CN105863623B - A kind of data timesharing carrying system and method for VSP during drilling measurement - Google Patents

Abstract

The present invention relates to a kind of data timesharing carrying system and methods, belong to technical field of geophysical exploration, and in particular to a kind of data timesharing carrying system and method for VSP during drilling measurement.It include: the carrying device that can be mutually butted and VSP deck；Wherein: the carrying device includes: floating drum, control storage circuit and the carrying device coupling coil and Hall sensor being connected with control storage circuit；The VSP deck is located on VSP measuring tool ontology comprising: the side the VSP coupling coil matched with the carrying device coupling coil, the magnet matched with the Hall sensor.Therefore, the present invention has the advantage that (1) can timesharing read underground VSP data, ensured the advantage of VSP during drilling system real-time measurement；(2) accurate temporal information can be carried, for proofreading the error of underground VSP clock generation, improves measurement accuracy.

Description

A kind of data timesharing carrying system and method for VSP during drilling measurement

Technical field

The present invention relates to a kind of data timesharing carrying system and methods, belong to technical field of geophysical exploration, specifically relate to And a kind of data timesharing carrying system and method for VSP during drilling measurement.

Background technique

With the increasing of oil-gas exploration and development difficulty, vertical seismic profiling (VSP) (Vertical Seismic Profiling, VSP) application value of drilling measuring technology is increasingly prominent, especially visits function before its stratum, investigative range much larger than other with Bore logging tool.The problems such as card layer of the accurate positioning of deep & ultra-deep well Karst cave and high pressure formation, is still difficult to solve at present. For example, it is related statistics indicate that, drilling success of Tarim Region northern Tarim basin solution cavity be 59.5%, utilize VSP during drilling work Tool carries out secondary positioning to this area's failure well, can make the Drilling ratio of solution cavity that will improve to 85%, buried hill depth localization error is small In 1%, drilling risk is significantly reduced, saves drillng operation cost, and improve drilling well timeliness.

VSP during drilling is Observation Technology of Earthquakes in a kind of well, it is based on cable VSP technology, by seismic wave detection, data On the instrument integrations to down-hole equipment such as acquisition and storage, when not influencing normal drilling operability, real-time measurement simultaneously records ground Signal of the seismic wave that face focus generates after stratum transmission, reflection, so that VSP during drilling data are obtained, by measurement result When walking, the analysis such as polarity, phase, amplitude, obtain the interface depth, stratigraphic section and rock properties of drill bit earth layer in front Deng investigative range is up to hundreds of meters before drill bit.Compared with surface seismic, since VSP during drilling data obtain in shaft bottom, earthquake Propagation path is relatively short, and high frequency signal attenuation is less, therefore, has high signal-to-noise ratio, high resolution and kinematics, moves The advantages such as mechanical characteristics are obvious.Compared with normal cable VSP, VSP during drilling is measured during drillng operation makes up a joint, no Drillng operation is interfered, occupancy rig time is few, and construction risk is small, and drilling cost is low.In addition, VSP during drilling can receive simultaneously Traveling wave and down going wave can be used to estimate deconvolution operator for surface seismic data；Multi -components VSP during drilling can also record longitudinal wave simultaneously And shear wave, realize multi-wave multicomponent exploration.

The key technology of VSP during drilling measuring tool is the precise measurement seismic wave outward journey time, however the severe ring in underground High precision clock is obtained in border, be limit VSP during drilling measuring tool can practical application key factor, usually require that work Timing cumulative errors in underground are less than 1ms after 200 hours, this is for conventional crystal oscillator, it is difficult to meet precise measurement seismic wave The needs of hourage.Downhole sensor device will bear strong vibration, impact in drilling process, need to design special installation knot Structure can meet with the requirement for boring instrument.The seismic wave of epicenter excitation is after earth-attenuation reaches shaft bottom, on VSP measuring tool The coupling effect of sensor and the borehole wall to signal detection by decisive influence,

In addition, existing ground and underground Real-time Communication Technology are because of message transmission rate limitation, current more advanced mud Pulse transmission rate also can only achieve 3~5bps, other are such as intelligent drilling rod transmission technology, although transmission rate reaches as high as 100kbps, but its reliability in heavy duty service is lower, and higher cost, whole system complexity is huge, is not suitable for passing in real time Defeated VSP during drilling all-wave field data.It, can not since the all-wave data of VSP during drilling systematic survey are temporarily stored in downhole memory It is uploaded in real time, can only be exported again after pulling out of hole, largely limit the spy of VSP during drilling system real-time measurement Point.

To sum up, how to ensure the coupling effect of VSP seismic wave sensors and the borehole wall, sensor shock-damping structure and height The transmission of precision downhole clock, underground survey data is the main bugbear that VSP during drilling technology needs to overcome.

Summary of the invention

The present invention is mainly to solve the difficult technical problem of the transmission of underground survey data present in the prior art, is provided A kind of data timesharing carrying system and method for VSP during drilling measurement.The system and method being capable of timesharing reading underground VSP number According to, and accurate temporal information can be carried, for proofreading the error of underground VSP clock generation.

To solve the above-mentioned problems, according to an aspect of the invention, there is provided a kind of data for VSP during drilling measurement Timesharing carrying system, comprising: the carrying device and VSP deck that can be mutually butted；Wherein:

The carrying device includes: floating drum, control storage circuit and the carrying device coupling being connected with control storage circuit Zygonema circle and Hall sensor；

The VSP deck is located on VSP measuring tool ontology comprising: it is matched with the carrying device coupling coil The side VSP coupling coil, the magnet matched with the Hall sensor.

