CN102522040A - Logistics engineering teaching experiment system - Google Patents

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

The Logistics Engineering teaching experiment system

Technical field

The present invention relates to a kind of teaching experiment system, specifically be meant a kind of Logistics Engineering teaching experiment system.

Background technology

Logistics (logistics) is meant modern information technologies and the equipment of utilizing, with article from the supply place to receive ground accurately, timely, safety, rationalization service mode that guarantee both quality and quantity, door-to-door and advanced service procedure.Logistics is that the appearance with commodity production occurs, and develops with the development of commodity production, so logistics is a kind of ancient traditional economic activity." thing " in the logistics is to possess the subject characteristics in the material goods world simultaneously and those a part of material goods that can carry out the physical property displacement, and " stream " is the physical property motion, and this motion has the implication of its qualification; Be reference system exactly with the earth, the physical property that takes place with respect to earth motion is referred to as " displacement "; The scope of stream can be ground rational also can be the microscopic motion in same region, same environment on a large scale, displacement among a small circle; The combination of " thing " and " stream "; Be a kind of senior forms of motion that is based upon on the proper motion basis, it interknits is between economic aim and material object, between military purposes and material object; Even between certain social purpose and material object, seek laws of motion.Therefore; The combination of " thing " and " stream " under the above-mentioned qualifications is not only in logistics, and more important being is the combination that is defined under military affairs, economy, the social condition; Be the transportation of observing thing from military affairs, economy, social perspective, reach certain military affairs, economy, social requirement.

The transportation of object, dispensing, storage, packing, handling and loading, circulation and process, and relevant links such as logistics information.Logistics particular content alive comprises the following aspects: the layout in user's service, demand forecast, order process, dispensing, stock control, transportation, storehouse management, factory and warehouse and addressing, handling and loading, buying, packing, information.

Along with the rise of logistics, a lot of schools have offered the Logistics Engineering specialty.Logistics Engineering (Logistics Engineering) is to be research object with the logistics system, planning and design and most optimum distribution of resources, the plan of logistics operation and the engineering field of control and operation control of research logistics system.Logistics Engineering can be divided into overall network engineering system and concrete engineering system two big classes; The specialized personnel that cultivation can be planned, design, estimate and innovate the manufacturing system of the logistics field of complicacy; Be the elementary object of Logistics Engineering specialty, aspect the cultivation of undergraduate education specialty requires, how ensure training quality; Reach the training objective requirement; For the very strong Logistics Engineering specialty of practicality, experiment teaching system is a key link, particularly concrete engineering system; It comprises Packaging Engineering, storage engineering, conveying engineering, handling engineering, dispensing engineering and circulation and process engineering etc.; The sub-engineering of these a multitude of names all need could be understood through practice, for the student, obviously can not in actual environment, learn this a little engineering fully in person, and this just need be by the Logistics Engineering teaching experiment system.Yet because Logistics Engineering teaching experiment system of the prior art is immature; Cause it to also have a lot of problems; Generally speaking have following several of main problems: one, module is unsound; The block configuration with the Logistics Engineering teaching experiment system is not complete in a lot of schools, causes a lot of education experiments to carry out.Two, the configuration of the subelement in each module is incomplete, causes a lot of experiments to proceed to a half and abrogates because of lacking necessary unit support midway.Three, Logistics Engineering teaching experiment system of the prior art does not have systematization mostly; Be separate basically between each module; The student do experiment be often call in temporarily will with module dock; But between some module be have adaptive; If often change the stability that each module of having debugged will be destroyed some unit in the module, also have mutually module independently to cause to the management of each module also confusion very, often in experimentation, occur can't docking situation between module and the module.These problems cause experiment teaching system of the prior art to be difficult to support carrying out of logistics Engineering Speciality course desired specialized course experimental activity.

Summary of the invention

The technical matters that the present invention will solve is that a kind of transportation experimental system of carrying out that can better support the experimental activity of the desired specialized course of logistics Engineering Speciality course is provided.

For solving the problems of the technologies described above; Technical scheme provided by the invention is: a kind of Logistics Engineering teaching experiment system, and it comprises materials control module, machine work module, mechanical load module, finished product conveyor module, warehouse for finished product module, information management system module; The information management system module is electrically connected with the materials control module; The materials control module is docked with the product input port of machine work module; The product delivery outlet of machine work module docks with the product input port of mechanical load module; The product delivery outlet of machinery load module docks with the pipeline on the finished product conveyor module, and the pipeline on the finished product conveyor module docks with the warehouse for finished product module; Each module is used separately or combination is used to complete Logistics Engineering specialized courses education experiment.

