A downhole magnetic clamping system for a tool is provided. The clamping system may include a first permanent magnet, and a yoke, movably positioned next to the first permanent magnet and movable to at least two positions, a first position in which a magnetic attraction force produced by the first p
A downhole magnetic clamping system for a tool is provided. The clamping system may include a first permanent magnet, and a yoke, movably positioned next to the first permanent magnet and movable to at least two positions, a first position in which a magnetic attraction force produced by the first permanent magnet on structures exterior to the tool is reduced relative to a second position. In addition, the clamping system may further include a non-linear resilient member applying a resilient force to the yoke in the direction of the second position. Further, the clamping system may include an electro-magnetic coil, operable in a first and second direction to initiate movement of the yoke between the first position and the second position.
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1. A downhole magnetic clamping system for a tool, the system comprising: a first permanent magnet to apply a magnetic clamping force to a casing;a yoke, translatable between a first position in which the magnetic clamping force is inhibited, and a second position in which the magnetic clamping forc
1. A downhole magnetic clamping system for a tool, the system comprising: a first permanent magnet to apply a magnetic clamping force to a casing;a yoke, translatable between a first position in which the magnetic clamping force is inhibited, and a second position in which the magnetic clamping force is uninhibited, wherein the yoke surrounds the first permanent magnet on two or more sides when in the first position and is configured to provide a pathway for the magnetic clamping force;a non-linear resilient member applying a resilient force to the yoke in a direction of the second position;a second permanent magnet fixedly coupled to the yoke and exerting a second magnetic force along a direction of movement of the yoke, the non-linear resilient member interposed between the first permanent magnet and the second permanent magnet; andan electro-magnetic coil, operable in a first and second polarity to produce an electro-magnetic force used to initiate movement of the yoke between the first position and the second position. 2. The downhole magnetic clamping system of claim 1, wherein the non-linear resilient member is a spring with an incremental spring constant. 3. The downhole magnetic clamping system of claim 1, wherein a voltage applied to the electro-magnetic coil is reversed to change between the first polarity and the second polarity. 4. The downhole magnetic clamping system of claim 1, wherein the first polarity applied to the electro-magnetic coil is used to initiate movement of the yoke at the first position, and the second polarity is used to initiate movement of the yoke at the second position. 5. The downhole magnetic clamping system of claim 1, wherein the second magnetic force attracts the yoke to the electro-magnetic coil when the electro-magnetic coil is subjected to the first polarity and repels the yoke from the electro-magnetic coil when the electro-magnetic coil is subjected to the second polarity. 6. The downhole magnetic clamping system of claim 1, wherein the clamping system is part of a seismic sensing system. 7. The downhole magnetic clamping system of claim 1, wherein the clamping system is part of a wireline tool. 8. An acoustic wireline tool comprising: a cable connected to a housing:wherein the housing comprises: a first permanent magnet fixed with respect to position relative to the housing and configured to apply a magnetic clamping force to a casing;a yoke, translatable with respect to position relative to the housing between a first position in which the magnetic clamping force is inhibited, and a second position in which the magnetic clamping force is uninhibited, the yoke to surround at least two sides of the first permanent magnet when the yoke is in the first position;a non-linear resilient member applying a resilient force to the yoke in a direction of the second position;a second permanent magnet fixedly coupled to the yoke and exerting a second magnetic force along a direction of movement of the yoke, the non-linear resilient member interposed between the first permanent magnet and the second permanent magnet; andan electro-magnetic coil, operable in a first and second polarity to produce an electro-magnetic force used to initiate movement of the yoke between the first position and the second position. 9. The acoustic wireline tool of claim 8, wherein the wireline tool is deployed with the yoke in the first position and clamped to the casing when the yoke is in the second position. 10. The acoustic wireline tool of claim 8, wherein the housing is made of a magnetically permeable material. 11. The acoustic wireline tool of claim 8, wherein the first polarity applied to the electro-magnetic coil is used to initiate movement of the yoke at the first position, and the second polarity is used to initiate movement of the yoke at the second position. 12. A sensing system for measuring acoustic signals comprising: a housing comprising: a first permanent magnet fixed with respect to position relative to the housing and configured to apply a first magnetic clamping force to a casing;a yoke, translatable with respect to position relative to the housing between a first position in which the magnetic clamping force is inhibited, and a second position in which the magnetic clamping force is uninhibited;a non-linear resilient member applying a resilient force to the yoke in a direction of the second position;a second permanent magnet fixedly coupled to the yoke and exerting a second magnetic force along the direction of movement of the yoke, the non-linear resilient member interposed between the first permanent magnet and the second permanent magnet; andan electro-magnetic coil, operable in a first and second polarity to produce an electro-magnetic force working in cooperation with the second magnetic force to initiate movement of the yoke between the first position and the second position. 13. The sensing system of claim 12, wherein the non-linear resilient member is a spring with an incremental spring constant. 14. The sensing system of claim 12, wherein a voltage applied to the electro-magnetic coil is reversed to change between the first and the second polarity. 15. The sensing system of claim 12, wherein the first polarity applied to the electro-magnetic coil is used to initiate movement of the yoke at the first position, and the second polarity is used to initiate movement of the yoke at the second position. 16. The sensing system of claim 12, wherein the second magnetic force attracts the yoke to the electro-magnetic coil when the electro-magnetic coil is subjected to the first polarity and repels the yoke from the electro-magnetic coil when the electro-magnetic coil is subjected to the second polarity. 17. A sensing system for measuring acoustic signals, the system comprising: a first permanent magnet fixed with respect to position relative to the housing and configured to apply a first magnetic clamping force to a casing;a yoke, translatable with respect to position relative to the housing between a first position in which the magnetic clamping force is inhibited, and a second position in which the magnetic clamping force is uninhibited, wherein the yoke surrounds the permanent magnet on two or more sides when in the first position and is configured to provide a pathway for the magnetic clamping force;a non-linear resilient member applying a resilient force to the yoke in a direction of the second position;a second permanent magnet fixedly coupled to the yoke and exerting a second magnetic force along the direction of movement of the yoke, the non-linear resilient member interposed between the first permanent magnet and the second permanent magnet; andan electro-magnetic coil, operable in a first and second polarity to produce an electro-magnetic force working in cooperation with the second magnetic force to initiate movement of the yoke between the first position and the second position. 18. The downhole magnetic clamping system of claim 1, wherein the non-linear resilient member and the second permanent magnet are disposed along a longitudinal axis extending through the yoke. 19. The downhole magnetic clamping system of claim 18, wherein the second permanent magnet is coupled to an end of a stem of the yoke proximate to the electro-magnetic coil.
Andersen, James Kengo; Goldner, Eric Lee; Karalskos, Peter; Cherbettchian, Agop Hygasov, Borehole sensing and clamping systems and methods of using the same.
Kamata Masahiro (Tokyo JPX) Katayama Shitomi (Kanagawaken JPX) Mons Francis (Bonnelles WA FRX) Porter Robert (Bellevue WA), Downhole seismic exploration device and apparatus.
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