CN115796741A - Intelligent management system based on warehouse - Google Patents

Abstract

The invention discloses an intelligent management system based on a warehouse, which is bidirectionally connected with a warehousing acquisition unit through a central control system, the central control system is bidirectionally connected with an ex-warehouse acquisition unit, the warehousing acquisition unit and the ex-warehouse acquisition unit automatically scan RFID electronic tags on goods through a tag scanning module and identify and input information of the goods, so that a scanner does not need to be manually held to work when the goods are put in and out of the warehouse, the labor cost and the workload of workers are reduced, and the working efficiency is improved.

Description

Intelligent management system based on warehouse

Technical Field

The invention relates to the technical field of warehouse management, in particular to an intelligent management system based on a warehouse.

Background

Warehouse management is also called warehouse management, which refers to effective control of activities such as receiving, sending and storing of warehoused goods, and the like, and aims to ensure the integrity and the non-damage of the warehoused goods for enterprises, ensure the normal operation of production and operation activities, classify and record the activity conditions of various goods on the basis, express the conditions of the warehoused goods in the aspects of quantity and quality in a specific chart mode, and express the comprehensive management mode of the conditions such as the geographical position, the department, the order attribution, the warehouse dispersion degree and the like, the warehouse is firstly a logistics activity, or the logistics activity is the essential attribute of the warehouse, the warehouse is not a production or a transaction, but is one of the logistics activities of production and transaction services, and should be associated and matched with other logistics activities, the warehouse condition is a specific tangible or intangible place and a modern technology, namely 'specific', because the supply chain of each enterprise is specific, and the warehouse place is also specific; the tangible place is, of course, a warehouse, a goods yard or a storage tank, etc., and in the modern economic background, the warehousing can be carried out in a virtual space, and a plurality of modern warehousing facility equipment and information technology support are also needed.

The current warehousing operation flow mainly comprises 3 steps, namely warehousing operation flow comprising receiving and transporting, handing over and checking. Storing a workflow, comprising: stacking-maintenance-inspection-inventory. And (4) ex-warehouse operation: cargo allocation, hand-over, consignment. The method has the advantages that a scanner is required to be manually held to identify and scan the bar codes on the goods, a large amount of workers are required to be invested, the workload of the workers is large, the goods information is easily wrongly recorded or less recorded in the process, the number of the goods is easy to make mistakes, and the goods are difficult to trace; meanwhile, the environment inside the warehouse is difficult to monitor in real time, and the problem cannot be timely solved, so that great loss is easily caused.

Disclosure of Invention

The invention aims to solve the problems and provide an intelligent management system based on a warehouse, which is bidirectionally connected with a warehousing acquisition unit through a central control system, the central control system is bidirectionally connected with an ex-warehouse acquisition unit, and the warehousing acquisition unit and the ex-warehouse acquisition unit automatically scan RFID electronic tags on goods through a tag scanning module and identify and input information of the goods, so that a manual scanner does not need to be held to work when the goods are delivered and stored, the labor cost and the workload of workers are reduced, and the working efficiency is improved;

the invention achieves the above purpose through the following technical scheme:

the utility model provides a based on intelligent management system in warehouse, includes central control system, central control system and warehouse entry collection unit both way junction, central control system and inquiry information base both way junction, central control system and warehouse exit collection unit both way junction, central control system and monitoring module both way junction, central control system and intelligent sensing unit both way junction, central control system and data storage unit both way junction.

The system comprises a warehouse entry acquisition unit, a warehouse exit acquisition unit, a warehouse entry information base and a warehouse exit acquisition unit, wherein the warehouse entry acquisition unit is used for storing information to be inquired, and the warehouse exit acquisition unit is used for acquiring the information to be inquired.

The warehouse entry collection unit comprises a first label scanning module, a first information identification module and a distribution module, and the warehouse exit collection unit comprises a second label scanning module and a second information identification module.

The query information base comprises an information base, the input end of the information base is electrically connected with the output end of the order information receiving module, the output end of the information base is electrically connected with the input end of the alarm module, and the input end of the information base is electrically connected with the output end of the comparison module.

The intelligent sensing unit comprises a temperature sensing module, a humidity sensing module, a smoke sensing module and a warning module.

