CN111523833A

CN111523833A - Tool point inspection method and device, computer equipment and storage medium

Info

Publication number: CN111523833A
Application number: CN201911119613.6A
Authority: CN
Inventors: 周明杰; 刘志平
Original assignee: Oceans King Lighting Science and Technology Co Ltd; Oceans King Dongguan Lighting Technology Co Ltd; Shenzhen Oceans King Lighting Engineering Co Ltd
Current assignee: Oceans King Lighting Science and Technology Co Ltd; Oceans King Dongguan Lighting Technology Co Ltd; Shenzhen Oceans King Lighting Engineering Co Ltd
Priority date: 2019-11-15
Filing date: 2019-11-15
Publication date: 2020-08-11

Abstract

The embodiment of the invention discloses a tool point inspection method, which comprises the following steps: receiving a tool warehousing instruction, wherein the warehousing instruction comprises a warehousing identifier; searching a tool package corresponding to the warehousing identification in a database according to the warehousing identification, wherein the tool package comprises all standard tool identification sets needing to be warehoused; acquiring a current tool identification set scanned in a current warehouse, wherein the current tool identification set comprises all tool identifications in the current warehouse; and comparing the current tool identification set with the tool identification in the standard tool identification set, and prompting according to a comparison result. The tool point inspection method can effectively avoid the condition that the tool is lost, and improve the tool point inspection efficiency. In addition, a tool spot inspection device, a computer device and a storage medium are also provided.

Description

Tool point inspection method and device, computer equipment and storage medium

Technical Field

The present invention relates to the field of computer technologies, and in particular, to a tool point inspection method and apparatus, a computer device, and a storage medium.

Background

Users of current mobile lighting systems apply a large number of service tools, such as wrenches, vises, shovels, etc., and the problem of missing tools at the job site after completion of the night-time job can occur, which can have very serious consequences if there are tool misses at the railway job site. The traditional tool point inspection method adopts a manual one-by-one detection and checking mode, wastes manpower and financial resources for a large number of tools, is easy to make mistakes, and influences the efficiency of tool point inspection.

Disclosure of Invention

In view of the above, it is desirable to provide a tool checking method, a tool checking device, a computer device, and a storage medium, which can effectively avoid the tool loss during the operation of carrying the tool out and have high checking efficiency.

A tool spot inspection method, the method comprising:

receiving a tool warehousing instruction, wherein the warehousing instruction comprises a warehousing identifier;

searching a tool package corresponding to the warehousing identification in a database according to the warehousing identification, wherein the tool package comprises all standard tool identification sets needing to be warehoused;

acquiring a current tool identification set scanned in a current warehouse, wherein the current tool identification set comprises all tool identifications in the current warehouse;

and comparing the current tool identification set with the tool identification in the standard tool identification set, and prompting according to a comparison result.

A tool point inspection device, the device comprising:

the instruction receiving module is used for receiving a tool warehousing instruction, and the warehousing instruction comprises a warehousing identifier;

the identification searching module is used for searching a tool packet corresponding to the warehousing identification in a database according to the warehousing identification, wherein the tool packet comprises all standard tool identification sets needing to be warehoused;

the system comprises an identification acquisition module, a storage module and a storage module, wherein the identification acquisition module is used for acquiring a current tool identification set scanned in a current storage, and the current tool identification set comprises all tool identifications currently stored in the storage;

and the identifier comparison module is used for comparing the current tool identifier set with the tool identifiers in the standard tool identifier set and prompting according to a comparison result.

A computer device comprising a memory and a processor, the memory storing a computer program that, when executed by the processor, causes the processor to perform the steps of:

A computer-readable storage medium storing a computer program which, when executed by a processor, causes the processor to perform the steps of:

The tool spot inspection method, the device, the computer equipment and the storage medium comprise: receiving a tool warehousing instruction, wherein the warehousing instruction comprises a warehousing identifier; searching a tool package corresponding to the warehousing identification in a database according to the warehousing identification, wherein the tool package comprises all standard tool identification sets needing to be warehoused; acquiring a current tool identification set scanned in a current warehouse, wherein the current tool identification set comprises all tool identifications in the current warehouse; and comparing the current tool identification set with the tool identification in the standard tool identification set, and prompting according to a comparison result. The tool point inspection method can effectively avoid the condition that the tool is lost, and improve the tool point inspection efficiency.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the drawings without creative efforts.

