CN113689139A

CN113689139A - Industrial detonator real-time verification algorithm for verification of nuclear marketing

Info

Publication number: CN113689139A
Application number: CN202111043624.8A
Authority: CN
Inventors: 龙卫东; 白玉刚
Original assignee: Inner Mongolia Hongxuan Iot Information Technology Co ltd; Beijing Yibai Technology Co ltd
Current assignee: Inner Mongolia Hongxuan Iot Information Technology Co ltd; Beijing Yibai Technology Co ltd
Priority date: 2021-09-07
Filing date: 2021-09-07
Publication date: 2021-11-23

Abstract

The invention relates to the technical field of industrial detonator core-selling, and discloses an industrial detonator real-time core-selling verification algorithm, wherein an import system monitors an industrial detonator, the industrial detonator needs to pass through a detonator shell code, an original code, a sales code, an anti-counterfeiting code, a work code, a management control code and a detonation permission instruction code, the industrial detonator needs to sequentially pass through the steps for coding, the industrial detonator needs to enter a safety monitoring detonator step, and the industrial detonator needs to enter a detonation key adapter step. The comprehensive recording of the detonator is ensured, and the situation of checking is avoided.

Description

Industrial detonator real-time verification algorithm for verification of nuclear marketing

Technical Field

The invention relates to the technical field of industrial detonator core-verification, in particular to an industrial detonator real-time core-verification algorithm.

Background

The detonator is the main initiation material of blasting engineering, and its function is to produce initiation energy to detonate various explosives, detonating cord and detonating tube, the detonator is divided into two kinds of detonator and electric detonator, the underground coal mine uses electric detonator, the electric detonator is divided into instantaneous electric detonator and delay electric detonator, and the delay electric detonator is divided into second delay electric detonator and millisecond delay electric detonator.

The industrial detonator is mainly suitable for small blasting operation, is mainly applied to underground and open blasting engineering without the danger of methane and mine dust explosion, and can also be used for initiating explosive, detonating cord, detonating tube and the like, but the industrial detonator has a quality guarantee date, and is relatively dangerous when being used once the quality guarantee date is exceeded, so that the detonator exceeding the quality guarantee period needs to be timely destroyed and treated to avoid the occurrence of safety accidents.

In the traditional industrial detonator destroying technology, blasting personnel generally arrive at an appointed blasting site and are detonated in a burying mode, a specific nuclear pin algorithm is not available for nuclear pin verification during the nuclear pin verification, and certain potential safety hazards exist probably under the condition that more detonators are destroyed simultaneously, so that a specific detonator destroying algorithm is needed to improve certain safety and accuracy during detonator destroying.

Disclosure of Invention

In order to overcome the above defects in the prior art, the embodiment of the present invention provides an industrial detonator real-time verification algorithm, and the technical problem to be solved by the present invention is: the safe and accurate detonator destruction verification algorithm is provided.

As shown in fig. 1-2, an industrial detonator real-time verification algorithm includes the following operation steps:

s1, after the industrial detonator is produced, entering a step leading-in system through a verification and cancellation algorithm, and judging whether the industrial detonator can be normally used or not by seeing whether sound waves can be led in, after the step leading-in system, enabling the qualified industrial detonator to enter a detonator shell code, enabling the unqualified industrial detonator to enter a safe destruction device for destruction, enabling the detonator entering the detonator shell code to sequentially enter an original code, a sales code, a detonation time code, an anti-counterfeiting code, a work code, a management control code and a detonation permission instruction code, sequentially encoding and recording the encoded detonator in a national safety center;

s2, the industrial detonator after the encoding is finished needs to enter the step safety monitoring exploder, the safety monitoring and management for the whole life cycle of the industrial detonator are carried out on the exploder, the safety of the exploder is guaranteed, the industrial detonator after the encoding is finished enters the step ignition key adapter and is installed, the effect of an application electronic key for controlling the ignition of the industrial detonator is achieved, and the exploder enters the step assembly transportation after all the parts are installed;

s3, carrying out transportation distribution processing when the industrial detonator enters the assembly transportation, sending the industrial detonator to a designated position, entering the lead-in system again for carrying out detection experiments, entering the detected result into the lead-in system, screening to obtain qualified data and unqualified data, and entering the safe destruction system for processing;

s4, after the industrial detonator entering the quantity code is coded again, the industrial detonator enters the step of normal distribution for distribution, after the distribution is finished, the industrial detonator enters the step of checking without errors after being confirmed and verified by a retriever and a supervisor together, and enters the step of starting to detonate for detonation under the control of a worker.

In a preferred scheme, the import system monitors the industrial detonators, and the import screens the monitored results.

