CN117853019A - Material management system and method suitable for extreme environment - Google Patents

Abstract

The invention discloses a material management system and a material management method suitable for extreme environments, wherein the system comprises a server module, a material warehouse-out management device arranged at an outlet of a material warehouse, a material warehouse-in management device arranged at an inlet of the material warehouse and a handheld mobile terminal; each material passing in and out of the material warehouse is provided with an RFID label; and the material ex-warehouse management device, the material warehouse management device and the handheld mobile terminal are all connected with the server module. The invention can ensure the confidentiality of material management, is suitable for extreme environments, and can effectively ensure that the actual in-out information is consistent with the in-out information in the list in the in-out process.

Description

Material management system and method suitable for extreme environment

Technical Field

The present invention relates to material management, and more particularly, to a material management system and method suitable for extreme environments.

Background

For a material management system that requires complete secrecy and that operates in a harsh environment, communications are required to remain secret. However, in the present day, for a large-capacity material warehouse, the communication mode of the equipment in the system is often a wireless communication mode when the material management is performed, so that the information of entering and exiting the warehouse is easily intercepted; meanwhile, the system is possibly influenced by extreme environments, such as wireless communication and the like, due to the fact that signals are too bad, information can not be normally recorded, and the efficiency of material warehouse entry and exit registration is seriously influenced. Meanwhile, when the user goes in and goes out of the warehouse, the user cannot ensure that the actual warehouse in and out is consistent with the warehouse in and out requirements required in the list.

Disclosure of Invention

The invention aims to overcome the defects of the prior art, and provides a material management system and method suitable for extreme environments, which can ensure the confidentiality of material management, is suitable for the extreme environments, and can effectively ensure that the actual warehouse-in and warehouse-out requirements in a warehouse-in and warehouse-out process are consistent with the warehouse-out requirements required in a list.

The aim of the invention is realized by the following technical scheme: the material management system suitable for the extreme environment comprises a server module, a material warehouse-out management device arranged at an outlet of a material warehouse, a material warehouse-in management device arranged at an inlet of the material warehouse and a handheld mobile terminal; each material passing in and out of the material warehouse is provided with an RFID label and a two-dimensional code label; the material warehouse-out management device, the material warehouse-in management device and the handheld mobile terminal are all connected with the server module;

the material warehouse management device is used for scanning the material RFID entering the material warehouse, counting the material information entering the material warehouse and transmitting the material information to the server module;

the material warehouse management device is used for scanning the material RFID leaving the material warehouse, counting the material information leaving the material warehouse and transmitting the material information to the server module;

the handheld mobile terminal is used for providing an information printing function, scanning a two-dimensional code label on the material to count warehouse-in and warehouse-out information, transmitting the obtained information to the server module, wherein the scanning is used as a standby of RFID, and is used for checking the warehouse-in and warehouse-out material when the RFID scene is unsuitable for being adopted so as to replace the functions of the material warehouse-in management device and the material warehouse-out management device;

the server module is used for inputting a material list needing to enter the material warehouse or a material list needing to be delivered from the material warehouse, and comparing the material list needing to enter the material warehouse with material information counted by the material warehouse management device when the material is put in, so as to prevent the omission of the put-in material; when the materials are delivered, the materials list which is required to be delivered from the materials warehouse is compared with the materials information counted by the materials delivery management device, so that the materials outside the list are prevented from being delivered.

A material management method suitable for extreme environment comprises a material warehouse-in management step and a material warehouse-out management step;

the material warehouse entry management step comprises the following steps:

a1, entering a material list needing to enter a material warehouse through a server module by a warehouse-in personnel, and then starting material warehouse-in;

a2, a material warehouse management device arranged at an entrance of a material warehouse in the warehouse-in process scans and stores the warehouse-in material information in real time;

a3, after the warehousing is completed, the material warehousing management device transmits the material information scanned in the warehousing process to the server module;

a4, the server module compares the material list needing to enter the material warehouse with the material information counted by the material warehouse management device, and judges whether a warehouse deviation exists or not;

if the warehouse-in deviation exists, displaying the material information with the deviation for the staff to check, and then entering into the step A5;