Wherein:

FIG. 1 is a flow diagram of a tool point inspection method in one embodiment;

FIG. 2 is a flow chart of a tool spotting method in another embodiment;

FIG. 3 is a flowchart of a method for tool identifier comparison in one embodiment;

FIG. 4 is a flowchart of a method for comparing tool identifiers in another embodiment;

FIG. 5 is a flowchart of a method for tool identifier alignment in another embodiment;

FIG. 6 is a block diagram showing the structure of a tool pointing device according to an embodiment;

FIG. 7 is a block diagram of a computer device in one embodiment.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

The tool point inspection method can be applied to a client side and a server side, wherein the client side communicates with the server side through a network. The client may specifically be an electronic tag scanning gun, and the server may be implemented by an independent server or a server cluster formed by a plurality of servers.

As shown in fig. 1, in an embodiment, a tool checking method is provided, which is described by taking the application of the method to a server as an example, and includes the following steps:

step 102, receiving a tool warehousing instruction, wherein the warehousing instruction comprises a warehousing identifier.

In this embodiment, the tool warehousing identifier is used for identifying a tool user, specifically, the tool warehousing identifier may be in the form of an identification information identifier such as a work number or a name of the tool user, or may be in the form of a randomly generated coding identifier, so as to search tool warehousing information corresponding to each warehousing identifier based on the warehousing identifier in the subsequent process.

And 104, searching a tool package corresponding to the warehousing identification in a database according to the warehousing identification, wherein the tool package comprises all standard tool identification sets needing to be warehoused.

The tool pack refers to a set of tool identifiers corresponding to the warehousing identifiers in an associated mode. In a specific embodiment, the standard tool identifier set corresponding to the warehousing identifier "a 1" is a set of tool identifiers a11 and a 12; the standard tool identification set corresponding to the warehousing identification "A2" is a set of tool identification A21, tool identification A22, tool identification A23 and tool identification A24; the standard tool identifier set corresponding to the warehousing identifier "A3" is a tool identifier a31, and the tool identifier a32 and the tool identifier a33 are set, so that the tool pack of a1 includes a11 and a 12; the kit of a2 includes a21, a22, a23 and a24, and the kit of A3 includes a31, a32 and a 33.

And 106, acquiring a current tool identifier set scanned in a current warehouse, wherein the current tool identifier set comprises all tool identifiers in the current warehouse.

The current tool identifier set is a set formed by tool identifiers obtained by scanning returned tool identifiers by the server, the current tool identifier set comprises all tool identifiers currently put in storage, the tool identifiers are unique identifiers used for identifying tools, and exemplarily, the tool identifiers can be obtained by scanning electronic tags of all tools through an RFID scanning gun, so that the server can identify the tools in a scanning mode, and the identification efficiency of the tool identifier tags is improved. Specifically, the server acquires a current tool identifier set scanned currently in a warehouse, so that the efficiency of acquiring all tool identifiers is improved.

And 108, comparing the tool identifiers in the current tool identifier set and the standard tool identifier set, and prompting according to a comparison result.

Specifically, the server compares the current tool identifier set with the tool identifiers in the standard set by identifiers, determines whether the current tool identifier set is consistent with all standard tool identifier sets needing to be put in storage in the tool kit, and determines a comparison result, wherein the comparison result includes two cases, and one case is: the current tool identification set is consistent with all standard tool identification sets needing to be put in storage in the tool kit, namely, the tools needing to be put in storage are completely returned, and in this case, a prompt of finishing point inspection can be sent; the other situation is as follows: the current tool identification set is inconsistent with all standard tool identification sets needing to be put in storage in the tool kit, namely the tools needing to be put in storage are not completely returned, and the tool loss condition exists.

