RU2014111663A - PLACING A WELL RESEARCH TOOL - Google Patents

Abstract

1. A device for examining a well during core sampling and comprising a housing configured to accommodate a well research apparatus in it, such that the apparatus can be moved along the well with the apparatus and operated in the well. 2. The device according to claim 1, wherein the device for researching a well comprises a tool for examining a well or a component thereof. The device according to claim 2, wherein the downhole tool comprises one or more sensors selected from a group of sensors comprising an orthogonal accelerometer, magnetometer, gyroscope and gyroscopic sensor based on microelectromechanical systems. The device according to claim 1, in which the housing or at least its corresponding parts are made of material or materials that do not create magnetic interference affecting the device for researching the well. The device according to claim 4, in which the housing or at least its corresponding parts are made of non-magnetic material. The device according to claim 1, in which the housing has a cavity for placing a device for researching a well. The device according to claim 1, in which the housing facilitates the installation of a device for well research. The device according to claim 7, in which the housing is made of two or more parts, wherein one part is selectively separable from the other part to provide access to the cavity. The device according to claim 1, in which the housing provides cushioning to protect the device for exploring the well. The device according to claim 9, in which the housing provides shock absorption of shock forces arising from lowering into the well. The device according to claim 9, in which the depreciation is secured

Claims (139)

1. A device for examining a well during core sampling and comprising a housing configured to accommodate a well study apparatus in it, such that the apparatus can be moved along the well with the apparatus and operated in the well. 2. The device according to claim 1, wherein the device for researching a well comprises a tool for examining a well or a component thereof. 3. The device according to claim 2, in which the downhole tool contains one or more sensors selected from the group of sensors comprising an orthogonal accelerometer, magnetometer, gyroscope and gyroscopic sensor based on microelectromechanical systems. 4. The device according to claim 1, in which the casing or at least its corresponding parts are made of material or materials that do not create magnetic interference, affecting the device for researching the well. 5. The device according to claim 4, in which the housing or at least its corresponding parts are made of non-magnetic material. 6. The device according to claim 1, in which the housing has a cavity for accommodating a device for researching a well. 7. The device according to claim 1, in which the housing facilitates the installation of a device for well research. 8. The device according to claim 7, in which the housing is made of two or more parts, wherein one part is selectively separable from the other part to provide access to the cavity. 9. The device according to claim 1, in which the housing provides cushioning to protect the device for researching the well. 10. The device according to p. 9, in which the housing provides shock absorption of shock forces arising from lowering into the well. 11. The device according to p. 9, in which the depreciation is provided by a shock-absorbing mechanism located in the housing. 12. The device according to claim 11, in which the shock-absorbing mechanism comprises an elastic structure for shock shock absorption. 13. The device according to p. 12, in which the elastic structure comprises a spring. 14. The device according to p. 13, in which the shock-absorbing mechanism further comprises a damper for damping the oscillations of the spring. 15. The device according to claim 1, further comprising at least a portion of the magnetic brake system. 16. The device according to claim 1, further comprising a device for its adjustable positioning inside the well for the operation of the research device. 17. The device according to p. 16, in which the device for adjustable positioning inside the well for operating the research device comprises means for connecting with the surrounding section of the drill string to ensure stability relative to the drill string. 18. The device according to p. 17, in which the connecting means is actuated to ensure that the device is maintained inside the surrounding area of the drill string with centering relative to the periphery. 19. The device according to p. 18, in which the specified connecting means contains radially arranged levers, pressed in the outer direction to come into contact with the sides of the drill string, thereby ensuring the central location of the device inside the surrounding section of the drill string. 20. The device according to p. 19, in which each lever has an outer contact part, designed to come into contact with the inner wall of the surrounding section of the drill string. 21. The device according to p. 17, in which the connecting means is made with the possibility of connection with the drill string to move along it when raising or lowering the device inside the well. 22. The device according to p. 17, in which the connecting means is arranged to move between the retracted and extended states, while in the retracted state it does not interact with the inner wall of the drill string and is able to move along it, and in the extended state it is connected to the drill string for adjustable positioning of the device inside the well while ensuring stable maintenance for the operation of the research device. 