if the warehouse-in deviation is not found, directly entering the step A5;

a5, the server module updates the material information stored in the material warehouse by using a material list needing to enter the material warehouse, and feeds back the warehousing ending information to the material warehousing management device, and the material warehousing information management device empties the stored information;

the material ex-warehouse management step comprises the following steps:

b1, a person going out of the warehouse inputs a material list needing to go out of the warehouse through a server module, and then starts to go out of the warehouse;

b2, a material warehouse-out management device arranged at the outlet of the material warehouse in the warehouse-out process scans and stores the material information of the warehouse-out in real time;

after the delivery is completed, the material delivery management device transmits the material information scanned in the delivery process to the server module;

b4, the server module compares the material list needing to be delivered from the material warehouse with the material information counted by the material delivery management device, and judges whether deviation exists or not;

if the deviation exists, displaying the warehouse-out material information with the deviation for the staff to check, and then entering a step B5;

if no deviation exists, directly entering the step B5;

and B5, the server module updates the material information stored in the material warehouse by using a material list which needs to be delivered from the material warehouse, feeds back delivery ending information to the material delivery management device, and empties the stored information.

The beneficial effects of the invention are as follows: the invention adopts the notebook computer as the server, can realize the miniaturization of the whole management system, can ensure the confidentiality of material management in a wired communication mode, can not be influenced by a wireless communication environment, is suitable for an extreme environment, and can effectively ensure that the actual warehouse-in and warehouse-out requirements in a warehouse-in and warehouse-out process are consistent with the warehouse-in and warehouse-out requirements required in a list.

Drawings

Fig. 1 is a schematic diagram of the present invention.

Detailed Description

The technical solution of the present invention will be described in further detail with reference to the accompanying drawings, but the scope of the present invention is not limited to the following description.

As shown in fig. 1, a material management system suitable for extreme environments comprises a server module, a material warehouse-out management device arranged at an outlet of a material warehouse, a material warehouse-in management device arranged at an inlet of the material warehouse and a handheld mobile terminal; each material passing in and out of the material warehouse is provided with an RFID label and a two-dimensional code label; the material warehouse-out management device, the material warehouse-in management device and the handheld mobile terminal are all connected with the server module;

the material warehouse management device is used for scanning the material RFID entering the material warehouse, counting the material information entering the material warehouse and transmitting the material information to the server module;

the material warehouse management device is used for scanning the material RFID leaving the material warehouse, counting the material information leaving the material warehouse and transmitting the material information to the server module;

the handheld mobile terminal is used for providing information printing functions, such as warehouse-in and warehouse-out bill printing, two-dimensional code label printing required by new materials and the like, scanning the two-dimensional code labels on the materials to count warehouse-in and warehouse-out information, transmitting the obtained information to the server module, wherein the scanning is used as a standby of RFID, and is used for counting warehouse-in and warehouse-out materials when RFID scenes are unsuitable for being adopted so as to replace the functions of a material warehouse-in management device and a material warehouse-out management device;

in the embodiment of the application, the RFID or mobile terminal is allowed to be used for scanning 2 modes, so that the actual data collection of the materials in and out of the warehouse is carried out. When the RFID scene is not suitable for being adopted (such as field material delivery or material delivery without a material warehouse-in management device and a material warehouse-out management device), the mobile terminal can scan the two-dimensional code on the material, rapidly and accurately identify the material and assist in counting the number.

The server module is used for inputting a material list needing to enter the material warehouse or a material list needing to be delivered from the material warehouse, and comparing the material list needing to enter the material warehouse with material information counted by the material warehouse management device when the material is put in, so as to prevent the omission of the put-in material; when the materials are delivered, the materials list which is required to be delivered from the materials warehouse is compared with the materials information counted by the materials delivery management device, so that the materials outside the list are prevented from being delivered.

In the embodiment of the application, the material information includes the type, delivery date and number of the material, and the RFID tag of each material stores the material information of the material. The goods and materials list that need to get into goods and materials warehouse includes: material information of each material needing to enter the material warehouse;

the goods and materials list that need to go out of stock from goods and materials warehouse: the material information of each material that is discharged from the material warehouse is required.

