CN219415947U - Electronic detonator remote wireless detonating system and detonating device - Google Patents

Abstract

The utility model relates to the technical field of civil explosion, and particularly discloses a remote wireless detonation system of an electronic detonator, which comprises the following components: the remote wireless handheld controller and the remote wireless detonating device are internally provided with remote wireless transmission modules, and the remote wireless handheld controller and the remote wireless detonating device are in wireless connection through the remote wireless transmission modules. The utility model uses the remote wireless handheld controller to send the wireless control instruction to the remote wireless detonating device, the remote wireless detonating device receives and analyzes the wireless control instruction to finish the work of data communication of the digital electronic detonator, detonator authorization verification, detonator driving and the like, the detonating system is not only suitable for underwater blasting operation engineering with great impact hazard, but also suitable for blasting occasions with other severe environments or inconvenient arrival of personnel, and the system design, use and information management flow all accord with the national relevant management standard, and the whole system is safe, stable and reliable.

Description

Electronic detonator remote wireless detonating system and detonating device

Technical Field

The utility model relates to the technical field of civil explosion, in particular to a remote wireless detonation system and a detonation device of an electronic detonator.

Background

In the existing detonation system, the detonators interact with the blasting supervision service center for supervision data through the data transmission end, the detonators are connected with multiple electronic detonators through buses and provide working energy and interaction data for the electronic detonators, after the legality authentication of the detonators to personnel in each party is passed, the engineering personnel can use the detonators to detect, network and detonate the electronic detonators, and the blasting operation mode is widely applied to situations such as open mines, ore-rock separation, cofferdam demolition, tunnels, town foundations, mountain transformation, danger elimination demolition blasting and the like.

However, for the scene of underwater blasting operation, the manner of blasting operation provided by the existing blasting operation still has great potential safety hazards and technical barriers, underwater blasting refers to blasting operation performed in water, underwater or temporary medium, and is mainly used for widening and deepening and clearing submerged reefs, dismantling underwater structures, building water inlets of tunnels under water and the like, but earthquake waves generated by underwater blasting are larger than land blasting, the hazard of underwater shock waves is more remarkable, because the distance between the blaster and the electronic detonator is relatively short, the existing blasting operation manner can threaten the personal safety of engineering personnel using the blaster to perform blasting operation on site, and the problems of safety, environmental protection and blasting benefit in the national production, transportation, storage, use and management processes of civil blasting equipment are increasingly emphasized.

Disclosure of Invention

The embodiment of the utility model provides a remote wireless detonation system of an electronic detonator, which is used for solving the problem that the prior art does not provide a remote explosion propagation system which can perform remote wireless communication with an initiator to detonate the electronic detonator without the presence of personnel; in addition, the embodiment of the utility model also provides a remote wireless detonating device of the electronic detonator.

According to a first aspect of the present utility model there is provided an electronic detonator remote wireless initiation system comprising: the remote wireless handheld controller and the remote wireless detonating device are internally provided with remote wireless transmission modules, and the remote wireless handheld controller and the remote wireless detonating device are in wireless connection through the remote wireless transmission modules.

Optionally, the remote wireless handheld controller comprises a first main control chip, a power supply module and an authorization authentication interface; the remote wireless transmission module, the power supply module and the authorization authentication interface of the remote wireless handheld controller are respectively and electrically connected with the first main control chip.

Optionally, the remote wireless initiation device comprises a second main control chip, a power supply, a booster circuit and a detonator driving circuit; the remote wireless transmission module, the power supply, the booster circuit and the detonator driving circuit of the remote wireless initiation device are respectively and electrically connected with the second main control chip, and the booster circuit is also respectively and electrically connected with the power supply and the detonator driving circuit.

Optionally, the electronic detonator remote wireless initiation system further comprises one or more wireless relay stations which are wirelessly bridged between the remote wireless handheld controller and the remote wireless initiation device.

Optionally, the authorization authentication interface of the remote wireless handheld controller includes: the system comprises a biological authentication module, a PSAM encryption authorization module and an identity authentication module; the biological authentication module, the PSAM encryption authorization module and the identity authentication module are respectively and electrically connected with the first main control chip.