In a preferred scheme, the industrial detonator needs to be coded through a detonator shell code, an original code, a sales code, a detonation time code, an anti-counterfeiting code, a working code, a management control code and a detonation permission instruction code, and the industrial detonator needs to be coded through the steps in sequence.

In a preferred solution, the industrial detonator is required to enter a safety monitoring initiator step, and the industrial detonator must enter a priming key adaptor step.

In a preferred scheme, the industrial detonator needs to be recoded through a number code, and the industrial detonator can be used after being confirmed by a retriever and a supervisor when being distributed.

The invention has the technical effects and advantages that:

1. the invention is beneficial to selecting unqualified industrial detonators and ensuring the quality of the industrial detonators by arranging the leading-in system, and is beneficial to carrying out detailed recording on the information of the industrial detonators by arranging the detonator shell code, the original code, the sales code, the detonation time code, the anti-counterfeiting code, the work code, the management control code and the detonation permission instruction code, thereby ensuring the comprehensive recording of the detonators and avoiding the occurrence of checking;

2. the invention enters the step of safety monitoring the detonator through the industrial detonator, is beneficial to the safety monitoring and management of the whole life cycle of the industrial detonator and plays a certain safety role, the safety monitoring detonator is started through the detonating key adapter, the real-time quantity monitoring is facilitated through the quantity coding, and the invention is beneficial to the use after the double confirmation of the working personnel and the real-time monitoring of the detonator quantity through the arrangement of the picking personnel and the supervision personnel.

Drawings

FIG. 1 is a schematic diagram of the first half verification algorithm of the present invention.

FIG. 2 is a diagram of the second half of the verification algorithm of the present invention.

The reference signs are: 1. a verification and cancellation algorithm; 2. importing a system; 3. importing; 4. safe destruction is carried out; 5. stacking the shell of the detonator; 6. original coding; 7. a sales code; 8. coding the detonation time; 9. anti-counterfeiting codes; 10. a working code; 11. a management control code; 12. a detonation-permitting instruction code; 13. a safety monitoring detonator; 14. detonating the key adapter; 15. assembling and transporting; 16. quantity coding; 17. normally distributing; 18. a person is picked up; 19. a supervisor; 20. checking to be correct; 21. initiation of detonation commences.

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.

s1, after the industrial detonator is produced, entering a step leading-in system 2 through a verification and cancellation algorithm 1, judging whether the industrial detonator can be normally used or not by seeing whether sound waves can be led in, after the step leading-in system 2, entering qualified industrial detonators into a detonator shell code 5, entering unqualified industrial detonators into a safe destruction 4 for destruction, entering detonators in the detonator shell code 5, and sequentially entering an original code 6, a sales code 7, a detonation time code 8, an anti-counterfeiting code 9, a work code 10, a management control code 11 and a detonation permission instruction code 12 for sequential encoding and recording to a national security center;

s2, the industrial detonator after the encoding is finished needs to enter the step safety monitoring initiator 13, the safety monitoring and management for the whole life cycle of the industrial detonator are carried out on the industrial detonator, the safety of the industrial detonator is guaranteed, the industrial detonator after the encoding is finished enters the step initiation key adapter 14 and is installed, the effect of an application electronic key for controlling the initiation of the industrial detonator is achieved, and the industrial detonator after all the industrial detonator are installed enters the step assembly transportation 15;

s3, carrying out transportation distribution processing when the industrial detonator enters the assembly transportation 15, sending the industrial detonator to a designated position, entering the import system 2 again for detection experiment, entering the detected result into the import system 3, screening, entering the quantity code 16 if the detected result meets the condition, entering the safe destruction 4 if the detected result does not meet the condition, and carrying out processing;

s4, after the industrial detonator entering the quantity code 16 is coded again, the industrial detonator enters the step normal distribution 17 for distribution, after the distribution is finished, the industrial detonator enters the step check 20 after being confirmed and verified by the retriever 18 and the supervisor 19, and enters the step initiation 21 for detonation under the control of the staff.

Furthermore, the leading-in system 2 monitors the industrial detonator, the leading-in system 3 screens the monitored result, and the leading-in system 2 is arranged, so that unqualified industrial detonators can be selected conveniently, and the quality of the industrial detonators is guaranteed.

Further, the industrial detonator needs to be coded by the detonator shell code 5, the original code 6, the sales code 7, the detonation time code 8, the anti-counterfeiting code 9, the work code 10, the management control code 11 and the detonation permission instruction code 12 in sequence, and the industrial detonator is provided with the detonator shell code 5, the original code 6, the sales code 7, the detonation time code 8, the anti-counterfeiting code 9, the work code 10, the management control code 11 and the detonation permission instruction code 12, so that the detailed recording of the information of the industrial detonator is facilitated, the comprehensive recording of the detonator is ensured, and the occurrence of checking is avoided.

