CN111099245A

CN111099245A - Prebaked anode carbon block intelligent warehousing system

Info

Publication number: CN111099245A
Application number: CN201911392276.8A
Authority: CN
Inventors: 张忠霞; 何川; 陈杰; 王迎
Original assignee: China Aluminum International Engineering Corp Ltd
Current assignee: China Aluminum International Engineering Corp Ltd; Guiyang Aluminum Magnesium Design and Research Institute Co Ltd
Priority date: 2019-12-30
Filing date: 2019-12-30
Publication date: 2020-05-05

Abstract

The invention discloses an intelligent storage system for prebaked anode carbon blocks, which consists of a carbon block storage rack, a conveying and lifting system, a warehouse-in (warehouse-out) chain plate conveyor, an intelligent scheduling control system and an informatization management system. The carbon block storage rack promotes the safe stacking height of the carbon blocks, improves the effective volume rate of the warehouse, stores the carbon blocks in independent bins, has no limit to the specification and the size of the carbon blocks, and can store the carbon blocks first and first. The conveying and lifting system can receive the carbon blocks from the warehousing chain scraper conveyor to be stored in the carbon block storage rack, or take the carbon blocks on the carbon block storage rack out to be sent to the ex-warehouse chain scraper conveyor. The intelligent scheduling control system can intelligently schedule the storage and the taking of the carbon blocks according to the production and sales requirements. And the informatization management system records the purchase, sale and storage to form real-time statistical data.

Description

Prebaked anode carbon block intelligent warehousing system

Technical Field

The invention relates to the technical field of carbon, in particular to an intelligent storage system for prebaked anode carbon blocks.

Background

The pile height of the traditional prebaked anode carbon block storage is limited, generally ranges from 7 to 8 layers, the safety accident of carbon block collapse is easily caused due to overhigh pile height, and the floor area of a factory is large. Carbon block storehouses with uniform carbon block specifications generally adopt stacking crown blocks to store in and take out, but the clamp of the stacking crown blocks has high stroke, the height of a workshop is not effectively utilized, and the effective volume rate is low. The carbon blocks with various specifications are stacked by a single clamp crown block, so that the working efficiency is low, and the stacking height is uneven and easy to collapse. Warehousing can only be performed according to the sequence from low to high, ex-warehouse can only be performed by clamping in the reverse direction, ex-warehouse first can not be realized, and the storage time of individual carbon blocks is too long. Warehousing and ex-warehouse require crown block workers to operate, and labor is large in number. Each carbon block has no coding information, the storage management informatization is low, and the purchase, sale and storage need to be counted manually.

Disclosure of Invention

In order to overcome the defects of the prior art, the invention aims to provide an intelligent storage system for prebaked anode carbon blocks, which solves the problems that the traditional prebaked anode carbon block storage warehouse is limited in stacking height, large in occupied area, low in effective volume rate, difficult in stacking of carbon blocks with multiple specifications, low in working efficiency, more in labor fixation, low in storage management informatization and the like, and the height of a factory building is not effectively utilized.

The technical scheme adopted by the invention is as follows: the warehousing system consists of a carbon block storage rack, a conveying and lifting system, a warehouse-in (warehouse-out) chain plate conveyor, an intelligent scheduling control system and an informatization management system. The carbon block storage rack promotes the safe stacking height of the carbon blocks, improves the effective volume rate of the warehouse, stores the carbon blocks in independent bins, has no limit to the specification and the size of the carbon blocks, and can store the carbon blocks first and first. The conveying and lifting system can receive the carbon blocks from the warehousing chain scraper conveyor to be stored in the carbon block storage rack, or take the carbon blocks on the carbon block storage rack out to be sent to the ex-warehouse chain scraper conveyor. The intelligent scheduling control system can intelligently schedule the storage and the taking of the carbon blocks according to the production and sales requirements. And the informatization management system records the purchase, sale and storage to form real-time statistical data.

The carbon block storage rack has a single bin length of 2m, a width of 1m and a height of 1m, and is suitable for storing anode carbon blocks of various specifications. The carbon block storage rack is arranged on 16 layers or more along the height direction, and the bin positions are connected end to end in series along the length direction of a workshop. Every two of the bin positions in the width direction are arranged back to form 1 group, and a 1m wide roadway is reserved between the groups.