Optionally, the remote wireless handheld controller further includes a first man-machine interaction module and a first reserved interface, where the first man-machine interaction module and the first reserved interface are electrically connected with the first main control chip respectively.

Optionally, the remote wireless initiation device further comprises a power management module, the power management module comprises a charging circuit and a voltage stabilizing circuit, the output end of the charging circuit is connected to the power input end, and the voltage stabilizing circuit is connected between the power supply and the second main control chip.

Optionally, the remote wireless initiation device further comprises a second man-machine interaction module, a positioning module, a memory and a detonator interface; the second man-machine interaction module, the positioning module and the memory are respectively and electrically connected with the second main control chip, and the detonator interface is connected with the output end of the detonator driving circuit.

Optionally, the remote wireless initiation device further comprises an electronic detonator information service platform, the remote wireless handheld controller further comprises a mobile communication module, and the remote wireless handheld controller is in communication connection with the electronic detonator information service platform through the mobile communication module.

According to a second aspect of the present utility model there is provided an electronic detonator remote wireless initiation device comprising: a body; according to the electronic detonator remote wireless initiation system, the electronic detonator remote wireless initiation system is arranged in the engine body.

The beneficial effects of the utility model are as follows: according to the utility model, the remote wireless handheld controller is used for remotely controlling the remote wireless detonating device, the data and control management system is preloaded in the remote wireless handheld controller, the personnel safety authentication function is arranged at the end of the remote wireless handheld controller, and the remote wireless handheld controller is used for transmitting a wireless control instruction to the remote wireless detonating device to implement detonating control management, blasting data management, blasting authorization management and the like. The remote wireless detonating device receives and analyzes the wireless control instruction to finish the work of data communication, detonator authorization verification, detonator driving and the like of the digital electronic detonator, so that the electronic detonator is detonated through the remote wireless communication between the remote wireless handheld controller and the detonating device, unmanned operation of a blasting site is further realized, a wireless relay station can be erected according to requirements, the wireless relay station is used for bridging the remote wireless detonating device and the remote wireless handheld controller to form a wireless communication network when the ultra-remote communication is needed, the application requirement of ultra-remote detonating is further realized, the detonating system is not only suitable for underwater blasting operation engineering with great impact hazard, but also suitable for blasting occasions with severe environments or inconvenient arrival of personnel, and the system design, the use and the information management flow all accord with relevant national management standards.

The foregoing description is only an overview of the present utility model, and is intended to be implemented in accordance with the teachings of the present utility model in order that the same may be more clearly understood and to make the same and other objects, features and advantages of the present utility model more readily apparent.

Drawings

Various other advantages and benefits will become apparent to those of ordinary skill in the art upon reading the following detailed description of the preferred embodiments. The drawings are only for purposes of illustrating the preferred embodiments and are not to be construed as limiting the utility model. Also, like reference numerals are used to designate like parts throughout the figures. In the drawings:

FIG. 1 is a schematic diagram of a remote wireless initiation system for an electronic detonator according to an embodiment of the utility model;

FIG. 2 is a schematic diagram of a remote wireless initiation system for an electronic detonator according to an embodiment of the utility model;

FIG. 3 is a schematic diagram of a remote wireless handheld controller according to an embodiment of the present utility model;

FIG. 4 is a schematic diagram of a remote wireless initiation device according to an embodiment of the present utility model;

FIG. 5 is a flow chart of a remote wireless initiation system of an electronic detonator based on a water blast operation in one embodiment.

In the figure: the system comprises a 1-electronic detonator information service platform, a 2-remote wireless handheld controller, a 21-first main control chip, a 22-first reserved interface, a 23-authorization authentication interface, a 231-biological authentication module, a 232-PSAM encryption authorization module, a 233-identity authentication module, a 24-first man-machine interaction module, a 25-first LORA module, a 26-power supply module, a 27-mobile communication module, a 3-wireless relay station, a 4-remote wireless initiation device, a 41-power management module, a 401-charging circuit, a 402-voltage stabilizing circuit, a 42-power supply, a 43-voltage boosting circuit, a 44-detonator driving circuit, a 45-detonator interface, a 46-Bluetooth module, a 47-positioning module, a 48-CAN transceiving driving circuit, a 49-second main control chip, a 410-memory, a 411-second man-machine interaction module, a 412-second LORA module, a 413-second reserved interface and a 5-electronic detonator.

