CN111829404B - Method and system for setting electronic detonator hole numbers and delay time in batch - Google Patents

Abstract

The invention discloses a method and a system for setting electronic detonator hole numbers and delay time in batches, wherein the method comprises the following steps: s1: registering an electronic detonator to be detonated in a detonator; s2: setting the hole number corresponding to each electronic detonator in batch; s3: and setting the delay time of each generator detonator based on the hole number of the electronic detonator. The system is based on the method. The invention has the advantages that the design of the blasting scheme and the management of the on-site electronic detonator are convenient; the inter-hole delay and the in-hole delay of the electronic detonators can be randomly designed in a segmented and batch manner; the operation efficiency is improved, and meanwhile, the standardization of blasting operation is also improved; the two function blocks of the batch setting of the hole numbers and the batch setting of the time delay are independent, the setting mode is flexible, and the requirement of the design of an actual blasting scheme is met.

Description

Method and system for setting electronic detonator hole numbers and delay time in batches

Technical Field

The invention relates to the field of electronic detonators, in particular to a method and a system for setting electronic detonator hole numbers and delay time in batches.

Background

The electronic detonator is a special detonator integrated with an electronic chip inside, the core technology of the electronic detonator is to control delay detonation through the chip, the electronic detonator is characterized by high delay precision, flexible setting and modification of delay time, and the use of the electronic detonator can improve the blasting effect in engineering blasting, mining blasting, building demolition and other blasting compared with the common electric detonator. The delay time stored in the electronic detonators after leaving the factory is a uniform fixed delay time, the delay time (millisecond level) of each electronic detonator is required to be set on site according to the actual blasting requirement on the blasting site, the delay time of the detonation is required to be set according to the actual position of a hole on the general blasting site, the delay time for driving explosives in the hole to detonate is the delay time of the electronic detonator, multiple electronic detonators are arranged in one hole in the medium-length hole blasting, the micro-difference blasting in the hole can be set according to the actual requirement under the condition of multiple blasting in the hole, and the blasting scheme determines the detonation delay time of the electronic detonators in different holes. Each electronic detonator is provided with a unique UID code when leaving a factory, and is written into a power-down storage unit in the chip, and the electronic detonators which are placed into different holes are distinguished by the detonator in the blasting field through obtaining the UID code stored in the electronic detonators.

The environment of the blasting site is complex and changeable, different blasting schemes are required to be set in each different blasting environment and each blasting, and the flexible and convenient setting of the delay scheme becomes more important.

Disclosure of Invention

In view of the above, one of the purposes of the present invention is to provide a method for setting the hole numbers and the delay times of electronic detonators in batch, which can arbitrarily segment and batch design the inter-hole delay and the in-hole delay of the electronic detonators, thereby greatly improving the operation efficiency, and simultaneously improving the normalization of blasting operation.

The purpose of the invention is realized by the following technical scheme:

a method for setting electronic detonator hole numbers and delay time in batches,

s1: registering an electronic detonator to be detonated in an initiator;

s2: setting the hole number corresponding to each electronic detonator in batch;

s3: and setting the delay time of each generator detonator based on the hole number of the electronic detonator.

Further, S1 specifically is:

s11: collecting the UID code of the electronic detonator by adopting a code scanning or contact mode;

s12: distributing serial numbers to the electronic detonators according to the sequence of the acquisition, so that the serial numbers of the electronic detonators correspond to the UID codes one by one;

s13: and displaying the corresponding relation between the serial number and the UID code in an LCD display screen.

Further, S2 specifically is:

and determining the starting serial number and the ending serial number of the electronic detonator to be detonated based on the serial number of the electronic detonator obtained in the step S1, and determining the hole number of each generator detonator according to the mapping relation between the serial numbers and the number of the detonators.

Further, the hole number is expressed as: X-Y;

wherein: x represents the well number;

and Y represents the ordinal number of the electronic detonator in the hole.

Further, the S3 specifically is: and obtaining the delay time of each generator detonator based on the delay data of the hole number.

Further, the delay data includes an initial hole number, a stop hole number, an initial delay, an inter-hole delay, and an intra-hole delay.

A system for setting electronic detonator hole numbers and delay times in batches based on a method for setting electronic detonator hole numbers and delay times in batches comprises:

the data acquisition module is used for acquiring the UID code and the serial number of the electronic detonator;

the hole number generating module generates the hole number of each electronic detonator in batches based on the starting sequence number, the ending sequence number and the number of the electronic detonators;

and the delay generation module generates delay time of each generator detonator in batches based on the initial hole number, the cut-off hole number, the initial delay, the inter-hole delay and the in-hole delay.

The invention has the beneficial effects that:

(1) the method is characterized in that hole numbers are set in batches according to sequence numbers, particularly in a blasting scene with multiple holes, the actual blasting hole numbers and the detonators are in one-to-one correspondence, and the design of a blasting scheme and the management of on-site electronic detonators are facilitated.

(2) The time delay among the holes and the time delay in the holes of the electronic detonators can be designed in batch in any sections.

(3) The method can be used for presetting a delay scheme in batches and then registering the delay of the electronic detonators, and if the delay scheme of the blasting site is clear, the delay scheme can be set in advance, so that the operation efficiency is greatly improved, and meanwhile, the normalization of blasting operation is also improved.

The advantage (4) lie in setting up the hole number in batches and set up two function blocks of time delay in batches independently, and the mode of setting up is nimble, accords with the needs of the design of actual blasting scheme.

