CN110929892A - Safety tool management method and system - Google Patents
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- 238000007726 management method Methods 0.000 title claims abstract description 41
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- 238000004364 calculation method Methods 0.000 claims description 9
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- 230000008569 process Effects 0.000 claims description 4
- 230000008439 repair process Effects 0.000 claims description 4
- 238000013461 design Methods 0.000 abstract description 2
- 238000009413 insulation Methods 0.000 description 11
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Abstract
The invention provides a safety tool management method and a safety tool management system, wherein the safety tool management method comprises the following steps: step S1, setting ledger information for the safety tool; the ledger information of the safety tool comprises the application state of the safety tool; the application states of the safety tools comprise a warehousing state and a ex-warehousing state; acquiring the application information of the safety tool; step S2, when the application information of the safety tool is acquired, the application state of the safety tool is changed from the warehousing state to the ex-warehouse state, and the duration time of the ex-warehouse state of the safety tool is started to be calculated; and step S3, when the duration time of the delivery state of the safety tool reaches a preset detection period time threshold, sending out early warning information to remind a worker to overhaul the safety tool. The safety tool management method and the safety tool management system are novel in design and high in practicability.
Description
Technical Field
The invention relates to the technical field of power equipment management, in particular to a safety tool management method and system.
Background
Safety tools are classified into basic insulation safety tools and auxiliary insulation safety tools according to purposes. The basic insulation safety tool refers to a tool capable of directly operating a charged device or a contact and possible contact charged body, such as a capacitance type electroscope, an insulating rod, a phase detector, an insulating cover, an insulating partition plate and the like, and the tool and the charged working tool are distinguished in that a short-time contact charged body or a non-contact charged body is contacted during the working process. The auxiliary insulation safety tool is used for enhancing the security function of the basic insulation safety tool instead of bearing the working voltage of equipment or a line, is used for preventing the contact voltage, the step voltage and the leakage current arc from damaging an operator, and cannot be directly contacted with the live part of high-voltage equipment. Such as: insulating gloves, insulating boots, insulating rubber mats, and the like.
The safety tool is a working tool for guaranteeing the personal safety of operators, and the management level of the electric safety tool is directly related to the personal safety and the equipment safety of enterprises in the production process. Incorrect storage mode can shorten the service life of safety tools, increase material cost and bring hidden danger to electric power work.
For the daily storage of safety tools, if the management is not in place or the management method is not correct, the result is that the safety tools are randomly scattered and stored, the test of the electric insulation tool is overdue or no test is carried out at all, unqualified tools and qualified tools are mixed, and the quality problems such as no alarm sound of a test pencil and no insulation of an insulation iron clamp and the like occur when the unqualified tools are used; these phenomena easily lead to operators to get unqualified tools to the overhaul and repair site, and bury potential safety hazards, and even lead to accidents seriously.
Disclosure of Invention
The invention provides a safety tool management method and a safety tool management system aiming at the technical problems.
The technical scheme provided by the invention is as follows:
the invention provides a safety tool management method, which comprises the following steps:
step S1, setting ledger information for the safety tool; the ledger information of the safety tool comprises the application state of the safety tool; the application states of the safety tools comprise a warehousing state and a ex-warehousing state; acquiring the application information of the safety tool;
step S2, when the application information of the safety tool is acquired, the application state of the safety tool is changed from the warehousing state to the ex-warehouse state, and the duration time of the ex-warehouse state of the safety tool is started to be calculated;
and step S3, when the duration time of the delivery state of the safety tool reaches a preset detection period time threshold, sending out early warning information to remind a worker to overhaul the safety tool.
In the method for managing a safety tool of the present invention, the ledger information of the safety tool further includes maintenance history information of the safety tool;
step S3 further includes: acquiring maintenance information;
when the warehouse-out state duration time of the safety tool does not reach a preset detection cycle time threshold, if the maintenance information is obtained, the maintenance history information of the safety tool is updated, and the warehouse-out state duration time of the safety tool is recalculated;
and when the duration time of the ex-warehouse state of the safety tool reaches a preset detection period time threshold, sending early warning information all the time until the maintenance information is obtained, and updating the maintenance history information of the safety tool after the maintenance information is obtained.
