DE3630674A1 - METHOD AND DEVICE FOR EXCHANGING INFORMATION WITH A HOLE HOLE DEVICE - Google Patents

Description

The present invention relates to a method and an apparatus for use in conjunction with a conventional Downhole device used for measurements during drilling is designed to share information with this Perform downhole device while this is on the surface.

Due to recent developments in the field of Measurements designed while drilling devices there were satisfactory technical changes, which are that the downhole device a can collect considerable amount of information, for example a detailed description of the various Layers or formations that the drill penetrates. Much of this information is extremely important but not for the drilling operation currently in progress essential. All details are for drilling operations about the orientation of the drill required to correct progressing drilling operation. Fewer details are interesting for the ongoing drilling about the formations currently broken. Therefore with the usually carried out telemetry or measured value remote transmission, either with a mud pulse system or with a wired system that Priority given to drilling information and which ver more detailed information regarding different formations mations are saved. Other well-known boreholes armors draw formation data for a subsequent Recovery and evaluation only on. It is then possible to reproduce any stored information win if the downhole device in certain time from stands for an exchange of the drill or the drill bit is brought back to the surface.  

In known systems for the recovery of the stored Saved data becomes direct electrical connections used for the formation of an opening in the Wall of a corresponding assembly of the borehole device tion is required. With an opening in the wall of the Assembly creates the problem of weakening the structure tur, from which the possibility of breaking the assembly with the resulting potential loss of the borehole equipment grows, an expensive one to recover "Fishing" is required. In other known systems is breaking the drill string on the surface required to either the recorder recover or access the downhole yourself to get recorded data.

Resistance designed for measurements during drilling sensors are generally transmitters and receivers, either of the current type (line type) or of induction Typ. Current type sensors have electrodes that are on the Surface of the assembly are attached to the Drilling mud and the formation immediately adjacent to the Module to inject current directly and from it receive. Induction type sensors point to the surface the antenna coils assembly to in the surrounding Drilling fluid and formation currents to induce and increase to capture.

The present invention provides a method and a Device for exchanging information with one for Measurements designed during drilling of the assembly, if the downhole device is on the surface, without special connections through a hole or an opening in the assembly is required. To In the present invention, this additional opening  avoided so that a safer, more reliable and easy to operate system is created.

According to the invention, either electrodes or Antenna coils used to make an electrical connection between data collection and storage circuits in the Instrument assembly and a data storage and processing to create processing device on the surface. Erfin According to the invention, a transmitter deployed on the surface and receiver with the receiver or transmitter of the for Resistance measurements designed during drilling sors connected or coupled, preferably while themselves the instrument assembly is on the surface, for example during the drill change. The on the Unfolded surface transmitter and receiver with the Module circuits are coupled, Arbeitsbe missing from the one designed for measurements during drilling Send module and receive data from the module, which were collected while the assembly was in the Borehole. The circuits in the for measurements tools designed during drilling must allow that data stored in the assembly about the electrical de / antenna are transmitted by the electrode / antenna temporarily shut off from their normal operating circuit tet or decoupled (or by such Operation is restricted) to the transfer of the saved allow saved data. The surface device can for example, activate a switching mechanism by which the resistance device temporarily as a data transfer system instead of as a resistance measurement (data collection) System works.

An embodiment of the invention is as follows described with reference to the accompanying drawings.

The drawing shows a schematic section through a  typical downhole device assembly on the surface with a device for the informa tion exchange according to the present invention pelt is.

In the figure, the invention is shown schematically as it is used in connection with a borehole measuring device block designed for measurements during drilling. The device assembly 10 is made of high-strength steel and has an axial bore 12 and an annular cavity 14 in which a transmitter 16 , a receiver 18 , an electrode / antenna arrangement 20 and a data memory 22 are arranged. It should be noted that the present invention can be applied to any type of downhole device having a transmitter and a receiver that operate on any frequency primarily for the purpose of collecting downhole information. If the device is an electrical sensor, it can be conductive or inductive. The conductive type requires electrodes, the inductive type requires an antenna. Accordingly, the electrode / antenna assembly 20 is mounted on or on the surface of the assembly, either with a single array for transmission and reception or with separate sections for transmission and reception. It should be added that the invention can also be used for an acoustic device in the sound range or for any other measuring device operating in any frequency range if corresponding transmitting and receiving devices are mounted on the assembly.

