CN101944300A - Practice teaching system and method for logistics information technology - Google Patents
Practice teaching system and method for logistics information technology Download PDFInfo
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Abstract
The invention relates to the field of logistics information technology and experimental teaching equipment, in particular to a practice teaching system and a practice teaching method for the logistics information technology. The system comprises a monitoring unit, a simulated production processing logistics unit, a storage unit and a transportation unit, wherein the monitoring unit is used for setting parameters of the simulated production processing logistics unit, the storage unit and the transportation unit and monitoring the logistics information of goods consisting of a blank or a finished product in the simulated production processing logistics unit, the storage unit and the transportation unit; the simulated production processing logistics unit is used for processing the blank under the monitoring action of the monitoring unit so as to form the finished product; the storage unit is used for storing the blank or the finished product under the monitoring action of the monitoring unit; and the transportation unit is used for transporting the finished product to a destination from the storage unit. The embodiment of the invention has the advantages of monitoring the overall logistics process, improving the reliability and efficiency of logistics and finishing the application practice teaching of the logistics information technology in the logistics step, the storage step, the transportation step and the whole logistics process of production and processing.
Description
Technical field
The present invention relates to logistics information technology and experimental teaching equipment field, particularly about a kind of logistics information engineering practice tutoring system and method.
Background technology
The logistics information technology is the integrated applications of modern information technologies in each cargo handling operation of logistics, is the fundamental mark that modern logistics are distinguished traditional logistics, also is field with fastest developing speed in the logistlcs technology.It is based upon on computing machine, the first-class various technical foundation of network communications technology platform, in logistics field, these technology comprise hardware technology and software engineering, as communication network technology, automatic identification technology (barcode technology, IC-card technology, RFID technology), Spatial Information Technology (GPS, GIS), logistics system automatic technology (warehousing system, Automated Sorting System) etc.
On the other hand, practical teaching is to improve the key link that the logistics information innovation of talent is cultivated, and also lacks complete experiment teaching system and teaching method in the teaching of logistics information engineering practice at present.At present cultivating needed experimental teaching equipment about the logistics information technician is the single teaching at correlation technique, therefore the student can not use the understanding that neither one links up in logistics system to the logistics information technology, the practical teaching weak effect is cultivated not enough to student's application innovation ability.
Simultaneously, to existing theory teaching too much in the logistics information technician incubation, the practical teaching deficiency is to the practical application and the obvious deficiency of application innovation training of logistics information technology at present.Simultaneously, existing study to the logistics information technology is the dispered learning at correlation technique, understands not enough to the practical application of these technology.A kind of method is the production line study of the student being gone enterprise, factory's reality, but work-place study is general visiting and learning, is difficult to the deep related system of understanding, and student's novelty idea is difficult to real checking.
Summary of the invention
The embodiment of the invention provides a kind of logistics information engineering practice tutoring system and method, being used to solve existing practicing teaching system disperses, efficient is low, and participates in lacking the teaching middle school student, and the logistics information technology is used in whole logistics progress and can not deeply be understood and learn.This practicing teaching system can be carried out practical teaching work in the school laboratory simultaneously.
The embodiment of the invention provides a kind of logistics information engineering practice tutoring system, comprises,
Monitoring unit is used to be provided with simulation production and processing Logistic Unit, the parameter of storage unit and delivery unit, and obtain the logistics information of the kinds of goods of blank or finished product formation at simulation production and processing Logistic Unit, storage unit and delivery unit;
Simulation production and processing Logistic Unit is used for the parameter according to described setting, and blank is processed, and forms finished product;
The storage unit is used for according to the parameter of described setting blank or finished product being stored;
Delivery unit is used for according to the parameter of described setting described finished product being transported to the destination from described storage unit.
