OA18493A - Detonator control system. - Google Patents
Detonator control system. Download PDFInfo
- Publication number
- OA18493A OA18493A OA1201700433 OA18493A OA 18493 A OA18493 A OA 18493A OA 1201700433 OA1201700433 OA 1201700433 OA 18493 A OA18493 A OA 18493A
- Authority
- OA
- OAPI
- Prior art keywords
- borehole
- information
- mobile device
- operator
- detonator
- Prior art date
Links
- 238000005422 blasting Methods 0.000 claims abstract description 21
- 239000002360 explosive Substances 0.000 claims description 5
- 239000000463 material Substances 0.000 claims description 5
- 230000000007 visual effect Effects 0.000 claims description 2
- 239000002689 soil Substances 0.000 claims 1
- 238000000034 method Methods 0.000 description 8
- 238000010304 firing Methods 0.000 description 5
- 230000000052 comparative effect Effects 0.000 description 2
- 239000004020 conductor Substances 0.000 description 2
- 240000008042 Zea mays Species 0.000 description 1
- 235000002017 Zea mays subsp mays Nutrition 0.000 description 1
- 230000015572 biosynthetic process Effects 0.000 description 1
- 230000001276 controlling effect Effects 0.000 description 1
- 235000005822 corn Nutrition 0.000 description 1
- 235000005824 corn Nutrition 0.000 description 1
- 230000000875 corresponding Effects 0.000 description 1
- 230000002708 enhancing Effects 0.000 description 1
- 238000004880 explosion Methods 0.000 description 1
- 238000009434 installation Methods 0.000 description 1
- 238000010200 validation analysis Methods 0.000 description 1
Abstract
A method of locating a borehole and a detonator in a blasting system which includes a number of boreholes and detonators, wherein an operator uses a mobile device which presents to the operator identity and location information of a borehole but only if the borehole is within a predetermined distance of the operator.
Description
DETONATOR CONTROL SYSTEM
BACKGROUND OF THE INVENTION [0001] This invention relates generally to the use of one or more detonators In a geophyslcal exploration process to generate seismic Information and more particularly Is concemed with the provision of Information, to an operator or to a control system, which facilitâtes the Implémentation of a seismic blasting system.
[0002] In a geophyslcal exploration process use can be made of one or more electronic detonators to croate an explosion which generates seismic waves. Réfactions of the 10 seismic waves by geophyslcal formations and discontinuities In the earth are measured and are processed to obtain an indication of properties below the earth's surface.
[0003] In a seismic application boreholes are normally primed well In advance before firing the respective detonators In the boreholes. It is not uncommon for a period of up to two or three months to pass, once a detonator Is loaded Into a borehole, before the detonator is 15 fired.
[0004] It Is therefore essential to hâve continulty of Information for an unattended primed borehole with a seismic blasting detonator may otherwise be inadvertentiy initiated.
[0005] Generally adéquate techniques are available in the prior art to prevent a detonator from being prematureiy Initiated by an extraneous signal. For example a detonator may be 20 responsive only to a spécifie encoded firing signal. However a substantiel degree of time and effort Is required to re-establish a seismic system In a safe and effective manner after a donnant period of several weeks (say). Each borehole must be found and identifîed. Information pertaining to each detonator In the borehole must be validated and, only then, can controlled-firing of each detonator-take place to generate the required seismld • 25 Information. - · [0006] Typically, when the time cornes for firing the detonators, an operator using a handheld blaster traverses a blast site and locates the individual boreholes. A connection Is made to the respective detonator and, subsequently, after validation processes, blasting takes place. As a seismic site can be extensive in area and, given that a fairiy long period may hâve passed from the time a blast site was established to the time at which blasting is to take place, care must be taken to ensure that the detonators are correctly Identified and are correctly fi red.
[0007] An object of the présent invention Is to provide a blasting system which lends Itself to use particularly ln a selsmlc arrangement, in which this aspect Is, at least to some extent, facllitated.
SUMMARY OF THE INVENTION [0008] The invention provides a blasting system which includes a plurality of boreholes, wherein each borehole is respectively loaded with at least one detonator and with an explosive material, and at least one mobile device, under the control of an operator, which présents information to the operator on the location and identity of at least one of the boreholes, only If the borehole is within a predetermined distance of the operator.
[0009] Depending on the extent of the predetermined distance the mobile device may présent information on the location and Identity of each borehole which is within said predetermined distance.
[0010] The mobile device may include a tagger or a hand held blaster, a communication unit, a processor and an output device which provides Visual or audible information or both, to an operator. The invention is not limited in this respect.
[0011] For example, within a given radius from the position of the operator, which position Is coïncident with the location of the mobile device, the system may présent Information on each detonator or borehole within that radius. The information may relate to any of the following: positional information, Identity Information i.e. the Identity of a borehole and the Identity of a detonator, and directional information e.g. route Information of a path to be travelled by an operator to reach a particular detonator or borehole. The Invention is not limited in respect of the nature of the information.