Detailed Description

Exemplary embodiments of the present disclosure will be described in more detail below with reference to the accompanying drawings. While exemplary embodiments of the present disclosure are shown in the drawings, it should be understood that the present disclosure may be embodied in various forms and should not be limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete, and will fully convey the scope of the disclosure to those skilled in the art.

A first embodiment of the present utility model provides an electronic detonator remote wireless initiation system, referring to fig. 1-5, comprising: the remote wireless handheld controller 2 and the remote wireless detonating device 4 are internally provided with remote wireless transmission modules, and the remote wireless handheld controller 2 and the remote wireless detonating device 4 are in wireless connection through the remote wireless transmission modules. In the embodiment of the utility model, the long-distance wireless transmission module is preferably a LORA module, and the LORA module has low power consumption and long transmission distance, thereby meeting the requirements of long-distance and ultra-long-distance communication and use of the system. The remote wireless handheld controller 2 comprises a first main control chip 21, a power supply module 26 and an authorization authentication interface 23, wherein the power supply module 26 is provided with a battery power supply, a power management circuit and the like, so that the remote wireless handheld controller 2 can work normally. The remote wireless transmission module of the remote wireless handheld controller 2 is a first LORA module 25, and the first LORA module 25, the power supply module 26 and the authorization authentication interface 23 are respectively and electrically connected with the first main control chip 21.

In an alternative embodiment of the present utility model, the authorization authentication interface 23 of the remote wireless handheld controller 2 comprises: the biometric authentication module 231, the PSAM encryption authorization module 232, and the identity authentication module 233, and the biometric authentication module 231, the PSAM encryption authorization module 232, and the identity authentication module 233 are electrically connected to the first main control chip 21, respectively. The biometric authentication module 231 includes a face recognition unit and/or a fingerprint authentication unit, and the identity authentication module 233 may be a contactless card reader, for obtaining information of identification cards corresponding to different people. The authorization authentication interface 23 is used for enabling related personnel to carry out safety interlocking authentication by using the remote wireless handheld controller 2, the safety authentication passes, the remote wireless handheld controller 2 informs the remote wireless detonating device 4 of information passing through the interlocking authentication through a wireless instruction, and the remote wireless detonating device 4 receives the wireless instruction passing through the safety authentication and can execute detonating operation, that is, the detonating control authority of the original detonating device is arranged at the end of the remote wireless handheld controller 2, and personnel only need to carry out the safety authentication in a mode of carrying out biological recognition and/or card reading at the end of the remote wireless handheld controller 2, so that the authentication of the detonating control authority is completed, and personnel can be prevented from being damaged by shock waves in water when the blasting operation is carried out underwater, the safety of blasting engineering is ensured, and the personal safety of the related personnel is maintained. Therefore, the remote wireless handheld controller 2 provided by the embodiment of the utility model has a plurality of software and hardware security measures such as multi-person face recognition, network management and control authorization, PSAM encryption authorization and the like, and accords with related security management specifications.

In this embodiment, in order to facilitate man-machine interaction and function expansion of the remote wireless handheld controller 2, the remote wireless handheld controller 2 in the embodiment of the present utility model further includes a first man-machine interaction module 24 and a first reserved interface 22, where the first man-machine interaction module 24 and the first reserved interface 22 are electrically connected to the first main control chip 21 respectively. The first man-machine interaction module 24 is an existing combination of display screen and keys, and the first reserved interface 22 may be a reserved data interface, a cryptographic card interface, etc., so that the remote wireless handheld controller 2 can expand related functions according to the use requirement.