In the method for managing a safety tool of the present invention, the ledger information of the safety tool further includes maintenance history information of the safety tool;
step S1 further includes: acquiring an early warning period; step S3 further includes: acquiring maintenance information;
when the warehouse-out state duration time of the safety tool does not reach a preset detection cycle time threshold, if the maintenance information is obtained, the maintenance history information of the safety tool is updated, and the warehouse-out state duration time of the safety tool is recalculated;
when the duration time of the delivery state of the safety tool reaches a preset detection period time threshold, early warning information is sent at intervals of one early warning period until the maintenance information is obtained, and when the maintenance information is obtained, the maintenance history information of the safety tool is updated.
In the method for managing a safety tool according to the present invention, step S3 further includes: and acquiring warehousing application information of the safety tool, and changing the application state of the safety tool from the ex-warehouse state to the in-warehouse state after the warehousing application information of the safety tool is acquired.
In the method for managing a safety tool of the present invention, the application state of the safety tool further includes a scrapped state;
step S3 further includes: acquiring tool scrapping application information, and changing the application state of the safety tool from the ex-warehouse state to the scrapping state after the tool scrapping application information is acquired.
The invention also provides a safety tool management system, which comprises:
the information acquisition module is used for acquiring the application information of the safety tool;
the time calculation module is used for starting to calculate the duration time of the ex-warehouse state of the safety tool when the application information of the safety tool is acquired;
the early warning module is used for sending out early warning information to remind workers to overhaul the safety tools when the duration time of the delivery state of the safety tools reaches a preset detection cycle time threshold;
the account standing module is used for setting account standing information for the safety tool; the ledger information of the safety tool comprises the application state of the safety tool; the application states of the safety tools comprise a warehousing state and a ex-warehousing state; and when the application information of the safety tool is acquired, the application state of the safety tool is changed from the warehousing state to the ex-warehousing state.
In the safety tool management system of the present invention, the ledger information of the safety tool further includes maintenance history information of the safety tool;
the information acquisition module is also used for acquiring maintenance information;
the machine account module is also used for updating the maintenance history information of the safety tool after the maintenance information is acquired;
the time calculation module is used for recalculating the ex-warehouse state duration of the safety tool if the overhaul information is acquired when the ex-warehouse state duration of the safety tool does not reach a preset detection cycle time threshold;
and the early warning module is also used for sending early warning information all the time after the duration time of the delivery state of the safety tool reaches a preset detection period time threshold value until the maintenance information is obtained.
In the safety tool management system of the present invention, the ledger information of the safety tool further includes maintenance history information of the safety tool;
the information acquisition module is also used for acquiring the early warning period and the maintenance information;
the machine account module is also used for updating the maintenance history information of the safety tool after the maintenance information is acquired;
the time calculation module is used for recalculating the ex-warehouse state duration of the safety tool if the overhaul information is acquired when the ex-warehouse state duration of the safety tool does not reach a preset detection cycle time threshold;
and the early warning module is also used for sending early warning information at intervals of an early warning period after the warehouse-out state duration of the safety tool reaches a preset detection period time threshold value, and stopping the early warning until the maintenance information is obtained.
In the safety tool management system of the invention, the information acquisition module is further used for acquiring warehousing application information of the safety tool;
and the standing book module is also used for changing the application state of the safety tool from the ex-warehouse state to the in-warehouse state after the warehousing application information of the safety tool is acquired.
In the safety tool management system of the invention, the application state of the safety tool further includes a scrapping state;
the information acquisition module is also used for acquiring tool and instrument scrapping application information;
and the standing book module is also used for changing the application state of the safety tool from the delivery state to the scrapping state after acquiring the tool scrapping application information.
The invention constructs a safety tool management method and a safety tool management system, a detection cycle time threshold value is set, and after a safety tool is taken out of a warehouse, when the duration time of the out-of-warehouse state of the safety tool reaches the detection cycle time threshold value, early warning information is sent out to remind a worker to overhaul the safety tool. The safety tool management method and the safety tool management system are novel in design and high in practicability.
Drawings
Fig. 1 shows a functional block diagram of a safety tool management system according to a preferred embodiment of the present invention.