[0012] The size of the radius, which détermines the extent of the area on which information is presented to the operator, may be adjustable.
[0013] The information may be held in the mobile device or it may be transferred to the mobile device, as appropriate, from a database at a central controller. The system may include a controller which on an ongolng basis vérifiés the location of the mobile device (i.e. the position of the operator) relative to posltlonal Information previously collected and stored e.g. in the mobile device or in a database at a central location. If an Information match Is not recorded then the system may automatically take appropriate action e.g. It may generate a waming message to the operator, or the system can log the event to allow remédiai action to be taken.
[0014] The Invention also extends to a method of controlling operation of a blasting system which Includes a plurality of boreholes, wherein each borehole Is respectively loaded with at least one detonator and with an explosive material, wherein the method includes the steps of recording the Identity and location of each borehole or detonator in the System and of subsequentiy using a mobile device which présents Information on such Identity or location to an operator of the device but only in respect of each borehole or detonator which is in the blasting system and which Is within a predetermined distance of the operator.
[0015] There are two important aspects to the Invention. The mobile device may collect information from each detonator within the predetermined area and compare this to previously collected and stored information using geographical data in order to correlate the collected information with the stored information. Secondly, agaln using geographical (posltlonal) data as a control parameter, the relevant stored information is made available to an operator who can then verify that this information is accurate by using the mobile device as appropriate.
BRIEF DESCRIPTION OFTHE DRAWINGS [0016] The invention is further described by way of example with reference to the accompanylng drawings in which:
Figure 1 Illustrâtes, somewhat schematically, a detonator system according to the invention, and
Figures 2 and 3 illustrate aspects of the working of the system.
DESCRIPTION OF PREFERRED EMBODIMENT [0017] Figure 1 of the accompanylng drawings schematically illustrâtes a blasting system 10 which includes a number of boreholes 12A, 12B ... 12N at a blast site 13 and which Is used to establish a seismic arrangement. Each borehoie is drilled to a predetermined depth and Is loaded with a respective explosive material 14A, 14B ... 14N and with one or more detonators 16A, 16B 16N. Each detonator 16A... 16N Is connected via a respective wire or conductor 18A ... 1ΘΝ to a respective connector 20A ... 20N located on a surface 22. The connectors (20A - 20N) may be coupled via the respective conductors (18A - 1ΘΝ) to a surface hamess or a bus (not shown) or use can be made of wireless connection techniques to establish communication between each detonator (16A - 16N) and a central controller 30.
[0018] ln order to control aspects of the operation of the blasting System use is made of the central controller 30 which is connected to a database 32. An operator 34, who traverses the blast site 13, carries at least one mobile device 40 which Includes a processor 41, a tagger 42, a handheld blaster 44, and a display 46. The device 40 also Includes a transmltter/recelver unit 47 which communlcates, wirelessly, with the central controller 30. The device 40 has output terminais in the form of a connector 48 which can be coupled directly to any of the connectors 20 on the surface 22. Altematively a wireless link can be established under controüed conditions between the mobile device 40 and any selected connector 20 (or detonator 16).
[0019] ln a seismic exploration arrangement the boreholes 12 are driiied in a predetermined pattern over a surface which Is to be seismically mapped. Positional data, determined for example from a GPS System (not shown), relating to the position of each borehoie, Is stored in the database 32. Subsequently each borehoie 12 Is loaded with its respective explosive material 14 and detonator 16. At this time, or shortly thereafter, data (as may be required for seismic purposes) on each borehoie Installation is collected via the tagger 42.
[0020] An insert drawing ln Figure 1 illustrâtes an electronlc module 50A associated with a respective detonator 16A. Other components of the detonator 16A are not illustrated. The module 50A includes a logic/processor unit 52A, a memory unit 54A ln which is stored, inter aiia, an identity number (56A) for the detonator and information (57A) relating to the position of the detonator, a communication unit 58A, and a battery 60A for powerlng electronlc components of the detonator. The module 50A could form a part of the detonator 16A, or of the respective connector 20A.
[0021] Figure 2 illustrâtes the mobile device 40, which contains one or both of the tagger 42 and the hand held blaster 44, and which is carried by the operator 34 as the operator traverses the blast site 13. The mobile device 40 includes or Is linked to a GPS module 70 which continuously and automatically provides positional Information to the operator 34. The operator 34 uses the processor 41 to set the extent of an area 72 by defining a radius 74 which extends from the position of the mobile device 40 and which encloses the area 72. The setting of the radius 74 dépends on a variety of factors Including the density of the boreholes 12 at the blast site 13 and on the nature of the terrain on which the blast site Is located.