A further aspect according to embodiment of the invention system, described storage unit comprises roughcast warehouse and warehouse for finished product, described simulation production and processing Logistic Unit is simulation multistation process streams unit, also comprise the access and exit control unit in this system, delivery unit, automatic identification unit, letter sorting unit and database;
Described access and exit control unit is used for respectively come in and go out roughcast warehouse and warehouse for finished product of blank and finished product controlled;
Described roughcast warehouse is connected with described access and exit control unit, is used to store blank;
Described delivery unit is connected with described access and exit control unit, be used for sending blank to described simulation multistation process streams unit, and the finished product after will processing sends warehouse for finished product to by the access and exit control unit;
Described warehouse for finished product is connected with described access and exit control unit, is used to store described finished product;
Simulation multistation process streams unit is connected with described delivery unit, is used for blank is processed into finished product;
The letter sorting unit is connected with described warehouse for finished product, according to client's order and the inventory information in the warehouse for finished product, finished product is sorted in batches send delivery unit to;
Described automatic identification unit is connected with described simulation multistation process streams unit, roughcast warehouse, warehouse for finished product, access and exit control unit and letter sorting unit respectively, is used to obtain inventory information, and sends described inventory information to described monitoring unit;
Monitoring unit is provided with the parameter of all functions unit by described monitoring unit, and inventory information in each functional unit is stored in the database.
Another further aspect according to embodiment of the invention system also comprises the loading and unloading unit, is connected with described delivery unit, the blank in the described delivery unit is transported in the described simulation multistation process streams unit processes processing.
According to another further aspect of embodiment of the invention system, described loading and unloading unit comprises mechanical arm or skip car.
According to another further aspect of embodiment of the invention system, described monitoring unit also comprises input/output module, is used to import the parameter of each functional unit, and shows the logistics information that comprises inventory information, environmental parameter and positional information.For example Shu Ru keyboard shows the display of usefulness etc.
According to another further aspect of embodiment of the invention system, described automatic identification unit is the read write line of REID, obtains inventory information by the electronic tag on the kinds of goods;
Perhaps automatic identification unit is an image identification unit, by the Image Acquisition inventory information of kinds of goods;
Perhaps automatic identification unit is the bar code recognition unit, obtains inventory information by the bar code on the kinds of goods.
Another further aspect according to embodiment of the invention system, also comprise sensor, be installed in warehouse for finished product, roughcast warehouse, simulation multistation process streams unit and/or the delivery unit, be used for the monitoring of environmental parameter, send described environmental parameter to monitoring unit by wired or wireless mode.
According to another further aspect of embodiment of the invention system, described sensor also comprises GPS module or Big Dipper locating module, and the positional information of delivery unit is real-time transmitted to monitoring unit.
The embodiment of the invention also provides a kind of logistics information engineering practice teaching method, comprising:
At monitoring unit simulation production and processing Logistic Unit, the parameter of storage unit and delivery unit are set;
Control simulation production and processing Logistic Unit is processed blank according to the parameter of described setting, forms finished product, and described monitoring unit obtains the logistics information in the described simulation production and processing Logistic Unit process;
Control landing account unit stores described blank or finished product according to the parameter of described setting, and described monitoring unit obtains described storage unit blank or finished product are carried out logistics information in the storing process;
The control delivery unit is transported to destination with described finished product from described storage unit according to the parameter of described setting, and described monitoring unit obtains described delivery unit described finished product is transported to logistics information the process of destination from described storage unit.
According to a further embodiment of embodiment of the invention method,
At monitoring unit simulation production and processing Logistic Unit is set, also comprises in the parameter of storage unit and delivery unit,, simulation production and processing Logistic Unit is set automatically, the parameter of storage unit and delivery unit in described monitoring unit candidate streaming system scheme;
At monitoring unit simulation production and processing Logistic Unit is set, also comprises in the parameter of storage unit and delivery unit,, simulation production and processing Logistic Unit is set automatically, the parameter of storage unit and delivery unit in described monitoring unit candidate streaming system scheme;
Blank is processed according to the parameter of described setting at control simulation production and processing Logistic Unit, form finished product, described monitoring unit obtains in the machining information in the described simulation production and processing Logistic Unit process and also comprises, blank is positioned over delivery unit by the loading and unloading unit, delivery unit is placed on simulation multistation process streams unit with blank, processing is simulated to blank in simulation multistation process streams unit, automatic identification unit obtains the inventory information of blank and finished product, sends described inventory information to monitoring unit;
In storing described blank or finished product according to the parameter of described setting, control landing account unit comprises that also the finished product after delivery unit will be processed enters warehouse for finished product by the access and exit control unit;
Described finished product is transported to the destination from described storage unit according to the parameter of described setting at the control delivery unit and also comprises, the letter sorting unit is according to inventory information in product order and the warehouse for finished product, kinds of goods in the warehouse for finished product are placed on the letter sorting unit, the letter sorting unit is transported to different letter sorting mouths according to the instruction of monitoring unit with commodity, at described letter sorting mouth described finished product is loaded into haulage vehicle, haulage vehicle utilizes sensor to send the environmental parameter in vehicle location information, the vehicle transport process to monitoring unit in transportation.
