CN112215542A - Intelligent storehouse management system - Google Patents

Abstract

The invention discloses an intelligent storehouse management system, which comprises: the warehouse entry and exit identification module is used for reading the electronic tags of the tool device through card readers respectively arranged in the warehouse and outside the warehouse and acquiring the warehouse entry and exit operation type and the identification time of the tool device; the receiving management module is used for receiving a receiving request of the tool device, generating a receiving task list according to receiving materials, and auditing and identifying the receiving task list; and the tool management module is used for managing the in-out information of the tool, collecting environmental parameters according to the storage rule, monitoring the storage state of the tool in the warehouse and managing the maintenance state of the tool according to the overhaul rule. The invention realizes the non-inductive intelligent warehousing of the tool, improves the warehousing efficiency, manages the whole life cycle of the tool, saves the manpower and material resources, provides the safety guarantee for the tool through the management of the maintenance state, and effectively avoids the occurrence of wrong collar and missed collar of the tool.

Description

Intelligent storehouse management system

Technical Field

The invention relates to management of storeroom articles, in particular to an intelligent storeroom management system.

Background

In the warehouse management of the existing safety tools, the input and output, the inspection, the scrapping and the like of the tools are counted by hands. A large number of different tools are needed to be matched in the work of the power system, and the manual management is easy to cause disorder, mistakes and omissions; and the safety tool and the production safety are closely related, the power management usually has specific regulations and requirements on the safety tool, such as storage in a designated position and environment, regular inspection, due scrapping and the like, and the manual management needs a lot of time and energy.

Disclosure of Invention

The present invention is directed to solving at least one of the problems of the prior art. Therefore, the invention provides an intelligent storehouse management system which can realize the intelligent management of a storehouse of a safety tool, improve the management efficiency and save manpower and material resources.

The intelligent storehouse management system according to the embodiment of the first aspect of the invention comprises: the warehouse entry and exit identification module is used for reading an electronic tag arranged on a tool device through at least one card reader arranged in the warehouse and at least one card reader arranged outside the warehouse, and acquiring the warehouse entry and exit operation type and the identification time of the tool device; the receiving management module is used for receiving a receiving request of the tool device, generating a receiving task list according to receiving materials, and auditing and identifying the receiving task list; and the tool management module is used for managing the in-out information of the tool, collecting environmental parameters according to the storage rule, monitoring the storage state of the tool in the warehouse and managing the maintenance state of the tool according to the overhaul rule.

The intelligent storehouse management system provided by the embodiment of the invention at least has the following beneficial effects: the non-inductive intelligent warehousing of the tool device is realized through the warehousing and ex-warehousing identification module, and the warehousing efficiency is improved; the storage state of the tools in the warehouse is monitored through environmental parameters, the maintenance state of the tools is managed, basic data are provided for the management of the whole life cycle of the tools, the tools are overhauled on time, manpower and material resources are saved, and safety guarantee is provided for the use of personnel to be accepted; the collar of the tool device is audited and controlled through the collar management module, the collar is supported to be carried out according to a set task, and the occurrence of wrong collar and collar leakage can be effectively avoided.

According to some embodiments of the invention, the entry-exit identification module comprises: the synchronous control module is used for controlling the card reader to carry out time synchronization so that the time of the card reader is consistent; and the direction analysis module is used for receiving the RFID identification information returned by the continuous card reading of the card reader, sequencing the RFID identification information based on time stamps and signal strength, judging the position moving direction of the tool, acquiring the warehouse-in and warehouse-out direction of the tool, obtaining the warehouse-in and warehouse-out operation type and generating warehouse-in and warehouse-out records.

According to some embodiments of the invention, the in-out library identification module further comprises: the operation confirmation module is used for acquiring the in-warehouse state and the state updating time of the tool, and acquiring the in-warehouse and out-warehouse operation type of the tool according to the in-warehouse and out-warehouse direction and the in-warehouse state if the difference value between the identification time and the state updating time is in a first code scanning period; and the offset processing module is used for performing offset processing if the same tool is detected to have two position movements in a second code scanning period and the warehouse-in and warehouse-out directions are respectively the warehouse-out direction and the warehouse-in direction, and the warehouse-in and warehouse-out record is not generated.

