CN110318733A - A kind of well logging apparatus, integration probe and its control method for horizontal wellbore logging - Google Patents

Abstract

The embodiment of the present invention provides a kind of well logging apparatus, integration probe and its control method for horizontal wellbore logging, and Horizontal well measurer includes transport unit and integration probe, and transport unit is affixed with integration probe；Integration probe includes probe portion and fitting control unit, probe portion with to be bonded control unit affixed；Being bonded control unit includes ontology, driving device, control unit and gravity sensing unit；Gravity sensing unit is able to detect drift angle of the integration probe relative to gravity, and control unit can then control driving device to drive integration probe rotation from achieving the effect that adjusting adhesive angle.The Horizontal well measurer of the application can make integration probe turn to preset state using the drift angle in the means detection integration probe relative gravity direction of gravity sensing, to guarantee that the detection sensor in probe portion is bonded with borehole wall holding.

Description

A kind of well logging apparatus, integration probe and its control method for horizontal wellbore logging

Technical field

The present invention relates to horizontal logging technique field, a kind of well logging apparatus for horizontal wellbore logging, integrated is particularly related to Probe and its control method.

Background technique

Level well logging (horizontal well logging) is also referred to as " horizontal wellbore logging ", " lateral aperture well logging " or " water Flat gaging hole ", it is special to fully understand formation rock and construction during the underground engineering constructions such as oil field development or tunnel piercing Sign, it usually needs carry out horizontal drilling work and mating progress horizontal wellbore logging operation.Horizontal wellbore logging mainly leans on drilling tool band Dynamic well-logging probe implements measurement in well, multiple sensors built in well-logging probe, and different type does not pop one's head in its sensor not Together, every kind of sensor has specific detection direction.During logging operation, due to the limit of logging equipment and equipment itself material System, gravity can make logging equipment the eccentric phenomena that probe is biased to bottom occur, may cause during long range pushes Well-logging probe has uncontrollable deflection that probe sensor and the effect that is bonded of medium (hole wall) is caused to cannot be guaranteed in well, from And cause test data abnormal.

Existing solution mainly uses centralizer that logging equipment is made to be close to the borehole wall as far as possible to reduce data exception It generates, or so that test data is obtained later period correction by the method that software is handled, but be all unable to control or guarantee probe sensing The angle that device is bonded with medium (hole wall), thus cannot directly obtain and stablize correct signal data.

Therefore, it is necessary to a kind of new technical solutions to solve the above problems.

Summary of the invention

In view of this, the embodiment of the present application provide it is a kind of convenient for control detection sensor and borehole wall fitting for horizontal well Well logging apparatus, integration probe and its control method of well logging.

In order to achieve the above objectives, the embodiment of the present application is intended to provide a kind of integration probe for horizontal wellbore logging, including Probe portion and fitting control unit；The probe portion is configured with detection sensor, and the detection sensor has the first installation site； The fitting control unit includes ontology, driving device, control unit and gravity sensing unit, and the ontology and the probe portion are solid It connects, the integration probe has the pivot center extended along horizontal well extending direction, and the driving device can drive the collection At probe around the pivot axis；The gravity sensing unit have the second installation site, second installation site with Gravity direction has the first default angle, and first installation site and second installation site are opposing stationary；The gravity Sensing unit is fixedly installed on inside the fitting control unit, for detecting the inclined of the second installation site relative gravity direction Angle, in the case where the drift angle is different with the described first default angle, described control unit is used for according to the drift angle and institute The misalignment angle control driving device stated between the first default angle drives the integration probe to rotate up to the drift angle It is identical as the described first default angle.

Further, the described first default angle is -10 °~10 °, and first installation site and gravity direction have the Two default angles, the second default angle are -10 °~10 °.

Further, the described first default angle is 0；And/or the second default angle is 0.

Further, stating gravity sensing unit is gravity sensor or gyroscope.

Further, the ontology is cylindrical, and the ontology is about the pivot center rotational symmetry.

Further, the transition junction of the ontology and the probe portion seamlessly transits.

Further, the driving device is motor, and the motor includes motor shaft and power part, and the power part is fixed It is set in the ontology, the motor shaft is stretched out from the ontology away from the probe portion side.