Additional advantages, objects, and features of the invention will be set forth in part in the description which follows and in part will become apparent to those having ordinary skill in the art upon examination of the following or may be learned from practice of the invention. The objectives and other advantages of the invention may be realized and attained by the means of the instrumentalities and combinations particularly pointed out hereinafter.

Drawings

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention will be further described in detail with reference to the accompanying drawings, in which:

FIG. 1 is a flow chart of the present invention;

FIG. 2 is a schematic diagram of an input mode of a hole number generation module;

FIG. 3 is a schematic diagram of a hole number generation list;

FIG. 4 is a schematic diagram of an input manner of batch generation delay;

FIG. 5 is a schematic diagram of a batch production delay state.

Detailed Description

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. It should be understood that the preferred embodiments are illustrative of the invention only and are not limiting upon the scope of the invention.

The embodiment provides a method for setting electronic detonator hole numbers and delay time in batches, and as shown in fig. 1, the method specifically comprises the following steps:

s1: registering the electronic detonators to be detonated in the detonator.

S11: and collecting the UID code of the electronic detonator by adopting a code scanning or contact mode.

S12: and allocating serial numbers to the electronic detonators according to the sequence of acquisition, so that the serial numbers of the electronic detonators correspond to the UID codes one by one.

S13: the correspondence (registration list) between the serial number and the UID code is displayed on the LCD display screen.

S2: and setting the hole number corresponding to each electronic detonator in batch.

Specifically, the starting serial number and the ending serial number of the electronic detonator to be detonated are determined based on the serial number of the electronic detonator obtained in the step S1, and the hole number of each electronic detonator is determined according to the mapping relation between the serial numbers and the number of the electronic detonators.

The well number is expressed as: wherein: x represents the number of wells; y represents the serial number of the electronic detonator in the hole.

For example, in step S1, each electronic detonator corresponds to a unique serial number, and the registration list calculates the hole number corresponding to the electronic detonator according to the set parameters by inputting the start serial number, the stop serial number, and the number of electronic detonators in the hole. If the starting serial number 1, the stopping serial number N and the number of the holes distributed in the holes are 1, the hole numbers of the electronic detonators corresponding to the serial numbers 1 to N of the electronic detonators are 1-1, 2-1 and 3-1 \8230, 8230and N-1 in sequence, wherein N is the serial number of the holes; if the starting serial number 3, the ending serial number 6 and the number of the electronic detonators in the hole are designed to be 2, the hole numbers of the electronic detonators corresponding to the serial numbers 3 to 6 of the electronic detonators are 3-1, 3-2, 4-1 and 4-2 in sequence, the hole number display consists of two parts of numbers, the front number represents the serial number of the hole, and the number behind the cross bar represents the number of the electronic detonators in the hole.

S3: and setting time delay data based on the hole numbers of the electronic detonators, wherein the time delay data comprises an initial hole number, a stop hole number, an initial time delay, an inter-hole time delay and an in-hole time delay, and further setting the time delay of each electronic detonator in batches.

The embodiment also provides a system for setting the electronic detonator hole numbers and the delay time in batches based on the method for setting the electronic detonator hole numbers and the delay time in batches, which comprises

And the data acquisition module is used for acquiring the UID code and the serial number of the electronic detonator and generating a registration list, wherein the UID of the electronic detonator corresponds to the serial number one by one.

And the hole number generating module is used for generating the hole number of each electronic detonator in batches based on the initial sequence number, the ending sequence number and the number of the electronic detonators. The starting serial number, the ending serial number and the number of the electronic detonator are manually input, as shown in fig. 2, and then a list shown in fig. 3 is automatically generated.

And the delay generation module generates delay time of each generator detonator in batches based on the initial hole number, the cut-off hole number, the initial delay, the inter-hole delay and the in-hole delay. As shown in fig. 4, a generated list of batch delay settings is shown in fig. 5 by setting an initial hole number, a stop hole number, an initial delay, an inter-hole delay, and an in-hole delay.

Finally, the above embodiments are only intended to illustrate the technical solutions of the present invention and not to limit the present invention, and although the present invention has been described in detail with reference to the preferred embodiments, it will be understood by those skilled in the art that modifications or equivalent substitutions may be made on the technical solutions of the present invention without departing from the spirit and scope of the technical solutions, and all of them should be covered by the claims of the present invention.

Claims (2)

1. A method for setting electronic detonator hole numbers and delay time in batches is characterized by comprising the following steps:

s1: registering an electronic detonator to be detonated in an initiator;

s11: collecting the UID code of the electronic detonator by adopting a code scanning or contact mode;

s12: distributing serial numbers to the electronic detonators according to the sequence of the acquisition, so that the serial numbers of the electronic detonators correspond to the UID codes one by one;

s13: displaying the corresponding relation between the serial number and the UID code in an LCD display screen;

s2: the hole number corresponding to each electronic detonator is set in batches, and the hole number corresponding to the electronic detonators is expressed as: X-Y, wherein: x represents the number of the blast hole, and Y represents the ordinal number of the electronic detonator in the hole;

the S2 specifically comprises the following steps: determining the starting serial number and the ending serial number of the electronic detonator to be detonated based on the serial number of the electronic detonator obtained in the step S1, and determining the hole number of each generator detonator according to the mapping relation between the serial numbers and the number of the electronic detonators;

s3: setting the delay time of each generator detonator based on the hole number of the electronic detonator;

the S3 specifically comprises the following steps: and obtaining the delay time of each generator detonator based on the delay data of the hole number.

2. The method for batch setting of the electronic detonator hole number and the delay time according to claim 1, wherein: the delay data includes an initial hole number, a stop hole number, an initial delay, an inter-hole delay, and an intra-hole delay.

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