CN114092018A - Management method based on tool management system - Google Patents

Abstract

The invention discloses a management method based on a tool management system, which comprises the following steps: step S1: setting an electronic tag for each tool, executing warehousing operation, and storing the operation into a tool management system; step S2: an operator logs in a tool management system; step S3: after the login is successful, the operator can select borrowing, returning, inquiring tool borrowing information, tool abnormal report or tool replacement in the tool management system interface. According to the management method based on the tool management system, the tool management system is provided with the management method, so that the borrowing condition of the tool is inquired and periodically checked, the tool can be directly reported in the management system when the tool is damaged, and the production work by using the damaged tool is avoided.

Description

Management method based on tool management system

Technical Field

The invention relates to the technical field of tool and instrument management systems, in particular to a management method based on a tool and instrument management system.

Background

The existing safety tools and instruments and hands account for the entrance, exit, inspection, scrapping and the like of the tools and instruments; a large number of different tools and instruments are required to be matched in daily work; the manual management is easy to cause disorder, mistakes and omissions; the safety tool is closely related to production safety, and some industries have specific regulations and requirements on the safety tool, such as designated position, environmental storage, regular inspection, expiration and scrapping, and the like.

Based on the above situation, the present invention provides a management method based on a tool management system, which can effectively solve the above problems.

Disclosure of Invention

The invention aims to provide a management method based on a tool management system. The management method based on the tool management system is convenient to use, and by arranging the management method in the tool management system, the borrowing condition query and the periodic check of the tools are realized, and the tools can be directly reported in the management system when damaged, so that the damaged tools are prevented from being used for production work.

The invention is realized by the following technical scheme:

a management method based on a tool management system comprises the following steps:

step S1: setting an electronic tag for each tool, executing warehousing operation, and storing the operation into a tool management system;

step S2: an operator logs in a tool management system;

step S3: after the login is successful, the operator can select borrowing, returning, inquiring tool borrowing information, tool abnormal report or tool replacement in the tool management system interface.

The invention aims to provide a management method based on a tool management system. The management method based on the tool management system is convenient to use, and by arranging the management method in the tool management system, the borrowing condition query and the periodic check of the tools are realized, and the tools can be directly reported in the management system when damaged, so that the damaged tools are prevented from being used for production work.

Preferably, the login method in step S1 includes fingerprint recognition, face recognition and card swiping.

Preferably, the warehousing step S11 is:

step S111: selecting a maintenance tool adding module, wherein an interface can display the reporting tools processed by the tool management system;

step S112: putting a tool to be added, and clicking a re-inventory button;

step S113: after the system scans the add tool, click the confirm add button.

Preferably, the lending step S31 is:

step S311: selecting a tool lending module, wherein an interface displays different levels, and each level corresponds to different tools;

step S312: selecting a tool picture displayed after entering a hierarchical interface, and popping up a drawer for storing the selected tool;

step S313: the operator takes out the tool and closes the drawer, and the system automatically reads and invents;

step S314: if the loans and the information displayed on the interface are correct, the operator can directly click the confirmation button.

Preferably, the step S32 of returning is:

step S321: selecting a tool returning module, and placing a tool on a tool reading detector to read the tool;

step S322: after the system is successfully read, the corresponding drawer is opened, and a user can put a tool in the corresponding drawer according to the corresponding system prompt;

step S323: an operator puts in a tool and closes the drawer, and the system automatically reads and invents;

step S324: if the returned number and the returned information displayed on the interface are correct, the operator can directly click the confirmation button.

Preferably, the tool exception reporting step S33 is:

step S331: selecting a bad part reporting module, and selecting a tool to be reported in the unreturned tool list;

step S332: if the information displayed on the interface is correct, the operator can directly click the confirmation and provision button.

Preferably, the tool replacing step S34 is:

step S341: selecting a tool report processing module, and selecting a corresponding tool on an interface;

step S342: if the information displayed on the interface is correct, the operator can directly click the receiving button.

Preferably, the method comprises the step S4:

step S41: presetting the time for checking the number of tools periodically;

step S42: when the time of the inspection is reached, a daily inspection module or a monthly inspection module is selected, and the system displays the details and the quantity of all the existing tools of the tool management system;

step S43: clicking a re-inventory button, and performing inventory operation by the system;

step S44: if the information displayed on the interface is correct, the operator can directly click the completion button.

Preferably, the method comprises the step S5:

step S51: presetting the required inspection time of each tool;

step S52: and if the tool delivery inspection is overtime, giving an alarm prompt when the tool is lent.

Compared with the prior art, the invention has the following advantages and beneficial effects:

the management method based on the tool management system is convenient to use, and by arranging the management method in the tool management system, the borrowing condition query and the periodic check of the tools are realized, and the tools can be directly reported in the management system when damaged, so that the damaged tools are prevented from being used for production work.

Detailed Description

In order that those skilled in the art will better understand the technical solutions of the present invention, preferred embodiments of the present invention are described below with reference to specific examples.

Example 1:

the invention provides a management method based on a tool management system, which comprises the following steps:

step S1: setting an electronic tag for each tool, executing warehousing operation, and storing the operation into a tool management system;

step S2: an operator logs in a tool management system;

step S3: after the login is successful, the operator can select borrowing, returning, inquiring tool borrowing information, tool abnormal report or tool replacement in the tool management system interface.

Example 2:

the invention provides a management method based on a tool management system, which comprises the following steps:

step S1: setting an electronic tag for each tool, executing warehousing operation, and storing the operation into a tool management system;

step S2: an operator logs in a tool management system;

step S3: after the login is successful, the operator can select borrowing, returning, inquiring tool borrowing information, tool abnormal report or tool replacement in the tool management system interface.

Further, in another embodiment, the login method in step S1 includes fingerprint recognition, face recognition and card swiping.

