RU99117918A - METHOD AND DEVICE FOR COMMUNICATION WITH A DATA SENSOR PLACED IN A SURFACE GROUND LAYER, METHOD FOR MEASURING PARAMETERS OF THIS LAYER, A DEVICE FOR RECEIVING SIGNALS OF DATA FROM A CUTTING OF A SHARED CUT OF GRASS. - Google Patents

Claims (26)

1. The communication method after installing the casing in the wellbore with a data sensor located at a distance to the installation of the casing in the subsurface formation passed by the wellbore, characterized in that the antenna is installed in the casing wall and the data receiver is inserted into the cased wellbore for communication with a data sensor using an antenna in order to receive formation data signals detected and transmitted by the data sensor.  2. The method of communication after installing the casing string in the wellbore with a data sensor located at a distance before installing the casing string in the subsurface formation passed by the wellbore, characterized in that the locations of the data sensor in the subsurface formation are detected, holes are made in the casing wall near the location data sensor, install the antenna in the hole in the casing wall and enter the data receiver into the cased wellbore near the antenna for communication with the data sensor using the antenna To order to make the data signals on the reservoir detected and transmitted by the data sensor.  3. The method according to claim 2, characterized in that the data sensor is provided with a means for transmitting a sign signal, and the location of the data sensor is detected by detecting a sign signal.  4. The method according to claim 2, characterized in that the data sensor is provided with a gamma marker for transmitting a marker characteristic signal, and when the location of the data sensor is determined, the depth of the data sensor is determined using gamma-ray logs recorded in an open hole, a marker signal a data sensor and the azimuth of the data sensor relative to the wellbore using a gamma-ray detector and a sign marker signal.  5. The method according to claim 4, characterized in that the azimuth of the data sensor is determined using a collimated gamma radiation detector.  6. The method according to claim 2, characterized in that the antenna is installed in the hole in the casing using a tool lowered into the well on the cable.  7. The method according to p. 6, characterized in that they use a data receiver comprising a microwave resonator.  8. The method according to claim 2, characterized in that when identifying the location of the data sensor, the depth and azimuth of the data sensor relative to the wellbore are detected.  9. A method of measuring the parameters of a subsurface soil stratum, characterized in that a borehole is drilled in a subsurface soil stratum with a drill string having a drill pipe and drill bit, while the drill pipe has a sensitive means that can move from the retraction position inside the drill pipe to the position placement inside the surface layer of the soil outside the wellbore, the sensitive means contains electronic circuits made with the possibility of perception the selected formation parameters and generating output data signals representing the detected formation parameters, when the weighted drill pipe is located in the right place relative to the surface formation of interest, the sensitive means is moved from the lead position inside the tool to the position inside the surface layer of interest outside the wellbore, the casing is installed inside the wellbore, locate the location of the data sensor in the near-surface area e, make holes in the casing wall and install an antenna in it near the location of the data sensor, introduce means for receiving into the cased wellbore, electronically connect a sensitive means, prompting the sensitive means to perceive the selected formation parameters and to transmit data signals representing detected formation parameters, and receive output data signals from a sensitive means means for receiving.  10. A device for receiving data signals in a cased wellbore from a data sensor located at a distance to install the casing in the wellbore in a subsurface formation passed by the wellbore, characterized in that it contains an antenna configured to be installed in a hole made in a wall of the casing installed in the wellbore, and a data receiver configured to insert into the cased wellbore for communication with the data sensor using an antenna in order to receive signals for nnyh of formation transmitted by the data sensor.  11. The device according to p. 10, characterized in that it further comprises means for detecting the location of the sensor in the subsurface formation, means for making holes in the casing wall near the location of the data sensor, and means for installing said antenna in the hole of the casing wall.  12. A device for collecting data from a subsurface soil stratum, characterized in that it comprises a data sensor configured to install a drill string located in the wellbore away from the drill pipe located in the wellbore in a position of placement inside the selected subsurface formation intersected by the wellbore, for receiving data and transmitting data signals representing at least one formation parameter, means for detecting the location of the data sensor in the subsurface formation after installation and a casing in the wellbore, an antenna for communicating with the data sensor, and means for installing the antenna into the opening in the wall of the casing near the data sensor location.  13. The device according to p. 12, characterized in that the data sensor is equipped with a means for transmitting a signal of a sign, which is used in the tool for detecting location.  14. The device according to p. 12, characterized in that the data sensor is equipped with a gamma marker for transmitting a marker signal of the attribute, and the means for detecting the location of the sensor includes a gamma-ray log recorded in an open hole, to determine the depth of the data sensor, and a detector gamma radiation to determine the azimuth of the specified data sensor relative to the wellbore.  15. The device according to 14, characterized in that the gamma radiation detector is a collimated gamma radiation detector.  16. The device according to p. 12, characterized in that the means for installing the antenna is part of the tool run into the well on the cable.  17. The device according to clause 16, wherein the tool launched into the well on the cable includes means for detecting the azimuth of the data sensor relative to the wellbore, means for turning the tool launched into the well on the cable, azimuth detection, means for making holes through the casing and cement according to the revealed azimuth and means for installing the antenna in the hole in the casing.  18. The device according to p. 12, characterized in that it further comprises a data receiver configured to be located in a cased wellbore near the antenna for communication with a data sensor using an antenna in order to receive formation data signals transmitted by the data sensor.  19. A device for establishing communication with a data sensor located in a subsurface formation passed by a cased wellbore, characterized in that it comprises means for detecting the location of the data sensor in the formation, means for forming perforations in the casing near the detected location, data sensors, an antenna for communication with a data sensor and means for introducing the antenna into the perforation of the casing in the casing.  20. The device according to claim 19, characterized in that it further comprises a casing adapted to move through the cased wellbore and in which means for locating, means for forming perforations, an antenna and means for introducing the antenna are transferred.  21. The device according to claim 20, characterized in that the casing is suspended on a cable capable of raising and lowering the casing in the wellbore.  22. The device according to claim 20, characterized in that the data sensor is capable of emitting a clear radiation signal, and the means for locating the location contains gamma-ray logs recorded in an open hole well to determine the depth of the data sensor, and a radiation detector carried inside the casing , to determine the azimuth of the data sensor relative to the wellbore.  23. The device according to claim 20, characterized in that the casing has a lateral hole and there is additional means for rotating the casing relative to the cased wellbore to ensure that the opening in the casing is located essentially in the azimuth of the data sensor.  24. The device according to item 23, wherein the means for forming the perforation comprises means for securing the casing in a substantially fixed place in the cased wall of the well, a means for drilling, carried inside the casing, for the formation of perforation in the casing of the wellbore and means carried inside the casing for actuating the means for drilling.  25. The device according to paragraph 24, wherein the drill comprises a drill bit configured to perforate the casing, means for rotating the drill bit relative to the casing to form perforations in it, and means connected to the casing for applying force to the drill crown, across the wellbore, to advance the drill bit through the casing when it is rotated using rotation means.  26. The device according to p. 20, characterized in that the means for introducing the antenna contains means portable inside the casing for storing several antennas, configured to communicate with the data sensor, means for moving one antenna to a predetermined position for insertion into the perforation and means for pushing one antenna through the hole in the casing into the perforation in the casing.