According to some embodiments of the invention, the adoption management module comprises: the receiving task generating module is used for acquiring the material number of the tool device to be received according to the receiving request and generating a receiving task list according to the material number, wherein the receiving task list comprises requester information and receiving task use; the receiving task auditing module is used for starting an auditing process of the receiving task list based on the material serial number, auditing the tool ware in the receiving task list according to the purpose of the receiving task and generating a corresponding task identification code; and the receiving task identification module is used for generating a receiving toolware list according to the material number, receiving the corresponding toolware from the warehouse through the toolware list, and storing a toolware receiving record based on the task identification code.

According to some embodiments of the invention, the adoption management module further comprises: and the receiver identification module is used for being connected with an access control system of the storehouse, acquiring receiver identity information through access control identification information, and verifying the receiver identity information based on the task identification code.

According to some embodiments of the invention, the tool management module comprises: the warehousing distribution module is used for acquiring a target warehouse location of the tool according to the storage rule, unlocking the target warehouse location, conveying the tool to the target warehouse location through a conveying device or a grabbing device, storing the tool and then locking the target warehouse location; and the ex-warehouse extraction module is used for acquiring the target warehouse position of the tool according to the tool identification number, unlocking the target warehouse position, and taking out the tool through a conveying device or a grabbing device.

According to some embodiments of the invention, the tool management module further comprises: the environment monitoring module is used for monitoring the environment parameters of the storage position of the tool according to the storage rule and carrying out alarm processing according to the environment parameters; and the maintenance monitoring module is used for obtaining the maintenance period of the tool through the maintenance rule, acquiring the pre-maintenance time of the tool, and locking and alarming the tool according to the pre-maintenance time.

According to some embodiments of the invention, the service monitoring module further comprises: and the maintenance task generating module is used for generating a corresponding maintenance task list of the tool device according to the pre-maintenance time and distributing the maintenance task list.

According to some embodiments of the invention, the tool management module further comprises: the material management module is used for managing the tool device according to the material number and displaying the in-store state, the maintenance state and the locking state of the tool device according to the material type through an interactive interface; and the scrapping monitoring module is used for obtaining the scrapping period of the tool through the maintenance rule, obtaining the waste forecasting time of the tool, locking the tool according to the waste forecasting time and giving an alarm.

According to some embodiments of the invention, further comprising: the first data storage module is used for storing product information, storage rules, overhaul rules, warehouse entry and exit information and warehouse storage information of the tool device; and the second data storage module is used for storing personnel information of a leading person, a maintainer and a management responsible person of the tool device in the warehouse.

Additional aspects and advantages of the invention will be set forth in part in the description which follows and, in part, will be obvious from the description, or may be learned by practice of the invention.

Drawings

The above and/or additional aspects and advantages of the present invention will become apparent and readily appreciated from the following description of the embodiments, taken in conjunction with the accompanying drawings of which:

FIG. 1 is a block schematic diagram of modules of a system of an embodiment of the invention;

FIG. 2 is a diagram of an outbound analysis of a direction analysis module in the system according to an embodiment of the present invention;

FIG. 3 is a schematic diagram illustrating a tool availability flow of an availability management module in the system according to an embodiment of the present invention;

FIG. 4 is a detailed block diagram of modules of the system of an embodiment of the present invention.

Reference numerals:

the system comprises a warehousing identification module 100, a receiving management module 200 and a tool management module 300;

a synchronization control module 110, a direction analysis module 120, an operation confirmation module 130, and an offset processing module 140;

a reception task generating module 210, a reception task auditing module 220, a reception task identifying module 230, and a receiver identifying module 240;

the system comprises a warehousing distribution module 310, a warehousing extraction module 320, a material management module 330, an environment monitoring module 340, a maintenance monitoring module 350 and a scrapping monitoring module 360;

a first data storage module 400, a second data storage module 500.

Detailed Description

Reference will now be made in detail to embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like or similar reference numerals refer to the same or similar elements or elements having the same or similar function throughout. The embodiments described below with reference to the accompanying drawings are illustrative only for the purpose of explaining the present invention, and are not to be construed as limiting the present invention.

In the description of the present invention, the meaning of a plurality of means is one or more, the meaning of a plurality of means is two or more, and more than, less than, more than, etc. are understood as excluding the present number, and more than, less than, etc. are understood as including the present number. If the first and second are described for the purpose of distinguishing technical features, they are not to be understood as indicating or implying relative importance or implicitly indicating the number of technical features indicated or implicitly indicating the precedence of the technical features indicated.