In the embodiment of the present utility model, referring to fig. 4, the remote wireless initiation device 4 includes a second main control chip 49, a power source 42, a boost circuit 43 and a detonator driving circuit 44. The remote wireless transmission module of the remote wireless initiation device 4 is a second LORA module 412, the power supply 42, the booster circuit 43 and the detonator driving circuit 44 are respectively electrically connected with the second main control chip 49, and the booster circuit 43 is also respectively electrically connected with the power supply 42 and the detonator driving circuit 44 for realizing charging and initiation control of the electronic detonator.

In this embodiment, the remote wireless initiation device 4 further includes a power management module 41, the power management module 41 includes a charging circuit 401 and a voltage stabilizing circuit 402, an output end of the charging circuit 401 is connected to an input end of the power supply 42, and the voltage stabilizing circuit 402 is connected between the power supply 42 and the second main control chip 49. The remote wireless initiation device 4 further comprises a second man-machine interaction module 411, a positioning module 47, a memory 410 and a detonator interface 45, wherein the second man-machine interaction module 411, the positioning module 47 and the memory 410 are respectively and electrically connected with the second main control chip 49, the detonator interface 45 is connected with the output end of the detonator driving circuit 44, and the remote wireless initiation device 4 is connected with the electronic detonator 5 through a bus connected with the detonator interface 45 so as to realize communication and data interaction with the electronic detonator 5. The positioning module 47 is a GPS module or a beidou module, and is used for acquiring the geographic position of the detonation device by the remote wireless detonation device. The memory 410 is an E2PROM memory or a FLASH memory to enable the remote wireless initiator device 4 to store data that the working process needs to store. The second man-machine interaction module 411 is also a combination of a display screen and keys, the remote wireless initiation device 4 is further provided with a second reserved interface 413, and the interface type of the second reserved interface 413 is such as a reserved data interface, an encrypted card interface and the like, so that an expansion port is provided for further expanding the functions of the remote wireless initiation device. In addition, the remote wireless detonating device 4 CAN also integrate a CAN receiving and transmitting driving circuit 48, so that the remote wireless detonating device 4 has a cascading networking function, the functions of a remote wireless detonating system are further expanded, and the blasting efficiency is improved.

In this embodiment, when the ultra-remote communication is required, the detonation system provided by the utility model further includes a plurality of wireless relay stations 3, the wireless relay stations 3 are in wireless bridging connection between the remote wireless handheld controller 2 and the remote wireless detonation device 4, and the wireless relay stations 3 can be relays provided with LORA modules or can be existing wireless network communication base stations and are erected according to engineering requirements and use scenes, so that when the remote wireless handheld controller 2 and the remote wireless detonation device 4 are far away, the application requirements of ultra-remote detonation are realized. If in the underwater blasting operation, when the ultra-remote blasting control is needed, the remote wireless handheld controller 2 forwards the wireless instruction to the remote wireless blasting device 4 through the wireless relay station 3, the remote wireless blasting device 4 receives and analyzes the wireless instruction, and the second main control chip 49 controls each circuit module connected with the second main control chip 49 to execute corresponding functions according to the analyzed wireless instruction, so that the operations of data communication, detonator authorization verification, detonator driving and the like of the high-performance underwater special digital electronic detonator are completed.

The remote wireless detonating device provided by the embodiment of the utility model further comprises an electronic detonator information service platform 1, the remote wireless handheld controller 2 further comprises a mobile communication module 27, and the remote wireless handheld controller 2 is in communication connection with the electronic detonator information service platform 1 through the mobile communication module 27, so that the wireless handheld controller 2 can perform data interaction with the electronic detonator information service platform 1 and receive third party supervision.

In this embodiment, an electronic detonator remote wireless initiation method implementing the electronic detonator remote wireless initiation system in this embodiment includes: the remote wireless handheld controller 2 transmits wireless control instructions to the remote wireless detonating device through the remote wireless transmission module, the remote wireless handheld controller 2 is preloaded with data and a control management system, engineering personnel remotely control the remote wireless detonating device 4 based on the control management system, and the remote control content comprises detonating control management, blasting data management and blasting authorization management. The remote wireless detonating device 4 receives and analyzes the wireless control instruction to complete the detonating control of the digital electronic detonator according to the wireless control instruction, wherein the detonating control content comprises the work of data communication of the digital electronic detonator, detonator authorization verification, detonator driving and the like.

