CN113781260A - Detonator registration method and system of detonator and storage medium - Google Patents

Abstract

The invention discloses a detonator registration method, a system and a storage medium of an initiator, wherein the detonator registration method of the initiator comprises the following steps: initializing registered detonators to output list information to be registered, wherein the list information to be registered comprises detonator information corresponding to holes to be registered; receiving a registration operation instruction fed back by a user to determine detonator registration operation; and determining the detonator to be registered corresponding to the hole to be registered according to the detonator registration operation, and corresponding the hole number of the hole to be registered and the coding information of the detonator to be registered so as to output detonator registration information. The invention realizes that the user can select different detonator registration operations according to different detonators to complete the registration of the detonators, thereby improving the flexibility of detonator registration and improving the experience of the user in detonator registration.

Description

Detonator registration method and system of detonator and storage medium

Technical Field

The invention relates to the technical field of initiating explosive device application, in particular to a detonator registration method and system of an initiator and a storage medium.

Background

The detonator needs to be registered before controlling the detonator to detonate the explosive, and the detonator registration also establishes the corresponding relation between the detonator code and the hole number. Because the hole network parameters in normal blasting construction usually have specific requirements in a construction scheme, the detonator construction process is strictly executed according to the construction scheme, and the detonator registration mode can only be registered in a fixed mode, if field technicians need to determine detonator registration operation according to actual conditions, however, the detonator registration method in the related art can only be fixed, and can not be selected by other registration methods, so that the flexibility of detonator registration is limited.

Disclosure of Invention

The present invention is directed to solving at least one of the problems of the prior art. Therefore, the detonator registration method of the initiator is provided, and the detonator can be registered according to the registration operation mode selected by the user, so that the flexibility of detonator registration is improved, and the experience of the user in detonator registration is further improved.

The invention also provides a detonator registration system of the initiator.

The invention also provides a computer readable storage medium.

In a first aspect, an embodiment of the present invention provides a detonator registration method for an initiator, which initializes a registered detonator to output list information to be registered, where the list information to be registered includes detonator information corresponding to a hole to be registered;

receiving a registration operation instruction fed back by a user to determine detonator registration operation;

and determining the detonator to be registered corresponding to the hole to be registered according to the detonator registration operation, and corresponding the hole number of the hole to be registered and the coding information of the detonator to be registered so as to output detonator registration information.

The detonator registration method of the initiator of the embodiment of the invention at least has the following beneficial effects: the user can select different detonator registration operations according to different detonators to complete the registration of the detonators, so that the flexibility of detonator registration is improved, and the experience of the user in detonator registration is improved.

According to the detonator registration method of the initiator according to another embodiment of the present invention, initializing the registered detonators to output the list information to be registered includes:

reading preset hole pattern parameters and first detonator information of registered detonators;

detecting whether the current of the bus is in a no-load state to judge whether the bus is connected with the electronic detonator;

if the bus current is not in a no-load state, sending a shielding instruction to a registered detonator, and defining the registered detonator after responding to the shielding instruction as an online electronic detonator;

if the bus current is in an idle state, all the registered detonators are off-line registered detonators;

calculating the subsequent detonator information of the hole to be registered corresponding to the hole number of the registered detonator according to the preset hole pattern parameter to obtain second detonator information;

sequencing according to the first detonator information and the second detonator information to obtain hole number sequencing information, and outputting hole jumping registration prompt information if an unregistered hole number exists in front of the registered hole number of the detonator in the hole number sequencing information;

and re-determining the detonator information of the hole to be registered according to the feedback instruction for feeding back the hole jump registration prompt information so as to output list information to be registered.

According to a detonator registration method of an initiator according to further embodiments of the present invention, the registration operation instructions include: the method comprises the following steps of registering an instruction on line and scanning a code, wherein the registering operation comprises the following steps: detonator online registration and detonator code scanning registration;

the step of receiving the registration operation instruction fed back by the user to determine the detonator registration operation comprises the following steps:

receiving the online registration instruction fed back by a user to determine that the detonator registration operation is the detonator online registration;

and receiving the code scanning registration instruction fed back by the user to determine that the detonator registration operation is the detonator code scanning registration.