Further, in another embodiment, the step of warehousing S11 is:

step S111: selecting a maintenance tool adding module, wherein an interface can display the reporting tools processed by the tool management system;

step S112: putting a tool to be added, and clicking a re-inventory button;

step S113: after the system scans the add tool, click the confirm add button.

Further, in another embodiment, the lending step S31 is:

step S311: selecting a tool lending module, wherein an interface displays different levels, and each level corresponds to different tools;

step S312: selecting a tool picture displayed after entering a hierarchical interface, and popping up a drawer for storing the selected tool;

step S313: the operator takes out the tool and closes the drawer, and the system automatically reads and invents;

step S314: if the loans and the information displayed on the interface are correct, the operator can directly click the confirmation button.

Further, in another embodiment, the returning step S32 is:

step S321: selecting a tool returning module, and placing a tool on a tool reading detector to read the tool;

step S322: after the system is successfully read, the corresponding drawer is opened, and a user can put a tool in the corresponding drawer according to the corresponding system prompt;

step S323: an operator puts in a tool and closes the drawer, and the system automatically reads and invents;

step S324: if the returned number and the returned information displayed on the interface are correct, the operator can directly click the confirmation button.

Further, in another embodiment, the tool exception reporting step S33 is:

step S331: selecting a bad part reporting module, and selecting a tool to be reported in the unreturned tool list;

step S332: if the information displayed on the interface is correct, the operator can directly click the confirmation and provision button.

Further, in another embodiment, the tool replacing step S34 is:

step S341: selecting a tool report processing module, and selecting a corresponding tool on an interface;

step S342: if the information displayed on the interface is correct, the operator can directly click the receiving button.

Further, in another embodiment, the method includes step S4:

step S41: presetting the time for checking the number of tools periodically;

step S42: when the time of the inspection is reached, a daily inspection module or a monthly inspection module is selected, and the system displays the details and the quantity of all the existing tools of the tool management system;

step S43: clicking a re-inventory button, and performing inventory operation by the system;

step S44: if the information displayed on the interface is correct, the operator can directly click the completion button.

Further, in another embodiment, the method includes step S5:

step S51: presetting the required inspection time of each tool;

step S52: and if the tool delivery inspection is overtime, giving an alarm prompt when the tool is lent.

According to the description of the present invention, those skilled in the art can easily make or use the management method based on the tool management system of the present invention, and can produce the positive effects described in the present invention.

Unless expressly stated or limited otherwise, the terms "disposed," "connected," and "connected" are used broadly and encompass, for example, being fixedly connected, detachably connected, or integrally connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

The above description is only a preferred embodiment of the present invention, and is not intended to limit the present invention in any way, and all simple modifications and equivalent variations of the above embodiments according to the technical spirit of the present invention are included in the scope of the present invention.

Claims (9)

1. A management method based on a tool management system is characterized by comprising the following steps:

step S1: setting an electronic tag for each tool, executing warehousing operation, and storing the operation into a tool management system;

step S2: an operator logs in a tool management system;

step S3: after the login is successful, the operator can select borrowing, returning, inquiring tool borrowing information, tool abnormal report or tool replacement in the tool management system interface.

2. The tool management system-based management method according to claim 1, wherein: the login mode in the step S1 includes fingerprint recognition, face recognition and card swiping.

3. The tool management system-based management method according to claim 1, wherein: the step of entering the library S11 is:

step S111: selecting a maintenance tool adding module, wherein an interface can display the reporting tools processed by the tool management system;

step S112: putting a tool to be added, and clicking a re-inventory button;

step S113: after the system scans the add tool, click the confirm add button.

4. The tool management system-based management method according to claim 1, wherein: the lending step S31 is:

step S311: selecting a tool lending module, wherein an interface displays different levels, and each level corresponds to different tools;

step S312: selecting a tool picture displayed after entering a hierarchical interface, and popping up a drawer for storing the selected tool;

step S313: the operator takes out the tool and closes the drawer, and the system automatically reads and invents;

step S314: if the loans and the information displayed on the interface are correct, the operator can directly click the confirmation button.

5. The tool management system-based management method according to claim 1, wherein: the returning step S32 is:

step S321: selecting a tool returning module, and placing a tool on a tool reading detector to read the tool;

step S322: after the system is successfully read, the corresponding drawer is opened, and a user can put a tool in the corresponding drawer according to the corresponding system prompt;

step S323: an operator puts in a tool and closes the drawer, and the system automatically reads and invents;

step S324: if the returned number and the returned information displayed on the interface are correct, the operator can directly click the confirmation button.

6. The tool management system-based management method according to claim 1, wherein: the tool exception reporting step S33 is:

step S331: selecting a bad part reporting module, and selecting a tool to be reported in the unreturned tool list;

step S332: if the information displayed on the interface is correct, the operator can directly click the confirmation and provision button.

7. The tool management system-based management method according to claim 1, wherein: the tool replacement step S34 is:

step S341: selecting a tool report processing module, and selecting a corresponding tool on an interface;

step S342: if the information displayed on the interface is correct, the operator can directly click the receiving button.

8. The tool management system-based management method according to claim 1, wherein: includes step S4:

step S41: presetting the time for checking the number of tools periodically;

step S42: when the time of the inspection is reached, a daily inspection module or a monthly inspection module is selected, and the system displays the details and the quantity of all the existing tools of the tool management system;

step S43: clicking a re-inventory button, and performing inventory operation by the system;

step S44: if the information displayed on the interface is correct, the operator can directly click the completion button.

9. The tool management system-based management method according to claim 1, wherein: includes step S5:

step S51: presetting the required inspection time of each tool;

step S52: and if the tool delivery inspection is overtime, giving an alarm prompt when the tool is lent.