CN112348470A

CN112348470A - High-efficient registration of electron detonator and problem feedback system

Info

Publication number: CN112348470A
Application number: CN202011223039.1A
Authority: CN
Inventors: 郝亚飞; 张程娇; 黄雄; 周桂松; 肖青松; 胡兴银
Original assignee: China Gezhouba Group Yipuli Co ltd
Current assignee: China Gezhouba Group Yipuli Co ltd
Priority date: 2020-11-05
Filing date: 2020-11-05
Publication date: 2021-02-09
Anticipated expiration: 2040-11-05
Also published as: CN112348470B

Abstract

The invention discloses a high-efficiency registration and problem feedback system for an electronic detonator. The system for efficient registration and problem feedback of the electronic detonator comprises a processing module, a problem feedback module and a plurality of registration modules; the problem feedback module and the plurality of registration modules are respectively connected with the processing module; the processing module is used for dividing the explosion region into a plurality of fragment regions, then collecting and combining the registration information of a plurality of registration modules and receiving the information uploaded by the problem feedback module; the registration module is used for acquiring the electronic detonator information of the area and registering the electronic detonator; the problem feedback module is used for performing problem feedback.

Description

High-efficient registration of electron detonator and problem feedback system

Technical Field

The invention relates to the technical field of civil explosion initiation systems, in particular to a high-efficiency registration and problem feedback system for an electronic detonator.

Background

In recent years, under the influence of national policies, the annual increase speed of the use amount of the domestic electronic detonators is accelerated, and the market share is rapidly expanded. Since 2017, the usage of the industrial electronic detonators increases by more than 100%. With the increase of the using amount of the electronic detonator, the using frequency is increased, and under the condition, a user has to put forward higher requirements on the use convenience of the electronic detonator, so that the priming system can be driven to be continuously upgraded.

At present, the overall situation of an electronic detonator initiation system in the industry is as follows: most manufacturers separate the registration code from the initiation control, and specially customize and develop a system of the electronic detonator registration code to meet the requirement of the detonator registration code. The conventional system basically adopts a working mode of arranging the detonators into groups and registering and coding the detonators hole by hole after grouping, and because the detonators can only receive one registry and the registries formed by registering a plurality of registrants cannot be combined, only one registry can be used for registering. If the scale of the explosion area is large or a plurality of cannon areas exist, only one registration machine can be used for registration, the operation is not convenient and fast, the practicability is weak, the operation time is long, and the efficiency is low; meanwhile, if the problems of misfire, early detonation, late detonation and the like of the detonator are caused, field personnel need to report layer by layer and then inform relevant technical personnel to solve the problems, the information notification is seriously lagged, the problems cannot be solved in time, and the timeliness is insufficient.

Disclosure of Invention

The invention aims to overcome the defects that a plurality of registry registries can not be combined and one registry has low efficiency and untimely feedback in the prior art, and provides a high-efficiency electronic detonator high-efficiency registration and problem feedback system.

In order to achieve the above purpose, the invention provides the following technical scheme:

an efficient registration and problem feedback system for electronic detonators comprises a processing module, a problem feedback module and a plurality of registration modules; the problem feedback module and the plurality of registration modules are respectively connected with the processing module; the processing module is used for dividing the explosion region into a plurality of fragment regions, then collecting and combining the registration information of a plurality of registration modules and receiving the information uploaded by the problem feedback module; the registration module is used for acquiring the electronic detonator information of the area and registering the electronic detonator; the problem feedback module is used for performing problem feedback. And a plurality of registration modules register at the same time, so that the field registration time is shortened, and the working efficiency is improved. And reporting the problems in time to process and solve the problems.

Preferably, the processing module and the registration module generate a blast hole distribution map according to the blast hole arrangement position information of the blasting field. The graphical form display is more intuitive.

Preferably, the processing module stores blast hole arrangement position information of a blasting site and divides the fragment area according to the position information.