Optimization, a kind of above-mentioned data timesharing carrying system for VSP during drilling measurement,

The carrying device includes the rod-like body for being provided with carrying device coupling coil and Hall sensor, described rod-shaped This upper end stopped connects floating drum, and lower end is provided with carrying lateral guide；

The VSP deck is equipped with butt cavity for accommodating the rod-like body, the bottom of the butt cavity be provided with The VSP lateral guide for carrying lateral guide and matching；The side VSP coupling coil and magnetic are provided in the butt cavity Body；

After the rod-like body reaches butt cavity bottom, the carrying device coupling coil and the side VSP coupling coil phase Coupling, the Hall sensor are coupled with the magnet.

Optimization, a kind of above-mentioned data timesharing carrying system for VSP during drilling measurement, the carrying side guiding dress It sets, VSP lateral guide is the guiding surface being mutually harmonious.

Optimization, a kind of above-mentioned data timesharing carrying system for VSP during drilling measurement,

It is provided with the butt cavity for coupling with carrying device on the VSP deck, is provided with mud by the butt cavity Channel is provided with the deflector hole for being connected to the butt cavity and slurry channel on the carrying device.

To solve the above-mentioned problems, according to an aspect of the invention, there is provided a kind of data for VSP during drilling measurement Timesharing carries method, comprising: carries out after docking by ground pump pressure by data carrying device indentation shaft bottom and with VSP measuring tool Data exchange is taken from carrying device using the buoyant device being connected with carrying device by data carrying device emersion to well head Data out.

Optimization, on it is a kind of for VSP during drilling measurement data timesharing carry method, as data carrying device and VSP After measuring tool docking, whether is perceived according to the Hall sensor being installed on data carrying device and be installed on VSP measurement work Whether the magnet on tool succeeds to judge to dock, and carries out data interaction after judgement is docked successfully；After judgement docking failure, no Carry out data interaction.

Optimization, on it is a kind of for VSP during drilling measurement data timesharing carry method, by data carrying device and ground Clock is pressed into shaft bottom after synchronizing again and docks with VSP measuring tool, and in data interaction, data carrying device is by time synchronization Information is sent to VSP measuring tool, and VSP measuring tool calibrates temporal according to time synchronization information.

Therefore, the present invention has the advantage that (1) can timesharing read underground VSP data, ensured VSP during drilling system The advantage of real-time measurement；(2) accurate temporal information can be carried, for proofreading the error of underground VSP clock generation, is improved Measurement accuracy.

Detailed description of the invention

Attached drawing 1 is VSP during drilling measuring principle schematic diagram；

Attached drawing 2 is VSP during drilling measurement procedure schematic diagram；

Attached drawing 3 is VSP during drilling measuring tool schematic diagram；

Attached drawing 4 is the seismic signal waveform diagram of four component VSP measurement；

Attached drawing 5 is VSP during drilling measurement sensor installation equipment schematic diagram；

Attached drawing 6 is drill string vibration state waveform diagram；

Attached drawing 7 is backup mechanism controls schematic diagram；

Attached drawing 8 is data carriers structural schematic diagram；

Attached drawing 9 is the Digital Signals electrical block diagram of data carriers；

Attached drawing 10 is data carriers work flow diagram；

Attached drawing 11 is synchronizing device connection schematic diagram；

Attached drawing 12 is clock synchronization apparatus serial data output schematic diagram；

Attached drawing 13 is clock synchronization apparatus schematic illustration；

Attached drawing 14 is underground signal measurement and data storage principle block diagram；

Attached drawing 15 is data high-speed playback interface schematic diagram；

16 data high-speed playback program flow chart of attached drawing；

17 data high-speed playback program state diagram of attached drawing.

Specific embodiment

Below with reference to the embodiments and with reference to the accompanying drawing the technical solutions of the present invention will be further described.

In figure, the borehole wall 101, data carriers 102, VSP measuring tool 103, the first bed boundary 104, the second ground stratum boundary Face 105, focus 106, terrestrial clock synchronizing device 107, direct wave 108, the first back wave 109, the second back wave 110, VSP coupling Zygonema circle 301, signal transmission circuit 302, the first hydrophone 303, data communication mouth 304, precision interval clock component 305, underground master Control circuit 306, Z axis wave detector 307, X-axis wave detector 308, battery sleeve 309, the second hydrophone 310, seat mechanism for card 311, signal Receive circuit 312, data storage circuitry 313, signal acquisition circuit 314, Y-axis wave detector 315, measuring probe 501, sealing structure 502, retaining ring 503, wave detector 504, signal wire 505, sensor fixing body 506, fuel tank 701, solenoid valve 702, push action cylinder 703, backup block 704, overflow valve 705, check valve 706, oil pump 707, brushless motor 708, VSP measuring tool ontology 801, mud Channel 802, the side VSP coupling coil 803 carry side guiding surface 804, the side VSP guiding surface 805, floating drum 806, control storage Circuit 807, carrying device coupling coil 808, magnet 809, Hall sensor 810, rod-like body 811, butt cavity 812.

Embodiment:

1, system structure

As shown in Figure 1, four components VSP during drilling measuring system proposed by the present invention is mainly by surface energy source, VSP underground survey The composition such as tool, data carriers, terrestrial clock synchronizing device and data processing system.Wherein underground VSP measuring tool by Be distributed in X, Y, Z axis to three detector arrays, two hydrophones, circuitry for signal measurement, Data acquisition and storage circuit, letter It number receives and the composition such as transmit circuit, system power supply observation circuit, data high-speed download interface and battery sleeve.Underground VSP is surveyed Amount system is as shown in Figure 3.