Monitor and can improve logistic efficiency by producing, store in a warehouse and transport three big logistics flow process integral body in the embodiment of the invention, and be convenient to monitor kinds of goods from produce, store in a warehouse to transportation dynamically; Can also make that the operation of total system and monitoring are more clear by the parameter of each functional unit of configuration on the other hand, make the problem that exists in the whole logistics system of the easier discovery of user, so that improve whole logistics system; And by student configuration with use the system of the embodiment of the invention can design a cover and can move, meet current logistics information technology and use present situation and development trend, the teaching experiment system that the student can actual hands-on puts into practice with application innovation in the laboratory.Play a significant role at the logistics system application training for carrying out network technology, automatic identification technology, location technology, visualization technique, control technology, sensor technology, software engineering.Can promote the study of student, motivate students' interest in learning, cultivate student's application innovation ability at the logistics information technical elements.
Description of drawings
In order to be illustrated more clearly in the embodiment of the invention or technical scheme of the prior art, to do to introduce simply to the accompanying drawing of required use in embodiment or the description of the Prior Art below, apparently, accompanying drawing in describing below only is some embodiments of the present invention, for those of ordinary skills, under the prerequisite of not paying creative work, can also obtain other accompanying drawing according to these accompanying drawings.
Figure 1 shows that the structural representation of a kind of logistics information engineering practice of embodiment of the invention tutoring system;
Figure 2 shows that the particular flow sheet of a kind of logistics information engineering practice of embodiment of the invention tutoring system;
Figure 3 shows that a kind of logistics information engineering practice of embodiment of the invention teaching method process flow diagram;
Figure 4 shows that the another kind of logistics information engineering practice of embodiment of the invention teaching method process flow diagram.
Embodiment
Below in conjunction with the accompanying drawing in the embodiment of the invention, the technical scheme in the embodiment of the invention is clearly and completely described, obviously, described embodiment only is the present invention's part embodiment, rather than whole embodiment.Based on the embodiment among the present invention, those of ordinary skills belong to the scope of protection of the invention not making the every other embodiment that is obtained under the creative work prerequisite.
Be illustrated in figure 1 as the structural representation of a kind of logistics information engineering practice of embodiment of the invention tutoring system.
Monitoring unit 101, simulation production and processing Logistic Unit 102, storage unit 103, delivery unit 104.
Described monitoring unit 101, be used to be provided with simulation production and processing Logistic Unit 102, the parameter of storage unit 103 and delivery unit 104, and receive the real-time parameter of simulation production and processing Logistic Unit 102, storage unit 103 and delivery unit 104, obtain blank or the finished product logistics information in the above-mentioned functions unit.Blank and finished product are generally kinds of goods, are blank before processing, are finished product after processing.
Simulation production and processing Logistic Unit 102 is used for according to the parameter in monitoring unit 101 settings blank being processed, and forms finished product.
Storage unit 103 is used for according to the parameter that is provided with at monitoring unit 101 blank or finished product being stored.Wherein said storage unit can be divided into roughcast warehouse and warehouse for finished product, and described roughcast warehouse or warehouse for finished product can comprise that all tiered warehouse facility equipment or common shelf or both all have.
Delivery unit 104 is used for described finished product is transported to the destination from described storage unit 103.
Wherein, described logistics information comprises the locating information of delivery unit in environmental parameter in inventory information, storage and the transportation, the transportation; Further, described inventory information comprises the machining information of blank in simulation production and processing Logistic Unit, for example comprise working process parameter, process equipment parameter etc., also comprise the storage information of kinds of goods in the storage unit, information such as the position of blank in roughcast warehouse, tank farm stock for example, can also comprise the transit information of kinds of goods in transportation, for example the driver information of haulage vehicle, vehicle photographic information etc.
Be illustrated in figure 2 as the particular flow sheet of the practicing teaching system of a kind of logistics information of the embodiment of the invention.