Detailed Description
The technical problem to be solved by the invention is as follows: for the daily storage of safety tools, if the management is not in place or the management method is not correct, the result is that the safety tools are randomly scattered and stored, the test of the electric insulation tool is overdue or no test is carried out at all, unqualified tools and qualified tools are mixed, and the quality problems such as no alarm sound of a test pencil and no insulation of an insulation iron clamp and the like occur when the unqualified tools are used; these phenomena easily lead to operators to get unqualified tools to the overhaul and repair site, and bury potential safety hazards, and even lead to accidents seriously. The technical idea of the invention for solving the technical problem is as follows: a safety tool management method and a safety tool management system are constructed, a detection cycle time threshold value is set, and after the safety tools are taken out of a warehouse, when the duration time of the out-of-warehouse state of the safety tools reaches the detection cycle time threshold value, early warning information is sent out to remind workers to overhaul the safety tools.
In order to make the objects, technical solutions and advantages of the present invention more apparent to those skilled in the art, the present invention will be described in further detail with reference to the accompanying drawings.
The invention provides a safety tool management method, which comprises the following steps:
step S1, setting ledger information for the safety tool; the ledger information of the safety tool comprises the application state of the safety tool; the application states of the safety tools comprise a warehousing state and a ex-warehousing state; acquiring the application information of the safety tool;
in this step, the application information for receiving the security tool includes a receiver, a receiving department, a receiving time, a name and a number of the security tool to be received, and the like.
Step S2, when the application information of the safety tool is acquired, the application state of the safety tool is changed from the warehousing state to the ex-warehouse state, and the duration time of the ex-warehouse state of the safety tool is started to be calculated;
when the application state of the safety tool is the warehousing state, the related attribute column of the application state of the safety tool also records the name, the number, the storage place and the accumulated storage time of the safety tool.
And step S3, when the duration time of the delivery state of the safety tool reaches a preset detection period time threshold, sending out early warning information to remind a worker to overhaul the safety tool.
Step S3 further includes: and acquiring warehousing application information of the safety tool, and changing the application state of the safety tool from the ex-warehouse state to the in-warehouse state after the warehousing application information of the safety tool is acquired.
The technical scheme is a basic scheme, and the safety tool is managed in the warehouse-out and warehouse-in modes by setting the ledger information. By setting the detection cycle time threshold, after the safety tool is taken out of the warehouse, when the warehouse-out state duration time of the safety tool reaches the detection cycle time threshold, early warning information is sent out to remind a worker to overhaul the safety tool.
Further, the ledger information of the safety tool also includes maintenance history information of the safety tool;
step S3 further includes: acquiring maintenance information;
when the warehouse-out state duration time of the safety tool does not reach a preset detection cycle time threshold, if the maintenance information is obtained, the maintenance history information of the safety tool is updated, and the warehouse-out state duration time of the safety tool is recalculated;
and when the duration time of the ex-warehouse state of the safety tool reaches a preset detection period time threshold, sending early warning information all the time until the maintenance information is obtained, and updating the maintenance history information of the safety tool after the maintenance information is obtained.
Here, the inspection history information of the safety tool includes an inspection time, an inspection item, an inspection result, and the like. The state of the corresponding safety tool can be known through the maintenance history information. By adopting the early warning technology, the purpose of timely overhauling the safety tool is realized. The overhaul items comprise after maintenance, preventive planned overhaul, state overhaul, reliability overhaul and the like. Preferably, the ledger information further includes specific parameters of the safety tool, spare part conditions, and post-overhaul legacy problems.
In another embodiment, the ledger information of the safety tool further includes service history information of the safety tool;
step S1 further includes: acquiring an early warning period; step S3 further includes: acquiring maintenance information;
when the warehouse-out state duration time of the safety tool does not reach a preset detection cycle time threshold, if the maintenance information is obtained, the maintenance history information of the safety tool is updated, and the warehouse-out state duration time of the safety tool is recalculated;
when the duration time of the delivery state of the safety tool reaches a preset detection period time threshold, early warning information is sent at intervals of one early warning period until the maintenance information is obtained, and when the maintenance information is obtained, the maintenance history information of the safety tool is updated.
Further, the application state of the safety tool also comprises a scrapping state;
step S3 further includes: acquiring tool scrapping application information, and changing the application state of the safety tool from the ex-warehouse state to the scrapping state after the tool scrapping application information is acquired.
Here, through the process of scrapping, the safety tool that prevents to damage continues to use, avoids operating personnel consequently to be injured.