In an embodiment of the application, the material warehousing management device comprises a first RFID reader, a warehousing processor, a first memory and a warehousing communication unit;

the first RFID reader scans RFID tags of materials entering the material warehouse and transmits the scanned material information to the warehouse-in processor;

and the warehousing processor stores the received information in the first memory, and after the warehousing of the materials is completed, the material information stored in the first memory is transmitted to the server module through the warehousing communication unit.

In an embodiment of the present application, the material shipment management device includes a second RFID reader, a shipment processor, a second memory, and a shipment communication unit;

the second RFID reader scans RFID tags of materials leaving the material warehouse and transmits the scanned material information to the library processor;

and the ex-warehouse processor stores the received information in a second memory, and after the delivery of the materials is completed, the materials information stored in the second memory is transmitted to the server module through an ex-warehouse communication unit.

In an embodiment of the present application, the server module includes:

the background communication unit is used for establishing communication with the material warehouse-out management device, the material warehouse-in management device and the handheld mobile terminal;

the material information storage unit is used for storing the material information stored in the material warehouse;

the warehouse-in information comparison unit is used for comparing a material list needing to enter a material warehouse with material information counted by the material warehouse-in management device when the material is warehoused, and judging whether the warehouse-in has deviation; if no deviation occurs, transmitting a material list which needs to enter a material warehouse to a material information updating unit; if deviation occurs, the deviation material information is sent to a display unit;

the warehouse-out information comparison unit is used for comparing a material list which needs to be subjected to warehouse-out from a material warehouse with material information counted by the material warehouse-out management device when the material is subjected to warehouse-out, judging whether deviation exists or not, and if so, sending the material information with the deviation to the display unit; if not, transmitting a material list which needs to be delivered from a material warehouse to a material information updating unit;

the display unit is used for displaying missing material information in the material warehousing process and material information of the delivered materials outside the material delivery process list;

the material information updating unit is used for updating the material information in the material information storage unit according to the material information from the warehouse-in information comparison unit or the warehouse-out information comparison unit.

In the embodiment of the application, the handheld mobile terminal comprises a two-dimensional code scanner, a terminal processor, a printer and a terminal communication unit, wherein the two-dimensional code scanner is connected with the terminal processor, the terminal processor is connected with the server module through the terminal communication unit, and the terminal processor is further connected with the printer.

The server module is realized by adopting a notebook computer, and the ex-warehouse communication unit and the warehouse-in communication unit all adopt USB interfaces;

the communication unit of the server module is realized by utilizing a USB interface of the notebook computer, and the ex-warehouse communication unit and the in-warehouse communication unit are respectively connected with the USB interface of the notebook computer through USB transmission lines; the terminal communication unit adopts a Type-C interface, is directly connected with a USB port of the notebook computer through the Type-C interface, and is set to be a shared network in a connection mode.

A material management method suitable for extreme environment comprises a material warehouse-in management step and a material warehouse-out management step;

the material warehouse entry management step comprises the following steps:

a1, entering a material list needing to enter a material warehouse through a server module by a warehouse-in personnel, and then starting material warehouse-in;

a2, a material warehouse management device arranged at an entrance of a material warehouse in the warehouse-in process scans and stores the warehouse-in material information in real time;

a3, after the warehousing is completed, the material warehousing management device transmits the material information scanned in the warehousing process to the server module;

a4, the server module compares the material list needing to enter the material warehouse with the material information counted by the material warehouse management device, and judges whether a warehouse deviation exists or not;

if the warehouse-in deviation exists, displaying the material information with the deviation for the staff to check, and then entering into the step A5;

if the warehouse-in deviation is not found, directly entering the step A5;

a5, the server module updates the material information stored in the material warehouse by using a material list needing to enter the material warehouse, and feeds back the warehousing ending information to the material warehousing management device, and the material warehousing information management device empties the stored information;

the material ex-warehouse management step comprises the following steps:

b1, a person going out of the warehouse inputs a material list needing to go out of the warehouse through a server module, and then starts to go out of the warehouse;

b2, a material warehouse-out management device arranged at the outlet of the material warehouse in the warehouse-out process scans and stores the material information of the warehouse-out in real time;

after the delivery is completed, the material delivery management device transmits the material information scanned in the delivery process to the server module;

b4, the server module compares the material list needing to be delivered from the material warehouse with the material information counted by the material delivery management device, and judges whether deviation exists or not;

if the deviation exists, displaying the warehouse-out material information with the deviation for the staff to check, and then entering a step B5;

if no deviation exists, directly entering the step B5;

and B5, the server module updates the material information stored in the material warehouse by using a material list which needs to be delivered from the material warehouse, feeds back delivery ending information to the material delivery management device, and empties the stored information.