23. The device according to p. 17, additionally containing actuating means for actuating the connecting means. 24. The device according to p. 1, ensuring the launch of the device for well research. 25. The device according to any one of the preceding paragraphs, selected from the group comprising the core drill core tube, a catcher, or a structure such as an adapter or a drain tool configured to attach to the inner tube and / or catcher. 26. An inner tube comprising a body having an upper portion for attachment to an extraction system and a lower portion for receiving a core sample during drilling, said housing being configured to accommodate a well research apparatus therein, such that said apparatus can move along the well with the inner tube and be operated in the well. 27. The inner tube according to claim 26, in which the extraction system comprises a catcher attached to the end of the wire line. 28. The inner tube according to p. 26 or 27, in which the catcher contains means that are actuated for adjustable positioning of the housing inside the well for the operation of the research device. 29. The inner tube according to p. 28, in which the means for adjustable positioning of the housing inside the well includes means for regulating the positioning of the trap inside the well. 30. The inner tube according to claim 29, in which the means for regulating the positioning of the body inside the well contains means for connecting with the surrounding section of the drill string to ensure the stability of the catcher relative to it. 31. The inner tube according to claim 30, wherein said connecting means maintains the catcher within the surrounding portion of the drill string with centering relative to the periphery. 32. The inner tube according to p. 30, in which the connecting means contains radially arranged levers, pressed in the outer direction to come into contact with the sides of the drill string, thereby ensuring a central location of the trap inside the surrounding section of the drill string. 33. The inner tube according to p. 32, in which each lever has an outer contact part, designed to come into contact with the inner wall of the surrounding section of the drill string. 34. The inner tube according to any one of paragraphs. 30-33, in which the connecting means is configured to connect with the drill string to move along it when raising or lowering the trap inside the well. 35. The inner tube according to p. 34, in which the connecting means comprises a fixed structure made in the form of a trolley for moving along the inner wall of the drill string. 36. The inner tube according to any one of paragraphs. 30-33, in which the connecting means is arranged to move between the retracted and extended states, while in the retracted state it does not interact with the inner wall of the drill string and is able to move along it, and in the extended state it is connected to the drill string for adjustable positioning of the catcher inside the borehole providing stable support for the operation of the research instrument. 37. A catcher comprising a housing having an upper part for attachment to a wire line and a lower part for detachable connection to an inner tube, said housing being adapted to accommodate a well research device therein, so that said device can move along the well with the catcher and be operated in the well. 38. The catcher according to claim 37, in which the device for researching a well comprises a tool for examining the well or its component. 39. The catcher according to claim 38, wherein the downhole tool comprises one or more sensors selected from a group of sensors comprising an orthogonal accelerometer, magnetometer, gyroscope and gyroscopic sensor based on microelectromechanical systems. 40. The catcher according to claim 37, in which the casing or at least its corresponding parts are made of material or materials that do not create magnetic interference affecting the device for researching the well. 41. The catcher according to claim 40, in which the housing or at least its corresponding parts are made of non-magnetic material. 42. The catcher according to claim 37, in which the device for researching the well is configured to operate inside the well when the catcher is attached to the inner tube. 43. The catcher according to claim 37, further comprising a means actuated for adjustable positioning of the housing inside the well for operation of the research device. 44. The catcher according to claim 43, wherein the means for adjustable positioning of the body inside the well comprises means for connecting to the surrounding drill string to ensure the stability of the body. 45. The catcher according to claim 44, wherein said connecting means maintains a housing inside the drill string with centering relative to the periphery. 46. The catcher according to claim 45, in which the connecting means is made in the form of a centralizer. 47. The catcher according to claim 45, in which the connecting means comprises radially arranged levers pushed outwardly to come into contact with the sides of the drill string, thereby ensuring a central location of the housing inside the drill string. 48. The catcher according to claim 47, in which each lever has an outer contact portion intended to come into contact with the inner wall of the surrounding drill string. 