CN101650565B - Automatic stereoscopic warehouse management system and method based on B/S framework - Google Patents

Abstract

The invention relates to an automatic stereoscopic warehouse management system and a method based on a B/S framework, comprising at least one PLC control station which is connected with a monitoring dispatching exchange via an industrial Ethernet. The invention is characterized in that the monitoring dispatching exchange is connected with a server by the B/S framework, and at least one client machine is connected with the server by the B/S framework. The technical scheme of the method of the invention is to provide a method using the above management system, comprising the following steps: generating an order via the client machine, sending the order to the PLC control station for performing by the server and the monitoring dispatching exchange, and sending the performing result of the PLC control station back to the server by the monitoring dispatching exchange for subsequent processing. The invention has the advantages of wide system distribution, favourable expansibility, high resource utilization ratio, convenient operation, convenient client end upgrading and maintenance and favourable compatibility, ensures that warehouse and logistic management is systemic, networked, informationalized and scientific, and improves the maintainability and the flexibility of the system.

Description

A kind of automatic stereoscopic warehouse management system and method based on the B/S framework

Technical field

The present invention relates to a kind of automatic stereowarehouse logistic management system and method; Be used for automatic stereowarehouse; Realize the networking and the systematization of warehousing management, promote the management level and the operational efficiency of warehouse logistics, belong to automatic stereowarehouse computer utility and management devices technical field.

Background technology

The warehouse logistics management system is the soul and the maincenter of automatic stereowarehouse, and it accomplishes the various tasks in the material information management, and its management level and operational efficiency have determined the management level of automatic material flow system.

Be illustrated in figure 1 as present automatic stereowarehouse logistic management system structural representation based on the C/S framework, it is divided into data Layer, administration and supervision authorities, supervisory layers and key-course, is made up of server, supervisor, monitoring equipment, PLC control station etc.The PLC control station links to each other with monitoring equipment through EPA, and monitoring equipment links to each other with supervisor through Ethernet, and supervisor links to each other with server through Ethernet.Wherein, data Layer charge server and data base administration, administration and supervision authorities are the goods yard management of being responsible for three-dimensional storehouse of WMS system, go into out work such as library management, inquiry form, inventory analysis, system maintenance, fault analysis; Supervisory layers is that the WMCS system is responsible for transmitting-receiving and schedule job instruction; Key-course is control and the operation that the PLC control station is responsible for field apparatus, and uploaded state and completion information are given supervisory layers.

The automatic stereowarehouse logistic management system based on the C/S framework of current employing; It has advantages such as simple in structure, that the server operating load is light, data access is simple fast, specificity is strong, but that its shortcoming is poor compatibility, distribution capability is weak, to the client software and hardware configuration require with high investment big, development and maintenance cost is high.Current this mode based on the C/S framework is fairly simple, and the programing work amount is little, and is comparatively practical in the less small-sized tiered warehouse facility of data transfer amount.But it is not suitable in the large-scale tiered warehouse facility; When operation is frequent, the data transfer amount is big, network distributes extensively, the station client machine is difficult to use for a long time; Along with the fast development of logistics informationization, require system to develop especially towards the direction of networking distribution, network browsing operation and information sharing with networking.

Summary of the invention

The purpose of this invention is to provide a kind of stereoscopic warehouse management system that can realize that networking distributes.

In order to achieve the above object; Product technology scheme of the present invention has provided a kind of automatic stereoscopic warehouse management system based on the B/S framework; Comprise at least one PLC control station, the PLC control station connects the monitoring and scheduling machine through EPA, it is characterized in that; The monitoring and scheduling machine links to each other with server with the B/S framework, and at least one client computer is through B/S framework Connection Service device.

Method and technology scheme of the present invention has provided a kind of management method, it is characterized in that, step is:

Step 1, user knock in instruction as required on client computer, through the B/S framework this instruction is sent to server by client computer;

Step 2, server are transmitted to the monitoring and scheduling machine through the B/S framework with instruction;

Step 3, monitoring and scheduling machine judge whether it is urgent job instruction, if not then buffer queue being sent in instruction, otherwise directly get into next step;

Step 4, monitoring and scheduling machine generate current job instruction and send to the PLC control station in the piler; Return operation message after the operation of PLC control station finishes and give the monitoring and scheduling machine; The monitoring and scheduling machine judges whether operation is successful; If unsuccessful the monitoring and scheduling machine would quit work and remove fault by manual work after jump to step 6, otherwise directly get into next step;

Step 5, monitoring and scheduling machine return messages are given server, and server carries out subsequent treatment to data after receiving message;

Step 6, monitoring and scheduling machine judge whether the buffer queue job instruction is all accomplished, if otherwise continue to carry out from cushioning next bar instruction of formation taking-up and jumping to step 4, be then directly to get into next step;

Step 7, monitoring and scheduling machine buffer queue job instruction are all accomplished then and are finished, and wait for new job instruction.