The data storage unit comprises a database, the database is bidirectionally connected with the safety protection module, and the output end of the database is electrically connected with the input end of the backup module.

The output end of the backup module is electrically connected with the input end of the cloud server, the output end of the cloud server is electrically connected with the input end of the encryption module, and the encryption module is communicated with the database in a bidirectional connection mode.

The further scheme is that the database is bidirectionally connected with a data management unit, and the data management unit comprises an entry module, a classification module and a deletion module.

The invention has the beneficial effects that:

according to the warehouse-based intelligent management system, the central control system is in bidirectional connection with the warehousing acquisition unit, the central control system is in bidirectional connection with the ex-warehouse acquisition unit, the warehousing acquisition unit and the ex-warehouse acquisition unit automatically scan RFID electronic tags on goods through the tag scanning module, and information of the goods is identified and recorded, so that a scanner does not need to be manually held to work when the goods are put in and out of a warehouse, the labor cost and the workload of workers are reduced, and the working efficiency is improved.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present invention, the following briefly introduces the embodiments or the drawings needed to be practical in the prior art description, and obviously, the drawings in the following description are only some embodiments of the present invention, and other drawings can be obtained by those skilled in the art without creative efforts.

FIG. 1 is a schematic block diagram of the architecture of the system of the present invention;

FIG. 2 is a schematic block diagram of the structure of a warehousing acquisition unit of the present invention;

FIG. 3 is a schematic block diagram of the structure of a query repository according to the present invention;

FIG. 4 is a schematic block diagram of the structure of the ex-warehouse collection unit according to the present invention;

FIG. 5 is a schematic block diagram of a data storage unit according to the present invention;

FIG. 6 is a schematic block diagram of the structure of a data management unit according to the present invention;

FIG. 7 is a schematic block diagram of the structure of an intelligent sensing unit according to the present invention;

FIG. 8 is a flow chart of the present invention for automated warehousing;

FIG. 9 is a flow chart of the automatic ex-warehouse of the present invention.

In the figure: the system comprises a central control system 1, a warehousing acquisition unit 2, a first label scanning module 21, a first information identification module 22, a distribution module 23, an information inquiry library 3, an information library 31, an order information receiving module 32, an alarm module 33, a comparison module 34, a warehouse-out acquisition unit 4, a second label scanning module 41, a second information identification module 42, a monitoring module 5, an intelligent sensing unit 6, a temperature sensing module 61, a humidity sensing module 62, a smoke sensing module 63, a warning module 64, a data storage unit 7, a database 71, a safety protection module 72, a backup module 73, a cloud server 74, an encryption module 75, a data management unit 76, a 761 entry module, a classification module 762 and a deletion module 763.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the technical solutions of the present invention will be described in detail below. It is to be understood that the described embodiments are merely exemplary of the invention, and not restrictive of the full scope of the invention. All other embodiments, which can be derived by a person skilled in the art from the examples given herein without any inventive step, are within the scope of the present invention.

In any embodiment, as shown in fig. 1 to 7, the warehouse-based intelligent management system of the present invention includes a central control system 1, the central control system 1 is bidirectionally connected to an in-warehouse acquisition unit 2, the central control system 1 is bidirectionally connected to an inquiry information base 3, the central control system 1 is bidirectionally connected to an out-warehouse acquisition unit 4, the central control system 1 is bidirectionally connected to a monitoring module 5, the central control system 1 is bidirectionally connected to an intelligent sensing unit 6, and the central control system 1 is bidirectionally connected to a data storage unit 7.

In one embodiment, the output terminal of the warehousing acquisition unit 2 is electrically connected to the input terminal of the query information base 3, and the input terminal of the query information base 3 is electrically connected to the output terminal of the ex-warehouse acquisition unit 4.

In a specific embodiment, the warehousing acquisition unit 2 includes a first label scanning module 21, a first information identification module 22 and a distribution module 23, the first label scanning module 21 automatically scans RFID electronic tags on goods, the first information identification module 22 identifies and inputs information of the goods, the distribution module 23 is configured to distribute identifiers to storage positions of the goods in a warehouse, the ex-warehouse acquisition unit 4 includes a second label scanning module 41 and a second information identification module 42, the second label scanning module 41 automatically scans RFID electronic tags on the goods ex-warehouse, and the second information identification module 42 identifies and inputs information of the goods.