Underground VSP measuring tool is the important core part of entire measuring system, effect be under production wells receivedly Seismic wave signal simultaneously automatically extracts preliminary wave time (check shot time), seismic waveform data is stored in memory to pull out of hole After be further analyzed processing.Whether VSP during drilling data effectively depend on the precise synchronization of downhole measurement tools and ground installation, For this purpose, the benchmark that underground survey system selects High Precision Crystal Oscillator source to record as the time, terrestrial clock is then using GPS clock as ginseng Clock source is examined, every the terrestrial clock of check and correction in 1 second, so that the accuracy of measurement result be effectively ensured.In order to obtain in time To underground survey data, data carriers are pressed into shaft bottom using pump pressure in drilling process, carry out data friendship with VSP measuring tool Mutually, the preliminary wave time for quickly reading measurement data and the extraction of each shot point, time and depth transfer relationship can be obtained using the data, For time-domain seismic profile to be transformed into Depth Domain, and bit location can be marked on seismic profile, being drilling engineer Decision-making foundation is provided.Since underground VSP measuring tool works in the interim that makes up a joint, when down-hole equipment remains static, Surface energy source is blown out to stratum earthquake-wave-exciting, and three axial wave detectors measure the longitudinal wave and shear wave of earthquake simultaneously, is convenient for Quantitative analysis is done to data processing later.And two received seismic signals of hydrophone are non-directional, it is current for calculating Seismic velocity and direct wave and transmitted wave do wave field separation.

In VSP during drilling measuring system, focus is placed near the well head of ground, usually apart from well head about 50m or so.Focus Usually controlled source, it is a kind of focus of continuous frequency sweep vibration, and frequency range is about 10~100Hz, its advantage is that anti-dry It is strong, reproducible to disturb ability.As shown in figure 3, surface energy source generates scanning signal az, signal az is surveyed by surface geophone simultaneously It measures and records.The detector array that underground is installed on VSP during drilling measuring tool measures the preliminary wave that focus is transmitted by stratum Signal bz generates signal az to areal receiver-array to signal bz from focus, and the time experienced is tz1.Source signal az downwards after It resumes and is multicast to bed boundary and can generate reflection wave signal cz and dz.Reflection wave signal cz and dz is arrived by well geophone array received That used is tz2 and tz3 when walking.Since wave signal bz and reflection wave signal cz and dz are detected by same detector array Be recorded, signal bz, cz be overlapped mutually with dz together with can not distinguish.Therefore, it is necessary to by focus scanning signal az and letter Number bz, cz and dz carry out computing cross-correlation and handle to obtain signal fz.Signal fz is obtained and time tz1, tz2 and tz3 in the time domain Relevant three characteristic signals respectively correspond preliminary wave signal az, reflection wave signal bz and cz.

VSP during drilling tool operation process is as shown in Fig. 2, be described in detail below:

Before brill: the synchronous terrestrial clock of downhole tool, and the running parameter of downhole instrument is set.In brill: 1. underground signal is adopted Collector usually in a dormant state, once automatically detecting drillng operation stopping, then opens underground sampling configuration, detects detection Device received signal.2. if drilling tool remains static, mud circulation pause then excites surface energy source.To avoid downhole instrument Device is activated by drilling tool noise, to be analyzed the feature of seismic wave projectile energy, and determination is after effectively blowing out information, will be under The acquired data storage of one big gun, and first break picking wave time.3. once automatically detect drillng operation and start, then by preliminary wave when Between and Wave data be stored in memory, wait data carriers read, later on underground suspend mode.4. ground system Using preliminary wave time timely erection rate model and time and depth transfer relationship, and drill bit is positioned on surface seismic section, To provide foundation to formulate informed drilling decisions.After brill: the whole audience waveform acquisition data in downhole memory are exported after trip-out, after Phase does VSP data processing.

2, sensor fixing structure

Compared with cable VSP, wave detector used in VSP during drilling measuring system and hydrophone will be resistant to underground judder With impact, mounting structure is more special.

Three geophones are respectively arranged in different location on VSP tool body, mutually in X, Y, Z axis to orthogonal pass System.In view of wave detector will be recovered to ontology from ontology outwardly against to the borehole wall in measurement after being measured, therefore by three Wave detector is separately mounted in three backup block internal cavities.Since the wave detector used is velocity profile analog detector, knot Structure includes cylindrical type permanent magnet, upper and lower two magnetic boots, coil and coil brace, the spring leaf to play a supportive role to coil etc., whole A wave detector is a single-degree-of-freedom coasting body.There are two groups of coils mutually rewound on coil brace, external magnetic field is on coil The noise of generation is cancelled out each other.The magnetic boots at magnet steel both ends ensure that field homogeneity is distributed, and enhance magnetic field strength.Work as epicenter excitation When seismic wave, wave detector shell generates movement and coil is made to produce relative motion in magnetic field, and coil cutting magnetic line generates Induced electromotive force, the size of voltage depend on the speed of movement.With X to the mounting structure of wave detector for example, such as Fig. 5 institute Show, sensor installation device is by measuring probe 501, sealing structure 502, retaining ring 503, wave detector 504, signal wire 505, sensing A few part compositions such as device fixing body 506.Wherein, sensor installation device installs the distance rod with hydraulic thrust oil cylinder on the body Connection, two sealed structures effectively prevent mud to immerse, and wave detector is fixed on backup block internal cavity by retaining ring, locking Ring is fixed with backup block using multiple screws, and the output signal line of wave detector is connected to measuring circuit by high pressure sealing contact pin.