Further, as shown in fig. 1, fig. 1 is a block diagram illustrating functional modules of a safety tool management system according to a preferred embodiment of the present invention. The invention provides a safety tool management system, which comprises:
the information acquisition module 200 is used for acquiring the application information of the safety tool;
the time calculation module 300 is configured to start calculating the duration time of the delivery state of the security tool when the acceptance application information of the security tool is acquired;
the early warning module 400 is used for sending out early warning information to remind a worker to overhaul the safety tool after the duration time of the delivery state of the safety tool reaches a preset detection cycle time threshold;
the account standing module 100 is used for setting account standing information for the safety tool; the ledger information of the safety tool comprises the application state of the safety tool; the application states of the safety tools comprise a warehousing state and a ex-warehousing state; and when the application information of the safety tool is acquired, the application state of the safety tool is changed from the warehousing state to the ex-warehousing state.
The information acquisition module 200 is further configured to acquire warehousing application information of the safety tool;
the standing book module 100 is further configured to change the application state of the safety tool from the ex-warehouse state to the in-warehouse state after the warehousing application information of the safety tool is acquired.
The technical scheme is a basic scheme, and the safety tool is managed in the warehouse-out and warehouse-in modes by setting the ledger information. By setting the detection cycle time threshold, after the safety tool is taken out of the warehouse, when the warehouse-out state duration time of the safety tool reaches the detection cycle time threshold, early warning information is sent out to remind a worker to overhaul the safety tool.
Further, the ledger information of the safety tool also includes maintenance history information of the safety tool;
the information acquisition module 200 is further configured to acquire maintenance information;
the ledger module 100 is further configured to update maintenance history information of the safety tool after the maintenance information is acquired;
the time calculation module 300 is configured to, when the warehouse-out state duration of the safety tool does not reach a preset detection cycle time threshold, recalculate the warehouse-out state duration of the safety tool if the maintenance information is acquired;
the early warning module 400 is further configured to send early warning information all the time when the duration of the warehouse-out state of the safety tool reaches a preset detection cycle time threshold, and stop the sending until the maintenance information is obtained.
Here, the inspection history information of the safety tool includes an inspection time, an inspection item, an inspection result, and the like. The state of the corresponding safety tool can be known through the maintenance history information. By adopting the early warning technology, the purpose of timely overhauling the safety tool is realized. The overhaul items comprise after maintenance, preventive planned overhaul, state overhaul, reliability overhaul and the like. Preferably, the ledger information further includes specific parameters of the safety tool, spare part conditions, and post-overhaul legacy problems.
In another embodiment, the ledger information of the safety tool further includes service history information of the safety tool;
the information acquisition module 200 is further configured to acquire an early warning period and maintenance information;
the ledger module 100 is further configured to update maintenance history information of the safety tool after the maintenance information is acquired;
the time calculation module 300 is configured to, when the warehouse-out state duration of the safety tool does not reach a preset detection cycle time threshold, recalculate the warehouse-out state duration of the safety tool if the maintenance information is acquired;
the early warning module 400 is further configured to send early warning information every other early warning period after the duration of the warehouse-out state of the safety tool reaches a preset detection period time threshold, and stop until the maintenance information is obtained.
Further, the application state of the safety tool also comprises a scrapping state;
the information acquisition module 200 is further configured to acquire tool and instrument scrapping application information;
the standing book module 100 is further configured to change the application state of the safety tool from the delivery state to the scrapped state after the tool scrapping application information is acquired.
Here, through the process of scrapping, the safety tool that prevents to damage continues to use, avoids operating personnel consequently to be injured.
The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention, and any modifications, equivalents, improvements and the like that fall within the spirit and principle of the present invention are intended to be included therein.
Claims (10)
1. A safety tool management method is characterized by comprising the following steps:
step S1, setting ledger information for the safety tool; the ledger information of the safety tool comprises the application state of the safety tool; the application states of the safety tools comprise a warehousing state and a ex-warehousing state; acquiring the application information of the safety tool;
step S2, when the application information of the safety tool is acquired, the application state of the safety tool is changed from the warehousing state to the ex-warehouse state, and the duration time of the ex-warehouse state of the safety tool is started to be calculated;
and step S3, when the duration time of the delivery state of the safety tool reaches a preset detection period time threshold, sending out early warning information to remind a worker to overhaul the safety tool.