The tool spot inspection method comprises the following steps: receiving a tool warehousing instruction, wherein the warehousing instruction comprises a warehousing identifier; searching a tool package corresponding to the warehousing identification in a database according to the warehousing identification, wherein the tool package comprises all standard tool identification sets needing to be warehoused; acquiring a current tool identification set scanned in a current warehouse, wherein the current tool identification set comprises all tool identifications in the current warehouse; and comparing the current tool identification set with the tool identification in the standard tool identification set, and prompting according to a comparison result. The tool point inspection method can effectively avoid the condition that the tool is lost, and improve the tool point inspection efficiency.

As shown in fig. 2, in an embodiment, before the receiving the tool warehousing instruction, the method further includes:

step 110, receiving a tool ex-warehouse instruction, wherein the tool ex-warehouse instruction comprises all tool identification sets needing ex-warehouse.

Specifically, the server receives a tool ex-warehouse instruction before receiving a tool in-warehouse instruction, wherein the tool out-warehouse instruction comprises all tool identification sets needing to be ex-warehouse, so that all tool identification sets needing to be ex-warehouse are obtained and serve as standard tool identification sets for tool identification comparison in the subsequent point inspection process.

And 112, generating warehousing identifications according to all the tool identification sets needing to be ex-warehoused, and correspondingly storing the warehousing identifications and all the tool identification sets needing to be ex-warehoused, wherein all the tool identification sets needing to be ex-warehoused are the same as all the standard tool identification sets needing to be in-warehoused.

Specifically, the warehousing identification is generated according to all the tool identification sets needing to be delivered, and the warehousing identification and all the tool identification sets needing to be delivered are correspondingly stored, so that the accuracy of the warehousing identification of all the required tool identification sets is ensured. Furthermore, all tool identification sets needing to be delivered out of the warehouse are the same as all standard tool identification sets needing to be delivered in the warehouse, so that the accuracy and the integrity of the standard tool identification sets are guaranteed, the accuracy and the efficiency of tool identification comparison in the point inspection process are improved, and more efficient tool identification comparison is performed subsequently.

In the above embodiment, a tool ex-warehouse instruction is received, where the tool ex-warehouse instruction includes all tool identifier sets that need to be ex-warehouse; and generating warehousing identifications according to all the tool identification sets needing to be delivered, correspondingly storing the warehousing identifications and all the tool identification sets needing to be delivered, wherein all the tool identification sets needing to be delivered are the same as all the standard tool identification sets needing to be warehoused, and ensuring the accuracy and integrity of the standard tool identification sets, so that the accuracy and efficiency of tool identification comparison in the point inspection process are improved, and more efficient tool identification comparison is performed subsequently.

In one embodiment, the ex-warehouse instruction comprises an identity of a lender, and the identity of the lender is used as the in-warehouse identity;

the lending instruction comprises a lending person identity identifier, and the server side takes the lending person identity identifier as a warehousing identifier.

The receiving tool warehousing instruction comprises: and scanning the certificate information of the return person to acquire the warehousing identification corresponding to the return person.

Specifically, the server acquires the warehousing identification corresponding to the returning person by scanning the certificate information of the returning person, and understandably, the returning person is configured with a working certificate or an identity certificate and the like, so that the warehousing identification corresponding to the returning person can be acquired by scanning the certificate information of the returning person.

As shown in fig. 3, in an embodiment, comparing the tool identifiers in the current tool identifier set and the standard tool identifier set, and performing a prompt according to a comparison result includes:

step 108A, when the tool identifier in the current tool identifier set is matched with the tool identifier in the standard tool identifier set, changing the state of the matched tool identifier in the standard tool identifier set from to-be-put-in-storage to put-in-storage.

The tool marks in the standard tool set with the states to be put in storage can be red, when the tool marks in the current tool mark set are matched with the tool marks in the standard tool mark set, the tool marks in the standard tool mark set are changed into the tool marks put in storage, and the corresponding red marks are changed into black marks, so that a client worker can know the point inspection state of the current tool marks more intuitively, and the comparison result is displayed in real time.

Step 108B, determining a comparison result according to the matching result of all the tool identifications in the current tool identification set and the tool identifications in the standard tool identification set, and sending the comparison result to the client.