Referring to fig. 1, a method of an embodiment of the present invention includes: the warehouse entry and exit identification module 100 is used for reading the electronic tags of the tool devices through at least one card reader arranged in the warehouse and at least one card reader arranged outside the warehouse respectively to acquire the warehouse entry and exit operation types and the identification time of the tool devices; the receiving management module 200 is used for receiving a receiving request of the tool device, generating a receiving task list according to the receiving materials, and auditing and identifying the receiving task list; the tool management module 300 is configured to manage warehouse entry and exit information of the tool, collect environmental parameters according to storage rules, monitor a storage state of the tool in the warehouse, and manage a maintenance state of the tool according to maintenance rules.

In the embodiment of the invention, for a toolware, when the information is input, the input of the content of the person comprises the following steps: the method comprises the steps of obtaining the identification code and the material code of a tool according to product information (such as name, type, application, production date, manufacturer and the like), maintenance rules (maintenance period, scrapping period and the like) and storage rules (stored according to the type or size in a fixed position or certain environmental parameters such as temperature, humidity and the like) of the tool, searching whether the identification code exists in a database, and if so, giving an alarm and generating a new identification code. When the tool information is input in batch, whether repeated identification codes exist in the batch data is also detected. And after the identification code is obtained, the identification code and the material code are respectively pasted on the tool.

Referring to fig. 4, the warehouse entry/exit identification module 100 according to the embodiment of the present invention includes: a synchronization control module 110 and a direction analysis module 120. The synchronous control module 110 is configured to control the card reader to perform time synchronization, so that the time of the card reader is kept consistent, and the direction analysis module 120 is convenient to determine the position moving direction of the tool according to the timestamp and the signal strength. All card readers finish synchronous time and continuously read cards, RFID identification information including label information, timestamps, card reader identification numbers, signal strength and the like is acquired in each identification, wherein the label information is bound with the tool devices one by one, each tool device has a unique identification number, and the identification number can be arranged on the tool devices through electronic tags. The direction analysis module 120 receives the RFID identification information returned by all the card readers, determines the position moving direction of the tool according to the timestamp and the signal strength, obtains the direction of the tool entering and exiting the warehouse, obtains the operation type of the tool entering and exiting the warehouse, and generates an entry and exit record.

The direction analysis module 120 determines the direction of the tool's position movement as follows. The identification area of the card reader, referring to the dashed circle area of fig. 2, may be partially overlapped, obviously, the closer to the edge of the circle area, the weaker the identification signal intensity; the label information comprises article information such as article numbers and article names, the timestamp is a card reading time point, the card reader identification number represents the number of a card reader executing card reading and code scanning, and the signal intensity represents the signal intensity obtained during card reading identification. Suppose that an article moves from point a to point C through point B, i.e., the direction of warehouse entry and warehouse exit is warehouse exit. The card reader 1 reads the card for a plurality of times from the point A to the point B of the article, the RFID identification information of the card reader 1 is sequenced based on the time stamp, and the signal intensity is weakened from strong to weak. When the article enters a point B, the card reader 2 acquires an RFID identification signal at the same time, and then the signal is changed from weak to strong; therefore, the article moves from the position of the card reader 1 to the position of the card reader 2 as is clear from the time stamp and the change in the signal intensity. When the article moves from the point B to the point C, the card reading signal of the card reader 2 is firstly strengthened and then weakened, and the card reading signal of the card reader 3 is weakened or weakened from absent to present. Therefore, the position of the card reader is obtained according to the identification number of the card reader, and the position moving direction of the article can be obtained according to the signal intensity change type and the time stamp, so that the warehousing and ex-warehouse directions can be obtained. In the embodiment of the invention, obviously, only one card reader is respectively arranged inside and outside the storeroom, and the identification areas of the 2 card readers are not overlapped, so that the position moving direction of the article can be obtained according to the signal intensity change type and the time stamp. Referring to fig. 2, without the reader 2, the article still moves from point a through point B to point C. The signal of the card reader 1 is weakened from strong to weak along with time, and after a certain time interval, the card reader 2 identifies the signal of the article, and the signal is weakened to strong; according to the change of the signal, the article gradually leaves the identification area of the card reader 1 and then enters the identification area of the card reader 2, and the direction of the article entering and exiting the warehouse is known as the warehouse-out direction according to the positions of the card readers 1 and 2. It should be understood that in the embodiment of the present invention, at least one card reader is arranged in the warehouse, and at least one card reader is arranged outside the warehouse; the reasonable arrangement of the card reader can effectively improve the coverage area, improve the identification correctness and prevent false alarm.