According to the detonator registration method of the initiator according to another embodiment of the present invention, when the detonator registration operation is the detonator online registration, the detonator to be registered corresponding to the hole to be registered is determined according to the detonator registration operation, and the hole number of the hole to be registered and the encoding information of the detonator to be registered are associated to output detonator registration information, including:

acquiring a sequence code and an operation parameter of the detonator to be registered according to the online registration instruction;

comparing the operating parameters with preset parameter thresholds, detecting the sequence codes according to preset coding standards, detecting the functions of the detonators to be registered according to preset function rules, and unlocking the detonators to be registered according to preset decryption instructions so as to analyze the qualification of the detonators to be registered and obtain analysis results;

if the analysis result is qualified, acquiring registered detonator list information, and if the registered detonator list information does not have the same sequence code as the detonator, acquiring the registration state of the hole to be registered corresponding to the detonator to be registered;

if the registration state is a registered state, outputting first prompt information, wherein the first prompt information represents operation selection of the detonator to be registered;

and receiving a first operation instruction fed back by a user according to the first prompt information, and determining the hole number of the hole to be registered corresponding to the detonator to be registered according to the first operation instruction so as to obtain and output the detonator registration information.

According to the detonator registration method of the initiator according to another embodiment of the present invention, when the detonator registration operation is the detonator code scanning registration, the detonator to be registered corresponding to the hole to be registered is determined according to the detonator registration operation, and the hole number of the hole to be registered and the coding information of the detonator to be registered are associated to output detonator registration information, including:

scanning a bar code of the detonator to be registered to obtain bar code information;

if the bar code information accords with a preset check rule, acquiring registered detonator list information;

if the registered detonator list information does not have the same bar code information as the detonator, acquiring the registration state of the corresponding hole to be registered;

if the registration state of the hole to be registered is a registered state, acquiring the bar code type of the bar code information;

if the type of the bar code accords with a preset type, outputting second prompt information, wherein the second prompt information represents the operation selection of the detonator to be registered;

and receiving a second operation instruction fed back by the user according to the second prompt information, and determining the hole number corresponding to the detonator to be registered according to the second operation instruction so as to obtain and output detonator registration information.

According to further embodiments of the present invention, a detonator registration method for an initiator further comprises:

receiving a parameter modification instruction;

determining corresponding registration parameters according to the parameter modification instruction;

obtaining the input value of the registered parameter, and determining the mesh parameter of the detonator according to the input value of the registered parameter

According to further embodiments of the present invention, the detonator registration method for an initiator comprises: registration sequence, current delay parameter, intra-hole delay parameter, and inter-hole delay parameter.

According to further embodiments of the present invention, a detonator registration method for an initiator further comprises:

receiving a tool invocation instruction, wherein the tool invocation instruction comprises: deleting instructions, all deleting instructions, batch registration instructions, single-shot postponing instructions, single-shot testing instructions and internal code rewriting instructions;

and determining the operation corresponding to the registered detonator according to the tool calling instruction.

In a second aspect, an embodiment of the invention provides a detonator registration system for an initiator, comprising:

the device comprises an initialization module, a storage module and a registration module, wherein the initialization module is used for initializing registered detonators so as to output list information to be registered, and the list information to be registered comprises detonator information corresponding to holes to be registered;

the registration module is used for receiving a registration operation instruction fed back by a user to determine detonator registration operation;

and the output module is used for determining the detonator to be registered corresponding to the hole to be registered according to the detonator registration operation, and corresponding the hole number of the hole to be registered and the coding information of the detonator to be registered so as to output detonator registration information.

The detonator registration system of the initiator of the embodiment of the invention at least has the following beneficial effects: the user can select different detonator registration operations according to different detonators to complete the registration of the detonators, so that the flexibility of detonator registration is improved, and the experience of the user in detonator registration is improved.

In a third aspect, an embodiment of the present invention provides a computer-readable storage medium having stored thereon computer-executable instructions for causing a computer to perform the method of primer injection for an initiator according to the first aspect.

Additional features and advantages of the application will be set forth in the description which follows, and in part will be obvious from the description, or may be learned by the practice of the application. The objectives and other advantages of the application may be realized and attained by the structure particularly pointed out in the written description and drawings.

Drawings

FIG. 1 is a schematic flow diagram of a method for detonator injection of an initiator according to an embodiment of the invention;

FIG. 2 is a schematic flow chart of another embodiment of a detonator injection method of the initiator according to an embodiment of the present invention;

FIG. 3 is a schematic flow chart of another embodiment of a detonator injection method of the initiator according to an embodiment of the present invention;

FIG. 4 is a schematic flow chart of another embodiment of a detonator injection method of the initiator according to an embodiment of the present invention;

FIG. 5 is a schematic flow chart of another embodiment of a detonator injection method of the initiator according to an embodiment of the present invention;

FIG. 6 is a schematic flow chart of another embodiment of a detonator injection method of the initiator according to an embodiment of the present invention;

FIG. 7 is a schematic flow chart of another embodiment of a detonator injection method of the initiator according to an embodiment of the present invention;

fig. 8 is a block diagram of a specific embodiment of a detonator injection system of an initiator according to an embodiment of the present invention.

Reference numerals: 100. initializing a module; 200. a registration module; 300. and an output module.

