CN105160508A - Management method for power material storage - Google Patents

Abstract

The invention discloses a management method for power material storage. The management method comprises the following steps that information of material devices is scanned, and stored in a database; the material devices are stored in a warehouse according to different types, a matched directory list of the material devices is created, attributes of all material devices in the power material warehouse are marked on the bases of an attribute management system of AWT construction and uploaded to a material management system; the matched directory list of the material devices is improved; a 3D model base is established; and the 3D model base is called to reproduce a real scene of the power material warehouse in a virtual interface of a full-size 3D model based on RIA, so that a manager can check a reproduced image. Thus, power materials can be packaged in units, and transported, loaded, unloaded, stored and delivered conveniently, labor investment is reduced, the reliability of power material management is enhanced, and the real-time material supply efficiency is greatly improved.

Description

A storage management method for electric power materials

technical field

The invention relates to a storage management system, in particular to a storage management method for electric power materials.

Background technique

At present, the maintenance of the power system by power supply enterprises requires the support of a highly systematic material supply system. Due to the public service characteristics of the power system, the management and supply of power materials are required to have extremely high time and space characteristics. At the same time, due to the technical complexity and professional characteristics of the power system, the supply of power materials is characterized by complex categories and high value. These realities have placed extremely high requirements on the procurement, storage, and transportation of power supplies.

Warehousing is an important part of modern logistics, plays a vital role in the logistics system, and is the focus of manufacturers' research and planning. Efficient and reasonable warehousing can help manufacturers speed up the flow of materials, reduce costs, ensure smooth production, and achieve effective control and management of resources. First of all, warehousing is the inventory control center in logistics and supply chain. Inventory cost is one of the main supply chain costs. In the United States, inventory costs account for about one-third of total logistics costs. Therefore, managing inventory, reducing inventory, and controlling inventory costs have become the main tasks of warehousing to reduce the total cost of the supply chain under the framework of the supply chain; secondly, warehousing is the dispatch center in logistics and supply chain. Warehousing is directly related to the efficiency and responsiveness of the supply chain. People hope that the accuracy rate of modern warehouses can reach more than 99%, and can respond quickly to special needs. Same-day delivery has become a business method adopted by many warehouses. Customers and warehouse managers continue to improve their goals in terms of accuracy, timeliness, flexibility and responsiveness to customer needs; thirdly, warehousing is a value-added service center in logistics and supply chains. Modern warehousing not only provides traditional storage services, but also provides value-added services such as post-assembly, packaging, coding, labeling, customer service and other value-added services related to the delay strategy of the manufacturing industry, so as to improve customer satisfaction and thus improve the service level in the supply chain. It can be said that most of the value-added services in logistics and supply chain are reflected in warehousing; finally, warehousing is also the main application center of modern logistics equipment and technology. The integrated management of the supply chain is realized through the application of modern management technology and technological means. Efficiency promotes the integrated operation of the supply chain, while software technology, Internet technology, automatic sorting technology, light guide sorting, RFID, The application of advanced technological means and equipment such as voice control technology provides the conditions for realizing the improvement of storage efficiency.

For material storage in power systems, in addition to the above requirements, there are two special requirements. On the one hand, due to the particularity of the material or shape of power materials, for different types of power materials, it is necessary to realize the storage of power materials through corresponding equipment or sites. On the other hand, most of the materials in power materials need to be used together, and different materials are stored in different places, which leads to inaccurate management of supporting materials, resulting in a waste of a lot of manpower and material resources in the management of power material storage, which is easy to cause The depreciation and disposal of materials cannot be used reasonably and effectively. On the other hand, it is difficult to ensure the timely and accurate supply of materials.

Contents of the invention

The purpose of the present invention is to provide a storage management method for electric power materials with high supply efficiency and good expansibility, so as to solve the problems raised in the above-mentioned background technology.