Respectively there are a hydrophone cabin in VSP tool body top and bottom, are mounted with the first hydrophone 303 and second respectively Hydrophone 310, the two L separated by a distance, for measuring current interval velocity, information needed for obtaining time and depth transfer, because of it The seismic wave signal around VSP tool is received, i.e., the fluctuation of pressure field in annular space mud, Policy Result is a scalar value, after being Phase carries out wave field separation and provides necessary data.Hydrophone is used to measure the pressure oscillation that seismic wave generates in annular space mud, Due to one scalar of the pressure oscillation, no matter seismic wave sensitive can be fluctuated from which direction hydrophone to mud pressure, therefore Without pushing against the borehole wall, the seismic wave signal that the coupling of annular space mud comes can be measured, after hydrophone is installed to cabin, using lid Plate is sealed, and is connected firmly between cover board and ontology using multiple screws, and devise a circular hole on cover board and introduce mud To hydrophone sensitive area, for receive by annular space mud propagate into come seismic signal.

3, drilling tool state-detection

VSP during drilling measurement was carried out in the interim that makes up a joint, and slush pump stops working, and drilling tool remain stationary state, this When, surface energy source just can guarantee measurement result accurate and effective to underground earthquake-wave-exciting, underground VSP tool.For this purpose, underground controls Two axis accelerometers are mounted in circuit, for the vibrational state of real-time monitoring drilling tool, the drill string vibration signal of measurement passes through band After bandpass filter, the DC component and high-frequency information that signal includes are removed, only low frequency multidate information in reservation, thus control circuit Automatically it detects drilling tool state, judges whether underground starts acquisition storage.Due to the main control singlechip mathematics selected in VSP tool Operational capability is poor, when carrying out relative complex calculating needs occupancy compared with multimachine, will affect the reliability of whole system work, therefore As far as possible using better simply algorithm (for example multiplication and division all use and multiply or except the method for 2N is realized).

Onboard accelerometer can the sensitive quasi-periodic vibration for arriving drilling tool longitudinal direction, and slush pump, turntable brill or they Quasi-periodic vibration frequency caused by compound action is not less than 1Hz.Implementation method is as follows:

(1) longitudinal acceleration signal first by accelerometer detection carries out bandpass filtering, removes direct current signal and high frequency letter Number；

(2) acceleration value after bandpass filtering is compared with threshold value ± Δ g (± 40mg), determine the value whether mistake Zero；1. known acceleration value from positive value to negative value direction zero passage, then subsequent acceleration measurement is compared with+Δ g, determination Whether from negative value on the occasion of direction zero passage；2. when known acceleration value is from negative value to positive value direction zero passage, then subsequent acceleration Measured value is compared with-Δ g, it is determined whether from positive value to negative value direction zero passage；

(3) at the appointed time in (15 seconds) statistics acceleration value zero passage numbers；

(4) if statistical value >=30, that is, think that there are a quasi-periodic vibrations, otherwise it is assumed that generating without quasi-periodic vibration；

(5) in continuous 3 statistics, if number >=2 of " statistical value >=30 ", VSP tool is allowed to be acquired storage, it is no VSP tool is then forbidden to be acquired storage.

(6) threshold value selects.By the way that comparative analysis is repeated to limited shaft bottom axial acceleration storing data, threshold is simulated Value is determined as ± 40mg substantially.According to

Wherein, Acc is the acceleration value (g) calculated, and T1 is high-pulse widths related with acceleration magnitude, T2= 12064 be the pulse period unrelated with acceleration magnitude, and Δ T=2T1-T2 is underground single chip computer measurement and calculated centre Variable.It can be obtained from above

When it is ± 40mg that analog threshold, which is arranged, can obtain digital threshold is ≈ ± 38 Δ T.

Embodiment 1:

The working condition STPUMP of the automatic setting slush pump of difference by being respectively compared AxRMS and AyRMS and Ath.

AxRMS-Ath > 0 or AyRMS-Ath > 0

Then STPUMP=1 (turn on pump)；Otherwise STPUMP=0 (closing pump).

Wherein, AxRMS is X axis vibration sensor root-mean-square value, i.e.,

AyRMS is Y axis vibration sensor root-mean-square value, i.e.,

Ath is the comparison threshold value (needing to obtain by test) being artificially arranged, and Axi is X-axis (channel 0) vibration after high-pass filtering Dynamic sensors A D sampled value (two bytes have symbol integer), Ayi adopt for Y-axis (channel 1) vibrating sensor AD after high-pass filtering Sample value (two bytes have symbol integer).N is average time (being tentatively set as 256), need to be opened up and be deposited according to filtering channel number and N Memory space (2 × 256 words).

Embodiment 2:

Because Axi (or Ayi) is that two bytes have symbol integer, and the result of Axi ÷ 256 (or Ayi ÷ 256) is actually It is the high byte (being denoted as AxiHGH and AyiHGH respectively) for taking Axi (or Ayi), needs the memory space opened up that can reduce one in this way Half (2 × 256 bytes).

AxRMS is X axis vibration sensor root-mean-square value, i.e.,

AyRMS is Y axis vibration sensor root-mean-square value, i.e.,

The decaying of the vibration damping and high-pass filter of circuit board leads to AxiHGH and AyiHGH is often 0 (i.e. dynamic acceleration value Always it is less than 1g), judging automatically may fail at this time, need by being verified.To the drilling tool state-detection Method has carried out verification experimental verification, and actual result is as shown in fig. 6, wherein surface mud pump work frequency is about 1.5Hz, the mud of calculating Stock pump working frequency frequency (before removal burst pulse) is 1.67Hz, the slush pump working frequency frequency of calculating (after removal burst pulse) For 1.67Hz, it is seen that testing result can be as effective criterion of down-hole equipment state.