In order to reduce the false alarm rate, the in-out recognition module 100 according to an embodiment of the present invention, referring to fig. 4, includes: an operation confirmation module 130 and an offset processing module 140. If the direction analysis module 120 detects that the same article has two position movements through the card reader in the same second code scanning period, and the warehousing-in and warehousing-out directions are respectively the warehousing-out direction and the warehousing-in direction, the offset processing module 140 performs offset processing without generating warehousing-in and warehousing-out records. The operation confirmation module 130 is configured to obtain the in-warehouse state and the state updating time of the tool, and if the difference between the identification time and the state updating time is within the first scanning period, obtain the in-warehouse and out-warehouse operation type of the tool according to the in-warehouse and out-warehouse direction and the in-warehouse state. In a first code scanning period, if the direction of the first article entering and exiting the warehouse is identified as the direction of the warehouse-out through the card reader, and the warehouse-in state of the article is inquired as the warehouse-in state, confirming that the operation of entering and exiting the warehouse is the operation of warehouse-out; and if the direction of the first article entering and exiting the warehouse is identified as the direction of entering and exiting the warehouse through the card reader, and the condition that the article is in the warehouse state and is out of the warehouse is verified, the operation of entering and exiting the warehouse is confirmed as the operation of exiting the warehouse. It should be understood that, in the embodiment of the present invention, the first code scanning period may be the same as or different from the second code scanning period.

In the embodiment of the present invention, the tool is used by the use management module 200. Referring to fig. 4, the adoption management module 200 includes: a reception task generating module 210, a reception task auditing module 220, and a reception task identifying module 230. The receiving task generating module 210 is configured to obtain a material number of a receiving tool according to the receiving request, and generate a receiving task list according to the material number, where the receiving task list includes information such as a receiving tool type (usually, the material number and corresponding description), a receiving number, a first receiving time, requester information, and a receiving task purpose. The requisition task auditing module 220 is used for starting an auditing process of the requisition task list based on the material number and sending auditing information to a responsible person corresponding to the material; and performing preliminary examination on the tool in the reception task list according to the purpose of the reception task, further confirming by a responsible person, and generating a corresponding task identification code if the examination is passed. And the receiving task identification module 230 is used for generating a receiving toolware list according to the material number, receiving the corresponding toolware from the warehouse through the toolware list, and storing a toolware receiving record based on the task identification code. In some embodiments of the present invention, referring to fig. 4, the adoption management module 200 further comprises: and the receiver identification module 240 is used for being connected with an access control system of the storehouse, acquiring the identity information of a receiver through access control identification information, and verifying the identity information of the receiver based on the task identification code. The module can prevent others from falsifying the tool with the task identification code.

Referring to fig. 3, a claiming applicant initiates a claiming application through a terminal, and the claiming content includes: the method comprises the steps that tool types, picking numbers, predicted picking time (namely first picking time), applicant information and picking purposes are adopted, a corresponding picking task list is generated according to the application content of picking applications and is sent to a corresponding material management responsible person for auditing; and after the verification is passed, sending the corresponding task identification code to the claiming requester. The method comprises the following steps that a claiming applicant enters an intelligent storehouse through a task identification code, and when the claiming applicant enters the intelligent storehouse, an intelligent storehouse system can acquire identity information of the claiming applicant through an access control system and acquire task content and applicant information through the identification task identification code; and obtaining an identity verification result by comparing the identity information acquired by the access control with the applicant information in the task identification code. And if the identity verification information does not pass, sending an alarm to inform warehouse management personnel to process. And if the identity authentication is passed, acquiring the material number through the task identification code, searching corresponding available tooltools in the warehouse according to the material number, and generating a receiving tooltool list, wherein the tooltool list comprises identification numbers of a plurality of target tooltools. And the intelligent storehouse locks the target tool according to the identification number and carries out warehouse-out processing on the target tool. After the claiming applicant takes out the target tool device and walks out of the warehouse, the intelligent warehouse system updates the in-warehouse state of the target tool device to be off-warehouse, and generates an operation record according to the task identification code, and the method comprises the following steps: tool ware material number, tool ware identification number list, second lead time (i.e. actual ex-warehouse time), applicant information, approver information, etc.