The another aspect of the embodiment of the present application provides a kind of well logging apparatus, including transport unit and any of the above-described integrated spy Head, the integration probe are detachably connected by the driving device and the transport unit, and the transport unit is able to drive described It is bonded control unit and probe portion feeding or recycling, the driving device is able to drive the probe portion and fitting control unit phase The transport unit is rotated.

Further, the driving device is motor, and the motor includes motor shaft and power part, and the power part is fixed It is set in the ontology, the motor shaft of the driving device is stretched out from the ontology away from the probe portion side, the drive Dynamic device is connect by the motor shaft with the transport unit, and the power part can rotate to drive relative to the motor shaft The fitting control unit and the probe portion rotate synchronously.

The another aspect of the embodiment of the present application provides a kind of control method of integration probe, integrates applied to any of the above-described Probe, comprising: integration probe detects the drift angle in the first installation site relative gravity direction；In the drift angle and described first In the case that default angle is different, integration probe is controlled according to the misalignment angle between the drift angle and the first default angle It is identical as the described first default angle that the driving device drives the integration probe to rotate up to the drift angle.

Further, the described first default angle is 0；And/or first installation site and gravity direction have second Default angle, the second default angle is 0.

The embodiment of the present application provides a kind of well logging apparatus, integration probe and its control method for horizontal wellbore logging, Well logging apparatus is when carrying out horizontal wellbore logging operation, if well logging apparatus or integration probe produce uncontrollable deflection, integrates and visits The gravity sensing unit of head is able to detect that the drift angle in the second installation site relative gravity direction and drift angle information is supplied to control Unit processed, control unit judge whether drift angle information and the first default angle are different, and driving device driving is controlled if different Ontology turns an angle, so that integration probe turns to drift angle state identical with the first predetermined angle, to guarantee to detect Detection sensor in portion is bonded with borehole wall holding.

Detailed description of the invention

Fig. 1 is the structural schematic diagram of the well logging apparatus of the embodiment of the present application；

Fig. 2 is that the integration probe of the embodiment of the present application is located at the rough schematic view of the cross section in horizontal well；

Fig. 3 is that the integration probe of the embodiment of the present application is located at the rough schematic view of the cross section in horizontal well；

Fig. 4 is the control method flow chart of the integration probe of the embodiment of the present application.

Description of symbols

Transport unit 1；It is bonded control unit 2；Ontology 201；Driving device 202；Motor shaft 2021；Power part 2022；Data line 203；Control unit 204；Gravity sensing unit 205；Probe portion 3；Detection sensor 301

Specific embodiment

Below in conjunction with illustrations, the specific embodiment of the application is described, it is clear that described specific reality Applying mode is only a part of the embodiment, is based on presently filed embodiment, and those of ordinary skill in the art are not making creation Property labour under the premise of other embodiments obtained, within the scope of protection of this application.

The embodiment of the present application provides a kind of integration probe for horizontal wellbore logging, referring to Fig. 1, including 3 He of probe portion It is bonded control unit 2；Probe portion 3 is configured with detection sensor 301, and detection sensor 301 has the first installation site；Fitting control Portion 2 includes ontology 201, driving device 202, control unit 204 and gravity sensing unit 205, and ontology 201 and probe portion 3 are affixed, Integration probe has the pivot center extended along horizontal well extending direction, and driving device 202 can drive integration probe around rotation Axis rotation；Gravity sensing unit 205 has the second installation site, and the second installation site and gravity direction have the first default folder Angle, the first installation site and the second installation site are opposing stationary；Gravity sensing unit 205 is fixedly installed in fitting control unit 2 Portion, for detecting the drift angle in the second installation site relative gravity direction, in the case where drift angle is different with the first default angle, control Unit 204 processed is used to drive integration probe according to the misalignment angle control driving device 202 between drift angle and the first default angle It is identical as the first default angle to rotate up to drift angle.

The integration probe of the embodiment of the present application, due to preset calibrations detection sensor 301 and gravity sensing unit 205 Relative mounting location, therefore the angle for only needing to detect 205 relative gravity direction of gravity sensing unit can be obtained detection sensing The angle in 301 relative gravity direction of device drives ontology 201 by driving device 202, and ontology 201 can be driven and probe portion 3 is same Step rotation.

