Logistics engineering teaching experiment system

Abstract

The invention relates to a logistics engineering teaching experiment system, which comprises an information management system module (1), a raw material management module (2), a machining module (3), a mechanical assembly module (4), a finished product conveying module (5) and a finished product storage module (6), and is characterized in that the information management system module (1) is electrically connected with the raw material management module (2); the raw material management module (2) is butted with the machining module (3); the machining module (3) is butted with the mechanical assembly module (4); the mechanical assembly module (4) is butted with the finished product conveying module (5); the finished product conveying module (5) is butted with the finished product storage module (6); and each module is independently used or used in a combined manner so as to complete a specialized course teaching experiment of logistics engineering. The invention provides a transportation experiment system capable of better supporting the development of specialized course experiment activities required by the specialized courses of logistics engineering.

Description

technical field [0001] The invention relates to a teaching experiment system, in particular to a logistics engineering teaching experiment system. Background technique [0002] Logistics (logistics) refers to the use of modern information technology and equipment to deliver goods from the place of supply to the place of reception in an accurate, timely, safe, quality- and quantity-guaranteed, door-to-door rationalized service model and advanced service process. Logistics emerges with the appearance of commodity production and develops with the development of commodity production, so logistics is an ancient traditional economic activity. The "thing" in the logistics is the part of the material material in the material material world that has the characteristics of the material entity and can be physically displaced. "Flow" is the physical movement. The physical movement relative to the earth is called "displacement". The range of flow can be a large geographical range, or it...

AI Technical Summary

Problems solved by technology

However, due to the immaturity of the logistics engineering teaching experiment system in the prior art, there are still many problems in it. Generally speaking, there are the following main problems: 1. The modules are not perfect, and many schools have not integrated the logistics engineering teaching experiment system. The module configuration is complete, resulting in the inability to carry out many teaching experiments

2. The configuration of subunits in each module is incomplete, resulting in many experiments being abolished halfway due to lack of necessary unit support

3. Most of the logistics engineering teaching experiment systems in the prior art are not systematic, and the modules are basically independent of each other. When doing experiments, students often find the modules they want to use temporarily for docking, but some modules are connected to each other. It is adaptable. If the modules that have been debugged are often replaced, the stability of some units in the module will be destroyed. In addition, the modules that are independent of each other lead to confusion in the management of each module, which often occurs during the experiment. Modules cannot be connected to each other

These problems make it difficult for the experimental teaching system in the existing technology to support the development of professional course experimental activities required by the logistics engineering professional course

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