The foregoing is a preferred embodiment of the invention, and it is to be understood that the invention is not limited to the form disclosed herein, but is not to be construed as limited to other embodiments, but is capable of other combinations, modifications and environments and is capable of changes or modifications within the scope of the inventive concept, either as a result of the foregoing teachings or as a result of the knowledge or knowledge of the relevant art. And that modifications and variations which do not depart from the spirit and scope of the invention are intended to be within the scope of the appended claims.

Claims (9)

1. A material management system adapted for use in an extreme environment, characterized by: the system comprises a server module, a material warehouse-out management device arranged at an outlet of a material warehouse, a material warehouse-in management device arranged at an inlet of the material warehouse and a handheld mobile terminal; each material passing in and out of the material warehouse is provided with an RFID label and a two-dimensional code label; the material warehouse-out management device, the material warehouse-in management device and the handheld mobile terminal are all connected with the server module;

the material warehouse management device is used for scanning the material RFID entering the material warehouse, counting the material information entering the material warehouse and transmitting the material information to the server module;

the material warehouse management device is used for scanning the material RFID leaving the material warehouse, counting the material information leaving the material warehouse and transmitting the material information to the server module;

the handheld mobile terminal is used for providing an information printing function, scanning a two-dimensional code label on the material to count warehouse-in and warehouse-out information, transmitting the obtained information to the server module, wherein the scanning is used as a standby of RFID, and is used for checking the warehouse-in and warehouse-out material when the RFID scene is unsuitable for being adopted so as to replace the functions of the material warehouse-in management device and the material warehouse-out management device;

the server module is used for inputting a material list needing to enter the material warehouse or a material list needing to be delivered from the material warehouse, and comparing the material list needing to enter the material warehouse with material information counted by the material warehouse management device when the material is put in, so as to prevent the omission of the put-in material; when the materials are delivered, the materials list which is required to be delivered from the materials warehouse is compared with the materials information counted by the materials delivery management device, so that the materials outside the list are prevented from being delivered.

2. A material management system adapted for use in an extreme environment as defined in claim 1, wherein: the material information comprises the types, delivery dates and numbers of the materials, and the RFID tag and the two-dimensional code tag of each material are stored with the material information of the material.

3. A material management system adapted for use in an extreme environment as defined in claim 1, wherein: the goods and materials list that need to get into goods and materials warehouse includes: material information of each material needing to enter the material warehouse;

the goods and materials list that need to go out of stock from goods and materials warehouse: the material information of each material that is discharged from the material warehouse is required.

4. A material management system adapted for use in an extreme environment as defined in claim 1, wherein: the material warehousing management device comprises a first RFID reader, a warehousing processor, a first memory and a warehousing communication unit;

the first RFID reader scans RFID tags of materials entering the material warehouse and transmits the scanned material information to the warehouse-in processor;

and the warehousing processor stores the received information in the first memory, and after the warehousing of the materials is completed, the material information stored in the first memory is transmitted to the server module through the warehousing communication unit.

5. A material management system adapted for use in an extreme environment as defined in claim 1, wherein: the material ex-warehouse management device comprises a second RFID reader, an ex-warehouse processor, a second memory and an ex-warehouse communication unit;

the second RFID reader scans RFID tags of materials leaving the material warehouse and transmits the scanned material information to the library processor;

and the ex-warehouse processor stores the received information in a second memory, and after the delivery of the materials is completed, the materials information stored in the second memory is transmitted to the server module through an ex-warehouse communication unit.