Comprise access and exit control unit 201, roughcast warehouse 202, delivery unit 203, warehouse for finished product 204, loading and unloading unit 205, simulation multistation process streams unit 206, letter sorting unit 207, automatic identification unit 208, monitoring unit 209, database 210, delivery unit 211, sensor 212.
Wherein the access and exit control unit 201, be used for access and exit control to kinds of goods such as blank, finished products, and the inventory information of will coming in and going out sends monitoring unit 209 to, described inventory information comprises date of manufacture, production batch, manufacturing parameter etc., described automatic identification unit 208 obtains the information of described kinds of goods in the access and exit control process of described kinds of goods, send monitoring unit 209 to, have a plurality of access and exit controls unit 201 for reason clearly in the accompanying drawings, but be understood that can have a plurality of access and exit controls unit also can carry out above-mentioned functions by an access and exit control unit.
Roughcast warehouse 202 is connected with described access and exit control unit 201, is used to store blank.
Described warehouse for finished product 204 is connected with described access and exit control unit 201, is used to store described finished product.
Simulation multistation process streams unit 206, it can simulation application has a plurality of stations in difference is produced simulation production and processing Logistic Unit is connected with described delivery unit 202, is used for blank is processed into finished product.In described simulation multistation process streams unit 206, also comprise loading and unloading unit 205, be connected with delivery unit 203, can be mechanical arm or skip car, the blank in the described delivery unit 203 is transported in the described simulation multistation process streams unit 206 process processing.
Monitoring unit 209 is used for can being provided with by described monitoring unit 209 parameter of all functions unit, and inventory information in each functional unit is stored in the database 210, and described inventory information comprises machining information, storage information and transit information etc.This monitoring unit 209 also comprises input-output device such as display, for example keyboard, mouse and display etc., kinds of goods in the embodiment of the invention are from production and processing, finished product storage, outbound, links such as kinds of goods transportation can be in monitoring unit 209 Real Time Observation, realizing a whole set of monitoring, thereby can allow the student of this system of use grasp the technical characterstic of whole logistics system to kinds of goods production, storage, transportation.
Described sensor 212 can be installed in the warehouse for finished product 204, is used for monitoring the environmental parameter of warehouse for finished product 204, parameters such as temperature, humidity, illumination for example, and send this information to monitoring unit 209, provide parameter in the warehouse for finished product to the user, with assisting users adjustment storage strategy and method.
Described sensor 212 can also be installed on simulation multistation process streams unit 206, be used to monitor the environmental parameter of simulation multistation process streams unit 206, parameters such as temperature, humidity, illumination for example, and sending this environmental parameter to monitoring unit 209, assisting users is adjusted the environmental parameter in the production run.
Described sensor 212 can also be installed in the transportation equipment 211, be used for monitoring the environmental parameter of transportation, temperature for example, humidity, parameters such as illumination, and send this environmental parameter to monitoring unit 209 by wired or wireless network mode, can help the user to monitor kinds of goods situation in the transportation in real time like this, described by cable network with the environmental parameter of kinds of goods in the transportation equipment 211 send to monitoring unit 209 can for, after the transportation kinds of goods finish, the data card of environmental parameter will be loaded with, safe digital card (SD card) for example, insert the card reader that is connected with monitoring unit 209, the environmental parameter in the data card is uploaded to monitoring unit 209; Described by wireless network with the environmental parameter of kinds of goods in the transportation equipment 211 send to monitoring unit 209 can for, send the environmental parameter of kinds of goods in the transportation equipment 211 to monitoring unit 209 by the general packet radio service module (GPRS module) that is connected with described sensor 212.When sensor 212 is installed on transportation equipment 211, this sensor is except the monitoring of environmental parameter, can also utilize global positioning satellite module (GPS) or Big Dipper locating module to obtain positional information, send this positional information to monitoring unit 209, to such an extent as to can be so that the user understands the kinds of goods present position in real time.