Preferably, the processing module comprises a blast hole distribution map segmentation unit and a blast hole distribution map merging unit; the blast hole distribution diagram segmentation unit is used for segmenting the blast hole distribution diagram of the explosion area to obtain the sheet area blast hole distribution diagram of each sheet area; and the blast hole distribution map merging unit is used for merging the sheet area blast hole distribution maps uploaded by the plurality of registration modules.

Preferably, the processing module further comprises a first delay time design unit. The delay time of a plurality of areas is related, so that the delay time design is convenient.

Preferably, the registration module includes a fragment area blast hole distribution diagram acquisition unit, a detonator registration unit and a second delay time design unit. If the delay time of a plurality of areas is not related, the delay time design is convenient to carry out.

Preferably, the registration module further includes a positioning unit, and the positioning unit is configured to collect current location information and transmit the current location information to the processing module, so as to obtain a shot hole distribution map of the current location. The accuracy and the safety are improved.

Preferably, the question feedback module comprises a text input uploading unit and an image acquisition unit. Facilitating better feedback problems.

Preferably, the system for efficient registration and problem feedback of the electronic detonator further comprises a problem analysis module, and the problem analysis module is connected with the processing module. The problem is timely treated, and the working efficiency is improved.

The problem feedback module further comprises an evaluation feedback unit, and the evaluation feedback unit is used for evaluating the solution measures provided by the problem analysis module.

Compared with the prior art, the invention has the beneficial effects that: through the simultaneous registration of a plurality of registration modules, the field registration time can be reduced, and the working efficiency is improved. When the detonator has a problem, the problem is reported through the problem feedback module, and relevant personnel of each unit receive the information and then analyze the problem and provide a solution, so that the field personnel can timely deal with the problem.

Description of the drawings:

fig. 1 is a system block diagram of an electronic detonator efficient registration and problem feedback system according to an exemplary embodiment 1 of the present invention;

FIG. 2 is a system block diagram of a processing module of an exemplary embodiment 1 of the present invention;

FIG. 3 is a system block diagram of a registration module of exemplary embodiment 1 of the present invention;

fig. 4 is a specific system block diagram of an electronic detonator efficient registration and problem feedback system according to an exemplary embodiment 1 of the present invention.

Detailed Description

The present invention will be described in further detail with reference to test examples and specific embodiments. It should be understood that the scope of the above-described subject matter is not limited to the following examples, and any techniques implemented based on the disclosure of the present invention are within the scope of the present invention.

Example 1

As shown in fig. 1, the embodiment provides an efficient electronic detonator registration and problem feedback system, which includes a processing module, a problem feedback module and a plurality of registration modules; the problem feedback module and the plurality of registration modules are respectively connected with the processing module; the processing module is used for dividing the explosion region into a plurality of fragment regions, then collecting and combining the registration information of a plurality of registration modules and receiving the information uploaded by the problem feedback module; the registration modules are used for respectively acquiring the electronic detonator information of the areas and registering the electronic detonators; the problem feedback module is used for performing problem feedback. The electronic detonator efficient registration and problem feedback system is mainly used for registering industrial electronic detonators in large-scale blasting areas or multiple blasting areas on site. In the blasting field, a plurality of persons and a plurality of devices can be simultaneously registered through a plurality of registration modules, when the registration tables are combined, the combination principle is that the detonators with the same detonator shell codes in the registration tables are identified to be the same, automatic identification and change are carried out through the serial numbers of the same detonators, splicing is realized, and the registration tables are spliced into one to obtain the final registration table. And a plurality of registration modules register at the same time, so that the field registration time is shortened, and the working efficiency is improved. When the detonator has a problem, field personnel report the problem through the problem feedback module, and relevant personnel of each unit receive the information and then analyze the problem and provide a solution, so that the field personnel can timely process and solve the problem.