6. A material management system adapted for use in an extreme environment as defined in claim 1, wherein: the server module includes:

the background communication unit is used for establishing communication with the material warehouse-out management device, the material warehouse-in management device and the handheld mobile terminal;

the material information storage unit is used for storing the material information stored in the material warehouse;

the material list input unit is used for inputting a material list needing to enter the material warehouse or a material list needing to be delivered from the material warehouse;

the warehouse-in information comparison unit is used for comparing a material list needing to enter a material warehouse with material information counted by the material warehouse-in management device when the material is warehoused, and judging whether the warehouse-in has deviation; if no deviation occurs, transmitting a material list which needs to enter a material warehouse to a material information updating unit; if deviation occurs, the deviation material information is sent to a display unit;

the warehouse-out information comparison unit is used for comparing a material list which needs to be subjected to warehouse-out from a material warehouse with material information counted by the material warehouse-out management device when the material is subjected to warehouse-out, judging whether deviation exists or not, and if so, sending the material information with the deviation to the display unit; if not, transmitting a material list which needs to be delivered from a material warehouse to a material information updating unit;

the display unit is used for displaying missing material information in the material warehousing process and material information of the delivered materials outside the material delivery process list;

the material information updating unit is used for updating the material information in the material information storage unit according to the material information from the warehouse-in information comparison unit or the warehouse-out information comparison unit.

7. A material management system adapted for use in an extreme environment as defined in claim 1, wherein: the handheld mobile terminal comprises a two-dimension code scanner, a terminal processor, a printer and a terminal communication unit, wherein the two-dimension code scanner is connected with the terminal processor, the terminal processor is connected with the server module through the terminal communication unit, and the terminal processor is further connected with the printer.

8. A material management system adapted for use in an extreme environment as defined in claim 7, wherein: the server module is realized by adopting a notebook computer, and the ex-warehouse communication unit and the warehouse-in communication unit all adopt USB interfaces;

the communication unit of the server module is realized by utilizing a USB interface of the notebook computer, and the ex-warehouse communication unit and the in-warehouse communication unit are respectively connected with the USB interface of the notebook computer through USB transmission lines; the terminal communication unit adopts a Type-C interface, is directly connected with a USB port of the notebook computer through the Type-C interface, and is set to be a shared network in a connection mode.

9. A material management method suitable for extreme environments based on the system of any one of claims 1-8, characterized in that: the method comprises a material warehouse-in management step and a material warehouse-out management step;

the material warehouse entry management step comprises the following steps:

a1, entering a material list needing to enter a material warehouse through a server module by a warehouse-in personnel, and then starting material warehouse-in;

a2, a material warehouse management device arranged at an entrance of a material warehouse in the warehouse-in process scans and stores the warehouse-in material information in real time;

a3, after the warehousing is completed, the material warehousing management device transmits the material information scanned in the warehousing process to the server module;

a4, the server module compares the material list needing to enter the material warehouse with the material information counted by the material warehouse management device, and judges whether a warehouse deviation exists or not;

if the warehouse-in deviation exists, displaying the material information with the deviation for the staff to check, and then entering into the step A5;

if the warehouse-in deviation is not found, directly entering the step A5;

a5, the server module updates the material information stored in the material warehouse by using a material list needing to enter the material warehouse, and feeds back the warehousing ending information to the material warehousing management device, and the material warehousing information management device empties the stored information;

the material ex-warehouse management step comprises the following steps:

b1, a person going out of the warehouse inputs a material list needing to go out of the warehouse through a server module, and then starts to go out of the warehouse;

b2, a material warehouse-out management device arranged at the outlet of the material warehouse in the warehouse-out process scans and stores the material information of the warehouse-out in real time;

after the delivery is completed, the material delivery management device transmits the material information scanned in the delivery process to the server module;

b4, the server module compares the material list needing to be delivered from the material warehouse with the material information counted by the material delivery management device, and judges whether deviation exists or not;

if the deviation exists, displaying the warehouse-out material information with the deviation for the staff to check, and then entering a step B5;

if no deviation exists, directly entering the step B5;

and B5, the server module updates the material information stored in the material warehouse by using a material list which needs to be delivered from the material warehouse, feeds back delivery ending information to the material delivery management device, and empties the stored information.