Advantage of the present invention is; Based on the automatic stereowarehouse logistic management system of B/S framework have that system distributes that wide, favorable expandability, resource utilization are high, easy to operate, client upgrading and easy to maintenance, compatible characteristics such as well; Make the warehouse logistics management more possess systematization, networking, informationization and scientific, improved the maintainability and the retractility of system.The present invention is easy to use, simple in structure, economical and practical, has application value widely.

Description of drawings

Fig. 1 is the automatic stereoscopic warehouse management system structural representation based on the C/S framework;

Fig. 2 is the automatic stereoscopic warehouse management system structural representation that the present invention is based on the B/S framework;

Fig. 3 is the automatic stereoscopic warehouse management system program flow diagram that the present invention is based on the B/S framework.

Embodiment

Specify the present invention below in conjunction with embodiment.

Embodiment

As shown in Figure 2; Structural representation for a kind of automatic stereoscopic warehouse management system based on the B/S framework provided by the invention comprises the server of data management layer, some client computer of client operation layer, the monitoring and scheduling machine of monitoring and scheduling layer and some on-the-spot PLC control stations of key-course; The PLC control station links to each other with monitoring equipment through EPA, and the monitoring and scheduling machine links to each other with server through Ethernet, and client computer links to each other with server through Ethernet, forms the ethernet communication network; Use web services technologies and AJAX interfacing between monitoring and scheduling machine and the server and between server and the client computer based on the B/S framework; Applications client access server database and logistic management system are realized the warehousing management of distributed clients machine web page browsing formula.

Before operation, on the server of data management layer, SQL database is installed, write also application software and running environment such as Installation of W MS system, WMCS system, AJAX interface, issue WMS, WMCS and AJAX serve accordingly; On client operation layer distributed clients machine, set up B/S framework client, download and install JAVA plug-in component operation environment at user end to server; JAVA plug-in component operation environment is downloaded and installed to Installation of W MCS operating software on the monitoring and scheduling machine of monitoring and scheduling layer.

As shown in Figure 3, invention the steps include: based on the automatic stereowarehouse logistic management system program flow diagram of B/S framework

Step 1, user knock in instruction as required on client computer, through the B/S framework this instruction is sent to server by client computer;

Step 2, server are transmitted to the monitoring and scheduling machine through the B/S framework with instruction;

Step 3, monitoring and scheduling machine judge whether it is urgent job instruction, if not then buffer queue being sent in instruction, otherwise directly get into next step;

Step 4, monitoring and scheduling machine generate current job instruction and send to the PLC control station in the piler; Return operation message after the operation of PLC control station finishes and give the monitoring and scheduling machine; The monitoring and scheduling machine judges whether operation is successful; If unsuccessful the monitoring and scheduling machine would quit work and remove fault by manual work after jump to step 6, otherwise directly get into next step;

Step 5, monitoring and scheduling machine return messages are given server, and server carries out subsequent treatment to data after receiving message;

Step 6, monitoring and scheduling machine judge whether the buffer queue job instruction is all accomplished, if otherwise continue to carry out from cushioning next bar instruction of formation taking-up and jumping to step 4, be then directly to get into next step;

Step 7, monitoring and scheduling machine buffer queue job instruction are all accomplished then and are finished, and wait for new job instruction.

Claims (2)

1. automatic stereoscopic warehouse management system based on the B/S framework; Comprise at least one PLC control station; The PLC control station connects the monitoring and scheduling machine through EPA; It is characterized in that the monitoring and scheduling machine links to each other with server with the B/S framework, at least one client computer is through B/S framework Connection Service device.

2. management method of utilizing the described a kind of automatic stereoscopic warehouse management system based on the B/S framework of claim 1 is characterized in that step is:

Step 1, user knock in instruction as required on client computer, through the B/S framework this instruction is sent to server by client computer;

Step 2, server are transmitted to the monitoring and scheduling machine through the B/S framework with instruction;

Step 3, monitoring and scheduling machine judge whether it is urgent job instruction, if not then buffer queue being sent in instruction, otherwise directly get into next step;

Step 4, monitoring and scheduling machine generate current job instruction and send to the PLC control station in the piler; Return operation message after the operation of PLC control station finishes and give the monitoring and scheduling machine; The monitoring and scheduling machine judges whether operation is successful; If unsuccessful the monitoring and scheduling machine would quit work and remove fault by manual work after jump to step 6, otherwise directly get into next step;

Step 5, monitoring and scheduling machine return messages are given server, and server carries out subsequent treatment to data after receiving message;

Step 6, monitoring and scheduling machine judge whether the buffer queue job instruction is all accomplished, if otherwise continue to carry out from cushioning next bar instruction of formation taking-up and jumping to step 4, be then directly to get into next step;

Step 7, monitoring and scheduling machine buffer queue job instruction are all accomplished then and are finished, and wait for new job instruction.

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