In an embodiment of the present invention, referring to FIG. 4, the tool manager management module 300 includes: the warehouse entry distribution module 310, the warehouse exit extraction module 320, the material management module 330, the environment monitoring module 340, the overhaul monitoring module 350 and the scrap monitoring module 360. The warehousing allocation module 310 generally performs corresponding operations when the warehousing identification module 100 detects that an article is warehoused; the tool storage method comprises the steps of obtaining storage rules of tools according to identification numbers or material numbers of tools stored in a warehouse, obtaining corresponding vacant or storage space positions in the warehouse according to the storage rules, unlocking the storage positions, locking the storage positions after the tools are placed through a conveying device or a grabbing device, updating the in-warehouse state of the tools to be in the warehouse and the available state to be unlocked in a database, and recording information such as storage positions, warehousing time, operators and the like. It should be understood that the storage rules of the tool are generally associated with its material classification (represented as a material number), and thus the storage rules are generally associated with the material number; however, the storage rule of the tool may vary from manufacturer to manufacturer, and in this case, the storage rule is associated with the identification number of the tool. The storage rules are defined by including: the size of the storage position, the position of the storage position area, the requirement of the storage position environment parameters and the like. For a tool device with a requirement on the storage position environmental parameter, the temperature and the humidity of the corresponding storage position can be obtained through a temperature sensor and a humidity sensor, and only when the temperature and the humidity meet the requirement, the storage position is selected by the storage allocation module 310 to be used as a target storage position of the tool device; and in the subsequent storage process, environmental parameters such as the temperature, the humidity and the like of the storage position are monitored through the environmental monitoring module 340, and when the environmental parameters exceed the required range, an alarm is sent to remind a manager to operate. The ex-warehouse extraction module 320 processes the tool to be ex-warehouse, typically after receiving the picking task and identifying the picking task. In some embodiments of the present invention, the warehouse-out extraction module 320 obtains the target warehouse location stored by the tool device according to the tool device identification number, unlocks the target warehouse location, and takes out the tool device and transports the tool device to the receiving opening through the transport device or the gripping device; in other embodiments of the present invention, the ex-warehouse extraction module 320 obtains the target warehouse location stored in the tool device according to the tool device identification number, unlocks the target warehouse location, notifies the claiming applicant to take the target warehouse location by himself, and the claiming applicant locks the target warehouse location or locks the target warehouse location by himself after a set time.

The tool management module 300 of the embodiment of the present invention also monitors the tools in the library, including: an environment monitoring module 340, a maintenance monitoring module 350, and a scrap monitoring module 360. And the environment monitoring module 340 is configured to monitor an environment parameter of a library location where the tool device is located according to the storage rule, and send out alarm information if it is monitored that the environment parameter does not meet the storage rule. The maintenance monitoring module 350 obtains the maintenance cycle of the tool according to the maintenance rule, obtains the pre-inspection date through the last inspection time (for a new tool, the initial value of the last inspection date may be the production date or the purchase date), and marks the available state of the tool as locked and the processing state as to-be-inspected if the difference between the pre-inspection date and the current time is less than the first preset interval (for example, 3 days). The tool is locked, indicating that the tool is unavailable. If the processing state of the tool is changed to be ready for inspection, an alarm message is sent, a sub-module inspection task generating module (not shown in fig. 4) of the inspection monitoring module 350 generates a corresponding inspection task list, and a manager is reminded to process and distribute the inspection task list to corresponding operators. And scanning the codes of the articles to be inspected out of the warehouse through the identification numbers, changing the processing state into maintenance, scanning the codes again for warehousing after the maintenance is finished, and automatically changing the processing state into the warehoused state. Similarly, the scrapping monitoring module 360 can obtain the scrapping period of the tool according to the overhaul rule, obtain a pre-scrapping date through the production date of the tool, and mark that the available state of the tool is locked and the processing state is to be scrapped if the difference between the forecast waste date and the current time is less than a second preset interval (for example, 1 day); at the moment, a corresponding alarm prompt is sent out, a scrapped task list is generated, and managers are reminded to process.

Referring to fig. 4, a material management module 400 in the embodiment of the present invention is configured to manage tools according to material numbers, and show an in-store state, a maintenance state, and a locking state of the tools according to material types through an interactive interface; the module can be checked by upper management personnel or a pilot applicant to know the material general view in the intelligent warehouse.