In an embodiment, the query information base 3 includes an information base 31, an input end of the information base 31 is electrically connected to an output end of the order information receiving module 32, an output end of the information base 31 is electrically connected to an input end of the alarm module 33, an input end of the information base 31 is electrically connected to an output end of the comparison module 34, the order information receiving module 32 is configured to receive order information received by a warehouse order, store the order information in the information base 31, and automatically generate a warehousing entry of goods, the comparison module 34 compares the entered goods information with a warehousing entry of goods generated in advance in the information base 31, and the warehousing entry includes data such as a plurality of bar codes of goods, warehousing location of the current time of warehousing, material codes of the goods, goods supplier codes, and quantity of the goods. Automatically comparing with the bar code on the electronic tag, checking whether the goods bar code is consistent with the generated warehousing entry goods bar code, material code and other information, if not, automatically giving an alarm by the alarm module 33, simultaneously automatically generating corresponding warehousing problem tracking order data by the central control system 1, recording the corresponding goods warehousing entry order, warehousing time, goods bar code, warehousing entry position and other data by the warehousing tracking order data, and automatically judging the type of error information. Prompting error information: the bar code of the goods in storage is not in the bar code of the goods in storage list, or error information is prompted: the material code of the goods is inconsistent with the material code of the goods warehousing list, or error information is prompted: the number of the goods is inconsistent with the number of the goods warehousing notes, and the like. The data of the problem tracking order and the data of the goods warehousing order are uploaded to the information base 31, the information is encrypted through the encryption module 75 in the information transmission process by adopting an RSA algorithm, the information is decrypted when being written into the data storage module, the safety of data transmission is guaranteed, the original information of the warehousing tracking order and the warehousing order is transmitted to the information base 31 to be stored, and the automatic warehousing problem tracing is facilitated.

When an order is taken out of the warehouse, according to order information input in advance in the information base, a single-parent genetic algorithm is adopted according to data such as goods material codes, supplier codes, quantity, warehouse positions, warehouse entering time and the like, the priority of goods taking out of the warehouse is given, corresponding goods taking-out lists are automatically generated and stored in the information base 31, and the input goods information and the goods taking-out lists generated in advance in the information corresponding base 31 are compared through the comparison module 34. The goods delivery list comprises bar codes of a plurality of goods, the position of the delivery, material codes of the goods, the quantity of the goods and the like. When scanning, the information is automatically compared with the bar code on the electronic tag, whether the goods bar code is consistent with the generated delivery order goods bar code, material code and the like is checked, if not, the alarm module 33 automatically gives an alarm, meanwhile, the central control system 1 automatically generates corresponding delivery problem tracking order data, the tracking order data records corresponding goods delivery order, delivery time, goods bar code, delivery position and the like, and the type of error information is automatically judged. For example, error information is prompted: the bar code of the goods in and out of the warehouse is not in the bar code of the goods delivery list, and error information is prompted: the material code of the goods is inconsistent with the material code of the goods delivery list, or error information is prompted: the number of goods is inconsistent with the quantity of goods delivered from the warehouse, and the like. The data of the ex-warehouse problem tracking list and the data of the goods-in-warehouse list are uploaded to the data storage module, the information is encrypted by the encryption module 75 in the information transmission process through the RSA algorithm, the information is decrypted when the information is written into the data storage module, the original information of the in-warehouse tracking list and the in-warehouse list is transmitted to the information base 31 to be stored, and the automatic ex-warehouse problem can be traced conveniently.

In a specific embodiment, the intelligent sensing unit 6 includes a temperature sensing module 61, a humidity sensing module 62, a smoke sensing module 63 and an alarm module 64, the temperature sensing module 61 and the humidity sensing module 62 are used for monitoring the temperature and the humidity inside the warehouse, and the smoke sensing module 63 is used for monitoring the concentration of smoke so as to prevent fire.

In one embodiment, the data storage unit 7 includes a database 71, the database 71 is bidirectionally connected to a security module 72, and an output of the database 71 is electrically connected to an input of a backup module 73.