As preferably, described materials control module comprises the layer stereo storehouse.

As preferably; Described machine work module comprises process equipment, measuring appliance, streamline, video data acquiring and analytical equipment; Process equipment docks with streamline; Measuring appliance is placed in the specific purpose tool case on streamline next door, and the streamline speed detector is installed on the streamline, and video data acquiring and analytical equipment are installed in the periphery of streamline; Said process equipment comprises lathe, grinding machine, drilling machine; Said measuring appliance comprises sclerometer, milscale, vernier caliper.

As preferably, described mechanical load module comprises modular restructural Assembling Production streamline.

As preferably, described warehouse for finished product module comprises the PLC control system.

As preferably, it also comprises the environment adjustment module, and described environment adjustment module comprises that illumination system and regulating device, noise take place and regulating device.

As preferably, it also comprises Human Engineering dolly, logistics dolly, academic dais and theme wall.

After adopting above structure; The Logistics Engineering teaching experiment system that the present invention relates to has following advantage; One, this system comprises materials control module, machine work module, mechanical load module, finished product conveyor module, warehouse for finished product module, information management system module; Block configuration is quite complete, can well cover the various experiments that relate in the Logistics Engineering teaching, and opposite joining relation is definite relatively between each module; Also make when making things convenient for instructor's unified management like this between each module after through a break-in, to need not repeatedly to carry out break-in again, effectively guaranteed the stability of each module with other strange system.Two, materials control module comprises the layer stereo storehouse, and this preference can make raw-material management more convenient, and the experimenter can place and use dissimilar starting material fast.Three, described machine work module comprises process equipment, measuring appliance, streamline, video data acquiring and analytical equipment; Process equipment docks with streamline; Measuring appliance is placed in the specific purpose tool case on streamline next door; The streamline speed detector is installed on the streamline, and video data acquiring and analytical equipment are installed in the periphery of streamline; Said process equipment comprises lathe, grinding machine, drilling machine; Said measuring appliance comprises sclerometer, milscale, vernier caliper.It is perfect that this preference is bordering on the configuration of cells in the processing module, and the experimenter can effectively guarantee carrying out smoothly of experiment very easily according to the equipment in each unit of real needs switching needs use.Four, described mechanical load module comprises modular restructural Assembling Production streamline; Reconfigurable streamline can carry out rapid adjustment with the butt joint object according to the length of the different pipeline of experiment content; Can well practice thrift the time of experiment, improve conventional efficient.Five, described warehouse for finished product module comprises the PLC control system, and the PLC control system is lower than industrial computer or single-chip microcomputer cost, and programming is simple, and is easy to maintenance, is more suitable for the demand for control of warehouse for finished product.Six, it also comprises the environment adjustment module, and the experiment that can make simulation is more near real environment, and the conclusion that experiment is drawn is more accurate.Seven, it also comprises Human Engineering dolly, logistics dolly, academic dais and theme wall; These configuration of devices make education experiment convenient more; Teacher can easily demonstrate the running of goods through dolly to the student, can also help the student to understand and analyze the marrow of experiment better by academic dais and theme wall simultaneously.Generally speaking; Novelty of the present invention ground is got in touch into according to the demand of experiment each original separate module as a whole with the opposite joining relation of confirming, as long as when student experimenting is used one of them module, other module is closed and can be used separately; In the time will using a plurality of module; Open corresponding module and dock and get final product through the docking port that sets, simple and quick, can support the experimental activity of the desired specialized course of logistics Engineering Speciality course better.

Description of drawings

Fig. 1 is the main structure block diagram of the Logistics Engineering teaching experiment system that the present invention relates to.

As shown in the figure: 1, information management system module, 2, the materials control module, 3, the machine work module, 5, mechanical load module, 6, the finished product conveyor module, 7, the warehouse for finished product module.

Embodiment

Below in conjunction with accompanying drawing the present invention is done further detailed description.