Further, the step of industrial detonator entering the safety monitoring initiator 13, the step of industrial detonator entering the initiation key adapter 14 and the step of industrial detonator entering the safety monitoring initiator 13 are beneficial to safety monitoring and management of the whole life cycle of the industrial detonator, a certain safety function is achieved, and the safety monitoring initiator 13 is started through the initiation key adapter 14.

Further, the industrial detonator needs to be recoded through the number code 16, and the industrial detonator can be used only after being confirmed by the personnel 18 and the supervision personnel 19 during distribution, and is beneficial to monitoring of real-time number through being provided with the number code 16, and is beneficial to being used after being dually confirmed by the workers through being provided with the personnel 18 and the supervision personnel 19, so that the real-time monitoring of the number of the detonators is facilitated.

The points to be finally explained are: first, in the description of the present application, it should be noted that, unless otherwise specified and limited, the terms "mounted," "connected," and "connected" should be understood broadly, and may be a mechanical connection or an electrical connection, or a communication between two elements, and may be a direct connection, and "upper," "lower," "left," and "right" are only used to indicate a relative positional relationship, and when the absolute position of the object to be described is changed, the relative positional relationship may be changed;

secondly, the method comprises the following steps: in the drawings of the disclosed embodiments of the invention, only the structures related to the disclosed embodiments are referred to, other structures can refer to common designs, and the same embodiment and different embodiments of the invention can be combined with each other without conflict;

and finally: 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 are within the spirit and principle of the present invention are intended to be included in the scope of the present invention.

Claims

1. The real-time verification algorithm for the nuclear marketing of the industrial detonator is characterized by comprising the following operation steps of:

s1, after the industrial detonator is produced, entering a step leading-in system (2) through a verification and cancellation algorithm (1), judging whether the industrial detonator can be normally used or not by seeing whether sound waves can be led in, entering qualified industrial detonators into a detonator shell code (5) after the step leading-in system (2), entering unqualified industrial detonators into a safe destruction (4) for destruction, entering detonators in the detonator shell code (5), and sequentially entering an original code (6), a sales code (7), a detonation time code (8), an anti-counterfeiting code (9), a work code (10), a management control code (11) and a detonation permission instruction code (12) for encoding and recording the encoded data in a national security center;

s2, the industrial detonator after the coding is finished needs to enter a step safety monitoring initiator (13) to be subjected to safety monitoring and management for the whole life cycle of the industrial detonator, the safety of the industrial detonator is guaranteed, the finished industrial detonator enters a step initiation key adapter (14) and is installed, an application electronic key for controlling the initiation of the industrial detonator is played, and the industrial detonator enters a step assembly transportation (15) after all the industrial detonator is installed;

s3, carrying out transportation distribution processing when the industrial detonator enters the assembly transportation (15), sending the industrial detonator to a designated position, entering the import system (2) again for detection experiment, entering the detected result into the import system (3), screening, entering the quantity code (16) which meets the condition, entering the safety destruction (4) which does not meet the condition, and processing;

s4, after the industrial detonator entering the quantity code (16) is coded again, the industrial detonator enters the step of normal distribution (17) for distribution, after the distribution is finished, the industrial detonator enters the step of checking without errors (20) after being confirmed and checked by a retriever (18) and a supervisor (19), and enters the step of starting detonation (21) for detonation under the control of a worker.

2. The real-time verification algorithm for the nuclear cancellation of the industrial detonator according to claim 1, wherein: the leading-in system (2) monitors the industrial detonators, and the leading-in system (3) screens the monitored results.

3. The real-time verification algorithm for the nuclear cancellation of the industrial detonator according to claim 1, wherein: the industrial detonator needs to pass through a detonator shell code (5), an original code (6), a sales code (7), a detonation time code (8), an anti-counterfeiting code (9), a working code (10), a management control code (11) and a detonation permission instruction code (12), and the industrial detonator needs to pass through the steps in sequence for coding.

4. The real-time verification algorithm for the nuclear cancellation of the industrial detonator according to claim 1, wherein: the industrial detonator needs to enter a safety monitoring initiator (13) step, and the industrial detonator needs to enter a detonation key adapter (14) step.

5. The real-time verification algorithm for the nuclear cancellation of the industrial detonator according to claim 1, wherein: the industrial detonator needs to be recoded by a number code (16), and the industrial detonator is distributed and can be used after being confirmed by a retriever (18) and a supervisor (19).