CN1264832A

CN1264832A - Underground communication device with coil coupling withotu iron core

Info

Publication number: CN1264832A
Application number: CN00100553A
Authority: CN
Inventors: 丁天怀; 卢小冬; 侯汝舜; 文云骏
Original assignee: Tsinghua University
Current assignee: Tsinghua University
Priority date: 2000-01-25
Filing date: 2000-01-25
Publication date: 2000-08-30
Anticipated expiration: 2020-01-25
Also published as: CN1136449C

Abstract

An underground communication device with coupling of non-core coils is composed of the cable probe assembly consisting of small coil frame made of non-ferromagnetic material and its sleeve tube, modem circuit for emitting and receiving signals and winding, and big coil assembly consisting of big coil frame made of non-ferromagnetic material, modem circuit for emitting and receiving signals and big winding. Its advantages are no need of the ferrite material with high Crie point, no influence from the relative movement of emitter and receiver, and no need of underground lacator.

Description

Underground communication device with coil coupling withotu iron core

The invention belongs to the oil gas well formation parameter field of measuring technique under high temperature, the hyperbaric environment, particularly relate to cable probe and the data of device for subsurface measuring and the communication device of control signal transmitted in both directions.

After finishing the oil gas well drilling operation, generally need carry out the test job of formation parameter etc., according to the data of measuring down-hole hydrocarbon storage situation etc. is analyzed.The structure of a typical oil gas well well testing test macro as shown in Figure 2.System mainly comprises the surveying instrument 28 that is placed on the equipment carrier 24, pop one's head in 27 with the cable that single core cable 21 directly links to each other, the coil winding 26 of pickup coil communication device, wherein, the surveying instrument 28 that is used for measuring well sub-surface parameter is placed in equipment carrier 24, during measurement, equipment carrier 24 is transferred to the predetermined operation degree of depth of measured oil gas well 23 with oil pipe pipeline 22.Cable probe 27 directly links to each other with uphole equipment 25 with single core cable 21, and cable is popped one's head in 27 to be applied in coil winding 26 EFFECTIVE RANGE, just can realize the real-time monitoring and the control of underground survey on ground.

Because the underground survey of oil gas well has high temperature, high pressure, space features of limited, and device for subsurface measuring is immersed in the active sulfur body medium of conduction, existence much is unfavorable for device for subsurface measuring and the direct-coupled factor of cable probe circuit in the measuring process, generally needs to adopt the noncontact communication between the downhole electromagnetic coupling communication device realization oil gas downhole electronics.Downhole electromagnetic coupling communication device is meant the electromagnetic coupled of utilizing between the conductor coils that is fixed on down on surveying instrument carrier and the cable probe, realizes hawser probe and the data of device for subsurface measuring and the communication device of control signal transmitted in both directions.The cable probe links to each other with uphole equipment by single core cable, thereby realizes the real-time monitoring and the Long-distance Control of underground survey.

The principle of work of this downhole electromagnetic coupling communication device is: be in two coils in the separate closing loop, when having the electric current that changes in one of them coil, in certain distance, will produce measurable sensor current signal in another coil closed-loop path.Use this principle and just can realize noncontact communication between the oil gas downhole electronics.

U.S. Pat 4 901 069 has been introduced a kind of downhole electromagnetic pickup coil communication device that uses the high temperature ferrite material to realize, its structure is shown in Fig. 3,4, it comprises following components: the interior loop winding 69 of electromagnetic coupled, exterior loop winding 62, the

magnetic core

63,70 of inside and outside coil winding 62,69, transmitter driving circuit 82, demodulate reception circuit 81.Interior loop assembly 35 links to each other with ground system by hanging hawser 13, exterior loop assembly 31 links to each other with universal asynchronous transmission/receiver 84 with demodulate reception circuit 81 by transmitter driving circuit 82, constitute coupling communication tool 10 by interior loop assembly 35 and exterior loop assembly 31, universal asynchronous transmission/receiver 84 is controlled by down-hole computing machine 83.Transmitter driving circuit 82 and demodulate reception circuit 81 are a kind of frequency shift keying (FSK) modulation-demodulation circuits, frequency shift keying (FSK) modulation-demodulation circuit is a kind of low-speed modulation/demodulation mode commonly used, it uses different frequency representation binary data, characteristics are to realize simply, separate timing and do not need local carrier, variation adaptive faculty to level is stronger, but the bandwidth that signal takies.

Interior loop assembly 10 be fixed on hang the inner part A that hawser 13 links to each other on, between the coupling communication period, inner part A is locked with exterior part B by the groove D of the inside surface E of braking ratchet C, spring C1 and exterior part B.Exterior loop assembly 31 is sealed by macromolecular material F.