In conjunction with accompanying drawing 1, a kind of Logistics Engineering teaching experiment system, it comprises information management system module 1, materials control module 2, machine work module 3, mechanical load module 4, finished product conveyor module 5 and warehouse for finished product module 6; Information management system module 1 is electrically connected with materials control module 2; Materials control module 2 is docked with the product input port of machine work module 3; The product delivery outlet of machine work module 3 docks with the product input port of mechanical load module 4; The product delivery outlet of machinery load module 4 docks with the pipeline on the finished product conveyor module 5, and the pipeline on the finished product conveyor module 5 docks with warehouse for finished product module 6; Each module is used separately or combination is used to complete Logistics Engineering specialized courses education experiment.Described materials control module 2 comprises the layer stereo storehouse.Described machine work module 3 comprises process equipment, measuring appliance, streamline, video data acquiring and analytical equipment; Process equipment docks with streamline; Measuring appliance is placed in the specific purpose tool case on streamline next door; The streamline speed detector is installed on the streamline, and video data acquiring and analytical equipment are installed in the periphery of streamline; Said process equipment comprises lathe, grinding machine, drilling machine; Said measuring appliance comprises sclerometer, milscale, vernier caliper.Described mechanical load module 4 comprises modular restructural Assembling Production streamline.Described warehouse for finished product module 6 comprises the PLC control system.It also comprises the environment adjustment module, and described environment adjustment module comprises illumination system and regulating device, noise generation and regulating device.It also comprises Human Engineering dolly, logistics dolly, academic dais and theme wall.

The present invention in the specific implementation, each module can be equipped with by following inventory and corresponding functional requirement:

1, materials control module:

Mainly comprise: 1.7 meters high layer stereo storehouses, about 11 square metres of storage area;

Storehouse management software: the part that can be attached to the whole production system management software;

Functional requirement: the carrying out of mainly supporting the related experiment of Logistics Engineering course and Production Planning and Controlling course.

2, machine work module:

Mainly comprise:

Process equipment: 2 of lathes, 1 in grinding machine, 3 in drilling machine;

Measuring appliance: 4 of sclerometers, 7 of milscales, 12 of 0.01 vernier calipers;

Process line and streamline speed detector 2 covers;

Each 3 cover is established in high-performance video data acquiring and analysis.

Functional requirement: support basic industries engineering curriculum experiment, comprise skill process analysis down, human-machine operation analysis, bimanualness analysis,

Motion study, evaluation in man-hour, method, work sampling design and experiment (Designing Experiment) etc. when stopwatch is surveyed, when the model arranges; Support the Production Planning and Controlling curriculum experiment, comprise setting and typing, BOM and process route setting, stock and sale and purchasing management, MPS and Rough-cut Capacity Planning, MRP, CRP, production order and the operationpiston etc. of product structure 130M design, COM code, the ERP-U8 of UFSOFT software operation, Back ground Information; Support quality management and reliability curriculum experiment, comprise that the design of product quality inspection sampling plan, qualitative data are measured and qualitative data processing, advanced quality engineering method experiment (Designing Experiment) etc.; The backer comprises that because of engineering experiment the mensuration (Designing Experiment) of ambient lighting and production efficiency relation mensuration, neighbourhood noise mensuration, simple reaction timing, labour intensity measurement, working time and work efficiency, vision show not device code Design and experiment etc.; Support MIS course related experiment; Support Logistics Engineering course related experiment.

3, mechanical load module:

Mainly comprise: modular restructural Assembling Production streamline; Streamline speed detector 1 cover.

Functional requirement: unite the husband's experiment mutually of support Production Planning and Controlling course with processing line; Support Human Engineering course related experiment; Support the experiment of relevant material-transporting system planning of Logistics Engineering course and design content.

4, finished product conveyor module:

Mainly comprise: the adjustable beat product pipeline in be linked and packed line and automated three-dimensional storehouse;

Functional requirement: support the logistics curriculum experiment.

5, warehouse for finished product (automated three-dimensional storehouse) module:

Mainly comprise:

Storehouse area: 15 square metres; Shelf: long 4 meters wide 1 meter X of X are high 1.6 meters;

Equipment: PLC control system, storehouse management software etc.

Functional requirement: support the experiment of logistics course infrastructure planning and design, A+E and optimization and innovation aspect; The backer is because of last journey course related experiment; Support Production Planning and Controlling course related experiment.

6, environment adjustment module:

Mainly comprise: illumination system and regulating device, noise generation and regulating device etc.Support basic industries engineering curriculum experiment.

