Third-party logistics experiment training system solution

Third-party logistics experiment training system solution

With the rapid development of China's logistics industry, the demand for logistics talents has become increasingly prominent. Although logistics education is currently valued by colleges and vocational colleges, due to various reasons, logistics graduates generally have the disadvantage of focusing on theory over practice. The lack of ability to solve practical problems cannot meet the needs of society for logistics talents. In view of the characteristics of multiple logistics processes, strong systematization, high level of information automation, and close connection between theory and skills, school logistics education should not only pay attention to the teaching of logistics theory, but also pay attention to the cultivation of practical business capabilities.

The construction of the modern logistics laboratory aims to build a bridge between theory and practice. Through the role-playing of students in the simulated environment, students can understand the operation and management of each basic link of logistics, master the basic process of logistics information, and understand each logistics management position. Required skills, master the principles and basic operations of logistics equipment, and cultivate the ability to design logistics systems. Through the combination with theory, it will deepen students 'understanding of modern logistics theory and cultivate students' logistics management level and operational ability.

1. Design ideas and solutions

The design of the laboratory plan takes the operation of the third-party logistics warehousing and distribution center as the design background, and organically integrates the functional elements of warehousing, transportation, handling, distribution, and circulation processing in logistics. Through the actual logistics operation and management activities, the various theoretical points and skill applications are integrated to achieve the purpose of combining theory and practice in logistics teaching.

Taking the third-party logistics distribution center as the background and combining the requirements of the laboratory, a complete third-party logistics laboratory should include:

1. Warehousing equipment, such as pallet shelves, flat shelves, through shelves, and fully automatic three-dimensional warehouses, electronic label warehouses, S-ID flat storage warehouses that reflect the modern logistics information automation level;

2. Conveying and sorting equipment, such as roller conveyor, chain conveyor, jacking and translation machine, belt conveyor, manipulator, etc .;

3. Bar code information equipment, such as laser bar code reader, FR handheld terminal, bar code scanner, bar code printer, RFID wireless radio frequency system, etc .;

4. Handling equipment, such as manual hydraulic pallet truck, hydraulic stacker truck, hydraulic forklift, flatbed truck, etc .;

5. Software system, such as WMS software, transportation management software, etc .;

It also includes other packaging and tally equipment, pallets, logistics boxes, electronic display boards, management computers, simulated goods, GPS navigators, equipment control software and other auxiliary tools. The system layout composed of these devices is shown in the figure below.

2. Features

(1) The functional elements are comprehensive and closely connected with the actual

Taking the operation of the third-party logistics center as the design criterion, the experimental teaching content of modern logistics is organically integrated into modern logistics management and operation activities. On this model, the logistics elements such as warehousing, transportation, handling, and circulation processing are practiced from From a holistic point of view, we should study and study the functions of various elements included in modern logistics. Emphasize the integrated fine management, the integrated application of information technology, and the dynamic operation management and design of warehousing and distribution.

(2) Rich experimental content and strong operability

The construction plan of this laboratory has completely changed the practice of heavy logistics process demonstration and light logistics link experiment, and excavated a variety of practical and indispensable experimental content, so that students can learn through a variety of soft and hard experimental learning. A variety of commonly used and advanced management theories and methods, learned the technology and methods of logistics management, is a real logistics laboratory construction program.

(3) Advanced technology and obvious teaching significance

This program uses a variety of advanced technologies applied in the international logistics industry, including not only advanced automation technology, but also forward-looking information management technology, so that students can access these new equipment and new technologies through experiments Be in line with reality.

3. System operation and experiment development

As a teaching third-party logistics experiment system experiment system, what enterprise should it use as the core enterprise to carry out production and operation activities? We think it should be determined by the experiment content. Different experimental content determines different operating processes, and different operating processes lead to different management methods and operating modes. This is precisely the intervention node reserved for this experimental system. For the experimental teaching of a logistics subject, it is often concerned about logistics transportation technology, warehousing technology, loading and handling technology, packaging technology, distribution technology, circulation processing technology and information processing technology, etc. Specifically, it is about transportation, warehousing , Loading and unloading, packaging, circulation processing, distribution, information processing, order billing, centralized distribution, unpacking and unpacking, unpacking and packaging, storage registration, inventory management, statistical inquiry, sorting, classification, inventory, etc Carry out modern management and practical operations, and analyze and process the division of labor based on the storage, distribution and other relevant information provided by the enterprise; prepare workable storage and distribution operation plans and operation processes; arrange work plans; predict implementation Possible problems in the plan and corresponding solutions. Therefore, a third-party logistics experiment system with a logistics distribution center as the core should be constructed, emphasizing the overall operation management of logistics.

In order to realize the original intention of the construction of the third-party physical training room, it is convenient for the school to carry out experimental teaching. In conjunction with this program, the practical training guidebook includes the following experimental content. Carry out the experiment according to such a teaching system, focus on the cultivation of students' application skills and management level, and improve it layer by layer to achieve the purpose of experimental teaching.

Part I: The cognitive experiment of basic logistics knowledge

Practical training 1. Understanding of logistics equipment

Experiment 2. Understanding the logistics operation process

Part II: Logistics hardware operation experiment

Experiment 1, logistics barcode management and production experiment

Experiment two, operation experiment of logistics handling equipment

Experiment 3: Pallet palletizing and bundling experiment

Experiment 4: RF handheld operation training

Experiment 5: Packing and tally equipment operation experiment

Part Three: Logistics Information Management Experiment

Experiment 1, basic information management

Experiment two, storage management experiment

Experiment three, outbound management experiment

Experiment 4: Management experiment in the library

Experiment 5: Transportation Management Experiment

Experiment 6, Distribution Management Experiment

Part IV: Link process experiment

Experiment one, management experiment of incoming goods inspection process

Experiment two, storage allocation management experiment (storage strategy)

Experiment 3, experiment of cross-library operation process management

Experiment 4: Electronic tag sorting process management experiment (seeding and picking)

Experiment 5: Auto three-dimensional warehouse management experiment

Experiment 6, RF technology warehouse management experiment

Experiment 7, automatic distribution process management

Experiment 8. Inventory process management

Experiment 9, mobile database management

Experiment ten, inventory management experiment

Experiment XI. Experiment on the management of goods out of the warehouse

Part V: Comprehensive Process Experiment

Experiment 1. Third-party logistics warehousing management experiment

Experiment two, third-party logistics distribution transportation management experiment