Specifically, the server determines a comparison result according to matching results of all tool identifiers in the current tool identifier set and tool identifiers in the standard tool identifier set, that is, the comparison result is determined according to the change condition of the states of the tool identifiers in the standard tool identifier set, and the comparison result is sent to the client for prompting, so that the corresponding returning person can be reminded of the condition that the tool is lost.

In the above embodiment, when the tool identifier in the current tool identifier set is matched with the tool identifier in the standard tool identifier set, the state of the matched tool identifier in the standard tool identifier set is changed from the state to be put in storage to the state to be put in storage; and then determining a comparison result according to the matching results of all the tool identifications in the current tool identification set and the tool identifications in the standard tool identification set, namely the consistency condition of the states of the tool identifications in the standard tool set and the current tool identifications, and sending the comparison result to the client, so that a corresponding returning person can be reminded of the condition that the tools are lost.

In one embodiment, the tool identification is an EPC code obtained by scanning an electronic tag on each tool with an RFID electronic gun.

The EPC coding system is a new generation of coding standard compatible with GTIN, is an extension and an expansion of a global unified identification system, is an important component of the global unified identification system and is used for identifying tools. Specifically, the EPC code may be obtained by scanning the electronic tag on each tool with an RFID electronic gun.

As shown in fig. 4, in an embodiment, comparing the tool identifiers in the current tool identifier set and the standard tool identifier set, and performing a prompt according to a comparison result includes:

and 108C, importing the EPC codes corresponding to the standard tool identification set into a first table according to a preset mode, and importing the EPC codes corresponding to the current tool identification set into a second table according to a preset mode.

The first table and the second table are both data tables for storing tool identifiers, and the data tables may be EXCEL tables or data tables in a database. The preset mode may be storage according to rows or columns. And importing the EPC codes corresponding to the standard tool identification set into a first table according to a preset mode, and importing the EPC codes corresponding to the current tool identification set into a second table according to a preset mode, so that data comparison is performed on the basis of the tool identifications in the first table and the second table in the following process, and the comparison efficiency is improved.

Step 108D, determining an intersection of the data in the first table and the data in the second table, determining a comparison result according to the intersection, and sending the result to a client.

And determining a comparison result according to the intersection, and sending the result to the client. It is understood that the step 108C improves the alignment efficiency, and therefore, the spot inspection efficiency can be further improved based on the alignment method.

In the above embodiment, the EPC codes corresponding to the standard tool identifier set are imported into a first table according to a preset manner, and the EPC codes corresponding to the current tool identifier set are imported into a second table according to a preset manner; and determining the intersection of the data in the first table and the data in the second table, determining a comparison result according to the intersection, and sending the result to the client, so that the comparison efficiency is improved, and the point inspection efficiency is further improved.

As shown in fig. 5, in an embodiment, comparing the tool identifiers in the current tool identifier set and the standard tool identifier set, and performing a prompt according to a comparison result includes:

and 108E, comparing the difference between the tool identifier in the standard tool identifier set and the tool identifier in the current tool identifier set, and taking the tool identifier in the current tool identifier set and the tool identifier in the standard tool identifier set, which are inconsistent, as the tool identifier to be put in storage.

The server compares the difference between the standard tool identifier centralized tool identifier and the current tool identifier centralized tool identifier, determines a tool identifier with no difference between the current tool identifier centralized tool identifier and the standard tool identifier centralized tool identifier, and uses the tool identifier as the warehousing tool identifier, namely determines that the current tool identifier without difference is a returned tool identifier set.

And 108F, eliminating the warehousing tool identification from the standard tool identification set, determining the comparison result according to the tool identification in the standard tool identification set after elimination, and sending the comparison result to a client.

Specifically, the warehousing tool identification is removed from the standard tool identification set, so that the tool identification in the standard tool identification set after removal can be obtained, the comparison result is determined according to the tool identification, and the comparison result is sent to the client, so that the tool loss can be effectively prevented, and the point inspection efficiency is improved.