Wherein, the user can be provided with the system in the embodiment of the invention according to the demand of different industries, to meet the production of different industries kinds of goods, storage, the needs of transportation, for example to the processing of agricultural products, storage and transportation, with production and processing to for example tire, storage and requirements on transport are all different, the user can be provided with the parameter of different function units at the characteristics of industry by monitoring unit when the different industries logistics information is experimentized, the report frequency of turnover control module 201 can be set, and the inventory information of for example will coming in and going out sends the time interval of monitoring unit 209 to; The size of roughcast warehouse 202 perhaps can also be set, the size of the capacity of for example storing in a warehouse; Transfer rate, length, transfer path of delivery unit 203 etc. perhaps can also be set; The size of warehouse for finished product 204 perhaps can also be set, the size of the capacity of for example storing in a warehouse; The loading and unloading speed of loading and unloading unit 205, the amount of each loading and unloading perhaps can also be set; Simulation multistation process streams unit 206 pairs of blanks perhaps can also be set adopt what manufacturing process, need the technological process of several roads, every kind of flow process or be less than in the technology what kinds of goods parameter of physical record etc.; The letter sorting speed of letter sorting unit 207 perhaps can also be set, client's parameters such as order are set; Automatic identification unit 208 perhaps can also be set adopts the RFID recognition technology still to adopt bar-code identification; The parameter such as haulage track, shipping capacity of transportation equipment 211 perhaps can also be set; Sensor 212 perhaps can also be set be environmental parameter such as collecting temperature, humidity or gather environmental parameters such as light intensity, temperature; To the data transfer mode between transportation equipment 211 and the monitoring unit 209 is to adopt the wireless network mode, still adopts the cable network mode.
The user can be by the deep understanding kinds of goods of the logistics information engineering practice tutoring system in the embodiment of the invention from producing storage, arrive the whole flow situation of transportation again, and can put into practice the logistlcs technology of different industries according to different systematic parameters is set, the user can actual hands-on and the teaching experiment system of application innovation practice.Play a significant role at the logistics system application training for carrying out network technology, automatic identification technology, location technology, visualization technique, control technology, sensor technology, software engineering.Can promote the study of student, motivate students' interest in learning, cultivate student's application innovation ability at the logistics information technical elements.
Be illustrated in figure 3 as the practical teaching method flow diagram of a kind of logistics information of the embodiment of the invention.
Comprise step 301, simulation production and processing Logistic Unit, the parameter of storage unit and delivery unit are set at monitoring unit.
Pass through the foregoing description, can be so that the student be implemented in an interior among a small circle configuration and monitoring comprises the whole logistics system of production and processing, storage and transportation, make that three logistics progresses can be monitored more closely, help the student and in each process, sharpen understanding, carry out actual training for technology such as sensor, software programming and network services.And, because three logistics progresses can monitor in a system and control, can also improve the efficient of whole logistics progress, further, no matter kinds of goods go wrong in which logistics progress, can can't realize deficiency by inquiring corresponding recorded information in the monitoring unit, compare the logistics system of disperseing in the prior art, have the logistic efficiency of raising and made things convenient for the user the monitoring of kinds of goods in production and processing, storage and transportation to the kinds of goods complete monitoring.
Be illustrated in figure 4 as the practical teaching method flow diagram of the another kind of logistics information of the embodiment of the invention.
Comprise step 401, the student determines concrete logistics information technology application system typical case teaching plan, for example carry out the logistics management scheme of tyre industry, perhaps carry out the logistics management scheme of petroleum industry etc., wherein every kind of scheme all has the parameter that has set at each functional unit, the capacity of roughcast warehouse for example, the transfer rate of delivery unit, the parameter in the processing technology that simulation multistation process streams unit is carried out etc.; Perhaps the student also can be provided with parameter to each functional unit in the system according to teaching plan.In this step, the student can also write software according to teaching plan, realizes that logistics management or sensor are monitored, each functional unit is communicated by letter with monitoring unit.
Step 407 shows belongings stream information in production and processing, storage and the transportation at monitoring unit by visual means.
Adopt the method and apparatus of the embodiment of the invention, many-sided technological means such as network technology, automatic identification technology, location technology, visualization technique, control technology, sensor technology have been comprised, realized the visual control of whole logistics progress, and can be so that the student deepens using and researching and developing of application technology in the logistics progress as tutoring system.
Wherein by the information in the whole logistics progress of monitoring unit collection, can be used for the analyte stream infotech in application effect of logistics typical link and existing problems, research logistics information technology is enhanced productivity and the visualized management level by the application of logistics information technology to inventory level and supply chain efficiency influence.