In this patent US 4 901 069, the pickup coil of down-hole coupling communication device needs magnetic core to strengthen coupling effect, and, owing to adopt the frequency modulation (PFM) demodulation mode, there is not relative motion between coupling communication device intraware that need to use latch-up structure C, C1 and D to guarantee to be coupled to link to each other with hawser between communication period and the external module, to avoid down-hole pressure to change and the mobile downhole communication that influences of fluid.Usually well testing needs to coordinate in many ways, and the time cycle is long, and is costly.This patent not only designs, realizes complexity, and when down-hole situation complexity, and particularly fluid flow changes too greatly or viscous crude occurs, when going out phenomenon such as sand, not only can not realize effective communication, also may cause the downhole hardware breaking-up.

The objective of the invention is for overcoming the defective of above-mentioned prior art, proposed a kind of underground communication device with coil coupling withotu iron core, this device does not need the Ferrite Material of high-Curie-point to make the pickup coil core body, does not need downhole positioning system yet, therefore simple in structure, the reliability height.

The present invention proposes a kind of underground communication device with coil coupling withotu iron core, comprises cable probe and the big coil block that is connected by sealing mechanism with the subsurface equipment carrier.It is characterized in that, said cable probe comprises: the small coil skeleton sleeve of nonferromagnetic material and the small coil skeleton that is fixed in the small coil skeleton sleeve, send, the phase modulation (PM) demodulator circuit of received signal, and as the small coil winding of a modulation-demodulation circuit part; Said big coil block comprises: the big coil rack of nonferromagnetic material, and the protection folder of big coil winding watt sends, the phase modulation (PM) demodulator circuit of received signal, and as the big coil winding of a modulation-demodulation circuit part.

Said small coil skeleton is the cylinder that the cross section is two E dorsad; Said big coil rack is the round buss that the cross section is two E dorsad; This big coil rack outside is equipped with two semi-cylindrical folders watt of the big coil of protection.

Said small coil skeleton sleeve can adopt the non-electromagnetic shielding material close or consistent with the thermal expansivity of cable probing shell, and said small coil skeleton can adopt and the close or consistent material of small coil skeleton sleeve.

Said big coil rack can adopt the non-electromagnetic shielding material close or consistent with the thermal expansivity of subsurface equipment carrier.

Said non-electromagnetic shielding material can be engineering plastics.

Said sealing mechanism can be elevated-temperature seal " O " circle.

The principle of work of underground communication device with coil coupling withotu iron core of the present invention is the coupling that is separately fixed at the no iron core mutual inductor on subsurface equipment carrier and the cable probe by two pairs, realizes signal transmitted in both directions between device for subsurface measuring and the hawser probe.The present invention does not use the coil core of Ferrite Material just can realize two the effective noncontact coupling of the signal between independent closed circuit transmission, thus the difficulty of having avoided seeking the high-Curie-point Ferrite Material; The coupling communication device uses two to overlap independently mutual inductor, realizes the both-way communication between device for subsurface measuring and the hawser probe; This coupling communication device adopts the phase modulation (PM) demodulator circuit, guarantee in the communication device docking operation, even have relative motion between subsurface equipment carrier and the cable probe, also can not influence the precision of coil coupled transfer signal, just can realize accurate, the reliable communication of signal between down-hole and ground with locking device so need not location, design and use complicated cable probe down-hole.Owing to there are not the parts that need be connected between the cable of this invention probe and the subsurface equipment carrier, be convenient to therefore that cable is popped one's head in and the subsurface equipment carrier can be in the good sealing of the oil gas well down-hole of high temperature, high pressure realization in the down-hole.

The said small coil skeleton of the present invention can be the cylinder that the cross section is two E dorsad; Said big coil rack can be the round buss that the cross section is two E dorsad; This big coil rack outside is equipped with two semicircular folders watt of the big coil of protection.

Said small coil skeleton sleeve can adopt the close or consistent non-electromagnetic shielding material of thermal expansivity with the hawser probe, and said small coil skeleton can adopt and the close or consistent material of small coil skeleton sleeve.So that the thermal expansion in the downhole temperature scope can not cause small coil wire fracture or coupling performance to descend, it is loosening can not cause the small coil skeleton to be connected with small coil skeleton sleeve, makes the thermal expansion of small coil skeleton sleeve and hawser probe in the downhole temperature scope can not cause sealing mechanism to lose efficacy.

Said big coil rack can adopt the non-electromagnetic shielding material close or consistent with the thermal expansivity of subsurface equipment carrier, make the thermal expansion in the downhole temperature scope can not cause sealing mechanism to lose efficacy, and the compressive deformation and the high temperature expansion of coil rack can not cause big winding wire fracture or coupling performance to descend greatly.

Said non-electromagnetic shielding material can be engineering plastics.

Said sealing mechanism can be elevated-temperature seal " O " circle.

Characteristics of the present invention:

One, pickup coil do not need to adopt magnetic core to strengthen coupling effect, and be simple in structure, realizes the sealing of cable probe and subsurface equipment carrier easily;

Its two, use two pairs pickup coil to realize the bi-directional of signal, transmission speed height;

Its three, use the phase modulation (PM) demodulation mode, the relative motion between cable probe and the subsurface equipment carrier can not influence the precision of signal transmission.