In the above embodiment, the tool identifier in the standard tool identifier set and the tool identifier in the current tool identifier set are compared with each other, and the tool identifier in the current tool identifier set and the tool identifier in the standard tool identifier set are consistent with each other and used as the tool identifier to be put into storage; and removing the warehousing tool identification from the standard tool identification set, determining the comparison result according to the tool identification removed from the standard tool identification set, and sending the comparison result to the client, so that the occurrence of tool loss can be effectively prevented, and the point inspection efficiency is improved.

As shown in fig. 6, in one embodiment, a tool spotting apparatus is provided, the apparatus comprising:

an instruction receiving module 602, configured to receive a tool warehousing instruction, where the warehousing instruction includes a warehousing identifier;

an identifier searching module 604, configured to search, according to the warehousing identifier, a tool package corresponding to the warehousing identifier in a database, where the tool package includes all standard tool identifier sets that need to be warehoused;

an identifier obtaining module 606, configured to obtain a current tool identifier set scanned in a current warehouse, where the current tool identifier set includes all tool identifiers currently in the warehouse;

an identifier comparison module 608, configured to compare the current tool identifier set with the tool identifiers in the standard tool identifier set, and prompt according to a comparison result.

In one embodiment, the device further comprises a storage instruction receiving module and an identification storage module.

The ex-warehouse instruction receiving module is used for receiving tool ex-warehouse instructions, and the ex-warehouse instructions comprise all tool identification sets needing ex-warehouse;

and the identification storage module is used for generating warehousing identifications according to all the tool identification sets needing to be ex-warehoused, and correspondingly storing the warehousing identifications and all the tool identification sets needing to be ex-warehoused, wherein all the tool identification sets needing to be ex-warehoused are the same as all the standard tool identification sets needing to be in-warehoused.

In one embodiment, the identifier comparison module comprises a marking unit, a changing unit and a first result obtaining unit.

A changing unit, configured to change, when a tool identifier in the current tool identifier set matches a tool identifier in the standard tool identifier set, a state of the matched tool identifier in the standard tool identifier set from to-be-put-in-storage to put-in-storage;

and the first result acquisition unit is used for determining a comparison result according to the matching result of all the tool identifiers in the current tool identifier set and the tool identifiers in the standard tool identifier set, and sending the comparison result to the client.

In one embodiment, the identifier comparison module includes an identifier set storage unit and a second result obtaining unit.

The identification set storage unit is used for importing EPC codes corresponding to the standard tool identification set into a first table according to a preset mode and importing EPC codes corresponding to the current tool identification set into a second table according to a preset mode;

and the second result acquisition unit is used for determining the intersection of the data in the first table and the data in the second table, determining a comparison result according to the intersection and sending the result to the client.

In one embodiment, the identifier matching module comprises a difference matching unit and a third result obtaining unit.

A difference comparison unit, configured to perform difference comparison on the standard tool identifier centralized tool identifier and the current tool identifier centralized tool identifier, and use a tool identifier in which the current tool identifier centralized tool identifier is consistent with the standard tool identifier centralized tool identifier as a warehousing tool identifier;

and the third result acquisition unit is used for removing the warehousing tool identification from the standard tool identification set, determining the comparison result according to the tool identification in the standard tool identification set after removal, and sending the comparison result to the client.

FIG. 7 is a diagram illustrating an internal structure of a computer device in one embodiment. The computer device may specifically be a server including, but not limited to, a high performance computer and a cluster of high performance computers. As shown in fig. 7, the computer device includes a processor, a memory, and a network interface connected by a system bus. Wherein the memory includes a non-volatile storage medium and an internal memory. The non-volatile storage medium of the computer device stores an operating system and may also store a computer program that, when executed by the processor, causes the processor to implement the tool point inspection method. The internal memory may also have a computer program stored therein, which when executed by the processor, causes the processor to perform the tool spotting method. Those skilled in the art will appreciate that the architecture shown in fig. 7 is merely a block diagram of some of the structures associated with the disclosed aspects and is not intended to limit the computing devices to which the disclosed aspects apply, as particular computing devices may include more or less components than those shown, or may combine certain components, or have a different arrangement of components.