To achieve the above object, the present invention provides the following technical solutions:

A storage management method for electric power materials, the specific steps are as follows:

(1) Scan the material and equipment information and store the information in the database. Based on the automatic positioning system constructed by the active wireless sensing device AWT, locate all the material and equipment in the power material warehouse, and determine that it is in the power material warehouse exact location of

(2) Store materials and equipment in warehouses according to different types, establish a catalog list of supporting materials and equipment, and identify the attributes of all materials and equipment in the power material warehouse based on the attribute management system built by AWT, and upload them to the material management system ;

(3) Improve the catalog list of supporting materials and equipment;

(4) Constructing a three-dimensional model library, specifically including: constructing a full-scale three-dimensional model of the electric power material warehouse, which is reproduced using a three-dimensional virtual reality interface based on RIA; constructing the electric power material warehouse The three-dimensional model of the shelf in the warehouse, and the storage space of the power material warehouse is divided into three dimensions; the three-dimensional model of the power material is constructed;

(5) The material management system calls the 3D model library according to the attributes of all the material equipment in the power material warehouse provided by the attribute management system, and puts the real scene in the power material warehouse in the entire RIA-based power material warehouse. Reappear in the virtual interface of the dimensional 3D model for managers to view;

(6) The manager uses the terminal platform to log in to the material management system, checks the virtual three-dimensional scene of the power material warehouse, and remotely monitors the power material warehouse.

As a further solution of the present invention: the types of materials and equipment in the step (2) include strip materials, roller materials, boxed materials and bulk materials, and the attributes of the materials and equipment include the name and model of the materials and equipment , size and its exact location in the power material warehouse.

As a further solution of the present invention: the strip-shaped materials use a special cargo cage for a cantilever shelf as a storage device, the roller-type materials use a special cable tray as a storage device, and the boxed materials use a pallet as a storage device. As for the storage device, the bulk materials are stored in bins.

As a further solution of the present invention: the process of perfecting the catalog list of supporting materials in the step (3) is: first generate a main catalog, and then generate sub-catalogs step by step according to the range from large to small under the main catalog, and in the smallest range Generate a list of material names under the subdirectory of , and then add the material information in the database that is consistent with the name in the material name list to the list by searching and comparing the material names in the database.

As a further solution of the present invention: the three-dimensional model of the electric power material includes a three-dimensional model of a transformer and a three-dimensional model of a cable reel.

As a further solution of the present invention: the terminal platform is a device that supports surfing the Internet and browsing, including: PC terminals, tablet computers, PDAs and smart phones.

Compared with prior art, the beneficial effect of the present invention is:

The invention makes the physical assembly of power materials into units, which facilitates the handling, loading and unloading, storage and distribution of materials. By establishing a list of supporting materials, the same management and transportation of supporting materials are realized, and the quantity of supporting materials can be monitored in real time. The supplementary type and quantity of materials provide a basis, optimize the entire storage management process, reduce manpower input, increase the reliability of power material management, avoid confusion in the storage management of power materials, and effectively reduce the cost of power materials. Idle and waste, greatly improving the efficiency of real-time material supply.

Detailed ways

The technical solution of this patent will be further described in detail below in conjunction with specific embodiments.

A storage management method for electric power materials, the specific steps are as follows:

(1) Scan the material and equipment information and store the information in the database. Based on the automatic positioning system constructed by the active wireless sensing device AWT, locate all the material and equipment in the power material warehouse, and determine that it is in the power material warehouse exact location of

(2) Store materials and equipment in warehouses according to different types, establish a catalog list of supporting materials and equipment, and identify the attributes of all materials and equipment in the power material warehouse based on the attribute management system built by AWT, and upload them to the material management system ;

(3) Improve the catalog list of supporting materials and equipment;

(4) Constructing a three-dimensional model library, specifically including: constructing a full-scale three-dimensional model of the electric power material warehouse, which is reproduced using a three-dimensional virtual reality interface based on RIA; constructing the electric power material warehouse The three-dimensional model of the shelf in the warehouse, and the storage space of the power material warehouse is divided into three dimensions; the three-dimensional model of the power material is constructed;

(5) The material management system calls the 3D model library according to the attributes of all the material equipment in the power material warehouse provided by the attribute management system, and puts the real scene in the power material warehouse in the entire RIA-based power material warehouse. Reappear in the virtual interface of the dimensional 3D model for managers to view;

(6) The manager uses the terminal platform to log in to the material management system, checks the virtual three-dimensional scene of the power material warehouse, and remotely monitors the power material warehouse.

The types of materials and equipment in the step (2) include strip materials, roller materials, boxed materials and bulk materials, and the attributes of the materials and equipment include the name, model, size and The exact location in the power material warehouse, the long-strip materials are stored in special cages for cantilever racks, the roller-type materials are stored in special cable trays, and the boxed materials are stored in trays For storing utensils, the described bulk material adopts material box as storage utensils.