[0022] As the operator 34 moves the geographical position of the area 72, in an absolute sense, also moves. If boreholes 12X and 12Y fait inside the area 72 then, at that time, the respective identifiera 56X and 56Y of the boreholes 12X and 12Y are presented to the operator 34 on the display 46. This is achieved by using the unit 47 to communicate with the central controller 30 so that positional Information, previously stored In the database and pertaining to each of the detonators 16 at the blast site can be presented on a continuous basis to the operator.
[0023] The operator Is then free to approach the borehole 12X, or the borehole 12Y, as he chooses. The operator can then carry out further operations pertaining to the establishment of the selsmic arrangement.
[0024] Information relating to or arlsing from detonators and boreholes outside of the area 72 Is rejected or not processed and so Is not presented to the operator 34 for processing.
[0025] Directional Information may be given to the operator 34 to assist the operator to the site of a chosen borehole. The directional information may be given by spoken commands produced by the processor 41 actlng on a loudspeaker 75 using information generated by the GPS module 70, or the directional information may be visually conveyed to the operator 34 on the display 46 by Indicating a direction 76 to a chosen borehole 12X with the direction being specified at least with reference to an angular déviation 78 from a reference plane or line 80. These aspects are exemplary only and non-limlting.
[0026] A flow chart In Figure 3 illustrâtes some operatlonal steps. A borehole 12N (as Is the case with ail ofthe other boreholes in the blasting system 10), is Initially Identified by means of a unique number given to the borehole 12N or by means of an identifier 56A which is given to a detonator 16N placed in the borehole 12N at the time the blasting system 10 Is initially established. This identification information is held in the database 32.
[0027] The GPS module 70, which Is llnked to the mobile device 40 carried by the operator 34, generates positionai Information 82 pertaining to the location, at the time, of the GPS module 70.
[0028] The operator 34 selects the borehoie 12N by speclfying the Identity number 57N of the borehole 12N or the Identifier 56N of the detonator 16N which is heid in the borehole 12N. The positional Information 57N which is heid in the database 32 and the corresponding detonator identity number 56N are then presented to the operator 34 on the display 46 of the mobile device 40. This borehole positionai Information 57N is compared to the positional Information 82 (of the borehoie 12N) which is being measured at the time by the GPS 70 which is iinked to the mobile device 40. if the outcome of a comparative process 90 is positive then the setting up of the seismic arrangement can continue (step 92). If the outcome of the comparative process is négative (step 94) then the operator 34 is wamed of the discrepancy e.g. the operator is possibiy not at the correct borehole or some other error has occurred. The event is logged as may be required and, if necessary, appropriate remédiai action Is taken (step 96).
[0029] The control sequence substantially enhances the operation of a seismic exploration process ln that the detonators (12A ... 12N) must be correctiy Identified before firing takes place. Additionally, the locating of the individuai detonators 16 and boreholes 12 by an operator 34 Is facilitated.
Claims (9)
1. A blasting system which includes a plurality of boreholes at a blast site wherein each borehole Is respectively loaded with at least one detonator and with an explosive material, and at least one mobile device under the control of an operator, which présents Information to the operator on the location and Identity of each detonator or borehole only If the borehole Is within a predetermined radius from the position of the operator and wherein the position Is coincident with the location of the mobile device (prevlously claim 4) and wherein the size of the radius Is adjustable (previous claim 7) ln dependence on the density of the boreholes at the blast site and on the nature of the terrain at the blast site.
2. A blasting system according to claim 1 wherein the mobile device présents Information on the location and identity of ail boreholes, or of ail the respective detonators In ail of the boreholes, which are within the predetermined radius.
3. A blasting System according to claim 1 or 2 wherein the mobile device Includes a processor, a tagger or a blaster, a communication unit, and an audible or Visual output device.
. 4. A blasting system according to any one of claims 1 to 3 wherein the presented information relates to any of the foliowing:
1. positlonal information of the borehole or detonator;
2. the Identity of the borehole; and
3. the Identity of the detonator;
4. general soil information and/or wamlngs related to the borehole
5. A blasting system according to any one of claims 1 to 4 wherein directional information is given to the operator to enable the operator to reach a particular detonator or borehole.
6. A blasting system according to any one of claims 1 to 5 wherein the Information is heid in the mobile device, or it is transferred to the mobile device, from a database at a central controller.
7. A blasting system according to any one of claims 1 to 6 which Includes a central controller which, on an ongoing basis, vérifiés or déterminés the location of the mobile device relative to positional Information, relating to the boreholes or to the detonators, previously collected and stored ln the mobile device or ln a database at the central
5 controller.
8. A blasting system according to any one of claims 1 to 7 wherein a wamlng message to the operator Is generated If there Is a dlscrepancy ln respect of the position of the mobile device relative to any borehole within said predetermined radius and the position of the borehole relative to the previously collected and stored positional
10 Information.
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
ZA2015/03270 | 2015-05-12 |
Publications (1)
Publication Number | Publication Date |
---|---|
OA18493A true OA18493A (en) | 2018-12-04 |
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