Detailed Description

The concept and technical effects of the present invention will be clearly and completely described below in conjunction with the embodiments to fully understand the objects, features and effects of the present invention. It is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all embodiments, and those skilled in the art can obtain other embodiments without inventive effort based on the embodiments of the present invention, and all embodiments are within the protection scope of the present invention.

In the description of the present invention, if an orientation description is referred to, for example, the orientations or positional relationships indicated by "upper", "lower", "front", "rear", "left", "right", etc. are based on the orientations or positional relationships shown in the drawings, only for convenience of describing the present invention and simplifying the description, but not for indicating or implying that the referred device or element must have a specific orientation, be constructed and operated in a specific orientation, and thus should not be construed as limiting the present invention. If a feature is referred to as being "disposed," "secured," "connected," or "mounted" to another feature, it can be directly disposed, secured, or connected to the other feature or indirectly disposed, secured, connected, or mounted to the other feature.

In the description of the embodiments of the present invention, if "a number" is referred to, it means one or more, if "a plurality" is referred to, it means two or more, if "greater than", "less than" or "more than" is referred to, it is understood that the number is not included, and if "greater than", "lower" or "inner" is referred to, it is understood that the number is included. If reference is made to "first" or "second", this should be understood to distinguish between features and not to indicate or imply relative importance or to implicitly indicate the number of indicated features or to implicitly indicate the precedence of the indicated features.

The detonator registration is to establish the corresponding relationship between the code information and the hole number of the detonator, but in the using process of the detonator, the identification code printed on the detonator shell or the leg wire label of the detonator is usually used to obtain the relevant information of all the detonators used in the blasting network, thereby completing the correspondence between the detonator delay time and the hole number. One of the common use modes of the electronic detonator is used during contact type online registration of the detonator, and the detonator can only be registered by one method during registration, and different detonator registration modes can not be selected according to different detonator types, so that the flexibility and the adaptability of detonator registration are realized, and the experience of a user in detonator registration is reduced.

Based on the method, the system and the storage medium, the register mode is determined according to the register operation instruction fed back by the user, and then the detonator register operation is carried out, so that the user can select the corresponding register operation according to the actual situation, the flexibility and the adaptability of detonator register are improved, and the experience of the user in detonator register is improved.

Referring to fig. 1, in a first aspect, an embodiment of the present invention discloses a detonator registration method for an initiator, including:

s100, initializing registered detonators to output list information to be registered, wherein the list information to be registered comprises detonator information corresponding to holes to be registered;

s200, receiving a registration operation instruction fed back by a user to determine detonator registration operation;

s300, determining the detonator to be registered corresponding to the hole to be registered according to detonator registration operation, and corresponding the hole number of the hole to be registered and the coding information of the detonator to be registered to output detonator registration information.

Before the electronic detonator is registered, initialization operation is required to be carried out, and the initialization operation is completed to determine the subsequent holes to be registered of the registered detonator so as to obtain the information of the list to be registered. Initializing the registered detonator to obtain a subsequent hole to be registered of the registered detonator, then receiving a registration operation instruction fed back by a user according to the information of the list to be registered, determining detonator registration operation of the detonator to be registered according to the registration operation instruction, then registering the detonator to be registered according to the detonator registration operation to enable the coding information of the detonator to be registered and the hole number of the hole to be registered to correspond to each other so as to complete registration, and outputting detonator registration information. Therefore, a user can select different detonator registration operations according to different detonators to complete the detonator registration, so that the flexibility of detonator registration is improved, and the experience of the user in detonator registration is improved.

Specifically, the registration operation instruction comprises an online registration instruction and a code scanning registration instruction. The registered information of the registered detonator is read, initialization is carried out according to the registered information to determine the unregistered hole corresponding to the registered detonator, the hole number and the delay parameter of the unregistered hole are calculated, and the voltage output by the initiator is adjusted to the safe voltage. And then, receiving an online registration instruction by pressing an online registration key by a user, and receiving a code scanning registration instruction by pressing a code scanning registration key by the user, so that the registration operation of the detonator to be registered is determined by receiving the online registration instruction or the code scanning registration instruction, and the detonator registration operation is adjusted according to different requirements.

Referring to fig. 2, in some embodiments, step S100 includes:

s110, reading preset hole pattern parameters and first detonator information of registered detonators;

s120, detecting whether the current of the bus is in a no-load state to judge whether the bus is connected with the electronic detonator;

s130, if the bus current is not in a no-load state, sending a shielding instruction to the registered detonator, and defining the registered detonator responding to the shielding instruction as an online electronic detonator;

s140, if the bus current is in a no-load state, all the registered detonators are off-line registered detonators;

s150, calculating the detonator information of the subsequent hole to be registered corresponding to the hole number of the registered detonator according to the preset hole pattern parameters to obtain second detonator information;

s160, sequencing according to the first detonator information and the second detonator information to obtain hole number sequencing information, and outputting hole jumping registration prompt information if an unregistered hole number exists before a registered hole number of a detonator in the hole number sequencing information;

s170, re-determining the detonator information of the hole to be registered according to the feedback instruction of the feedback hole jumping registration prompt information so as to output list information to be registered.