Specifically, integration probe protrudes into horizontal well, before starting integration probe and starting well logging, adjusts integration probe phase Integration probe is illustrated when the drift angle that gravity sensing unit 205 detects is the first default angle to the position of the horizontal well borehole wall The position of the relative level well borehole wall is in target position, that is to say, that the corresponding default angle of above-mentioned first is integration probe The corresponding angle with gravity direction when positioned at the target position of the horizontal well borehole wall, for example, when needing to keep detection sensor 301 When being close to the bottom wall of horizontal well, zero degree can be set by the first above-mentioned default angle.It then can star logging operation.By In the frictional influence of gravity and the borehole wall, integration probe may generate uncontrollable deflection during feeding to be caused to pop one's head in Sensor and being bonded for the borehole wall are ineffective, when integration probe generates deflection, the folder in the second installation site relative gravity direction Angle can change, and gravity sensing unit 205 is able to detect that the drift angle in the second installation site relative gravity direction and by drift angle Information is supplied to control unit 204, and control unit 204 judges whether drift angle information and the first default angle are different, if different Then controlling driving device 202 drives ontology 201 to turn an angle, so that integration probe turns to drift angle and the first predetermined angle Identical state, to guarantee that the detection sensor 301 in probe portion 3 is bonded with borehole wall holding.

Specifically, the present embodiment defines integration probe with respect to the first default angle around the direction that pivot center rotates clockwise It is positive, the direction rotated counterclockwise is negative.For example, as shown in Fig. 2, pivot center is reduced to O point, the direction of vertical paper inwards For direction of feed, arrow is the first installation site of gravity sensing unit 205, and axis a-a ' is gravity direction, with the first default folder For angle is 0, integration probe is rotated in a clockwise direction α angle, then α value is positive；As shown in figure 3, if integration probe is along the inverse time Needle direction rotation β angle, then β value is negative.

In the embodiment of the present application, the first default angle is -10 °~10 °, and the first installation site and gravity direction have second Default angle, the second default angle is -10 °~10 °.During actual job, the outer surface and borehole wall bottom of probe portion 3 Fitting there is certain contact area, therefore the first default angle and the second default angle are limited within limits, It is preferable equally to can guarantee that detection sensor 301 with borehole wall bottom is bonded effect.Further, the first default angle is 0 and/or second Default angle is 0, so that gravity sensing unit 205 is incuded direction always with gravity direction reference, make integration probe Control target be keep detection sensor 301 straight down.

In the embodiment of the present application, gravity sensing unit 205 is gravity sensor or gyroscope, and being also possible to other can feel Know the device of deflection angle, is capable of the drift angle in real-time detection the second installation site relative gravity direction.

In the embodiment of the present application, referring to Figure 1, ontology 201 is cylindrical, and ontology 201 is revolved about the pivot center Turn symmetrical, can so guarantee that ontology 201 can not influenced and normal rotation by environment in well as much as possible.Further, The transition junction of ontology 201 and probe portion 3 seamlessly transits, and reduces stuck by sundries in well during probe is protruded into or withdrawn A possibility that.

It is understood that ontology 201 can also be designed with probe portion 3 it is into a single integrated structure.

In the embodiment of the present application, referring to Figure 1, driving device 202 is motor, and motor includes motor shaft 2021 and power part 2022, motor shaft 2021 is stretched out from ontology 201 away from 3 side of probe portion, and driving device 202 can drive integration probe around level The pivot axis of well extending direction.The power part 2022 and ontology 201 of driving device 202 are installed on one, motor shaft 2021 stretch out away from 3 side of probe portion to connect and provide the transport unit of feeding or recycling power to integration probe；Driving device The mode of 202 driving integration probe rotations is that driving power part 2022 is rotated to drive ontology 201 and be visited around motor shaft 2021 Survey portion 3 rotates synchronously.It is understood that driving device 202 is also possible to the device or set that other can drive ontology 201 to rotate Standby, motor shaft 2021 then can be described as transmission shaft at this time.