In an embodiment, an output end of the backup module 73 is electrically connected to an input end of the cloud server 74, an output end of the cloud server 74 is electrically connected to an input end of the encryption module 75, the encryption module 75 is bidirectionally connected to the database 71, the backup module 73 is configured to backup data information in the database 71, upload the data information to the cloud server 74, encrypt the data information in an uploading process through the encryption module 75, the security protection module 72 performs security monitoring protection on the database 71, and information backup facilitates tracing query on subsequent cargo information.

In a specific embodiment, the database 71 is bidirectionally connected to the data management unit 76, the data management unit 76 includes an entry module 761, a classification module 762, and a deletion module 763, the entry module 761 is configured to receive the warehousing cargo information and store the warehousing cargo information in the database 71, the classification module 762 is configured to store the cargo information in the database 71 in a classified manner according to time and warehousing batches, so as to facilitate subsequent searching, and the deletion module 763 is configured to delete the ex-warehouse cargo information in the database 71, so as to expand a storage space.

When the system is used, the order information receiving module 32 receives order information received by a warehouse order and stores the order information in the information base 31, goods with RFID electronic tags pass through a fixed tag scanning instrument, the first tag scanning module 21 automatically scans the RFID electronic tags on the goods, the first information identification module 22 identifies and inputs the information of the goods, the distribution module 23 distributes identification to the storage positions of the goods in the warehouse, after the goods are input, the automatic raw goods warehousing list is obtained, and the comparison module 34 compares the input goods information with a goods warehousing list generated in advance in the information base 31, wherein the list comprises bar codes of a plurality of goods, the warehouse positions in the warehouse at this time, material codes of the goods, goods supplier codes, the quantity of the goods and other data. Automatically comparing with the bar code on the electronic tag, checking whether the goods bar code is consistent with the generated warehousing entry goods bar code, material code and other information, if not, automatically giving an alarm by the alarm module 33, simultaneously automatically generating corresponding warehousing problem tracking order data by the central control system 1, recording the corresponding goods warehousing entry order, warehousing time, goods bar code, warehousing entry position and other data by the warehousing tracking order data, and automatically judging the type of error information. Prompting error information: the bar code of the goods in storage is not in the bar code of the goods in storage list, or error information is prompted: the material code of the goods is inconsistent with the material code of the goods warehousing list, or error information is prompted: the number of the goods is inconsistent with the number of the goods warehousing notes, and the like. The data of the problem tracking order and the data of the goods warehousing order are uploaded to the information base 31, the information is encrypted by the encryption module 75 in the information transmission process through the RSA algorithm, the information is decrypted when the information is written into the data storage module, the safety of data transmission is guaranteed, the original information of the warehousing tracking order and the warehousing order is transmitted to the information base 31 to be stored, and the automatic warehousing problem can be conveniently traced through the inquiry of the cloud server 74.

When an order is taken out of the warehouse, according to the order information recorded in advance in the information base, a single-parent genetic algorithm is adopted according to data such as cargo material codes, supplier codes, quantity, warehouse positions, warehouse-in time and the like, the priority of corresponding cargo in the warehouse is given, corresponding cargo delivery orders are automatically generated and stored in the information base 31, and the comparison module 34 compares the recorded cargo information with the cargo delivery orders generated in advance in the information base 31. The goods delivery list comprises bar codes of a plurality of goods, the position of the goods delivered from the warehouse, material codes of the goods, the quantity of the goods and the like. When scanning, the information is automatically compared with the bar code on the electronic tag, whether the goods bar code is consistent with the generated delivery order goods bar code, material code and the like is checked, if the information is inconsistent, the alarm module 33 automatically gives an alarm, meanwhile, the central control system 1 automatically generates corresponding delivery problem tracking order data, the tracking order data records corresponding goods delivery order, delivery time, goods bar code, delivery position and the like, and the type of error information is automatically judged. For example, prompting for error information: the bar code of the goods in and out of the warehouse is not in the bar code of the goods out of the warehouse, and error information is prompted: the material code of the goods is inconsistent with the material code of the goods delivery list, or error information is prompted: the number of goods is inconsistent with the single quantity of goods delivered from the warehouse, and the like. The data of the ex-warehouse problem tracking order and the data of the cargo warehousing order are uploaded to the data storage module, the information is encrypted through the encryption module 75 in the information transmission process by adopting an RSA algorithm, the information is decrypted when being written into the data storage module, the original information of the warehousing tracking order and the warehousing order is transmitted to the information base 31 to be stored, and when the information needs to be queried, the information can be queried through the cloud server 74, so that the automatic ex-warehouse problem can be conveniently traced.