The processing module and the registration module generate a standard blast hole distribution map according to the blast hole arrangement position information of the blasting field; the embodiment shows the position information of the blast holes through the blast hole distribution map, and is more intuitive.

The processing module stores blast hole arrangement position information of a blasting field and divides a fragment area according to the position information; the existing electronic detonator registration system only performs registration according to the serial number of the blast hole and the like, and is difficult to combine the information of the electronic detonator with the actual position information, namely, the specific information of the electronic detonator in the position area during actual construction is difficult to obtain, so that labor division registration operation is difficult during site construction. Compared with the above-mentioned merging of the registries by detonator shell codes, the embodiment merges the registries by the blast hole position information.

As shown in fig. 2, the processing module includes a blast hole distribution diagram segmentation unit and a blast hole distribution diagram merging unit; the blast hole distribution diagram segmentation unit is used for segmenting the blast hole distribution diagram of the explosion area to obtain the sheet area blast hole distribution diagram of each sheet area; and the blast hole distribution map merging unit is used for merging the sheet area blast hole distribution maps uploaded by the plurality of registration modules. Specifically, the explosion area may be divided into different areas in a grid manner, and in addition, the explosion area may be divided according to the terrain and the like.

The processing module further comprises a first delay time design unit; if the delay time of a plurality of areas is related and continuous time design is needed, the processing module firstly combines all the registration tables, then sets the initiation point, the initiation mode and the delay time among the hole rows and calculates the delay time of each blast hole. If the detonator is in the same blasting area and needs continuous time design, combining the registration tables firstly, wherein the combination principle is that the detonators with the same detonator shell code in the registration tables are identified as the same detonator, automatic identification and change are carried out through the serial numbers of the same detonator, splicing is realized, and the registration tables are spliced into one; and setting a detonating point, a detonating mode and delay time among the hole rows to calculate the delay time of each blast hole.

As shown in fig. 3, the registration module includes a fragment area blast hole distribution diagram obtaining unit, a detonator registration unit and a second delay time design unit; the fragment area blast hole distribution diagram acquisition unit is used for acquiring a fragment area blast hole distribution diagram divided by the processing module blast hole distribution diagram dividing unit; the detonator registration unit is used for performing registration operation on the electronic detonators in the area and inputting related information; and the second delay time design unit is used for designing delay time according to the actual situation of the parcel site. If the delay time of a plurality of areas is not related, each registration module is respectively provided with an initiation point, an initiation mode and delay time among hole rows of each area, the processing module collects and counts the initiation delay time of each cannon area, then sends the initiation delay time, after the initiation delay time is collected to a certain register, the delay time among the registration tables is set when the registration tables are combined, and the design is finished. The first delay time design unit or/and the second delay time design unit can be selected and set according to a specific application scene.

As shown in fig. 4, the registration module further includes a positioning unit, where the positioning unit is configured to collect current location information and transmit the current location information to the processing module, so as to obtain a shot hole distribution map of the current location. Compared with the manual selection of the film areas, the position of the current film area can be rapidly and accurately known through the positioning unit so as to obtain a corresponding film area blast hole distribution map; in addition, the positioning information acquired by the positioning unit can also be used as verification information of a blast hole distribution diagram of a corresponding block area sent by the processing module, so that the safety of information of different block areas is ensured.

The problem feedback module comprises a character input uploading unit and an image acquisition unit. When the detonator has a problem, the field personnel selects the problem report (such as the single detonator detection problem, the pin line bayonet problem, the networking detection problem, the detonator misfire problem and the like) after clicking to enter the blasting task by finding out the blasting task with the detonator fault, and fills in the corresponding information of the blasting design, the position of the problem detonator, the tube shell code of the problem detonator, the chip code, the contact way and the like. Specifically, the information is filled in a text description, a photo or a video mode for uploading.