Referring to fig. 4, the system according to the embodiment of the present invention further includes: the first data storage module 500 is used for storing product information, storage rules, overhaul rules, in-out warehouse information and in-warehouse storage information of the tool device, and the management tool device generates corresponding data in the life cycle; and the second data storage module 600 is used for storing personnel information of the personnel for taking, overhauling and managing the warehouse tool machine. The reception management module 200 can obtain information of the material management responsible person from the first data storage module 500 according to the material number, send the approval process of the reception task list to the corresponding responsible person for processing, and check the current material condition through the material management module 400, so as to receive application and examine and verify. The maintenance monitoring module 350 can obtain the personnel information from the second data storage module 600, generate a maintenance list and a corresponding task identification code, and inform corresponding personnel to take out the tool to be inspected according to the task identification code for maintenance operation. Obviously, in the embodiment of the invention, the tool to be detected can be taken out by a person in charge or a inspector and is processed by a maintainer, and the tool can be picked up by the maintainer; and after the detection is finished, the tool re-identifies the tool to be put in a warehouse, the in-warehouse state is updated to be in the warehouse, the locking state is updated to be unlocked, and the detection time is recorded.

Although specific embodiments have been described herein, those of ordinary skill in the art will recognize that many other modifications or alternative embodiments are equally within the scope of this disclosure. For example, any of the functions and/or processing capabilities described in connection with a particular device or component may be performed by any other device or component. In addition, while various illustrative implementations and architectures have been described in accordance with embodiments of the present disclosure, those of ordinary skill in the art will recognize that many other modifications of the illustrative implementations and architectures described herein are also within the scope of the present disclosure.

Certain aspects of the present disclosure are described above with reference to block diagrams and flowchart illustrations of systems, methods, systems, and/or computer program products according to example embodiments. It will be understood that one or more blocks of the block diagrams and flowchart illustrations, and combinations of blocks in the block diagrams and flowchart illustrations, respectively, can be implemented by executing computer-executable program instructions. Also, according to some embodiments, some blocks of the block diagrams and flow diagrams may not necessarily be performed in the order shown, or may not necessarily be performed in their entirety. In addition, additional components and/or operations beyond those shown in the block diagrams and flow diagrams may be present in certain embodiments.

Accordingly, blocks of the block diagrams and flowchart illustrations support combinations of means for performing the specified functions, combinations of elements or steps for performing the specified functions and program instruction means for performing the specified functions. It will also be understood that each block of the block diagrams and flowchart illustrations, and combinations of blocks in the block diagrams and flowchart illustrations, can be implemented by special purpose hardware-based computer systems that perform the specified functions, elements or steps, or combinations of special purpose hardware and computer instructions.

Program modules, applications, etc. described herein may include one or more software components, including, for example, software objects, methods, data structures, etc. Each such software component may include computer-executable instructions that, in response to execution, cause at least a portion of the functionality described herein (e.g., one or more operations of the illustrative methods described herein) to be performed.

The software components may be encoded in any of a variety of programming languages. An illustrative programming language may be a low-level programming language, such as assembly language associated with a particular hardware architecture and/or operating system platform. Software components that include assembly language instructions may need to be converted by an assembler program into executable machine code prior to execution by a hardware architecture and/or platform. Another exemplary programming language may be a higher level programming language, which may be portable across a variety of architectures. Software components that include higher level programming languages may need to be converted to an intermediate representation by an interpreter or compiler before execution. Other examples of programming languages include, but are not limited to, a macro language, a shell or command language, a job control language, a scripting language, a database query or search language, or a report writing language. In one or more exemplary embodiments, a software component containing instructions of one of the above programming language examples may be executed directly by an operating system or other software component without first being converted to another form.

The software components may be stored as files or other data storage constructs. Software components of similar types or related functionality may be stored together, such as in a particular directory, folder, or library. Software components may be static (e.g., preset or fixed) or dynamic (e.g., created or modified at execution time).

The embodiments of the present invention have been described in detail with reference to the accompanying drawings, but the present invention is not limited to the above embodiments, and various changes can be made within the knowledge of those skilled in the art without departing from the gist of the present invention.