4, backup mechanism

Whether the coupling effect between wave detector and the borehole wall effectively has vital influence to seismic wave measurement data. When drillng operation suspends (making up a joint), electric circuit in well detects that drilling tool remains static, and control circuit starts brushless motor, The high pressure oil for driving oil pump rotation to generate, enters push action cylinder, to push drive rod that will carry wave detector after check valve The backup of backup block is stopped working after motor operation certain time interval T to the borehole wall, since the high pressure oil in push action cylinder is without releasing back Road, backup mechanism are in state of pressure keeping.VSP tool in underground just starts to acquire seismic signal and stores measurement data at this time, etc. To after the completion of acquisition storage, issues control command and allow electromagnetism valve events, high pressure oil is quickly released to fuel tank, backup block is in spring Effect is lower to be withdrawn rapidly, this signal measurement is terminated.

As shown in fig. 7, sensor backup mechanism by fuel tank 701, solenoid valve 702, push action cylinder 703, backup block 704, overflow Flow a few part compositions such as valve 705, check valve 706, oil pump 707, brushless motor 708, wherein fuel tank 701 is bladder-type cell.Below Control principle is described in detail: oil pump 707 generates high pressure oil under the driving of motor 708, and output to the connection of check valve 706 pushes away Power cylinder 703, it is contemplated that it is likely encountered biggish reaction force during backup, causes oil cylinder to build the pressure and damages hydraulic system, In an indirect overflow valve 705 for 703 entrance of oil cylinder and fuel tank 701, effective protection hydraulic system safety.Solenoid valve 702 Effect is to provide a quick current by pass after measurement for push action cylinder, it is ensured that thrust block pad can smoothly be withdrawn.It is brushless Motor 708 is controlled using soft starting mode, and adjusting accelerator is first even acceleration, is reached after setting speed with constant speed Operation, it is high reliablity that benefit, which is that electric motor starting rush of current is smaller,.

5, data carriers

Current more advanced mud-pulse transmission rate also can only achieve 3~5bps, other such as intelligent drilling rod transmission technology, Although transmission rate reaches as high as 100kbps, the reliability in heavy duty service is lower, higher cost, and whole system is multiple It is miscellaneous huge, it is not suitable for real-time Transmission VSP during drilling all-wave field data.Since the all-wave data of VSP during drilling systematic survey are temporarily protected Be stored in downhole memory, can not be uploaded in real time, can only until pull out of hole after be exported again, largely limit with The characteristics of boring VSP system real-time measurement.In addition, terrestrial clock is mutually indepedent with downhole clock, the two is respective after synchronous averaging Timing influences since downhole clock receives high temperature, the long-time stability of downhole clock is caused to be dropped compared with terrestrial clock It is low, and high-precision underground clock is the key that entire VSP during drilling system, usually require that after 200 hours underground VSP tool with Timing error between terrestrial clock is less than 1ms, thus use data carriers by under the temporal information of ground precise synchronization VSP tool is reached, can effectively eliminate the timing error of downhole clock generation, to improve borehole seismic wave measurement precision.

In order to obtain required underground VSP data in time, the invention proposes a kind of novel data timesharing carryings Device.There are two major functions for it, first is that underground VSP data are read in timesharing, second is that accurate temporal information is carried, for proofreading The error that underground VSP clock generates.As shown in figure 8, the data carriers are cylindrical-shaped structure, mainly by VSP measuring tool sheet Body 801, the side VSP coupling coil 803, carries side guiding surface 804, the side VSP guiding surface 805, floating drum at slurry channel 802 806, storage circuit 807 is controlled, carrying device coupling coil 808, it is magnet 809, Hall sensor 810, rod-like body 811, right Connect a few part compositions such as chamber 812.Wherein the control of data carriers and storage circuit are as shown in figure 9, mainly by digital signal control Device processed, signal transmitter unit, signal modulation unit, transmitting coil, signal receiving unit, receiving coil, signal demodulation unit, suddenly You form detecting signal unit, memory cell and low-tension supply.Coupling coil is wound on magnetic core, in order to improve signal coupling It closes effect and message transmission rate magnetic core selects high-permeability material, the high-speed data that may be implemented between VSP tool is wireless Transmission.In view of mud immerses, coil surface is equipped with protection sleeve.In order to guarantee data transmission bauds and reliability, two Gap between coupling coil controls within 1mm.Control is mounted on data carriers body interior with storage circuit, using electricity Pond group is as power supply.Whether data carriers real-time detection hall signal is high level, to control whether to carry out data interaction. Data carriers work under holotype, control data transfer direction, and VSP tool work is in slave pattern.With data carriers There is identical inclined-plane guide frame on the VSP tool body of docking, and permanent magnet be installed in the position of Hall sensor face, The purpose is to after data carriers dock successfully with VSP tool, under the magnetic fields of permanent magnet, data carriers can be examined A high level signal is measured, as whether successful status signal is docked, when which is only high level, data are handed over Mutually just carry out.If mated condition signal is lower in data transmission procedure, then this reading data is saved as a result, wait state Signal continues to read data when being high, realizes data breakpoint and resumes, to ensure that the reliability of each data interaction.Due to Seat card on VSP tool uses inclined-plane guide-localization, therefore devises 6 deflector holes in tool upper end, and it is logical that mud has been effectively ensured There are enough water conservancy diversion cross sections in road, ensures that data carriers can be docked reliably with VSP tool under mud pressure effect.