Judging whether to access the electronic detonator by detecting whether the current of the bus is in no-load state, and if the electronic detonator is not in no-load state, accessing the electronic detonator to the bus, and enabling the registered detonator to be online; if the bus current is in the no-load state, the bus is not accessed to the registered detonator, and the registered detonator is not on line, namely the registered detonator is an off-line electronic detonator. If the bus is not in the no-load state, the bus is connected with the registered detonators, the registered electronic detonators do not respond to subsequent registration related instructions by sending shielding instructions to the registered detonators connected with the bus one by one, and then whether the registered detonators respond to the shielding instructions or not is detected to judge whether the registered detonators are online or not. If the bus connection is responded, the registered detonator connected with the bus is judged to be the online detonator, otherwise, the registered electronic detonator is not online. The process can realize the follow-up sending access registration of the electronic detonator to be registered, namely, the identification and registration operation of the detonator can be automatically carried out after the detonator to be registered is accessed into the bus. By sending the shielding instruction to the registered detonator, the online electronic detonator does not feed back the registration related instruction after receiving the shielding instruction, so that the registration operation is prevented from influencing the online electronic detonator when the registration operation of the detonator to be registered is carried out.

After the on-line detection of the registered detonators is completed, the subsequent detonator information of the unregistered holes corresponding to the hole numbers of the registered detonators is calculated according to the preset hole pattern parameters to obtain second detonator information, and then the hole number sequencing information is obtained by sequencing according to the first detonator information and the second detonator information of the registered detonators in sequence. And carrying out hole jumping detection on the hole numbers corresponding to the registered detonators through the hole number sequencing information, so that the hole numbers corresponding to the registered detonators possibly have a hole jumping phenomenon, and the hole jumping phenomenon also means that the hole numbers are vacant. Therefore, whether an unregistered hole number exists before the hole number of the registered detonator is detected according to the hole number sequencing information, hole jump registration prompt information is output if a vacant hole number exists in the hole number sequencing information, then a user can judge whether to perform treatment according to the hole jump registration prompt information to obtain a feedback instruction, and the detonator information of the registered detonator is reset or maintained according to the feedback instruction.

For example: after a user connects a plurality of electronic detonators with the detonator, the voltage connected with the registered detonators is reduced to safe voltage for online detection by adjusting the voltage at the outlet of the detonator to the registered voltage, and the contact type registration of the electronic detonators has theoretical safety risk due to the fact that the voltage of the registered detonators is too large, so that the safety risk of the electronic detonators in the registration process is avoided by reducing the voltage at the outlet of the detonator to the registered voltage, and the safety of operators is guaranteed. Then the system judges whether the registered detonator is on-line by detecting whether the bus is connected with the electronic detonator and then detecting whether the bus current is in a no-load state so as to obtain the registered detonator connected with the bus, if the bus current is in the no-load state, the system indicates that all the electronic detonators are not on-line, and directly skips the initialization process of the registered electronic detonator so as to shorten the operation waiting time; if the bus current is not in the no-load state, the registered detonators connected with the bus send shielding instructions, the electronic detonators connected with the bus respond to the shielding instructions to obtain online electronic detonators, and then detonator information of subsequent unregistered holes corresponding to hole numbers of the registered detonators is calculated according to preset hole pattern parameters to obtain second detonator information. And sequencing the first detonator information and the second detonator information to obtain hole number sequencing information, judging whether the detonator coded information corresponding to the hole number is missing or not through the hole number sequencing information, if the detonator coded information corresponding to the hole number missing of 1-3 is present, indicating that the hole number missing of 1-3 is present to output hole jump registration prompt information, and finally setting the detonator information of the online electronic detonator according to a feedback instruction fed back by a user to complete initialization before registration of the electronic detonator.

Referring to fig. 3, in some embodiments, the register operation instruction includes: an online registration instruction and a code scanning registration instruction; the registration operation includes: detonator online registration and detonator code scanning registration.

The step S200 includes:

s210, receiving an online registration instruction fed back by a user to determine that detonator registration operation is detonator online registration;

and S220, receiving a code scanning registration instruction fed back by the user to determine that the detonator registration operation is detonator code scanning registration.