Brief Description Of Drawings:

Fig. 1 is the physical construction synoptic diagram of coupling communication tool in down-hole of the present invention.

Fig. 2 is the structural representation of general well testing test macro.

Fig. 3 is the principle schematic of the down-hole coupling communication tool of prior art.

Fig. 4 is the physical construction synoptic diagram of the down-hole coupling communication tool of prior art.

Fig. 5 is the principle schematic of coupling communication tool in down-hole of the present invention.

Fig. 6 is the physical construction synoptic diagram of coupling communication tool in down-hole of the present invention.

A kind of underground communication device with coil coupling withotu iron core embodiment of the present invention's design further specifies as follows in conjunction with the accompanying drawings: the principle of work of present embodiment and physical construction are shown in Fig. 5,6.This coupling communication device comprises cable probe 27 and the big coil block 2 that links to each other with subsurface equipment carrier 24.Cable probe 27 comprises: a pair of small coil winding 9,10 is on a small coil skeleton 12, small coil winding the 9, the 10th, the part of phase modulation (PM)

demodulator circuit

16,17, small coil skeleton 12 is the cylinder of two E dorsad for the cross section, and small coil skeleton 12 is fixed in the small coil skeleton sleeve 11 of nonferromagnetic material; Big coil block 2 comprises: a pair of big coil winding 7,8 is on big coil rack 15, big coil winding the 7, the 8th, the part of phase modulation (PM)

demodulator circuit

29,30, big coil rack 15 is the round buss of two E dorsad for the cross section of nonferromagnetic material, big coil rack 15 is fixed on the subsurface equipment carrier 24, and two semicircular folders watt big coil winding 7,8 of 14 protections is installed in big coil rack 15 outsides; Use the continuous position of screw thread to use 6 sealings of high temperature " O " circle simultaneously in the cable probe 27, the position that is threaded in the big coil block 2 uses high temperature " O " circle 6 to seal simultaneously.

Big coil rack 15 and small coil skeleton sleeve 11 use non-electromagnetic shielding material, when big coil winding 7,8 and small coil winding 9,10 enter the actual induction distance interior the time, can cable pop one's head in 27 and device for subsurface measuring 28 between realize both-way communication.

Big coil rack 15 and small coil skeleton sleeve 11 used non-electromagnetic shielding materials can adopt nylon;

Small coil skeleton 12 can adopt nylon;

Big coil winding 7,8 and small coil winding 9,10 can adopt high temperature lacquer envelope curve or multiply aviation lead.

The phase-

modulation circuit

16,29 of present embodiment and

phase demodulation circuit

17,30 can adopt phase-shift keying (PSK) (PSK) circuit, when having relative motion between hawser probe 27 and the device for subsurface measuring carrier 24 between communication period, because the Doppler shift phenomenon can there are differences between the signal of reception and the signal of transmission.Adopt phase-

modulation circuit

16,29 and

phase demodulation circuit

17,30, Doppler shift can not exert an influence to the information of modulation transmissions in the transmission course, promptly when transmission of digital signals, can use littler signal errors band; At direct transmission of analogue signal, in the time of can monitoring subsurface equipment in real time, can not reduce signal accuracy.

Claims

1, a kind of underground communication device with coil coupling withotu iron core comprises cable probe assembly that links to each other with uphole equipment by cable and the big coil block that is placed on the subsurface equipment carrier.Wherein cable probe comprises: the small coil skeleton sleeve of nonferromagnetic material and be fixed on small coil skeleton in the small coil skeleton sleeve, send, the phase modulation (PM) demodulator circuit of received signal, and as the small coil winding of a modulation-demodulation circuit part; Big coil block comprises: the big coil rack of nonferromagnetic material, and the protection folder of big coil winding watt sends, the phase modulation (PM) demodulator circuit of received signal, and as the big coil winding of a modulation-demodulation circuit part.

2, underground communication device with coil coupling withotu iron core according to claim 1 is characterized in that, said small coil skeleton is the cylinder that the cross section is two E dorsad; Said big coil rack is the round buss that the cross section is two E dorsad; This big coil rack outside is equipped with two semi-cylindrical folders watt of the big coil of protection.

3, underground communication device with coil coupling withotu iron core according to claim 1, it is characterized in that, said small coil skeleton sleeve adopts and the close or consistent non-electromagnetic shielding material of the thermal expansivity of cable probing shell, and said small coil skeleton adopts and the close or consistent material of small coil skeleton sleeve.

4, underground communication device with coil coupling withotu iron core according to claim 1 is characterized in that, said big coil rack adopts and the close or consistent non-electromagnetic shielding material of the thermal expansivity of subsurface equipment carrier.

According to claim 3 or 4 described underground communication device with coil coupling withotu iron core, it is characterized in that 5, said non-electromagnetic shielding material is engineering plastics.

6, underground communication device with coil coupling withotu iron core according to claim 1 is characterized in that, said sealing mechanism is elevated-temperature seal " O " circle.