The specific workflow of data carriers is as shown in Figure 10.Now the data carriers working principle is done following detailed Illustrate: when needing to obtain underground VSP data, the work of log-on data carrier synchronizes clock synchronization with terrestrial clock, and be arranged Good berth parameter, investment drilling tool central ports are pressed into shaft bottom under surface mud pump function, due to VSP tool and number According to there is guiding surface in carrier, therefore carrier can be automatically positioned VSP tool seat card, the permanent magnetism on VSP tool body Under the magnetic fields that body generates, the Hall sensor on data carriers exports a high level signal, control and storage circuit Once detecting the level as height, indicate that data carriers dock successfully with VSP tool, begins through respective coupling coil and carry out Data interaction, if it is low that control, which detects the level with storage circuit, then it represents that docking failure is not communicated with VSP tool.Number After successfully docking according to carrier, precise time this moment is sent to VSP tool by data carriers, is existed to eliminate VSP clock Under the hot environment of underground when its is long stability it is poor due to the timing error that generates, reading data are according to pre-set each time Data length and baud rate carry out, and after the completion of pending data is read, data carriers then stop reading, and the data received are carried out Storage.When ground, slush pump stops working, and data carriers are by automatic emersion to well head, then are taken instrument shelter, downloads institute The data of reading.

6, clock synchronization apparatus

VSP during drilling measuring system is made of downhole data acquisition unit and ground auxiliary signal acquisition unit two parts, and two The clock synchronization accuracy of a unit requires very high (< 1ms), and ground synchronous device uses GPS as reference clock source, timing Precision is up to 1us grades.Ground synchronous device is on the one hand synchronous with underground survey unit progress clock, on the other hand then real-time Record focus blows out the moment, to obtain the corresponding underground survey data of each big gun.It is swept in addition, needing to acquire for controlled source Signal waveform is retouched, data correlation process is used for.Usually require that ground synchronous device and Seismic Source System time synchronisation precision are very high, Up to tens us grades.

As shown in figure 11, controlled source synchronous control system includes two parts, i.e. coding unit and decoding unit, normally Face synchronizing device and focus coding unit are located at instrument shelter, and decoding unit is then blown out a little in well site, therebetween using wired Or wireless mode connection.Ground GPS synchronizing device and energy source controller are that 4 line systems are connect, and wherein start pulse signal is and GND One group, scanning signal and GND are one group, and every group of signal is a pair of of twisted pair, and length about 2m or so, two groups of signal wires are naked Line needs voluntarily mating connector.Focus trigger signal is the positive pulse of 2~5V of amplitude, meets Transistor-Transistor Logic level specification, is driven Ability is up to 20mA.Scanning signal frequency is 6~125Hz, and signal amplitude is 0~12V, reaches maximum value after 0.5s, later For constant amplitude sinusoid swept-frequency signal.Scanning signal is continuous signal, and the every triggering of focus once then issues a string of frequency sweep waves, commonly uses frequency Rate range about 8~96Hz, sweep time about 8~20s, it is selected according to specific geological conditions.Ground synchronous device is with GPS clock Surface energy source is recorded in real time and blows out the moment, 0.01ms is accurate to, adopts with underground survey system precise synchronization timing as reference Collection storage scanning signal waveform is rear cross correlation process, sampling interval 1ms, data length 24Bits.

GPS satellite can provide accurate UTC (the universal time coordinated) time in the world to be believed Breath.The UTC time information that satellite is received using GPS time service module passes through digital signal processor in its interface and synchronizing device Communication serial port be connected, and received GPS time information is reached into digital signal processor, then by software to received UTC time information is handled, to correct the precise time of synchronizing device.As shown in figure 13, ground GPS synchronizing device is main It include: digital signal processor, GPS time service module, nonvolatile memory cell, LCD MODULE, lock-out pulse output, triggering Detecting signal unit, key detection unit, communication interface and power circuit etc..The device leads to using GPS time service module as core It crosses serial ports and gets accurate absolute time information (Year/Month/Day/when/point/second) from GPS time service module, and every 1s (PPS) clocking value is calibrated, the accuracy of timekeeping of ground synchronous device has been effectively ensured.

In order to guarantee underground and ground timing precise synchronization, after downhole instrument power on configuration good parameter, ground synchronous dress It sets at whole moment second, issues synchronous enabling signal to downhole instrument, make its start-up operation；After instrument pulls out of hole, ground installation is again Secondary at whole moment second, sending synchronizes end signal to downhole instrument, it is made to stop working.By the time of recorded downhole in terms of ground When for reference, timing error can be obtained, data processing stage is eliminated.After VSP instrument enters well, make at drilling tool when making up a joint In stationary state, surface energy source starts excitation and blows out, while energy source controller generates trigger signal, and GPS synchronizing device is remembered in real time Trigger signal pulse rising edge time is recorded, for accurately finding the corresponding underground survey data of the big gun seismic signal, and will The triggering moment of record is saved according to sequence is blown out into the file for having time identifier.For the spy of controlled source frequency sweep excitation Point, synchronizing device need to acquire storage scanning signal waveform, are used for later data relevant treatment, determined according to field geology conditions After scanning signal parameter, moment (rising edge) acquisition scans signal is generated in trigger signal, and stored at time identifier Digital waveform file.The file of GPS synchronizing device record is uploaded to computer by RS-485 bus, carries out at data for the later period Reason and analysis decision provide necessary data.

7, signal acquisition and data store

As shown in figure 11, signal acquisition circuit control 24,5 channel in underground ADC proposed by the present invention is to X, Y, Z axis detection Device signal and two hydrophone signals carry out real-time measurement, and its collection result is stored in serial sram chip array and is carried out Caching.24 ADC of high-precision are TI company high reliability product ADS1278HT in circuit, and highest sample rate is reachable 10~100HZ swept-frequency signal acquisition that 144KSPS, 70KHZ bandwidth are sufficient for the generation of surface controllable focus requires, when it works In high resolution model, signal-to-noise ratio can reach 111db.After wave detector and hydrophone detect seismic signal, pass through respectively It crosses preposition conditioning circuit to be amplified, carries out analog-to-digital conversion requirement to meet ADS1278HT.Preamplifier uses low function Consumption, rail-to-rail, programme-controlled gain differential amplifier THS4521.Digital signal controller is using Microchip company DsPIC33FJ128MC710A, in synchronous acquisition mode, is read as main control chip control ADS1278HT work by SPI port The data of conversion are acquired, and the data are written in sram chip array by spi bus and are cached.Sram chip array is adopted It is cascaded with 8 1Mbit high temperature sram chips, memory capacity meets and automatically extracts and reality to seismic wave first arrival time up to 128KB When data processing needed for buffer memory capacity requirement.