The conveying and lifting system consists of a ground shuttle car and an attic shuttle car, wherein the shuttle car runs on a fixed track, the ground shuttle car shuttles in two directions, and the attic shuttle car shuttles in four directions. The shuttle car is provided with a goods storing and taking mechanism which can be used for storing and taking the goods in a single block or double blocks.

The width of the warehousing and ex-warehousing chain plate conveyor is 1.6-1.8 m, and the conveying direction of the carbon blocks can be the length direction or the width direction. The height of the conveyor is matched with that of the ground shuttle. And a laser coding device is arranged on the warehousing chain plate conveyor.

Compared with the prior art, the invention has the advantages of improving the effective volume rate of the storage area, saving the occupied area and reducing the factory building investment. The risk of collapse of the traditional stockpile is avoided, and the storage safety is improved. The intelligent warehouse-in and warehouse-out scheduling avoids different storage time of the carbon blocks in manual scheduling, and improves the product quality. Automatic coding, warehousing, ex-warehouse, statistical data generation, labor reservation reduction, accurate warehousing management realization and reasonable safety stock control.

Drawings

Fig. 1 is a schematic plan view of the present invention.

The labels in the figures are: 1-carbon block storage rack, 2-informatization management system, 3-ex-warehouse chain plate conveyor, 4-intelligent scheduling control system, 5-in-warehouse chain plate conveyor and 6-conveying and lifting system.

Detailed Description

The technical solution in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention.

As shown in fig. 1, the present invention is implemented as follows: according to the intelligent storage system for the prebaked anode carbon blocks, prebaked anode blocks from an anode roasting workshop are conveyed to an intelligent storage warehouse for the prebaked anode carbon blocks by a chain plate conveyor, after identification coding is completed on an in-warehouse chain plate conveyor 5, an intelligent scheduling control system 4 schedules a conveying and lifting system 6 to convey the carbon blocks to an appointed bin of a carbon block storage rack 1 for storage, when the carbon blocks need to be delivered out of the warehouse, the intelligent scheduling control system 4 schedules the conveying and lifting system 6 to take out the appointed carbon blocks to be conveyed out of the warehouse chain plate conveyor 3, and an informatization management system 2 generates statistical data for a manager to inquire.

Although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that various changes in the embodiments and/or modifications of the invention can be made, and equivalents and modifications of some features of the invention can be made without departing from the spirit and scope of the invention.

Claims

1. An intelligent storage system for prebaked anode carbon blocks comprises a carbon block storage rack (1), a conveying and lifting system (6), an warehousing chain plate conveyor (5), an ex-warehouse chain plate conveyor (3), an intelligent scheduling control system (4) and an information management system (2); the carbon blocks are stored on the carbon block storage rack (1); the storage bin positions in the carbon block storage rack (1) are mutually independent.

2. The intelligent storage system for prebaked anode carbon blocks as claimed in claim 1, wherein: unique codes are marked on the carbon blocks, and the coded information corresponds to the carbon block entities one by one.

3. The intelligent storage system for prebaked anode carbon blocks as claimed in claim 1, wherein: the carbon block storage rack (1) is single bin long 2m, wide 1m and high 1m, and is suitable for storing anode carbon blocks of various specifications; the carbon block storage rack (1) is arranged on 16 layers or more along the height direction, and the bin positions are connected end to end in series along the length direction of a workshop; every two of the bin positions in the width direction are arranged back to form 1 group, and a 1m wide roadway is reserved between the groups.

4. The intelligent storage system for prebaked anode carbon blocks as claimed in claim 1, wherein: the conveying and lifting system (6) consists of a ground shuttle car and an attic shuttle car, wherein the shuttle car runs on a fixed track, the ground shuttle car shuttles in two directions, and the attic shuttle car shuttles in four directions; the shuttle car is provided with a goods storing and taking mechanism which can be used for storing and taking the goods in a single block or double blocks.

5. The intelligent storage system for prebaked anode carbon blocks as claimed in claim 4, wherein: the widths of the warehousing chain plate conveyor (5) and the ex-warehouse chain plate conveyor (3) are 1.6-1.8 m, and the conveying direction of the carbon blocks can be the length direction or the width direction; the height of the conveyor is matched with that of the ground shuttle vehicle; the warehousing chain plate conveyor (5) is provided with a laser coding device.