Claims (10)

1. An intelligent warehouse management system, comprising:

the warehouse entry and exit identification module is used for reading an electronic tag arranged on a tool device through at least one card reader arranged in the warehouse and at least one card reader arranged outside the warehouse, and acquiring the warehouse entry and exit operation type and the identification time of the tool device;

the receiving management module is used for receiving a receiving request of the tool device, generating a receiving task list according to receiving materials, and auditing and identifying the receiving task list;

and the tool management module is used for managing the in-out information of the tool, collecting environmental parameters according to the storage rule, monitoring the storage state of the tool in the warehouse and managing the maintenance state of the tool according to the overhaul rule.

2. The intelligent warehouse management system of claim 1, wherein the warehouse entry identification module comprises:

the synchronous control module is used for controlling the card reader to carry out time synchronization so that the time of the card reader is consistent;

and the direction analysis module is used for receiving the RFID identification information returned by the continuous card reading of the card reader, sequencing the RFID identification information based on time stamps and signal strength, judging the position moving direction of the tool, acquiring the warehouse-in and warehouse-out direction of the tool, obtaining the warehouse-in and warehouse-out operation type and generating warehouse-in and warehouse-out records.

3. The intelligent warehouse management system of claim 2 wherein the in-out identification module further comprises:

the operation confirmation module is used for acquiring the in-warehouse state and the state updating time of the tool, and acquiring the in-warehouse and out-warehouse operation type of the tool according to the in-warehouse and out-warehouse direction and the in-warehouse state if the difference value between the identification time and the state updating time is in a first code scanning period;

and the offset processing module is used for performing offset processing if the same tool is detected to have two position movements in a second code scanning period and the warehouse-in and warehouse-out directions are respectively the warehouse-out direction and the warehouse-in direction, and the warehouse-in and warehouse-out record is not generated.

4. The intelligent warehouse management system of claim 1, wherein the adoption management module comprises:

the receiving task generating module is used for acquiring the material number of the tool device to be received according to the receiving request and generating a receiving task list according to the material number, wherein the receiving task list comprises requester information and receiving task use;

the receiving task auditing module is used for starting an auditing process of the receiving task list based on the material serial number, auditing the tool ware in the receiving task list according to the purpose of the receiving task and generating a corresponding task identification code;

and the receiving task identification module is used for generating a receiving toolware list according to the material number, receiving the corresponding toolware from the warehouse through the toolware list, and storing a toolware receiving record based on the task identification code.

5. The intelligent warehouse management system of claim 4 wherein the adoption management module further comprises:

and the receiver identification module is used for being connected with an access control system of the storehouse, acquiring receiver identity information through access control identification information, and verifying the receiver identity information based on the task identification code.

6. The intelligent warehouse management system of claim 1 wherein the tool management module comprises:

the warehousing distribution module is used for acquiring a target warehouse location of the tool according to the storage rule, unlocking the target warehouse location, conveying the tool to the target warehouse location through a conveying device or a grabbing device, storing the tool and then locking the target warehouse location;

and the ex-warehouse extraction module is used for acquiring the target warehouse position of the tool according to the tool identification number, unlocking the target warehouse position, and taking out the tool through a conveying device or a grabbing device.

7. The intelligent warehouse management system of claim 6 wherein the tool management module further comprises:

the environment monitoring module is used for monitoring the environment parameters of the storage position of the tool according to the storage rule and carrying out alarm processing according to the environment parameters;

and the maintenance monitoring module is used for obtaining the maintenance period of the tool through the maintenance rule, acquiring the pre-maintenance time of the tool, and locking and alarming the tool according to the pre-maintenance time.

8. The intelligent warehouse management system of claim 6 wherein the service monitoring module further comprises: and the maintenance task generating module is used for generating a corresponding maintenance task list of the tool device according to the pre-maintenance time and distributing the maintenance task list.

9. The intelligent warehouse management system of claim 6 wherein the tool management module further comprises:

the material management module is used for managing the tool device according to the material number and displaying the in-store state, the maintenance state and the locking state of the tool device according to the material type through an interactive interface;

and the scrapping monitoring module is used for obtaining the scrapping period of the tool through the overhaul rule, obtaining the waste forecasting time of the tool, locking the tool according to the waste forecasting time and giving an alarm.

10. The intelligent warehouse management system of claim 1, further comprising:

the first data storage module is used for storing product information, storage rules, overhaul rules, warehouse entry and exit information and warehouse storage information of the tool device;

and the second data storage module is used for storing personnel information of a leading person, a maintainer and a management responsible person of the tool device in the warehouse.

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