In one embodiment, the tool spot inspection method provided by the present application can be implemented in the form of a computer program, and the computer program can be run on a computer device as shown in fig. 7. The memory of the computer device can store various program templates which form the tool checking device. For example, the instruction receiving module 602, the identifier searching module 604, the identifier obtaining module 606, and the identifier comparing module 608.

A computer device comprising a memory, a processor, and a computer program stored in the memory and executable on the processor, the processor implementing the following steps when executing the computer program: receiving a tool warehousing instruction, wherein the warehousing instruction comprises a warehousing identifier; searching a tool package corresponding to the warehousing identification in a database according to the warehousing identification, wherein the tool package comprises all standard tool identification sets needing to be warehoused; acquiring a current tool identification set scanned in a current warehouse, wherein the current tool identification set comprises all tool identifications in the current warehouse; and comparing the current tool identification set with the tool identification in the standard tool identification set, and prompting according to a comparison result.

In one embodiment, before the receiving the tool warehousing instruction, the method further includes: receiving a tool ex-warehouse instruction, wherein the ex-warehouse instruction comprises all tool identification sets needing ex-warehouse; and generating warehousing identifications according to all the tool identification sets needing to be ex-warehoused, and correspondingly storing the warehousing identifications and all the tool identification sets needing to be ex-warehoused, wherein all the tool identification sets needing to be ex-warehoused are the same as all the standard tool identification sets needing to be in-warehoused.

In one embodiment, the ex-warehouse instruction comprises an identity of a lender, and the identity of the lender is used as the in-warehouse identity; the receiving tool warehousing instruction comprises: and scanning the certificate information of the return person to acquire the warehousing identification corresponding to the return person.

In one embodiment, comparing the current tool identifier set with the tool identifiers in the standard tool identifier set, and performing a prompt according to a comparison result includes: when the tool identifier in the current tool identifier set is matched with the tool identifier in the standard tool identifier set, changing the state of the matched tool identifier in the standard tool identifier set from the state to be put in storage to the state to be put in storage; and determining a comparison result according to the matching result of all the tool identifications in the current tool identification set and the tool identifications in the standard tool identification set, and sending the comparison result to a client.

In one embodiment, comparing the current tool identifier set with the tool identifiers in the standard tool identifier set, and performing a prompt according to a comparison result includes: importing the EPC codes corresponding to the standard tool identification set into a first table according to a preset mode, and importing the EPC codes corresponding to the current tool identification set into a second table according to the preset mode; and determining the intersection of the data in the first table and the data in the second table, determining a comparison result according to the intersection, and sending the result to a client.

In one embodiment, comparing the current tool identifier set with the tool identifiers in the standard tool identifier set, and performing a prompt according to a comparison result includes: comparing the difference between the tool identifier in the standard tool identifier set and the tool identifier in the current tool identifier set, and taking the tool identifier in the current tool identifier set and the tool identifier in the standard tool identifier set as the tool identifier for warehousing; and eliminating the warehousing tool identification from the standard tool identification set, determining the comparison result according to the tool identification in the eliminated standard tool identification set, and sending the comparison result to a client.

A computer-readable storage medium storing a computer program, the computer program when executed by a processor implementing the steps of: receiving a tool warehousing instruction, wherein the warehousing instruction comprises a warehousing identifier; searching a tool package corresponding to the warehousing identification in a database according to the warehousing identification, wherein the tool package comprises all standard tool identification sets needing to be warehoused; acquiring a current tool identification set scanned in a current warehouse, wherein the current tool identification set comprises all tool identifications in the current warehouse; and comparing the current tool identification set with the tool identification in the standard tool identification set, and prompting according to a comparison result.

It should be noted that the tool checking method, the tool checking device, the computer device and the computer readable storage medium described above belong to a general inventive concept, and the contents in the embodiments of the tool checking method, the tool checking device, the computer device and the computer readable storage medium may be mutually applicable.

