erosion wash-weld and-heating or soaking-hot rolling-shearings-quenching-prestretched-timeliness-flaw detection-finished product sawing-polishing-technology of the package, be divided into ingot casting processing district, hot rolling production area, cut deal processing district in the whole workshop of this technology of employing.

The ingot casting processing district comprises that 1-N～1-M, 1-M～1-L, four of 1-L～1-K, 1-J～1-H stride, and arranges ingot casting sawing machine, ingot mill surface machine, cladding plate erosion washing trough group, ingot casting seam unit and casting ingot heating stove respectively.This district finish ingot casting sawing-mill face-coating-weldering and-production process of heating or soaking.

The hot rolling production area comprises that 1-J～1-H, 1-F～1-G stride two and stride, and is furnished with hot-rolling mill, annealing furnace, roll grinder, and this district mainly finishes the ingot casting hot rolling after heating or the soaking, the production process that plate, intermediate annealing are piled up neatly in shearing.

The cut deal processing district comprises that 1-E～1-D, 1-D～1-C, four of 1-C～1-B, 1-B～1-A stride, and arrange roller-bottom type glowing furnace, prestretched unit, precision sawing machine, water logging ultrasonic flaw-detecting machine, Plate material package unit and aging furnace respectively.This district finishes the production process of the sheet material quenching-prestretched-timeliness-flaw detection-finished product sawing-polishing-packing-finished product sheet material after the shearing.

Because place restriction, the design has adopted the multispan complex factories, and main production equipments is arranged in different span centres, and sheet material must be crossed and stride transportation and just can finish the whole production technological process.And according to the conventional design of present domestic Non-ferrous Metals Processing Factory, post is apart from being no more than 24 meters, but at most can only the sheet material of production length about 20 meters.Therefore for satisfying manufacturing technique requirent, produce big specification aluminium and aluminum alloy plate materials more than 22 meters, must select a kind of suitable technique collocation method.

Summary of the invention

The purpose of this invention is to provide a kind of technique collocation method, the big specification aluminium that solve that existing technology exists be difficult to satisfy produces more than 22 meters and the technical problem of the required technology of aluminum alloy plate materials, thus satisfy manufacturing technique requirent.

The present invention solves the technical method that its technical problem adopts: the i.e. large span post of design 6 row, 2 adjacent post distances of 1 row between the 1-15 of 1-B, 1-C, 1-D, 1-E, 1-F, 1-G row, 1-19 post in hot rolling district and cut deal processing district.

The distance of described large span post is 42 meters.

The invention has the beneficial effects as follows, not only effectively solve existing technology and be difficult to satisfy to produce the big specification aluminium more than 22 meters and the technical problem of the required technology of aluminum alloy plate materials, satisfy the production technology demand, and guaranteed the production of big specification aluminium and aluminum alloy plate materials, significant to the Process configuration and the plant designing of domestic aluminium processing industry.

Description of drawings

The present invention is further described below in conjunction with drawings and Examples.

Fig. 1 is the large span post schematic diagram of 6 row, 2 adjacent post distances of 1 row;

1. factory buildings are leant among the figure, 2. straddle carrier.

Fig. 2 is the production technique structure schematic diagram;

The specific embodiment

It in Fig. 1 the large span post schematic diagram of 6 row, 2 adjacent post distances of 1 row.

In Fig. 2, the large span post of 6 row, 2 adjacent post distances of 1 row has promptly been designed in hot rolling district in Fig. 1 and cut deal processing district between the 1-15 of 1-B, 1-C, 1-D, 1-E, 1-F, 1-G row, 1-19 post.

Claims (2)

1. large column distance technique collocation method is characterized in that: the i.e. large span post of design 6 row, 2 adjacent post distances of 1 row between the 1-15 of 1-B, 1-C, 1-D, 1-E, 1-F, 1-G row, 1-19 post in hot rolling district and cut deal processing district.

2. according to the described a kind of large column distance technique collocation method of claim 1, it is characterized in that: the distance of described large span post is 42 meters.

Images