The system for efficient registration and problem feedback of the electronic detonator further comprises a problem analysis module, and the problem analysis module is connected with the processing module. When the processing module acquires the information uploaded by the problem feedback module, the problem is pushed to the problem analysis module, the problem analysis module analyzes and provides corresponding solving measures to upload to the processing module, the processing module pushes the solving measures to field uploading personnel of the problem feedback module, and the field personnel timely process the solving problems according to the solving measure method. Namely, after the problem analysis module receives the feedback problem, the problem analysis module can be connected with a multi-party platform to better understand the information and process the problem. For example, the problem analysis module end can be connected with platforms of units such as manufacturers, chip manufacturers, supervision departments, management departments and the like, so that technicians of related platforms can fill in production batches of accessories of detonators, use raw materials, problem analysis and solution measures after checking related problem descriptions through the problem analysis module, namely, the blasting field constructors can conveniently deal with problems in time by building a multi-party communication platform.

The problem feedback module further comprises an evaluation feedback unit, and the evaluation feedback unit is used for evaluating the solution measures provided by the problem analysis module. The field personnel evaluate and feed back the problem solving measures, so that the problem is timely and effectively solved, corresponding units are evaluated and scored, and the follow-up problem is continuously and effectively solved. For example, if a problem still exists after a solution is implemented, the evaluation feedback unit performs feedback again to re-analyze the problem and deal with the problem as soon as possible.

The invention has the advantages of solving the problems of inconvenient field registration, insufficient practicability, complex operation and insufficient timeliness of industrial electronic detonators in large-scale open-air deep hole blasting fields. The explosion region is divided into a plurality of areas, so that electronic detonator registration of a plurality of persons and a plurality of devices is realized at the same time, the practicability is high, the operation is convenient, the operation time can be reduced, and the working efficiency is improved; meanwhile, if the detonator has the problems of refusal explosion, early explosion, late explosion and the like, the problem can be reported through a multi-party communication platform built by the system, after the report is filled according to requirements, the system automatically pushes the problem to a manufacturer, a chip manufacturer, a supervision department, a management department and the like, relevant personnel of each unit receive the information and analyze the information within specified time, provide corresponding solutions to upload the information to the system, and automatically push the information to field uploading personnel by the system, and the field personnel timely process and solve the problems according to the solutions.

Example 2

The embodiment provides a specific working example of efficient registration and problem feedback system registration of the electronic detonator. When a certain mine is subjected to open-air blasting, the blasting area is provided with 3 rows of blasting holes in a quincunx arrangement, the hole pitch is 9m, the row pitch is 5m, the first row is provided with 35 blasting holes, the second row is provided with 38 blasting holes, the third row is provided with 42 blasting holes, a single detonator is arranged under each blasting hole, in order to ensure the construction efficiency, the blasting area is divided into three areas on site according to the number of rows, three site technicians use three registrars for registration, after the registration is completed, the three registrars are gathered into one registry, the registrars are combined according to the sequence of the blasting areas, after the combination is completed, the first blasting hole on the first row on the left is selected as an initiation point, a single-hole single-sound initiation mode is selected for reducing blasting vibration, the inter-hole delay is 17ms, and the inter-row delay is 42ms, and the site registration and delay design of the electronic detonator are completed. The combined registry is then transferred to an initiator in preparation for initiation.

By adopting the high-efficiency registration and problem feedback system for the industrial electronic detonator, the problems of inconvenience in field registration, insufficient practicability and complex operation of the industrial electronic detonator in a large-scale open-air deep hole blasting field are solved. The method which is most suitable for on-site electronic detonator registration is designed, the construction mode is optimized, the operation is simple and convenient, the practicability is high, and the working efficiency can be effectively improved.

Example 3

The embodiment provides a specific working example of problem feedback of an electronic detonator efficient registration and problem feedback system. A blind shot is found when a certain mine is excavated, transported and transported, a field technician takes pictures and photographs after arriving at the field, finds out the blasting design of the blasting and the specific position of the blind shot, enters a problem feedback module after entering the system, selects the current blasting task, uploads the blasting design, pictures and videos and carries out text description, describes the regional position of the blind shot and the conditions of the detonator in detail and leaves a contact telephone.