7, MIS module:

Mainly comprise: ERP software one cover.Stay pipe buries the infosystem curriculum experiment and other need experiment of software etc.

8, other:

The Human Engineering dolly: the backer is because of engineering experiment;

Logistics dolly: support the logistics experiment;

Academic dais: support academic activities;

Theme wall: describe experimental system, experimental project content and academic theory etc.

Below in conjunction with a concrete comprehensive experiment of Logistics Engineering, the Production Planning and Controlling experiment is introduced present embodiment.

Under the experiment flow of this experiment: through the environment adjustment module environmental baselines such as rational illumination, sound are provided for this experiment earlier; In this experimental system; At first formulate the production schedule according to the actual production demand by the information management system in the production system 1; The material requirement information that comprises specific product; MIS is assigned raw materials control module 2 with the associated production plan then, and raw materials control module 2 is carried out materials procurement according to relevant information, and the quantity of virtual material, kind, unit price, supply-demand information get into the down-stream system module by the raw materials control module; Machine work module 3 makes up streamlines, again by mechanical load module 4 pipeline debug, related work such as reconstruct, but make streamline get into job state; Finished product conveyor module 5 comprises the adjustable beat product pipeline in be linked and packed line and automated three-dimensional storehouse; The material that the raw materials control module is sent to is transported to the automated three-dimensional library module according to certain conveying beat; So far, simulation accomplish that the production schedule is assigned, whole work of feedstock capture and conveying, starting material warehouse-in.Carry out the experimental summary of this experiment at last, utilize the panel discussion of experiment wall, sum up this pilot system framework, experimental project content and relevant academic concept.Need to prove; Each module that relates among the present invention and the equipment in the subelement thereof all have ripe commercially available prod; The user only needs that the product of correspondence is bought annexation and the opposite joining relation mentioned by the present invention and makes up, and simple control program gets final product under the editor again, and what adopt in the present embodiment is the PLC controller; Its programmed method belongs to routine techniques, and the technician in the industry can require to accomplish voluntarily programming according to its control.

Below schematically the present invention and embodiment thereof are described, this description does not have restricted, and shown in the accompanying drawing also is one of embodiment of the present invention, and practical structure is not limited thereto.So,, under the situation that does not break away from the invention aim,, all should belong to protection scope of the present invention without creationary frame mode similar and the embodiment of designing with this technical scheme if those of ordinary skill in the art is enlightened by it.

Claims (7)

1. Logistics Engineering teaching experiment system, it comprises information management system module (1), materials control module (2), machine work module (3), mechanical load module (4), finished product conveyor module (5) and warehouse for finished product module (6); It is characterized in that: information management system module (1) is electrically connected with materials control module (2); Materials control module (2) is docked with the product input port of machine work module (3); The product delivery outlet of machine work module (3) docks with the product input port of mechanical load module (4); The product delivery outlet of machinery load module (4) docks with the pipeline on the finished product conveyor module (5), and the pipeline on the finished product conveyor module (5) docks with warehouse for finished product module (6); Each module is used separately or combination is used to complete Logistics Engineering specialized courses education experiment.

2. Logistics Engineering teaching experiment system according to claim 1 is characterized in that: described materials control module (2) comprises the layer stereo storehouse.

3. Logistics Engineering teaching experiment system according to claim 1; It is characterized in that: described machine work module (3) comprises process equipment, measuring appliance, streamline, video data acquiring and analytical equipment; Process equipment docks with streamline; Measuring appliance is placed in the specific purpose tool case on streamline next door, and the streamline speed detector is installed on the streamline, and video data acquiring and analytical equipment are installed in the periphery of streamline; Said process equipment comprises lathe, grinding machine, drilling machine; Said measuring appliance comprises sclerometer, milscale, vernier caliper.

4. Logistics Engineering teaching experiment system according to claim 1 is characterized in that: described mechanical load module (4) comprises modular restructural Assembling Production streamline.

5. Logistics Engineering teaching experiment system according to claim 1 is characterized in that: described warehouse for finished product module (6) comprises the PLC control system.

6. Logistics Engineering teaching experiment system according to claim 1 is characterized in that: it also comprises the environment adjustment module, and described environment adjustment module comprises illumination system and regulating device, noise generation and regulating device.

7. Logistics Engineering teaching experiment system according to claim 1 is characterized in that: it also comprises Human Engineering dolly, logistics dolly, academic dais and theme wall.

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