As shown in figure 14, data storage circuitry is for storing the earthquake that downhole sensor (wave detector and hydrophone) detects Signal waveform carries out data readback in well site after trip-out, to do further VSP data process&analysis.Since seismic wave is believed Number sampling interval be 1ms, data length 24Bit, 5 channels acquire primary data volume be 15 bytes, therefore, with brill VSP measuring system downhole data memory capacity needs to reach 2GB or more.Main control chip dsPIC33FJ128MC710A is used for depositing Storage chip array is written and read control, and reception sent by signal acquisition circuit main control chip it is data cached.Storage array After the instructions such as erasing, read/write address setting are sent to main control chip by RS485 bus by ground-based computer, then by master control core Piece controls corresponding NORFLASH storage chip.Data storage circuitry is by carrying out memory chip battle array with a piece of high temperature CPLD chip Column management, the chip are programmed it using VERILOG language, 5 32 output control functions of input are realized, for 32 height Warm NORFLASH storage chip carries out piece choosing management.Main control chip is responsible for cooperateing with CPLD and NORFLASH chip by spi bus The SPI Read-write Catrol to every a piece of NORFLASH chip is completed in work.Storage chip array uses the 64MB high of magnesium light company Warm NORFLASH storage chip, whole memory cell are made of 32 64MB storage chip cascades, and total memory capacity is up to 2GB. VSP during drilling measuring system requires every channel signal acquisition to meet the sampling interval for 1ms, and data length is the requirement of 24Bit.According to The acquisition of 5 channels calculates, and 2GB memory capacity can meet the storage needed for continuous work 200 hours of four component VSP during drilling measuring tools Space.

8, data high-speed plays back

When VSP during drilling measuring system field application, it is desirable that the data of quick-downloading downhole tool storage after trip-out, in time into Scanning frequency degree Modifying model and data processing, by bit location mark on seismic profile, for drilling engineer provide decision according to According to.Since the VSP data capacity of underground acquisition is larger, data readback speed is particularly important, conventional with the data for boring instrument Download interface generallys use RS485 bus, and message transmission rate is relatively low, and the time for obtaining data needs is longer, thus Influence drillng operation progress.And USB2.0 interface is a kind of new interface technology applied in computer field, has transmission speed The characteristics of faster, theoretical transmission speed is 12Mbps to degree, supports hot plug and connection multiple equipment, at present all kinds of outer It is widely used in portion's equipment.In order to improve data speed of download to the maximum extent, the present invention turns SPI interface electricity using USB Road directly reads memory data by spi bus, and without digital signal controller transfer, realize large capacity VSP number According to high-speed downloads.

As shown in figure 15, the present invention designs data readback circuit specifically includes that FPGA controller, two panels 512KB SRAM, USB2.0 controller CY7C68013A, SPI interface, 48MHz crystal oscillator and computer etc..Data readback speed can reach 32MB per second, FPGA controller are used to read the data of mass data storage circuit, and are cached in the SRAM of 512KB, two Piece SRAM is sent to ground by USB2.0 chip CY7C68013A after a piece of SRAM storage is full and calculates as data FIFO Machine, and fpga chip then continues to read memory and is cached to other a piece of SRAM memory, after storage is full equally by USB2.0 chip CY7C68013A is sent to ground-based computer.Two panels SRAM greatly improved with the work of " table tennis " operation mode Data transmission bauds.

It is described in detail below with reference to specific program circuit of the Figure 16 to data high-speed downloads.It is solid to power on rear FPGA All internal state variables are arranged in part framework first, then call user's initialization function TD_Init ().After to be returned, firmware Framework, which will initialize USB interface, becomes the state being not configured, and enabled interruption.At this point, and then being opened in the interior firmware of 1s Starting weight enumerates (ReNumerate), and starts task distributor, this task distributor will execute following with being sequentially repeated Work.

1) poll function TD Poll () is called.

2) Standard Device request has been detected whether, if receive SETUP packet.If so, it will parse received life It enables and requests and responded, if it is transmission data command, FPGA controller will carry out FIFO read-write operation to SRAM.

3) decide whether to report that USB hangs up event.If reporting that USB hangs up event, function TD_Suspend is called, If successfully returning, wake events are tested.If wake events are not detected, FPGA controller will be put into suspending mode by it In.When reply event is detected, function TD_Resume () will be called, and jump back to step 1).

The specific program state of data high-speed downloads is described in detail below.FPGA controller reads and writes SRAM's Program state figure is as shown in figure 17, has respectively corresponded fifo interface data output control and fifo interface data input control.

1) fifo interface data output routine process

IDLE: it reads event and generates, into STATE1；STATE1: enabled SLCS determines from FIFO read address, if FIFO is non- Sky, guarantee from fifo address at least it is stable there is 25ns after, into STATE2, otherwise rest on STATE1；STATE2: delay After one clock cycle, SLOE is enabled, on the data Qu Dongdao data/address bus in internal FIFO, into STATE3；STATE3: It is delayed after a clock cycle, enables WRREQ, the data on data/address bus are written in Ping-pong FIFO, into STATE4； STATE4: after one clock cycle of delay, enabling SLRD, while SLRD signal will guarantee that settling time and retention time require, In the data fifo driving to data/address bus by delaying next address when tXFD, into STATE5；STATE5: if still It has data to read, into STATE2, otherwise enters IDLE.