49. The catcher according to claim 44, in which the connecting means is configured to connect with the drill string to move along it when raising or lowering the catcher inside the well. 50. The catcher according to claim 49, in which the connecting means comprises a fixed structure made in the form of a trolley for moving along the inner wall of the drill string. 51. The catcher according to claim 44, in which the connecting means is arranged to move between the retracted and extended states, while in the retracted state it does not interact with the inner wall of the drill string and is able to move along it, and in the extended state it is connected to the drill string for adjustable positioning of the body inside the borehole while ensuring stable maintenance for the operation of the research instrument. 52. The catcher according to claim 37, wherein the body has a cavity for accommodating a well research device. 53. The catcher according to claim 52, in which the housing facilitates the installation of a device for examining a well in a cavity. 54. The catcher according to claim 53, in which the housing contains two or more parts, one part being selectively separable from the other part to provide access to the cavity. 55. The catcher according to claim 37, in which the housing provides cushioning to protect the research instrument from impacts. 56. The catcher according to claim 55, in which the housing provides shock absorption of shock when it comes into contact with the downhole inner tube after lowering on a wire line. 57. The catcher according to claim 55, in which the depreciation is provided by the depreciation mechanism located in the housing. 58. The catcher according to claim 57, in which the shock-absorbing mechanism comprises an elastic structure for shock shock absorption. 59. The catcher according to claim 58, in which the elastic structure comprises a spring. 60. The catcher according to claim 59, in which the shock-absorbing mechanism further comprises a damper for damping the oscillations of the spring. 61. The catcher according to claim 57, in which the depreciation mechanism uses a system or method of adjustable descent. 62. The catcher according to claim 57, in which the cushioning mechanism is located inside the housing between its two parts. 63. The catcher according to claim 37, further comprising at least a portion of the magnetic braking system to slow the catcher. 64. The catcher according to claim 37, in which the lower part of the housing contains a locking mechanism for detachable connection to the mating structure on the inner core receiver tube. 65. The catcher according to claim 64, in which the housing contains an actuator for actuating the locking mechanism to ensure the attachment / detachment of said mating structure when connecting the catcher to the inner core receiver tube. 66. Catcher according to any one of paragraphs. 37-65, containing means for transferring the working end of the device for researching the well to the outer surface of the trap. 67. The catcher according to claim 66, comprising means for transferring said working end to the inner tube. 68. A device designed to connect to the inner tube and containing a housing configured to accommodate a well study apparatus therein, such that the apparatus can be moved along the well with the inner tube and operated in the well. 69. A drain tool comprising a housing having an upper part for detachable connection to an extraction system and a lower part for detachable connection to an inner tube, said housing being configured to accommodate a well research apparatus therein, such that said apparatus can be moved along the well with the drain tool and operated in the well. 70. The drain tool according to claim 69, wherein the extraction system comprises a catcher attached to the end of the wire line. 71. A drain tool according to claim 69, comprising means actuated for adjustable positioning of the housing inside the well for operating the research device. 72. The trigger tool according to claim 71, wherein the means for adjusting the positioning of the body within the well may include means for connecting to the surrounding drill string to provide stability to the body. 73. The trigger tool according to claim 72, wherein said connecting means maintains a housing inside the drill string with centering relative to the periphery. 74. The drain tool according to claim 73, in which the connecting means is made in the form of a centralizer. 75. The trigger tool according to claim 72, wherein the connecting means comprises radially arranged levers pushed outwardly to engage the sides of the drill string, thereby ensuring a central location of the housing inside the drill string. 76. The trigger tool according to claim 75, wherein each lever has an outer contact portion for contacting an inner wall of a surrounding drill string. 77. The drain tool according to claim 72, in which the connecting means is configured to connect with the drill string to move along it when raising or lowering the drain tool inside the well. 78. The trigger tool according to claim 77, in which the connecting means comprises a fixed structure made in the form of a trolley for moving along the inner wall of the drill string. 79. The trigger tool according to claim 72, in which the connecting means is arranged to move between the retracted and extended states, while in the retracted state it does not interact with the inner wall of the drill string and is able to move along it, and in the extended state it is connected to the drill a column for adjustable positioning of the body inside the well while ensuring stable maintenance for the operation of the research instrument. 