In the embodiment of the present application, control unit 204 is separately connected driving device 202 and gravity sensing by data line 203 Unit 205, control unit 204 can be the controllers such as PLC or CPU or chip, and be written with corresponding control program, with normal Processing drift angle information simultaneously controls the rotation of driving device 202.

The embodiment of the present application also provides a kind of Horizontal well measurer, referring to Fig. 1, including transport unit and above-mentioned integrated spy Head, integration probe are detachably connected by driving device 202 with transport unit, and the elongation or retraction of transport unit can drive integrated spy The feeding or recycling of head, driving device 202 are able to drive integration probe and rotate relative to transport unit.

Specifically, when horizontal wellbore logging operation, transport unit connect with integration probe and constitutes the well logging apparatus, integration probe By transport unit elongation and protrude into horizontal well, by the frictional influence of gravity and the borehole wall, if integration probe produces not Controllable deflection causes probe sensor and being bonded for the borehole wall ineffective, and driving device 202 controls integration probe rotation at this time Adjustment is bonded effect with ensure probe sensor and the borehole wall.

After logging operation, transport unit 1 is retracted out of well, then integration probe and transport unit 1 are separated.

The integration probe of the embodiment of the present application is modularized design, is needed in use, by the driving device 202 of integration probe It is connect with transport unit；After use, the connection of driving device 202 and transport unit is dismantled.Therefore, driving device 202 need operation easy to disassemble with the junction of transport unit.

Driving device 202 be motor in the case where, can be one of power part 2022 and motor shaft 2021 with Driving section connection.Specifically, when power part 2022 is connect with driving device 202, i.e., power part 2022 and driving device 202 are tight It is solidly connected, motor shaft 2021 is fastenedly connected with ontology 201, is relatively rotated between motor shaft 2021 and power part 2022, and then make Obtaining ontology 201 drives probe portion 3 to synchronize relative to the rotation of power part 2022.In the embodiment of the present application, power part 2022 and ontology 201 It is fastenedly connected, motor shaft 2021 is stretched out from ontology 201 away from the side of probe portion 3, in this way, being not required in integration probe to be used When, power part 2022 is supported by ontology 201, and motor shaft 2021 is not subject to other active forces other than self gravity substantially, because This, can significantly improve the stress condition of motor；Furthermore 2021 overall dimensions of motor shaft are smaller, can convenient for electrode axis with The connection of transport unit, it is smaller to the space requirement of the installation site of junction.

The embodiment of the present application also provides a kind of control method of any of the above-described kind of integration probe, gravity sensing unit 205 The misalignment angle of integration probe is detected, and the rotation of driving unit driving integration probe is controlled accordingly by control unit 204 Angle.

Referring to Fig. 4, being the control method schematic diagram of integration probe provided by the embodiments of the present application, in a concrete scene In, integration probe ontology 201 in detection process is deflected, and needs to adjust posture itself to control detection direction to meet The requirement of fitting, specific control method the following steps are included:

Step 401: the drift angle in the first installation site relative gravity direction of detection.

Integration probe deflects, and gravity sensing unit 205 will test current inclined of the second installation site and gravity direction Angle, and send result to control unit 204, it is to be understood that the drift angle teachings are at -180 °~180 °, at other In embodiment, integration probe can also be defined and be negative around the direction that pivot center rotates clockwise, the direction rotated counterclockwise is Just.

Step 402: in the case where the drift angle is different with the described first default angle, according to the drift angle and described the Misalignment angle between one default angle control the driving device 202 drive the integration probe rotate up to the drift angle with The first default angle is identical.

Specifically, control unit 204 judges whether drift angle and the first default angle are different by internal processes, if phase It is different, then the value of the misalignment angle of drift angle and the first default angle is calculated, control unit 204 will be according to drift angle and the first default folder Differential seat angle between angle is installed come the identical angle of rotation for controlling the motor of driving device 202 since motor shaft 2021 fastens In transport unit, so power part 2022 will rotate backward respective angles, so that integration probe be driven to be returned to drift angle and first in advance If the identical state of angle；For example, the drift angle that control unit 204 receives is -14 °, the first default angle is 0 ° inside program, Then the value of misalignment angle is -14 ° -0 °=- 14 °, and control unit 204 will control driving device 202 and drive integration probe along up time Needle direction rotates 14 °, and the drift angle of sensing unit detection at this time will be 0 °, is returned to state identical with the first default angle；

If control unit 204 judges that drift angle is identical as the first default angle by internal processes, without movement.