Above-described embodiment; purpose of the present invention, technical scheme and beneficial effect are further described; institute is understood that; the above only is the specific embodiment of the present invention; and be not intended to limit the scope of the invention; within the spirit and principles in the present invention all, any modification of being made, be equal to replacement, improvement etc., all should be included within protection scope of the present invention.
Claims (10)
1. a logistics information engineering practice tutoring system is characterized in that comprising,
Monitoring unit is used to be provided with simulation production and processing Logistic Unit, the parameter of storage unit and delivery unit, and obtain the logistics information of the kinds of goods of blank or finished product formation at simulation production and processing Logistic Unit, storage unit and delivery unit;
Simulation production and processing Logistic Unit is used for the parameter according to described setting, and blank is processed, and forms finished product;
The storage unit is used for according to the parameter of described setting blank or finished product being stored;
Delivery unit is used for according to the parameter of described setting described finished product being transported to the destination from described storage unit.
2. system according to claim 1, it is characterized in that, described storage unit comprises roughcast warehouse and warehouse for finished product, described simulation production and processing Logistic Unit is simulation multistation process streams unit, also comprise the access and exit control unit in this system, delivery unit, automatic identification unit, letter sorting unit and database;
Described access and exit control unit is used for respectively come in and go out roughcast warehouse and warehouse for finished product of blank and finished product controlled;
Described roughcast warehouse is connected with described access and exit control unit, is used to store blank;
Described delivery unit is connected with described access and exit control unit, be used for sending blank to described simulation multistation process streams unit, and the finished product after will processing sends warehouse for finished product to by the access and exit control unit;
Described warehouse for finished product is connected with described access and exit control unit, is used to store described finished product;
Simulation multistation process streams unit is connected with described delivery unit, is used for blank is processed into finished product;
The letter sorting unit is connected with described warehouse for finished product, according to client's order and the inventory information in the warehouse for finished product, finished product is sorted in batches send delivery unit to;
Described automatic identification unit is connected with described simulation multistation process streams unit, roughcast warehouse, warehouse for finished product, access and exit control unit and letter sorting unit respectively, is used to obtain inventory information, and sends described inventory information to described monitoring unit;
Monitoring unit is provided with the parameter of all functions unit by described monitoring unit, and inventory information in each functional unit is stored in the database.
3. system according to claim 2 is characterized in that, also comprises the loading and unloading unit, is connected with described delivery unit, the blank in the described delivery unit is transported in the described simulation multistation process streams unit processes processing.
4. system according to claim 3 is characterized in that, described loading and unloading unit comprises mechanical arm or skip car.
5. system according to claim 2 is characterized in that described monitoring unit also comprises input/output module, is used to import the parameter of each functional unit, and shows the logistics information that comprises inventory information, environmental parameter and positional information.
6. system according to claim 2 is characterized in that, described automatic identification unit is the read write line of REID, obtains inventory information by the electronic tag on the kinds of goods;
Perhaps automatic identification unit is an image identification unit, by the Image Acquisition inventory information of kinds of goods;
Perhaps automatic identification unit is the bar code recognition unit, obtains inventory information by the bar code on the kinds of goods.
7. system according to claim 2, it is characterized in that, also comprise sensor, be installed in warehouse for finished product, roughcast warehouse, simulation multistation process streams unit and/or the delivery unit, be used for the monitoring of environmental parameter, send described environmental parameter to monitoring unit by wired or wireless mode.
8. system according to claim 7 is characterized in that, described sensor also comprises GPS module or Big Dipper locating module, and the positional information of delivery unit is real-time transmitted to monitoring unit.
9. logistics information engineering practice teaching method is characterized in that comprising:
At monitoring unit simulation production and processing Logistic Unit, the parameter of storage unit and delivery unit are set;
Control simulation production and processing Logistic Unit is processed blank according to the parameter of described setting, forms finished product, and described monitoring unit obtains the logistics information in the described simulation production and processing Logistic Unit process;
Control landing account unit stores described blank or finished product according to the parameter of described setting, and described monitoring unit obtains described storage unit blank or finished product are carried out logistics information in the storing process;
The control delivery unit is transported to destination with described finished product from described storage unit according to the parameter of described setting, and described monitoring unit obtains described delivery unit described finished product is transported to logistics information the process of destination from described storage unit.