80. A drain tool according to claim 69, in which the housing has a cavity for accommodating a device for researching a well. 81. A drain tool according to claim 80, in which the housing facilitates the installation of a device for researching a well with a cavity. 82. The trigger tool according to claim 81, wherein the housing is made of two or more parts, wherein one part is selectively separable from the other part to provide access to the cavity. 83. A release tool according to claim 69, further comprising at least a portion of the magnetic brake system. 84. The trigger tool according to claim 69, in which the housing has an upper part designed for detachable connection to the catcher, and a lower part intended for detachable connection to the inner tube. 85. The drain tool according to claim 84, wherein the lower part of the housing comprises a locking mechanism for releasably connecting to the mating structure on the inner tube. 86. A trigger tool according to claim 85, in which the housing comprises an actuator for actuating the locking mechanism to provide a connection with the specified structure when connecting the drain tool and the inner core receiver tube. 87. The drain tool according to claim 84, in which the upper part of the housing contains a mating structure 88. A drain tool according to claim 69, wherein the well survey tool comprises a well survey tool or a component thereof. 89. The launch tool according to claim 88, wherein the downhole tool comprises one or more sensors selected from a group of sensors comprising an orthogonal accelerometer, magnetometer, gyroscope and gyroscopic sensor based on microelectromechanical systems. 90. The trigger tool according to claim 69, in which the housing or at least its corresponding parts are made of material or materials that do not create magnetic interference affecting the geomagnetic device. 91. A trigger tool according to claim 90, in which the housing or at least its corresponding parts are made of non-magnetic material. 92. The drain tool according to claim 69, wherein the well research tool is operable inside the well when the drain tool is attached to the inner tube or when the drain tool is not attached to the inner tube. 93. A trigger tool according to any one of paragraphs. 69-92, comprising means for efficiently transferring the working end of the apparatus for examining the well to the outer surface of the drain tool. 94. A drain tool according to claim 93, comprising means for controlled transfer of said working end face of the device for exploring the well to the inner tube. 95. A trigger tool according to any one of paragraphs. 69-92, additionally containing a water-pressure actuating system, indicating the moment of landing of the drain tool or its otherwise reached final position inside the well. 96. A drain tool according to claim 95, in which the water-pressure executive system provides activation / deactivation of the device for researching the well. 97. The downhole block containing an inner tube according to any one of paragraphs. 26-36 in combination with a catcher. 98. The downhole block of claim 97, further comprising a release system for disconnecting the trap from the inner tube when the trap and inner tube are located in the well. 99. The downhole block according to claim 97, further comprising a synchronization system providing the ability to connect the trap to the inner tube so that the predetermined working end of the trap is synchronized with the inner tube. 100. The downhole block according to claim 99, in which the synchronization system comprises a shaped part of the trap and a shaped part of the inner tube, which are configured to connect to each other so that the trap can rotate relative to the inner tube with the initial position under the influence of its own weight or with minimal axial force. 101. The borehole block according to claim 100, in which each shaped part has a corresponding oblique cut. 102. The downhole block according to claim 97, further comprising a locking system for mechanically securing the inner tube with, in turn, synchronizing it with the working end of the catcher. 103. The downhole block according to claim 102, wherein the locking system comprises a flow-through clutch. 104. The downhole block according to claim 97, in which the position of the working end of the inner tube can be synchronized with the catcher using a wireless transmission. 105. The downhole block according to any one of paragraphs. 97-104, in which the catcher contains means that are actuated for adjustable positioning of the housing inside the well for the operation of the research tool. 106. The downhole block containing a drain tool according to any one of paragraphs. 69-96 in combination with an inner tube and / or catcher. 107. The downhole block of claim 106, further comprising a release system for disconnecting the drain tool from the inner tube when said tool is located in the well. 108. The downhole block according to claim 106, further comprising a synchronization system for connecting the drain tool to the inner tube so that the predetermined working end face of the drain tool is synchronized with the inner tube. 109. The downhole unit according to claim 108, in which the synchronization system comprises a shaped part of the drain tool and a shaped part of the inner tube, which are configured to be connected to each other so that the drain tool can rotate relative to the inner tube with the initial position under the action of its own weight or with minimal axial force. 110. The borehole block of claim 109, wherein each shaped portion has a corresponding oblique cut. 111. The downhole block according to any one of paragraphs. 