Method and system for enabling at surface core orientation data transfer
Abstract
A method (100) of enabling at surface orientation data transfer from a contactless orientation system (11) coupled with an inner core tube (12) to one or more record carriers on or associated with a core sample (14) held in the core tube, the core sample (14) having a longitudinal core axis (16) and a core face 18 accessible from an end of the inner core tube (14), involves three broad steps. A first step is to couple an instrument guide (20) to the end of the core tube (12) from which the core face (18) is accessible so that an axis (26) of the guide is parallel to the core axis (16). A second step is to generate correlation information between a rotational orientation of a known point P on the instrument guide (20) or an instrument (28a) supported by the instrument guide (20) about the guide axis (26) and core orientation data known to the contactless orientation system (11). A third step is to use or otherwise operate the instrument (28a) to: act as the record carrier; or generate the record carrier provided with the correlation information enabling orientation of the core sample (14) to its in-situ orientation when released from the core tube (12).
Claims
exact text as granted — not AI-modified1 - 7 . (canceled)
8 . A method of enabling at surface orientation data transfer from a contactless orientation system coupled with an inner core tube to one or more record carriers on or associated with a core sample held in the core tube, the core sample having a longitudinal core axis and a core face accessible from an end of the inner core tube, the method comprising:
arranging an instrument guide which has opposite first and second ends relative to the core sample so that the core face lies between the first and second ends of the instrument guide, and a guide axis, that runs through the first and second ends, lies parallel to the core axis; and using the instrument guide to move an instrument in a direction parallel to the core axis to contact the core face wherein on contact with the core face the instrument constitutes, or is capable of producing, a record carrier of the orientation of the core sample.
9 . The method according to claim 8 , further comprising prior to moving, generating correlation information between a known point on the instrument guide, or an interment supported by the instrument guide, about the guide axis and core orientation data known to the contactless core orientation system.
10 . The method according to claim 9 , further comprising operating the instrument supported in or by the instrument guide to: act as the record carrier; or generate the record carrier provided with, or otherwise having transferred to it, the correlation information enabling orientation of the core sample to its in-situ orientation when released from the core tube.
11 . (canceled)
12 . The method according to claim 8 , wherein using the instrument guide comprises engaging the instrument with the instrument guide and moving the instrument relative to the core face and parallel to the core axis to cause contact between the core face and the instrument.
13 . The method according to claim 12 , wherein moving the instrument parallel to the core axis relative to the core face comprises either (a) moving the instrument along, through or within the instrument guide relative to the core face to cause contact between the core face and the instrument; or (b) moving the instrument guide relative to the core face to cause contact between the core face and the instrument.
14 . The method according to claim 8 , further comprising demountably engaging the instrument with the instrument guide, wherein after contact with the core face the instruments can be removed from the instrument guide.
15 - 24 . (canceled)
25 . The method according to claim 8 , wherein the instrument comprises a plastically deformable pad or a plurality of linearly translatable pins which on contact with the core face are capable of recording data pertaining to the profile of the core face.
26 . (canceled)
27 . A system for enabling at surface orientation data transfer from a contactless orientation system coupled with an inner core tube to one or more record carriers associated with a core sample held in the core tube, the core sample having a longitudinal core axis and a core face visible from an end of the inner core tube, the system comprising:
an instrument guide having opposite first and second ends that lie on a common guide axis, the instrument guide configured so that when the first end is engaged with the core tube the core face lies between the first and second ends of the instrument guide; and an instrument demountable coupled with the instrument guide in a manner wherein the instrument guide facilitates motion of the instrument in a direction parallel to the core axis to a location where the instrument contacts the core face.
28 . The system according to claim 27 , wherein the instrument and the instrument guide are provided with respective coupling parts that enable demountable coupling of the instrument to the instrument guide in known rotational juxtaposition about the guide axis.
29 . The system according to claim 28 , wherein the instrument comprises one or both of: (a) a core face profile recording system; and (b) a scribe or marker capable of placing a mark on the core face.
30 . The system according to claim 29 , wherein the core face profile recording system comprises either (a) a plurality of axially displaceable pins or (b) a pad of plasticised material capable of taking an imprint of the core face.
31 . The system according to claim 29 , wherein the instrument comprises a surface on which header data can be manually transcribed.
32 . The system according to claim 27 , further
comprising a rotation sensing device capable of detecting rotation of the instrument guide about the guide axis.
33 . (canceled)
34 . A method of at surface wireless core orientation data transfer from a contactless orientation system coupled with an inner core tube to an electronically recordable file associated with a core sample held in the core tube, the core sample having a longitudinal core axis and a core face visible from an end of the inner core tube, the method comprising:
when the inner core tube is at the surface positioning an image plane of an image capture device to lie substantially perpendicular to the core axis and at a location to enable the image capture device to capture an image of the core face; generating correlation information between a rotational position about the core axis of a known point on the image plane with a rotational point in space about the core axis known to the contactless orientation system and being representative of an in situ rotational orientation of the core sample; and producing an electronically recordable file comprising at least the captured image and the rotational position reference data associated with the core sample.
35 . (canceled)
36 . The method according to claim 8 , wherein arranging an instrument guide comprises, when the inner core tube is at the surface, coupling the instrument guide to the end of the core tube from which the core face is accessible and opposite the contactless orientation system, and wherein
the method further comprises, when the inner core tube is at the surface, generating correlation information between a rotational orientation of a known point on the instrument guide or an instrument supported by the instrument guide about the guide axis with core orientation data known to the contactless orientation system.
37 . The method according to claim 36 , wherein generating correlation information comprises referencing the rotational position of the known point and the in-situ rotational orientation known to the contactless orientation system to a common reference point.
38 . The method according to claim 37 , wherein generating correlation information comprises operating the contactless orientation system to facilitate positioning of the core sample about the core axis so that the in situ orientation coincides with the orientation of the common reference point.
39 . The method according to claim 37 , wherein generating correlation information comprises rotationally aligning the known point with the common reference point.
40 . The method according to claim 39 , wherein operating the instrument comprises using the instrument guide to move the instrument in a direction parallel to the core axis to contact the core face wherein on contact with the core face the instrument constitutes, or is capable of producing, a record carrier provided with the transferred orientation data.
41 . The method according to claim 36 , wherein generating correlation information comprises electronically determining the rotational position of the known point.Join the waitlist — get patent alerts
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