10. method according to claim 9 is characterized in that,
At monitoring unit simulation production and processing Logistic Unit is set, also comprises in the parameter of storage unit and delivery unit,, simulation production and processing Logistic Unit is set automatically, the parameter of storage unit and delivery unit in described monitoring unit candidate streaming system scheme;
Blank is processed according to the parameter of described setting at control simulation production and processing Logistic Unit, form finished product, described monitoring unit obtains in the machining information in the described simulation production and processing Logistic Unit process and also comprises, blank is positioned over delivery unit by the loading and unloading unit, delivery unit is placed on simulation multistation process streams unit with blank, processing is simulated to blank in simulation multistation process streams unit, automatic identification unit obtains the inventory information of blank and finished product, sends described inventory information to monitoring unit;
In storing described blank or finished product according to the parameter of described setting, control landing account unit comprises that also the finished product after delivery unit will be processed enters warehouse for finished product by the access and exit control unit;
Described finished product is transported to the destination from described storage unit according to the parameter of described setting at the control delivery unit and also comprises, the letter sorting unit is according to inventory information in product order and the warehouse for finished product, kinds of goods in the warehouse for finished product are placed on the letter sorting unit, the letter sorting unit is transported to different letter sorting mouths according to the instruction of monitoring unit with commodity, at described letter sorting mouth described finished product is loaded into haulage vehicle, haulage vehicle utilizes sensor to send the environmental parameter in vehicle location information, the vehicle transport process to monitoring unit in transportation.
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Cited By (9)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN103544023A (en) * | 2013-11-10 | 2014-01-29 | 广西柳工路创制造科技有限公司 | Modern industrial logistics simulation method and modern industrial logistics simulation system |
CN103577958A (en) * | 2013-11-10 | 2014-02-12 | 广西柳工路创制造科技有限公司 | Modern industry logistics simulation system |
CN105321417A (en) * | 2014-06-10 | 2016-02-10 | 广西大学 | Teaching experiment apparatus for production line |
CN105679175A (en) * | 2016-04-11 | 2016-06-15 | 浙江天煌科技实业有限公司 | Production line information integration and control practice platform of intelligent manufacture |
CN106296100A (en) * | 2016-08-19 | 2017-01-04 | 河南易之信网络科技有限公司 | The management method of a kind of cross-border logistics business, Apparatus and system |
CN106354109A (en) * | 2016-10-13 | 2017-01-25 | 上海犀浦智能系统有限公司 | Laboratory-based flexible intelligent production line and production method |
CN106952068A (en) * | 2017-03-20 | 2017-07-14 | 四川理工学院 | A kind of logistics transportation system |
CN107976982A (en) * | 2017-12-08 | 2018-05-01 | 中山市天隆燃具电器有限公司 | A kind of numerically-controlled machine tool intelligence manufacture digitizes workshop integrated system |
CN108109477A (en) * | 2017-12-18 | 2018-06-01 | 清华大学 | Path planning and the logistics legal tutoring system of intelligent addressing |
Citations (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US20040044557A1 (en) * | 2002-06-14 | 2004-03-04 | Frech Steven Jon | Supply chain logistics model and method of educating workshop participants in supply chain logistics management |
CN201281818Y (en) * | 2008-08-27 | 2009-07-29 | 江苏新瑞机械有限公司 | Flexible manufacturing system |
CN201323000Y (en) * | 2008-12-16 | 2009-10-07 | 上海卡泊仓储设备有限公司 | Module combined type automatic stereo warehouse for teaching |
CN101551878A (en) * | 2008-03-31 | 2009-10-07 | 北京中食新华科技有限公司 | Method for agricultural product logistics based on wireless radio frequency label |
CN201829079U (en) * | 2010-09-03 | 2011-05-11 | 北京物资学院 | Practical teaching system of logistics information |
-
2010
- 2010-09-03 CN CN 201010273079 patent/CN101944300A/en active Pending
Patent Citations (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US20040044557A1 (en) * | 2002-06-14 | 2004-03-04 | Frech Steven Jon | Supply chain logistics model and method of educating workshop participants in supply chain logistics management |
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