106-110, further comprising a locking system for mechanically securing the inner tube, providing, in turn, its synchronization with the working end of the catcher. 112. The borehole block according to claim 111, wherein the locking system comprises a flow sleeve. 113. The downhole block according to any one of paragraphs. 106-110, in which the position of the working end of the inner tube can be synchronized with the drain tool using a wireless transmission. 114. A method of conducting downhole research using an research device located in the device according to any one of paragraphs. 1-25. 115. A method of conducting downhole research using an exploratory device located in the inner tube according to any one of paragraphs. 26-36. 116. A method of conducting downhole research using an research device located in the catcher according to any one of paragraphs. 37-67. 117. The method of conducting downhole research using an research device located in the device according to p. 68. 118. A method of conducting downhole research using a research tool located in a drain tool according to any one of paragraphs. 69-96. 119. A method of conducting downhole research using an research device located in the inner tube forming part of the combination according to any one of paragraphs. 97-105. 120. A method of conducting downhole research using an research device located in a drain tool, forming part of a combination according to any one of paragraphs. 106-113. 121. A method of conducting downhole research using a device containing an integrated device for researching a well, said method comprising lowering the device down the well, taking measurements downhole using an integrated device for researching the well, and extracting a core sample using said device. 122. A method of conducting downhole research using an internal tube containing an integrated device for researching a well, said method comprising placing an internal tube in a well, measuring downhole in a well using an integrated device for examining a well, and extracting an internal tube containing a core sample. 123. The method of conducting well research using a catcher according to any one of paragraphs. 37-67. 124. A method of conducting downhole research using a trap containing an integrated device for researching a well, said method comprising lowering the trap down the well, measuring downhole in the well using the built-in instrument for exploring the well, and extracting an inner tube containing a core sample using catcher. 125. A method of conducting downhole research using a drain tool containing an integrated tool for researching a well, said method comprising lowering a drain tool down a well using an integrated tool for researching a well and removing an inner tube containing a core sample using a drain tool and a catcher . 126. A device for examining a well during core sampling and comprising a body having a cavity for receiving a well research device, such that the device can move along the well with the device and be operated in the well, the body being made of two or more parts , one of which is selectively separable from the other part to provide access to the specified cavity and which are made with the possibility of detachable connection with each other using impervious to compound pile medium. 127. The device according to p. 126, further containing a device for its adjustable positioning inside the well for the operation of the research device. 128. The device according to p. 127, in which the device for adjustable positioning inside the well for operating the research device comprises means for connecting to the surrounding section of the drill string to ensure stability relative to the drill string. 129. The device according to p. 128, in which the specified connecting means is actuated to ensure that the device is maintained inside the surrounding area of the drill string with centering relative to the periphery. 130. The device according to p. 128, in which the specified connecting means contains radially arranged levers, pressed in the outer direction to come into contact with the sides of the drill string, thereby ensuring a central location of the device inside the surrounding section of the drill string. 131. The device according to p. 130, in which each lever has an external contact part designed to come into contact with the inner wall of the surrounding section of the drill string. 132. The device according to p. 128, in which the connecting means is configured to connect with the drill string to move along it when raising or lowering the device inside the well. 133. The device according to p, in which the connecting means is arranged to move between the retracted and extended states, while in the retracted state it does not interact with the inner wall of the drill string and is able to move along it, and in the extended state it is connected to the drill string for adjustable positioning of the device inside the well while ensuring stable maintenance for the operation of the research device. 134. The device according to p. 128, further containing actuating means for actuating the connecting means. 135. The device according to p. 126, ensuring the launch of the device for well research. 136. The device according to any one of paragraphs. 126-135, containing the inner tube or core drill. 137. The device according to any one of paragraphs. 126-135 containing a catcher. 138. The device according to any one of paragraphs. 126-135, containing a structure intended for attachment to the inner tube and / or catcher. 139. The device according to any one of paragraphs. 126-135 containing the drain tool.