And determining the detonator registration operation as detonator online registration according to an online registration instruction fed back by the user, and determining the detonator registration operation as detonator code scanning registration according to a code scanning registration instruction. The designed construction registration mode can realize that the qualification of the detonator to be registered is detected while the detonator is on line one by one so as to judge whether the detonator to be registered is available or not. But the disadvantage of on-line detonator registration is that construction can only be operated in series, and a single team completes all the registration work. The detonator code scanning registration is a non-contact mode, and from the perspective of safety, the detonator does not need to be powered up, and the registration of the detonator to be registered can be completed only by scanning the bar code on the detonator to be registered through code scanning equipment, so that the safety is relatively better. The detonator code scanning registration can realize synchronous registration and wiring, so that the construction efficiency is higher, but the detonator which cannot be code scanned and registered can possibly appear based on the quality of the bar code on the detonator to be registered, and meanwhile, the detonator code scanning registration cannot carry out the qualification detection of the detonator to be registered. Therefore, according to the requirements of different detonator registration, the corresponding detonator registration operation can be selected, so that the flexibility and the adaptability of detonator registration are improved.

Referring to fig. 4, in some embodiments, when the detonator registration operation is an online registration operation, step S300 includes:

s310, acquiring a sequence code and an operation parameter of the detonator to be registered according to the online registration instruction;

s320, comparing the operation parameters with preset parameter thresholds, detecting the sequence codes according to preset coding standards, detecting the functions of the detonators to be registered according to preset function rules, and unlocking the detonators to be registered according to a preset decryption instruction so as to analyze the qualification of the detonators to be registered and obtain an analysis result;

s330, if the analysis result is qualified, acquiring registered detonator list information, and if the registered detonator list information does not have a sequence code same as a detonator, acquiring the registration state of a hole to be registered corresponding to the detonator to be registered;

s340, if the registration state is the registered state, outputting first prompt information, wherein the first prompt information represents operation selection of the detonator to be registered;

and S350, receiving a first operation instruction fed back by the user according to the first prompt information, and determining the hole number of the hole to be registered corresponding to the detonator to be registered according to the first operation instruction so as to obtain and output detonator registration information.

And when the online registered entrance identifies that the unregistered detonator is online through current impact or an instruction, the detonator to be registered is registered. The serial number and the operation parameter of the detonator are obtained, then the serial number of the detonator is checked according to the preset coding standard, the operation parameter is compared with the preset parameter threshold value, the serial number, the function, the performance and the decryption of the detonator are detected according to the preset function rule, and whether the serial number, the function and the performance of the detonator are qualified or not and whether the detonator can be decrypted or not is judged. If the serial number, the function and the performance of the detonator are qualified, the registered detonator list information is obtained, if the registered detonator list information does not have the serial code same as the detonator, the detonator is not registered, therefore, whether the hole to be registered corresponding to the detonator has the registered detonator is further judged, if the hole to be registered has the registered detonator, namely the hole number of the hole to be registered and the serial number of the registered detonator are mutually corresponding, therefore, the selection information is output according to the existence of the registered detonator in the hole to be registered, the user can select whether to continuously adopt the hole to be registered corresponding to the detonator according to the selection information so as to determine the hole number of the hole to be registered corresponding to the detonator according to the operation instruction fed back by the user, and finishing the detonator registration to output detonator registration information so that a user can check the result of the detonator registration through the detonator registration information. The detonator registration is realized by carrying out the correspondence between the serial number of the detonator and the hole number of the hole to be registered after the qualification detection of the detonator is qualified, so that the registered detonator is qualified and usable, and the detonator can be detonated after the registration.

Specifically, a performance analysis result is determined according to comparison of an operating parameter and a preset parameter threshold, a sequence code of the detonator to be registered is detected according to a preset coding standard to obtain a sequence code analysis result, a function of the detonator to be registered is detected according to a preset function rule to obtain a function analysis result, and a preset decryption instruction is sent to the detonator to be registered to obtain a decryption result. Therefore, the analysis result of the qualification of the detonator to be registered is determined according to the performance analysis result, the sequence code analysis result, the function analysis result and the decryption result. Therefore, the qualification of the detonator to be registered is determined through the comprehensive analysis of the detonator to be registered, the detonator to be registered can be used for detecting whether the detonator to be registered is available or not while the detonator to be registered is sent out and on-line one by one, and the normal detonation of the subsequent detonator is ensured.

Referring to fig. 5, in some embodiments, when the detonator registration operation is detonator code scanning registration, step S300 includes:

s310', scanning a bar code of the detonator to be registered to obtain bar code information;

s320', if the bar code information accords with a preset check rule, acquiring registered detonator list information;

s330', if the registered detonator list information does not have the same bar code information as the detonator, acquiring the registration state of the corresponding hole to be registered;

s340', if the registration state of the hole to be registered is the registered state, acquiring the bar code type of the bar code information;

s350', if the type of the bar code is in accordance with the preset type, outputting second prompt information, wherein the second prompt information represents operation selection of the detonator to be registered;

s360' receiving a second operation instruction fed back by the user according to the second prompt information, and determining the hole number corresponding to the detonator to be registered according to the second operation instruction so as to obtain and output detonator registration information.