The jig designed for measurements during drilling tion works very conventionally: the information is total while the device is operating in the borehole melts, and in such cases only those for the Transfer drilling data necessary to the surface. The rest of the information, for example about the  Formation build, are transferred to memory to to be read out later. The Downhole device can also be a system that, while downhole, just records, and where all data is recovered when the Instrument assembly located on the surface.

An overall surface communication device designated by reference numeral 24 has a transmitter 26 , a receiver 28 and surface circuits 30 for data acquisition and system control. The surface communication device 24 must be compatible with the borehole device, ie the surface device must also be inductive if the borehole device is inductive. The transmitter 26 and the receiver 28 of the communication device 24 are arranged in the inductive type in the transmission area of the device assembly 10 when the assembly is on the surface, for example when the downhole device has been brought to the surface for the exchange of the drill. In a conductive type or current type system, there must be electrical contact between the electrodes as shown in the drawing. When the device is on the surface, the surface communication device 24 is brought into a position in which the electrode / antenna of the transmitter 26 and the receiver 28 with the electrode / antenna arrangement 20 of the transmitter 16 and receiver 18 of the device assembly 10 in Contact or can be coupled with it. For this purpose, the assembly 10 does not have to be removed from the drill string or pierced. The surface device then uses the transmitter 26 , which sends instructions for the data memory 22 via the arrangement 20 and the receiver 18, to instruct the downhole device to read out the stored information and to transmit it via the transmitter 16 and the arrangement 20 . The information is received by the receiver 28 and passed on to the circuits 30 , where the data are stored and / or processed accordingly. After completion of the data transfer, it is possible to either reprogram or instruct the downhole device by transferring the appropriate information from the surface circuits 30 through the transmitter 26 to the assembly 20 , the receiver 18, and into the data store 22 . The information to be stored may include instructions for the assembly 10 data measurement / acquisition system relating to the expected drilling speed and direction, or an expected geological profile of the area being drilled, to enable a comparison between the actual and predicted geological conditions. A selection from a menu of measurements that can be carried out can also be given in the data memory 22 .

An alternative embodiment of the invention has one Probe on through in the bore of an assembly corresponding facilities, such as Spider web clips (spider web brackets). The probe points a data storage and electronic resistance sensor Facilities, with the one installed in the bore Sensor electronics with one attached to the module Sensor antenna device is connected. The operation corresponds to that described above. A Kompa tibles surface device with the sensor antenna device coupled to transmit instructions and downhole receive collected data.

The present invention can also be used for recovery data in any case where the Data collected in a sealed container and be saved, and the closed state of the Container should be retained. For example when determining throughput data from a pipeline  downtime and a according to the present invention possible leakage causing environmental damage is avoided the. Another example of the application of the invention is the determination of data that shows the activity in a nuclear cell or the temperature / pressure conditions in a container involving dangerous materials records.

The device described above normally works in the High frequency range. By replacing the corresponding one However, the invention can also be used with sensors in Sound range working device can be used.

The above description is only used to explain Embodiments. Both the process steps as even the details of the device can be varied be modified without deviating from the inventive idea chen.

Claims (20)

1. A method for information exchange between a surface device (24) and a designed for measurement while drilling downhole device (10), whereas this device (10) is located at the surface, the downhole device (10) comprises a transmitter (16) and a Has receiver ( 18 ), both of which are connected to an information memory ( 22 ) and an electrode / antenna arrangement ( 20 ), characterized by the following steps:

• - Placing a compatible electrode / antenna arrangement on the surface device ( 24 ) in the contact / transmission area of the electrode / antenna arrangement ( 20 ) of the borehole device ( 10 ); and
• - Direct exchange of information between a data acquisition device ( 30 ) of the surface device ( 24 ) and the downhole device ( 10 ) in order to transmit information to the information store ( 22 ) and to receive data therefrom.