The monitoring module 5 carries out whole-course camera monitoring on the process of warehousing and ex-warehouse of goods, goods information collected by the warehousing acquisition unit 2 is transmitted to the central control system 1, the central control system 1 transmits the information to the data storage unit 7, the logging-in module 761 in the data management unit 76 receives the warehoused goods information and stores the warehoused goods information in the database 71, the classification module 762 classifies and stores the goods information in the database 71 according to time and warehousing batches, the backup module 73 backs up the data information in the database 71 and uploads the data information to the cloud server 74, the data information in the uploading process is encrypted through the encryption module 75, the safety protection module 72 carries out safety monitoring protection on the database 71, when goods are ex-warehouse, the second tag scanning module 41 automatically scans RFID electronic tags on the goods, the second information identification module 42 identifies and logs in the goods information, after the goods are out-warehouse, the corresponding goods storage information in the database 71 is deleted through the deletion module 763, the storage space is enlarged, in the using process, the temperature sensing module 61 and the humidity sensing module 62 and the smoke sensing module 64 can timely notify smoke monitoring personnel of smoke concentration when the smoke monitoring unit 6 is used for carrying out-warehouse, and smoke monitoring, and smoke concentration monitoring.

The above description is only for the specific embodiments of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art can easily conceive of the changes or substitutions within the technical scope of the present invention, and all the changes or substitutions should be covered within the scope of the present invention. Therefore, the protection scope of the present invention shall be subject to the protection scope of the claims. It should be noted that, in the above embodiments, the various features described in the above embodiments may be combined in any suitable manner, and in order to avoid unnecessary repetition, the present invention does not separately describe various possible combinations. In addition, any combination of the various embodiments of the present invention is also possible, and the same should be considered as the disclosure of the present invention as long as it does not depart from the spirit of the present invention.

Claims (8)

1. The utility model provides a based on intelligent management system in warehouse, its characterized in that includes central control system (1), central control system (1) and warehouse entry collection unit (2) both way junction, central control system (1) and inquiry information base (3) both way junction, central control system (1) and warehouse exit collection unit (4) both way junction, central control system (1) and monitoring module (5) both way junction, central control system (1) and intelligent sensing unit (6) both way junction, central control system (1) and data storage unit (7) both way junction.

2. The warehouse-based intelligent management system of claim 1, wherein: the output end of the warehousing acquisition unit (2) is electrically connected with the input end of the query information base (3), and the input end of the query information base (3) is electrically connected with the output end of the ex-warehouse acquisition unit (4).

3. The warehouse-based intelligent management system of claim 1, wherein: the warehousing collection unit (2) comprises a first label scanning module (21), a first information identification module (22) and a distribution module (23), and the ex-warehouse collection unit (4) comprises a second label scanning module (41) and a second information identification module (42).

4. The warehouse-based intelligent management system of claim 1, wherein: the query information base (3) comprises an information base (31), the input end of the information base (31) is electrically connected with the output end of the order information receiving module (32), the output end of the information base (31) is electrically connected with the input end of the alarm module (33), and the input end of the information base (31) is electrically connected with the output end of the comparison module (34).

5. The warehouse-based intelligent management system of claim 1, wherein: the intelligent sensing unit (6) comprises a temperature sensing module (61), a humidity sensing module (62), a smoke sensing module (63) and a warning module (64).

6. The warehouse-based intelligent management system of claim 1, wherein: the data storage unit (7) comprises a database (71), the database (71) is in bidirectional connection with the safety protection module (72), and the output end of the database (71) is electrically connected with the input end of the backup module (73).

7. The warehouse-based intelligent management system of claim 6, wherein: the output end of the backup module (73) is electrically connected with the input end of the cloud server (74), the output end of the cloud server (74) is electrically connected with the input end of the encryption module (75), and the encryption module (75) is connected with the database (71) in a two-way mode.

8. The warehouse-based intelligent management system of claim 6, wherein: the database (71) is bidirectionally connected to a data management unit (76), the data management unit (76) comprising an entry module (761), a classification module (762) and a deletion module (763).

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