Because each detonator to be registered is pasted with the bar code, the bar code of the detonator to be registered is directly scanned when the detonator to be registered is required to be registered so as to obtain the bar code information of the detonator to be registered. And then, checking the bar code information by a preset checking rule. If the bar code information accords with the preset check rule, the registered detonator list information is obtained, then whether the information same as the bar code information exists or not is judged according to the registered detonator list information, if the registered detonator list information does not exist, the scanned detonator to be registered is not registered, therefore, the registration state of the hole to be registered corresponding to the detonator to be registered is obtained, if the registration state of the hole to be registered is the registered state, namely the hole to be registered is already registered with the detonator, the bar code type of the bar code information of the detonator to be registered is further acquired so as to further judge that the bar code type of the detonator to be registered accords with the preset type, which indicates that the detonator to be registered can be registered, but the registered detonator exists in the hole to be registered corresponding to the detonator to be registered, therefore, the first prompt message is output, and the user can determine how to register the detonator to be registered according to the first prompt message. Therefore, an operation instruction fed back by a user according to the first prompt information is received, the hole number corresponding to the detonator to be registered is determined according to the operation instruction, the detonator to be registered is registered, detonator registration information is output, detonator registration is carried out in a code scanning mode, and detonator registration operation is simpler and easier.

And if the coding rule of the bar code information conforms to the preset coding rule, the registered detonator list information is obtained. If the registered detonator list information does not have the information identical to the bar code information, the fact that the detonator to be registered is not registered is indicated, if the registered detonator list information has the information identical to the bar code information, bar code registered prompt information is output, the hole number to be registered corresponding to the bar code information in the registered detonator list information is obtained according to a positioning instruction fed back by a user, and the corresponding relation between the hole number to be registered and the detonator information of the detonator is output, so that the hole number of the registered detonator is quickly positioned, the user is prompted to not register the registered detonator, and misoperation caused by repeated registration is reduced.

In some embodiments, regardless of on-line registration or code scanning registration of detonators, the first prompt message and the second prompt message replace registered detonator information, add detonator information and insert registration hole information, and receive a first operation instruction or a second operation instruction fed back by a user according to the replacement of the registered detonator information, the addition of the detonator information and the insert registration hole information, so as to replace the detonator information of the hole to be registered in the registered state into the detonator information of the detonator to be registered, or add the detonator information of the detonator to be registered, or insert the registration hole after the hole to be registered to obtain an insertion hole, and establish a hole number of the insertion hole and the detonator information of the detonator to be registered, so as to realize easy registration operation of the detonator to be registered.

Referring to fig. 6, in some embodiments, the detonator registration method of the initiator further comprises:

s400, receiving a parameter modification instruction;

s500, determining corresponding registration parameters according to the parameter modification instruction;

s600, obtaining input values of the registered parameters, and determining the hole network parameters of the detonator according to the input values of the registered parameters.

Due to different emergency situations during detonator registration, field technicians need to adjust the mesh parameters according to actual situations, so that the blasting parameters can be adjusted by the field technicians according to the actual situations, the flexibility of detonator registration is improved, and the experience of the field technicians is improved.

Wherein, the registration parameters include: registration sequence, current delay parameter, intra-hole delay parameter, and inter-hole delay parameter.

Selecting a corresponding detonator according to a user to obtain a parameter modification instruction, then opening a registration parameter interface corresponding to the detonator according to the parameter modification instruction, displaying an input window of a registration sequence, an input window of a current delay parameter, an input window of an in-hole delay parameter and an input window of an inter-hole delay parameter on the registration parameter interface, inputting specific numerical values according to the registration sequence, the current delay parameter, the in-hole delay parameter and the input window of the inter-hole delay parameter by the user to obtain input numerical values, and then adjusting a hole network parameter corresponding to the detonator according to the input numerical values.

Specifically, the registration order may be selected as a positive order or a negative order, and the current delay parameter, the intra-well delay parameter, and the inter-well delay parameter may be input with specific numerical values to obtain the mesh parameters of the normal mesh number.

Referring to fig. 7, in some implementations, a detonator registration method for an initiator further includes:

s700, receiving a tool calling instruction, wherein the tool calling instruction comprises: deleting instructions, all deleting instructions, batch registration instructions, single-shot postponing instructions, single-shot testing instructions and internal code rewriting instructions;

and S800, determining the operation corresponding to the registered detonator according to the tool calling instruction.