In this embodiment, when the remote wireless handheld controller 2 and the remote wireless initiation device 4 are far away from each other, in order to realize the application requirement of ultra-remote initiation, the wireless relay station 3 is bridged between the remote wireless handheld controller 2 and the remote wireless initiation device 4, the remote wireless handheld controller 2 forwards the wireless instruction to the remote wireless initiation device 4 through the wireless relay station 3, the remote wireless initiation device 4 receives and analyzes the wireless instruction, the second main control chip 49 controls each circuit module connected with the second main control chip 49 to execute corresponding functions according to the analyzed wireless instruction, and the operations of data communication, detonator authorization verification, detonator driving and the like of the high-performance underwater special digital electronic detonator are completed.

Specifically, referring to fig. 2, fig. 2 is a schematic diagram of a thinking of an electronic detonator remote wireless initiation system according to an embodiment of the present utility model, where the schematic diagram shows specific processing services of each part of the remote wireless initiation system. The remote wireless handheld controller 2 is in bidirectional communication with the electronic detonator information service platform through a mobile network or WIFI, applies for authorization files, uploads explosion related work records and the like to the electronic detonator information service platform, and the remote wireless handheld controller 2 is responsible for authentication and management of detonation control authority, detonator registration, detonator authorization, account management and the like. The remote wireless handheld controller 2 and the remote wireless detonating device 4 are in wireless communication through a remote wireless transmission module, and the remote wireless detonating device 4 analyzes wireless instructions issued by the remote wireless handheld controller 2 to execute networking detonating, single shot detection, blasting authorization, receiving and transmitting management of a delay scheme and the like. Fig. 5 is a specific business flow when the remote wireless detonation system provided by the utility model is adopted to perform underwater blasting operation.

In this embodiment, the remote wireless handheld controller 2 is used to remotely control the remote wireless detonating device 4, the remote wireless handheld controller 2 is preloaded with data and control management system, and the personnel security authentication function is set at the end of the remote wireless handheld controller 2, and the remote wireless handheld controller 2 is used to send wireless control instructions to the remote wireless detonating device 4 to implement detonation control management, blasting data management, blasting authorization management and the like. The remote wireless detonating device 4 receives and analyzes the wireless control instruction to finish the work of data communication, detonator authorization verification, detonator driving and the like of the digital electronic detonator, so that the remote wireless communication detonating electronic detonator is only needed to be carried out through the remote wireless handheld controller 2 and the detonating device 4, unmanned operation of a blasting site is further realized, the wireless relay station 3 can be erected according to the requirement, when the ultra-remote communication is needed, the wireless relay station 3 is used for bridging the remote wireless detonating device 4 and the remote wireless handheld controller 2 to form a wireless communication network, the application requirement of ultra-remote detonating is further realized, the detonating system is not only suitable for underwater blasting operation engineering with great impact hazard, but also suitable for blasting occasions with severe environments or inconvenient arrival of personnel, and the system design, the use and the information management flow all accord with the national relevant management standards, and the whole system is safe, stable and reliable.

It should be noted that, the electronic detonator remote wireless initiation method in this embodiment belongs to an initiation method for implementing the electronic detonator remote wireless initiation system in this embodiment, and the electronic detonator remote wireless initiation system in this embodiment may also perform initiation control by other initiation methods similar to the electronic detonator remote wireless initiation method described above.

The second embodiment of the utility model provides a remote wireless initiation device of an electronic detonator, which comprises: a body; the electronic detonator remote wireless detonating system is arranged in the engine body. It should be noted that, the arrangement of the electronic detonator remote wireless initiation system in this embodiment is not illustrated, and the specific manner of arranging the electronic detonator remote wireless initiation system in the machine body in this embodiment can refer to the related prior art in this field, and no further description is given here.