2. The safety tool management method according to claim 1, wherein the ledger information of the safety tool further includes repair history information of the safety tool;
step S3 further includes: acquiring maintenance information;
when the warehouse-out state duration time of the safety tool does not reach a preset detection cycle time threshold, if the maintenance information is obtained, the maintenance history information of the safety tool is updated, and the warehouse-out state duration time of the safety tool is recalculated;
and when the duration time of the ex-warehouse state of the safety tool reaches a preset detection period time threshold, sending early warning information all the time until the maintenance information is obtained, and updating the maintenance history information of the safety tool after the maintenance information is obtained.
3. The safety tool management method according to claim 1, wherein the ledger information of the safety tool further includes repair history information of the safety tool;
step S1 further includes: acquiring an early warning period; step S3 further includes: acquiring maintenance information;
when the warehouse-out state duration time of the safety tool does not reach a preset detection cycle time threshold, if the maintenance information is obtained, the maintenance history information of the safety tool is updated, and the warehouse-out state duration time of the safety tool is recalculated;
when the duration time of the delivery state of the safety tool reaches a preset detection period time threshold, early warning information is sent at intervals of one early warning period until the maintenance information is obtained, and when the maintenance information is obtained, the maintenance history information of the safety tool is updated.
4. The safety tool management method according to claim 2 or 3, wherein step S3 further includes: and acquiring warehousing application information of the safety tool, and changing the application state of the safety tool from the ex-warehouse state to the in-warehouse state after the warehousing application information of the safety tool is acquired.
5. The method of claim 1, wherein the application state of the safety tool further comprises a scrap state;
step S3 further includes: acquiring tool scrapping application information, and changing the application state of the safety tool from the ex-warehouse state to the scrapping state after the tool scrapping application information is acquired.
6. A safety tool management system, comprising:
the information acquisition module (200) is used for acquiring the application information of the safety tool;
the time calculation module (300) is used for starting to calculate the duration time of the ex-warehouse state of the safety tool when the acceptance application information of the safety tool is acquired;
the early warning module (400) is used for sending out early warning information to remind workers to overhaul the safety tools when the duration time of the delivery state of the safety tools reaches a preset detection cycle time threshold;
the account-standing module (100) is used for setting account-standing information for the safety tool; the ledger information of the safety tool comprises the application state of the safety tool; the application states of the safety tools comprise a warehousing state and a ex-warehousing state; and when the application information of the safety tool is acquired, the application state of the safety tool is changed from the warehousing state to the ex-warehousing state.
7. The safety tool management system of claim 6, wherein the ledger information of the safety tool further includes service history information of the safety tool;
the information acquisition module (200) is also used for acquiring maintenance information;
the machine account module (100) is further used for updating the maintenance history information of the safety tool after the maintenance information is acquired;
the time calculation module (300) is used for recalculating the ex-warehouse state duration of the safety tool if the overhaul information is acquired when the ex-warehouse state duration of the safety tool does not reach a preset detection cycle time threshold;
and the early warning module (400) is further used for sending early warning information all the time when the duration time of the delivery state of the safety tool reaches a preset detection period time threshold value, and stopping the process until the maintenance information is obtained.
8. The safety tool management system of claim 6, wherein the ledger information of the safety tool further includes service history information of the safety tool;
the information acquisition module (200) is also used for acquiring the early warning period and the maintenance information;
the machine account module (100) is further used for updating the maintenance history information of the safety tool after the maintenance information is acquired;
the time calculation module (300) is used for recalculating the ex-warehouse state duration of the safety tool if the overhaul information is acquired when the ex-warehouse state duration of the safety tool does not reach a preset detection cycle time threshold;
and the early warning module (400) is further used for sending early warning information at intervals of an early warning period after the warehouse-out state duration of the safety tool reaches a preset detection period time threshold value, and stopping the early warning until the maintenance information is obtained.
9. The safety tool management system according to claim 7 or 8, wherein the information acquisition module (200) is further configured to acquire warehousing application information of the safety tool;
the standing book module (100) is further used for changing the application state of the safety tool from the ex-warehouse state to the in-warehouse state after the warehousing application information of the safety tool is acquired.
10. The safety tool management system of claim 6, wherein the application status of the safety tool further comprises a scrap status;
the information acquisition module (200) is also used for acquiring tool and instrument scrapping application information;
and the standing book module (100) is further used for changing the application state of the safety tool from the delivery state to the scrapping state after the tool scrapping application information is acquired.
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