Some abnormal conditions need to be processed during detonator registration, and the processing efficiency is reduced if the detonator registration is performed step by step. Therefore, by setting the function of the tool box, the corresponding tool is selected to obtain a work calling instruction, and then the corresponding operation of the registered detonator is determined according to the tool calling instruction. The tool scheduling instruction comprises a deleting instruction, a total deleting instruction, a batch registration instruction, a single-shot postponing instruction, a single-shot testing instruction and an internal code rewriting instruction. For example, the selected registered detonators can be deleted according to the deleting instruction so as to realize the setting of a quick processing tool and the quick processing of the detonators, and therefore the field operation of the detonator is simplified.

In a second aspect, referring to fig. 8, an embodiment of the present invention further discloses a detonator registration system for an initiator, including: an initialization module 100, a registration module 200 and an output module 300; the initialization module 100 is configured to initialize a registered detonator to output to-be-registered list information, where the to-be-registered list information includes detonator information corresponding to a to-be-registered hole; the registration module 200 is configured to receive a registration operation instruction fed back by a user to determine detonator registration operation; the output module 300 is configured to determine a detonator to be registered corresponding to the hole to be registered according to the detonator registration operation, and output detonator registration information by corresponding the hole number of the hole to be registered and the encoding information of the detonator to be registered.

When the detonator to be registered needs to be registered, the detonator to be registered is initialized according to the registered detonator so as to determine the hole number after the hole number corresponding to the registered detonator is the hole to be registered, so that the detonator can be accurately registered, and then the detonator to be registered is registered according to the detonator registration operation selected by the user, so that the user can select a corresponding registration mode according to the detonator registration requirement, the detonator registration selectivity is improved, and the experience of the user in detonator registration is improved.

In a third aspect, the embodiment of the invention discloses a computer-readable storage medium, which stores computer-executable instructions for causing a computer to execute the detonator filling method of the initiator according to the first aspect.

The above-described embodiments of the apparatus are merely illustrative, wherein the units illustrated as separate components may or may not be physically separate, i.e. may be located in one place, or may also be distributed over a plurality of network elements. Some or all of the modules may be selected according to actual needs to achieve the purpose of the solution of the present embodiment.

One of ordinary skill in the art will appreciate that all or some of the steps, systems, and methods disclosed above may be implemented as software, firmware, hardware, and suitable combinations thereof. Some or all of the physical components may be implemented as software executed by a processor, such as a central processing unit, digital signal processor, or microprocessor, or as hardware, or as an integrated circuit, such as an application specific integrated circuit. Such software may be distributed on computer readable media, which may include computer storage media (or non-transitory media) and communication media (or transitory media). The term computer storage media includes volatile and nonvolatile, removable and non-removable media implemented in any method or technology for storage of information such as computer readable instructions, data structures, program modules or other data, as is well known to those of ordinary skill in the art. Computer storage media includes, but is not limited to, RAM, ROM, EEPROM, flash memory or other memory technology, CD-ROM, Digital Versatile Disks (DVD) or other optical disk storage, magnetic cassettes, magnetic tape, magnetic disk storage or other magnetic storage devices, or any other medium which can be used to store the desired information and which can accessed by a computer. In addition, communication media typically embodies computer readable instructions, data structures, program modules or other data in a modulated data signal such as a carrier wave or other transport mechanism and includes any information delivery media as known to those skilled in the art.

The embodiments of the present invention have been described in detail with reference to the accompanying drawings, but the present invention is not limited to the above embodiments, and various changes can be made within the knowledge of those skilled in the art without departing from the gist of the present invention. Furthermore, the embodiments of the present invention and the features of the embodiments may be combined with each other without conflict.

Claims (10)

1. A detonator registration method for an initiator, comprising:

initializing registered detonators to output list information to be registered, wherein the list information to be registered comprises detonator information corresponding to holes to be registered;

receiving a registration operation instruction fed back by a user to determine detonator registration operation;

and determining the detonator to be registered corresponding to the hole to be registered according to the detonator registration operation, and corresponding the hole number of the hole to be registered and the coding information of the detonator to be registered so as to output detonator registration information.

2. The detonator registration method of the initiator according to claim 1, wherein the initializing the registered detonators to output the to-be-registered list information comprises:

reading preset hole pattern parameters and first detonator information of registered detonators;

detecting whether the current of the bus is in a no-load state to judge whether the bus is connected with the electronic detonator;

if the bus current is not in a no-load state, sending a shielding instruction to a registered detonator, and defining the registered detonator responding to the shielding instruction as an online electronic detonator;

if the bus current is in an idle state, all the registered detonators are off-line registered detonators;

calculating the subsequent detonator information of the hole to be registered corresponding to the hole number of the registered detonator according to the preset hole pattern parameter to obtain second detonator information;

sequencing according to the first detonator information and the second detonator information to obtain hole number sequencing information, and outputting hole jumping registration prompt information if an unregistered hole number exists in front of the registered hole number of the detonator in the hole number sequencing information;

and re-determining the detonator information of the hole to be registered according to the feedback instruction for feeding back the hole jump registration prompt information so as to output list information to be registered.