2) fifo interface data entry program process

IDLE: event generation is write, into STATE1；STATE1: enabled SLCS determines from fifo address, if FIFO is non-full, Guarantee EZ-USB fifo address at least it is stable there is 25ns after, into STATE2, otherwise rest on STATE1；STATE2: prolong When one clock cycle after, enable RDREQ, drive in the data to data bus in Ping-pong FIFO, and guarantee the minimum of tSFD It is required that into STATE3；STATE3: after 2 clock cycle of delay, SLWR is enabled, while guaranteeing the settling time of SLWR signal It is required with the retention time, in the rising edge of IFCLK, data are written into from FIFO, and the flag bit of FIFO is passing through tXFLG time delay After be updated, into STATE4；STATE4: if submitting to last group of data from the data of FIFO for Ping-pong FIFO, Enabled PKTEND, while under conditions of meeting its foundation, retention time, last group of data are submitted in the rising edge of IFCLK, Into STATE5；STATE5: if still having data to read, into STATE2, otherwise enter IDLE.

Specific embodiment described herein is only an example for the spirit of the invention.The neck of technology belonging to the present invention The technical staff in domain can make various modifications or additions to the described embodiments or replace by a similar method In generation, however, it does not deviate from the spirit of the invention or beyond the scope of the appended claims.

Although the borehole wall 101, data carriers 102, VSP measuring tool 103, the first bed boundary is used more herein 104, the second bed boundary 105, focus 106, terrestrial clock synchronizing device 107, direct wave 108, the first back wave 109, second Back wave 110, VSP coupling coil 301, signal transmission circuit 302, the first hydrophone 303, data communication mouth 304, precision interval clock Component 305, underground governor circuit 306, Z axis wave detector 307, X-axis wave detector 308, battery sleeve 309, the second hydrophone 310, seat Mechanism for card 311, signal receiving circuit 312, data storage circuitry 313, signal acquisition circuit 314, Y-axis wave detector 315, measurement are visited First 501, sealing structure 502, retaining ring 503, wave detector 504, signal wire 505, sensor fixing body 506, fuel tank 701, electromagnetism Valve 702, push action cylinder 703, backup block 704, overflow valve 705, check valve 706, oil pump 707, brushless motor 708, VSP measurement Tool body 801, slurry channel 802, the side VSP coupling coil 803, carry side guiding surface 804, the side VSP guiding surface 805, Floating drum 806, control storage circuit 807, carrying device coupling coil 808, magnet 809, Hall sensor 810, rod-like body 811, the terms such as butt cavity 812, but it does not exclude the possibility of using other terms.The use of these items is only for more square Just essence of the invention is described and explained；Being construed as any additional limitation is disagreed with spirit of that invention Back.

Claims (6)

1. a kind of data timesharing carrying system for VSP during drilling measurement characterized by comprising the carrying that can be mutually butted Device and VSP deck；Wherein:

The carrying device includes: floating drum (806), control storage circuit (807) and is connected with control storage circuit (807) Carrying device coupling coil (808) and Hall sensor (810)；

The VSP deck is located on VSP measuring tool ontology (801) comprising: with the carrying device coupling coil (808) The side the VSP coupling coil (803) matched, the magnet (809) matched with the Hall sensor (810)；

The carrying device includes the rod-like body for being provided with carrying device coupling coil (808) and Hall sensor (810) (811), the upper end of the rod-like body (811) connects floating drum (806), and lower end is provided with carrying lateral guide；

The VSP deck is equipped with the butt cavity (812) for accommodating the rod-like body (811), the bottom of the butt cavity (812) Portion is provided with the VSP lateral guide matched with the carrying lateral guide；VSP is provided on the butt cavity (812) Side coupling coil (803) and magnet (809)；

After the rod-like body (811) reach butt cavity (812) bottom, the carrying device coupling coil (808) and the side VSP Coupling coil (803) is coupled, and the Hall sensor (810) is coupled with the magnet (809).

2. a kind of data timesharing carrying system for VSP during drilling measurement according to claim 1, which is characterized in that institute It states and carries lateral guide, VSP lateral guide is the guiding surface being mutually harmonious.

3. a kind of data timesharing carrying system for VSP during drilling measurement according to claim 1, which is characterized in that institute The butt cavity (812) being provided on VSP deck for coupling with carrying device is stated, is provided with mud by the butt cavity (812) Channel (802) is provided with the deflector hole for being connected to the butt cavity (812) and slurry channel (802) on the carrying device.

4. a kind of data timesharing for VSP during drilling measurement based on system described in claim 1 carries method, feature exists In, comprising: data exchange is carried out after docking by ground pump pressure by data carrying device indentation shaft bottom and with VSP measuring tool, Using the buoyant device being connected with carrying device by data carrying device emersion to well head, data are taken out from carrying device.

5. data timesharing according to claim 4 carries method, which is characterized in that when data carrying device and VSP measure After tool docking, it is installed on VSP measuring tool according to whether the Hall sensor being installed on data carrying device perceives Magnet come judge docking whether succeed, judgement dock successfully after carry out data interaction；After judgement docking failure, without Data interaction.

6. data timesharing according to claim 4 carries method, which is characterized in that by data carrying device and terrestrial clock Shaft bottom is pressed into after synchronizing again to dock with VSP measuring tool, in data interaction, data carrying device is by time synchronization information It is sent to VSP measuring tool, VSP measuring tool calibrates temporal according to time synchronization information.