The processing module automatically pushes the problem to a manufacturer and a chip manufacturer through the problem analysis module. Production factories and chip factory technicians immediately explain detonator production batches, chip production batches and production use materials, and confirm that the detonator, the chip materials and the production process have no problems, and the detonator has no problems in the detection process before use, possibly that in the detonation process, the electronic detonator is influenced by the blasting vibration of adjacent blast holes, so that the detonator shell is damaged, the initiating explosive is lost or the chip is damaged, so that the detonator is not detonated, or the quality of the initiating explosive has problems, and the detonator is detonated but the initiating explosive is not detonated, so that a blind shot occurs, and the reason for the blind shot occurrence can be further confirmed if the appearance of the detonator can be confirmed; the solution is that a parallel hole can be additionally drilled at a position which is not less than 10 times of the diameter of the blast hole from the orifice of the blind gun for explosive charging and detonating.

And (3) processing the blind gun blastholes by field technicians according to the solution mode, photographing and uploading a processing result after the processing is finished, evaluating the timeliness, effectiveness and the like of the problems processed by a production plant and a chip plant, and finishing the problem processing.

The foregoing is merely a detailed description of specific embodiments of the invention and is not intended to limit the invention. Various alterations, modifications and improvements will occur to those skilled in the art without departing from the spirit and scope of the invention.

Claims

1. An efficient registration and problem feedback system for electronic detonators is characterized by comprising a processing module, a problem feedback module and a plurality of registration modules; the problem feedback module and the plurality of registration modules are respectively connected with the processing module; the processing module is used for dividing the explosion region into a plurality of fragment regions, then collecting and combining the registration information of a plurality of registration modules and receiving the information uploaded by the problem feedback module; the registration module is used for acquiring the electronic detonator information of the area and registering the electronic detonator; the problem feedback module is used for performing problem feedback.

2. The system for efficient electronic detonator registration and problem feedback as claimed in claim 1, wherein the processing module and the registration module generate a blast hole distribution map according to the blast hole arrangement position information of the blasting site.

3. The system for efficient electronic detonator registration and problem feedback as claimed in claim 2, wherein the processing module stores blast hole arrangement position information of a blasting site and divides the fragmentation zone according to the position information.

4. The system for efficient electronic detonator registration and problem feedback according to claim 2, wherein the processing module comprises a blast hole distribution map segmentation unit and a blast hole distribution map merging unit; the blast hole distribution diagram segmentation unit is used for segmenting the blast hole distribution diagram of the explosion area to obtain the sheet area blast hole distribution diagram of each sheet area; and the blast hole distribution map merging unit is used for merging the sheet area blast hole distribution maps uploaded by the plurality of registration modules.

5. The electronic detonator efficient registration and problem feedback system of claim 1, wherein the processing module further comprises a first latency design unit.

6. The system for efficient electronic detonator registration and problem feedback as claimed in claim 4, wherein the registration module comprises a patch hole distribution diagram acquisition unit, a detonator registration unit and a second postponed time design unit.

7. The system for efficient electronic detonator registration and problem feedback of claim 6, wherein the registration module further comprises a positioning unit, wherein the positioning unit is used for collecting current position information and transmitting the current position information to the processing module so as to obtain a fragment area blast hole distribution map of the current position.

8. The system for efficient electronic detonator registration and problem feedback of claim 1, wherein the problem feedback module comprises a text input uploading unit and an image acquisition unit.

9. The system for efficient electronic detonator registration and problem feedback of claim 1 further comprising a problem analysis module, wherein the problem analysis module is connected to the processing module.

10. The system for efficient electronic detonator registration and problem feedback of claim 9, wherein the problem feedback module further comprises an evaluation feedback unit for evaluating the solution provided by the problem analysis module.