It should be noted that, in this document, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrase "comprising one … …" does not exclude the presence of other like elements in a process, method, article, or apparatus that comprises the element.

The foregoing embodiment numbers of the present utility model are merely for the purpose of description, and do not represent the advantages or disadvantages of the embodiments.

From the above description of the embodiments, it will be clear to those skilled in the art that the above-described embodiment method may be implemented by means of software plus a necessary general hardware platform, but of course may also be implemented by means of hardware, but in many cases the former is a preferred embodiment. Based on such understanding, the technical solution of the present utility model may be embodied essentially or in a part contributing to the prior art in the form of a software product stored in a storage medium (e.g. ROM/RAM, magnetic disk, optical disk) comprising a number of instructions for causing a terminal (which may be a mobile phone, a computer, a server, an air conditioner, or a network device, etc.) to perform the method according to the embodiments of the present utility model.

The embodiments of the present utility model have been described above with reference to the accompanying drawings, but the present utility model is not limited to the above-described embodiments, which are merely illustrative and not restrictive, and many forms may be made by those having ordinary skill in the art without departing from the spirit of the present utility model and the scope of the claims, which are to be protected by the present utility model.

Claims (10)

1. An electronic detonator remote wireless initiation system comprising: the remote wireless handheld controller and the remote wireless detonating device are internally provided with remote wireless transmission modules, and the remote wireless handheld controller and the remote wireless detonating device are in wireless connection through the remote wireless transmission modules.

2. The electronic detonator remote wireless initiation system of claim 1 wherein said remote wireless handheld controller comprises a first master control chip, a power module and an authorization authentication interface; the remote wireless transmission module, the power supply module and the authorization authentication interface of the remote wireless handheld controller are respectively and electrically connected with the first main control chip.

3. The electronic detonator remote wireless initiation system of claim 2 wherein said remote wireless initiation device comprises a second master control chip, a power supply, a booster circuit and a detonator drive circuit; the remote wireless transmission module, the power supply, the booster circuit and the detonator driving circuit of the remote wireless initiation device are respectively and electrically connected with the second main control chip, and the booster circuit is also respectively and electrically connected with the power supply and the detonator driving circuit.

4. A remote wireless initiation system for an electronic detonator as claimed in any one of claims 1 to 3 further comprising one or more wireless relay stations which are wirelessly bridged between the remote wireless handheld controller and the remote wireless initiation device.

5. The electronic detonator remote wireless initiation system of claim 2 wherein said remote wireless handheld controller authorization authentication interface comprises: the system comprises a biological authentication module, a PSAM encryption authorization module and an identity authentication module; the biological authentication module, the PSAM encryption authorization module and the identity authentication module are respectively and electrically connected with the first main control chip.

6. The electronic detonator remote wireless initiation system of claim 5 wherein said remote wireless handheld controller further comprises a first human-computer interaction module and a first reserved interface, said first human-computer interaction module and first reserved interface being electrically connected with said first master control chip, respectively.

7. The electronic detonator remote wireless initiation system of claim 3 wherein said remote wireless initiation device further comprises a power management module, said power management module comprising a charging circuit and a voltage stabilizing circuit, said charging circuit output connected to a power input, said voltage stabilizing circuit connected between said power source and said second host chip.

8. The electronic detonator remote wireless initiation system of claim 3 wherein said remote wireless initiation device further comprises a second man-machine interaction module, a positioning module, a memory and a detonator interface; the second man-machine interaction module, the positioning module and the memory are respectively and electrically connected with the second main control chip, and the detonator interface is connected with the output end of the detonator driving circuit.

9. The electronic detonator remote wireless initiation system of claim 2 wherein said remote wireless initiation device further comprises an electronic detonator information service platform, said remote wireless handheld controller further comprising a mobile communication module, said remote wireless handheld controller being communicatively coupled to said electronic detonator information service platform via its mobile communication module.

10. An electronic detonator remote wireless initiation device, comprising:

a body;

an electronic detonator remote wireless initiation system as claimed in any one of claims 1 to 9 which is provided within the body.