The process of improving the supporting material catalog list in the above step (3) is: first generate a main catalog, then generate subdirectories step by step in the main catalog according to the scope from large to small, and generate the material name under the subdirectory with the smallest scope List, and then by searching and comparing the material names in the database, the material information in the database that is consistent with the name in the material name list is added to the list. The three-dimensional model of the power material includes the three-dimensional model of the transformer and the three-dimensional model of the cable reel. If there is no corresponding model for a certain power material in the 3D model library, then the material management system establishes a Replaced by a labeled cube, the terminal platform is a device that supports surfing the Internet and browsing, including: PC terminals, tablet computers, PDAs and smart phones.

The invention makes the physical assembly of power materials into units, which facilitates the handling, loading and unloading, storage and distribution of materials. By establishing a list of supporting materials, the same management and transportation of supporting materials are realized, and the quantity of supporting materials can be monitored in real time. The supplementary type and quantity of materials provide a basis, optimize the entire storage management process, reduce manpower input, increase the reliability of power material management, avoid confusion in the storage management of power materials, and effectively reduce the cost of power materials. Idle and waste, greatly improving the efficiency of real-time material supply.

The preferred implementation of this patent has been described in detail above, but this patent is not limited to the above-mentioned implementation. Within the scope of knowledge possessed by those of ordinary skill in the art, various modifications can be made without departing from the purpose of this patent. kind of change.

Claims (6)

1. a Power Material storage management method, is characterized in that, concrete steps are as follows:

(1) material equipment information is scanned, and by information stored in database, based on the automatic station-keeping system that active radio sensing equipment AWT builds, all material equipments in Power Material warehouse are positioned, determine its accurate location in described Power Material warehouse;

(2) material equipment is left in warehouse according to dissimilar, set up supporting material equipment directory listing, based on the attribute management system that AWT builds, the attribute of all material equipments in described Power Material warehouse is identified, and is uploaded to material Management System;

(3) improved and complete material equipment directory listing;

(4) build 3 d model library, specifically comprise: the full-scale three-dimensional model building described Power Material warehouse, the full-scale three-dimensional model in described Power Material warehouse uses the three-dimension virtual reality interface based on RIA to reappear; Build the three-dimensional model of the shelf in described Power Material warehouse, and the parking space in described Power Material warehouse is carried out subregion according to three-dimensional; Build the three-dimensional model of Power Material;

(5) attribute of all material equipments in the described Power Material warehouse that provides according to described attribute management system of material Management System, call 3 d model library, reality scene in described Power Material warehouse is reappeared in the virtual interface of the full-scale three-dimensional model in the Power Material warehouse based on RIA, checks for supvr;

(6) supvr uses terminal platform to log in described material Management System, checks the virtual three-dimensional scene in described Power Material warehouse, carries out remote monitoring to described Power Material warehouse.

2. Power Material storage management method according to claim 1, it is characterized in that, the type of material equipment comprises strip goods and materials, roll shaft goods and materials, case material and goods and materials in bulk in described step (2), and the attribute of described material equipment comprises the title of this material equipment, model, size and its accurate location in described Power Material warehouse.

3. Power Material storage management method according to claim 2, it is characterized in that, described strip goods and materials adopt the special goods cage of cantilever type storage rack to be storing utensil, described roll shaft goods and materials adopt cable purpose-made pallet to be storing utensil, described case material adopts pallet to be storing utensil, and described goods and materials in bulk adopt hopper to be storing utensil.

4. Power Material storage management method according to claim 1, it is characterized in that, in described step (3), the process of improved and complete catalogue of material list is: first generate a master catalogue, then under master catalogue, sub-directory is generated step by step from big to small according to scope, and goods and materials name list is generated under the minimum sub-directory of scope, again by goods and materials title in retrieval, comparison data storehouse, add material information consistent with title in goods and materials name list in database to list.

5. Power Material storage management method according to claim 1, is characterized in that, the three-dimensional model of described Power Material comprises the three-dimensional model of transformer and the three-dimensional model of cable drum.

6. Power Material storage management method according to claim 1, is characterized in that, described terminal platform is the equipment supported online and browse, and comprising: PC terminal, panel computer, PDA and smart mobile phone.