That the information transmitted by the surface unit (24) Information instructions for the device information memory (22) comprises transmitting 2. The method according to claim 1, characterized in this information memory (22) data included. 3. The method according to claim 1 or 2, characterized in that the information transmitted by the surface device ( 24 ) in the device information memory ( 22 ) includes instructions to be stored which relate to the further work of the device ( 10 ) in the borehole. 4. The method according to any one of claims 1 to 3, characterized in that the electrode / antenna arrangement ( 20 ) is conductive. 5. The method according to any one of claims 1 to 3, characterized in that the electrode / antenna arrangement ( 20 ) is inductive. 6. Device for an information exchange with a borehole device ( 10 ) designed for measurements during drilling, while this device ( 10 ) is on the surface, the borehole device ( 10 ) having a transmitter ( 16 ) and a receiver ( 18 ) has, which are both connected to a data storage device ( 22 ) and an electrode / antenna arrangement ( 20 ), characterized by:

• - A transmitter ( 26 ) and a receiver ( 28 ) with a compatible electrode / antenna arrangement which can be positioned in the transmission area of the electrode / antenna arrangement ( 20 ) of the downhole device ( 10 ); and
• - A data acquisition and system control device ( 30 ) connected to the transmitter ( 26 ) and the receiver ( 28 ) whereby instructions can be sent from the surface transmitter ( 26 ) to the receiver ( 18 ) of the downhole device ( 10 ) which instruct the transfer of information from the data storage device ( 20 ) via the transmitter ( 16 ) of the borehole device ( 10 ) to the surface receiver ( 28 ) for analysis by the device ( 30 ) for data acquisition and system control, and thereby in Similarly, can be transmitted in the data storage means (22) for storing instructions for the downhole device (10).

7. The apparatus of claim 6, characterized in that the instructions include data relating to the operation of the downhole device ( 10 ) after it has been returned to the downhole. 8. Apparatus according to claim 7, characterized in that the Data include drilling instructions. 9. Apparatus according to claim 7 or 8, characterized in that the data provides information about what is expected include geological profile. 10. Device according to one of claims 6 to 8, characterized in that the downhole device ( 10 ) has a probe which contains a transmitter, a receiver and a data storage device. 11. A method for exchanging information with a meter, the processing part of a closed Vorrich (10) without the device (10) to open, said apparatus comprising a transmitter (16), a receiver (18), a store (22 ) and an electrode / antenna arrangement ( 20 ) which is attached to or on the surface of the device ( 10 ), characterized by the following steps:

• - Placing a compatible readout electrodes / antenna arrangement of a data acquisition device ( 30 ) in the transmission area of the electrode / antenna arrangement ( 20 ) of the measuring device; and
• - Direct exchange of information between the data acquisition device ( 30 ) and the measuring device in order to transmit and receive data from the information memory ( 22 ).

12. The method according to claim 11, characterized in that the information transmitted from the data acquisition device (30) information Instructions for the informa tion memory (22) to transmit (22) data contained in the memory. 13. The method according to claim 11 or 12, characterized in that the information transmitted by the data acquisition device ( 30 ) in the information memory ( 22 ) of the measuring device includes instructions to be stored which relate to the further data to be collected. 14. The method according to any one of claims 11 to 13, characterized in that the electrode / antenna arrangement ( 20 ) is conductive. 15. The method according to any one of claims 11 to 13, characterized in that the electrode / antenna arrangement ( 20 ) is inductive. 16. Device for exchanging information with a measuring device in a closed device ( 10 ) without opening this device ( 10 ), the measuring device being a transmitter ( 16 ), a receiver ( 18 ), a data storage device ( 22 ) and an antenna / electro den arrangement ( 20 ), characterized by:

• - A transmitting device ( 26 ) and a receiving device ( 28 ) which can be positio ned in the transmission range of the antennas / electrode arrangement ( 20 ) of the measuring device; and
• - A device ( 30 ) for data acquisition and system control, which is connected to the transmitting device ( 26 ) and the receiving device ( 28 ), whereby instructions can be sent from the transmitter device ( 26 ) to the receiver ( 18 ) of the measuring device, which the transmission to instruct information from the data storage device ( 22 ) through the transmitter ( 16 ) of the meter to the receiving device ( 28 ) for analysis by the device ( 30 ) for data acquisition and system control, and thereby similarly instruct the meter the Sendeeinrich device ( 26 ) for storage in the data storage device ( 22 ) can be transferred.

17. Apparatus according to claim 16, characterized in that the instructions regarding data relating to later operation include. 18. Apparatus according to claim 17, characterized in that the data include operating parameters. 19. Device according to one of claims 16 to 18, characterized in that the transmitting device ( 26 ) and the receiving device ( 28 ) operate in a sound frequency range. 20. Device according to one of claims 16 to 18, characterized in that the transmitting device ( 26 ) and the receiving device ( 28 ) operate in a high frequency range.