The foregoing is merely the preferred embodiments of the application, are not intended to limit this application, for the skill of this field For art personnel, various changes and changes are possible in this application.Within the spirit and principles of this application, made any to repair Change, equivalent replacement, improvement etc., should be included within the scope of protection of this application.

Claims (11)

1. a kind of integration probe for horizontal wellbore logging characterized by comprising

Probe portion (3), the probe portion (3) are configured with detection sensor (301), and the detection sensor (301) has first Installation site；

It is bonded control unit (2), the fitting control unit (2) includes ontology (201), driving device (202), control unit (204) With gravity sensing unit (205), the ontology (201) and the probe portion (3) are affixed, and the integration probe has along horizontal well The pivot center that extending direction extends, the driving device (202) can drive the integration probe to turn around the pivot center It is dynamic；

The gravity sensing unit (205) has the second installation site, and second installation site and gravity direction have first Default angle, first installation site and second installation site are opposing stationary；

The gravity sensing unit (205) is fixedly installed on fitting control unit (2) inside, for detecting second installation The drift angle in position relative gravity direction, in the case where the drift angle is different with the described first default angle, described control unit (204) it is driven for controlling the driving device (202) according to the misalignment angle between the drift angle and the first default angle Moving the integration probe, to rotate up to the drift angle identical as the described first default angle.

2. integration probe according to claim 1, which is characterized in that the first default angle is -10 °~10 °, described First installation site and gravity direction have the second default angle, and the second default angle is -10 °~10 °.

3. integration probe according to claim 2, which is characterized in that the first default angle is 0；And/or described Two default angles are 0.

4. integration probe according to claim 1, which is characterized in that the gravity sensing unit (205) is gravity sensitive Device or gyroscope.

5. integration probe according to claim 1, which is characterized in that the ontology (201) is cylindrical, the ontology (201) about the pivot center rotational symmetry.

6. integration probe according to claim 1, which is characterized in that the mistake of the ontology (201) and the probe portion (3) Cross junction smooth transition.

7. integration probe according to claim 1, which is characterized in that the driving device (202) is motor, the motor Including motor shaft (2021) and power part (2022), the power part (2022) is fixedly installed in the ontology (201), described Motor shaft (2021) is stretched out from the ontology (201) away from the probe portion (3) side.

8. a kind of well logging apparatus for horizontal wellbore logging, which is characterized in that appoint including transport unit (1) and claim 1-6 Integration probe described in one, the integration probe are detachably connected by the driving device (202) and the transport unit (1) It connects, the transport unit (1) is able to drive the fitting control unit (2) and the probe portion (3) feeding or recycling, the driving dress It sets (202) and is able to drive the probe portion (3) and the fitting control unit (2) relative to the transport unit (1) rotation.

9. well logging apparatus according to claim 8, which is characterized in that the driving device (202) is motor, the motor Including motor shaft (2021) and power part (2022), the power part (2022) is fixedly installed in the ontology (201), described The motor shaft (2021) of driving device (202) is stretched out from the ontology (201) away from the probe portion (3) side, the driving Device (202) is connect by the motor shaft (2021) with the transport unit (1), and the power part (2022) can be relatively described Motor shaft (2021) rotation is to drive the fitting control unit (2) and the probe portion (3) to rotate synchronously.

10. a kind of control method of integration probe is applied to integration probe described in claim 1, which is characterized in that including such as Lower step:

Detect the drift angle in the first installation site relative gravity direction；

In the case where the drift angle is different with the described first default angle, according to the drift angle and the described first default angle it Between misalignment angle control the driving device integration probe driven to rotate up to the drift angle and the described first default folder Angle is identical.

11. control method according to claim 10, which is characterized in that the first default angle is 0；And/or it is described First installation site and gravity direction have the second default angle, and the second default angle is 0.