3. The detonator registration method of an initiator according to claim 1, wherein the registration operation instructions comprise: the method comprises the following steps of registering an instruction on line and scanning a code, wherein the registering operation comprises the following steps: detonator online registration and detonator code scanning registration;

the step of receiving the registration operation instruction fed back by the user to determine the detonator registration operation comprises the following steps:

receiving the online registration instruction fed back by a user to determine that the detonator registration operation is the detonator online registration;

and receiving the code scanning registration instruction fed back by the user to determine that the detonator registration operation is the detonator code scanning registration.

4. The detonator registration method of the initiator according to claim 3, wherein when the detonator registration operation is the detonator online registration, the determining the detonator to be registered corresponding to the hole to be registered according to the detonator registration operation, and corresponding the hole number of the hole to be registered and the coding information of the detonator to be registered to output detonator registration information comprises:

acquiring a sequence code and an operation parameter of the detonator to be registered according to the online registration instruction;

comparing the operating parameters with preset parameter thresholds, detecting the sequence codes according to preset coding standards, detecting the functions of the detonators to be registered according to preset function rules, and unlocking the detonators to be registered according to preset decryption instructions so as to analyze the qualification of the detonators to be registered and obtain analysis results;

if the analysis result is qualified, acquiring registered detonator list information, and if the registered detonator list information does not have the same sequence code as the detonator, acquiring the registration state of the hole to be registered corresponding to the detonator to be registered;

if the registration state is a registered state, outputting first prompt information, wherein the first prompt information represents operation selection of the detonator to be registered;

and receiving a first operation instruction fed back by a user according to the first prompt information, and determining the hole number of the hole to be registered corresponding to the detonator to be registered according to the first operation instruction so as to obtain and output the detonator registration information.

5. The detonator registration method of the initiator according to claim 3, wherein when the detonator registration operation is the detonator code scanning registration, the determining the detonator to be registered corresponding to the hole to be registered according to the detonator registration operation and corresponding the hole number of the hole to be registered and the coding information of the detonator to be registered to output detonator registration information comprises:

scanning a bar code of the detonator to be registered to obtain bar code information;

if the bar code information accords with a preset check rule, acquiring registered detonator list information;

if the registered detonator list information does not have the same bar code information as the detonator, acquiring the registration state of the corresponding hole to be registered;

if the registration state of the hole to be registered is a registered state, acquiring the bar code type of the bar code information;

if the type of the bar code accords with a preset type, outputting second prompt information, wherein the second prompt information represents the operation selection of the detonator to be registered;

and receiving a second operation instruction fed back by the user according to the second prompt information, and determining the hole number corresponding to the detonator to be registered according to the second operation instruction so as to obtain and output detonator registration information.

6. The detonator registration method of an initiator according to any one of claims 1 to 5, further comprising:

receiving a parameter modification instruction;

determining corresponding registration parameters according to the parameter modification instruction;

and acquiring the input numerical value of the registered parameter, and determining the mesh parameters of the detonator according to the input numerical value of the registered parameter.

7. The detonator registration method of the initiator according to claim 6, wherein the registration parameters comprise: registration sequence, current delay parameter, intra-hole delay parameter, and inter-hole delay parameter.

8. The detonator registration method of an initiator according to any one of claims 1 to 5, further comprising:

receiving a tool invocation instruction, wherein the tool invocation instruction comprises: deleting instructions, all deleting instructions, batch registration instructions, single-shot postponing instructions, single-shot testing instructions and internal code rewriting instructions;

and determining the operation corresponding to the registered detonator according to the tool calling instruction.

9. A detonator registration system for an initiator, comprising:

the device comprises an initialization module, a storage module and a registration module, wherein the initialization module is used for initializing registered detonators so as to output list information to be registered, and the list information to be registered comprises detonator information corresponding to holes to be registered;

the registration module is used for receiving a registration operation instruction fed back by a user to determine detonator registration operation;

and the output module is used for determining the detonator to be registered corresponding to the hole to be registered according to the detonator registration operation, and corresponding the hole number of the hole to be registered and the coding information of the detonator to be registered so as to output detonator registration information.

10. A computer-readable storage medium storing computer-executable instructions for causing a computer to perform the method of primer injection of an initiator according to any one of claims 1 to 8.

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