It will be understood by those skilled in the art that all or part of the processes of the methods of the embodiments described above can be implemented by a computer program, which can be stored in a non-volatile computer-readable storage medium, and can include the processes of the embodiments of the methods described above when the program is executed. Any reference to memory, storage, database, or other medium used in the embodiments provided herein may include non-volatile and/or volatile memory, among others. Non-volatile memory can include read-only memory (ROM), Programmable ROM (PROM), Electrically Programmable ROM (EPROM), Electrically Erasable Programmable ROM (EEPROM), or flash memory. Volatile memory can include Random Access Memory (RAM) or external cache memory. By way of illustration and not limitation, RAM is available in a variety of forms such as Static RAM (SRAM), Dynamic RAM (DRAM), Synchronous DRAM (SDRAM), Double Data Rate SDRAM (DDRSDRAM), Enhanced SDRAM (ESDRAM), Synchronous Link DRAM (SLDRAM), Rambus Direct RAM (RDRAM), direct bus dynamic RAM (DRDRAM), and memory bus dynamic RAM (RDRAM).

The technical features of the above embodiments can be arbitrarily combined, and for the sake of brevity, all possible combinations of the technical features in the above embodiments are not described, but should be considered as the scope of the present specification as long as there is no contradiction between the combinations of the technical features.

The above-mentioned embodiments only express several embodiments of the present application, and the description thereof is more specific and detailed, but not construed as limiting the scope of the present application. It should be noted that, for a person skilled in the art, several variations and modifications can be made without departing from the concept of the present application, which falls within the scope of protection of the present application. Therefore, the protection scope of the present patent shall be subject to the appended claims.

Claims

1. A tool checking method is characterized by comprising the following steps:

2. The method of claim 1, prior to receiving a tool-in-storage instruction, further comprising:

receiving a tool ex-warehouse instruction, wherein the ex-warehouse instruction comprises all tool identification sets needing ex-warehouse;

and generating warehousing identifications according to all the tool identification sets needing to be ex-warehoused, and correspondingly storing the warehousing identifications and all the tool identification sets needing to be ex-warehoused, wherein all the tool identification sets needing to be ex-warehoused are the same as all the standard tool identification sets needing to be in-warehoused.

3. The method according to claim 2, wherein the delivery instruction comprises a lender identity identifier, and the lender identity identifier is used as the warehousing identifier;

4. The method according to claim 1, wherein comparing the tool identifiers in the current tool identifier set and the standard tool identifier set and prompting according to a comparison result comprises:

when the tool identifier in the current tool identifier set is matched with the tool identifier in the standard tool identifier set, changing the state of the matched tool identifier in the standard tool identifier set from the state to be put in storage to the state to be put in storage;

and determining a comparison result according to the matching result of all the tool identifications in the current tool identification set and the tool identifications in the standard tool identification set, and sending the comparison result to a client.

5. The tool point inspection method according to claim 1, wherein the tool identification is an EPC code obtained by scanning an electronic tag on each tool using an RFID electronic gun.

6. The method according to claim 5, wherein comparing the tool identifiers in the current tool identifier set and the standard tool identifier set and prompting according to a comparison result comprises:

importing the EPC codes corresponding to the standard tool identification set into a first table according to a preset mode, and importing the EPC codes corresponding to the current tool identification set into a second table according to the preset mode;

and determining the intersection of the data in the first table and the data in the second table, determining a comparison result according to the intersection, and sending the result to a client.

7. The method according to claim 1, wherein comparing the tool identifiers in the current tool identifier set and the standard tool identifier set and prompting according to a comparison result comprises:

comparing the difference between the tool identifier in the standard tool identifier set and the tool identifier in the current tool identifier set, and taking the tool identifier in the current tool identifier set and the tool identifier in the standard tool identifier set as a warehousing tool identifier;

and eliminating the warehousing tool identification from the standard tool identification set, determining the comparison result according to the tool identification in the eliminated standard tool identification set, and sending the comparison result to a client.

8. A tool pointing device, comprising:

9. A computer device comprising a memory, a processor, and a computer program stored in the memory and executable on the processor, wherein the processor when executing the computer program implements the steps of the tool spotting method of any one of claims 1-7.

10. A computer-readable storage medium, in which a computer program is stored, which, when being executed by a processor, carries out the steps of the tool spotting method according to any one of claims 1 to 7.