CN203673081U - Underground full wave magnetic resonance sounding detection device based on wireless network - Google Patents

Abstract

The utility model relates to an underground full wave magnetic resonance sounding detection device based on a wireless network. A transmitter upper computer platform is connected with a wireless network data receiving and transmitting unit and a wireless network antenna through an internet access line. The transmitter upper computer platform is connected with a transmitter and a transmitting coil through a serial port bus. A receiver upper computer platform is connected with a receiver and a receiving coil through a serial port bus. The receiver upper computer platform is connected with a wireless network receiving node through an internet access line. The wireless network receiving node is connected with a wireless network generated by a wireless network receiving and transmitting antenna. A magnetic resonance sounding signal is received in a full wave acquisition manner in underground engineering. The full wave data of the signal and noise of underground front water body detection are supplemented. The integrity of underground detection water body data acquisition is improved. An abundant basis is provided for later data processing. The transmitter and the receiver are completely independent, are free of cable connection, and transmit signal and data through a wireless synchronization receiving and transmitting terminal and the wireless network. A connection procedure and an operation mode of the whole system are simplified, which is convenient for detection in a narrow space of underground engineering. The flexibility and the practicability of underground water body detection are improved. The device can effectively measure the front water body in underground engineering, and can become the basis of the prediction of the geological disasters of water inrush, mud gushing and the like in underground engineering.

Description

Based on the underground all-wave nuclear magnetic resonance sniffer of wireless network

Technical field

The utility model relates to a kind of geophysical prospecting equipment, especially the underground all-wave nuclear magnetic resonance sniffer of the nuclear magnetic resonance principle based on wireless network.

Background technology

Nuclear magnetic resonance (MRS, Magnetic Resonance Sounding) detection method is a kind of geophysical exploration method of non-destructive direct detection underground water.Along with the construction of China in Recent Years underground works is flourish, it is more and more large that traffic tunnel, water conservancy and hydropower and mine energy project etc. are built buried depth, deep geologic environment is composed high-ground stress and the high hydraulic condition deposited, causes the rock burst and the sternness further of the prominent mud problem of gushing water that in work progress, face.Can the water body in accurate detection underground works be the most important thing of prevention underground works accident.But instrument can not realized nuclear magnetic resonance detection method by all-wave metering system underground at present.

CN102062877 discloses a kind of " to nuclear magnetic resonance sniffer and the detection method of front water body forward probe ", be to be connected with system controller, large power supply, signal gathering unit respectively by serial bus by computing machine, system controller is through bridge circuit driver device, high-power H type transmitting bridge road and join humorous electric capacity and transmitting coil link formation; Compared with prior art whether front be there is to water content again, and the information such as the water cut size of water content.This kind of method can be measured front water body in underground works, but radiating portion and receiving unit be integrated in one, measuring process complexity, and measurement range is limited, is difficult to realize the accurate location to body of groundwater.

CN102096111 disclosed " dual-mode antenna separates formula nuclear magnetic resonance water detection device and groundwater prospecting method ", be that computing machine is connected with high-power source, transmitting and control module, current acquisition unit, frequency-selecting amplifying unit, signal gathering unit by serial ports, transmitting and control module connect formation by controlling bus through H bridge road and joining humorous electric capacity, transmitting coil and diode.Emitting antenna is separated with receiving antenna, make emission coefficient and the receiving system can be separate.This kind of method improved detection efficiency, precision and horizontal resolution, still, is applied in underground works, and the numerous and diverse ground nuclear magnetic resonance method of cable can not be estimated body of groundwater distribution situation accurately.

Radio communication (Wireless Communication) is a kind of communication mode that utilizes characteristic that electromagnetic wave signal can be propagated in free space to carry out message exchange, in information communication field, with fastest developing speed, most widely used was exactly wireless communication technology in recent years.Adopt the wireless local area network technology of IEEE802.11a standard to there is the incomparable dirigibility of conventional local area.Its communication range is not subject to the restriction of environmental baseline, and the transmission range of network is widened greatly, and maximum transmitted scope can reach tens kilometers.Be accompanied by the fast development of wireless network, the various aspects of people's live and work have been deep into without the wireless network of the advantage such as stringing, dirigibility be strong, comprise mobile phone used in everyday, wireless telephone etc., wherein 3G, WLAN, UWB, bluetooth, broadband satellite system etc. are all the concrete application of wireless network communication technique.

Underground all-wave nuclear magnetic resonance sniffer need to realize in the narrow and small underground space that emission coefficient is stable, receiving system can accurately move and put and all-wave data acquisition and transmission, needs the all-wave data without the collection of distance limit transmission nuclear magnetic resonance receiving station fast.

Utility model content

For above shortcomings part in prior art, the technical problems to be solved in the utility model is to provide a kind of underground all-wave nuclear magnetic resonance sniffer and detection method based on wireless network, realize and surveying in underground works small space, improved dirigibility and practicality that body of groundwater is surveyed.

The purpose of this utility model is achieved through the following technical solutions:

Based on a underground all-wave nuclear magnetic resonance sniffer for wireless network, this device comprises:

Transmitting coil;

Receiving coil;

Transmitter, is connected with transmitting coil, launches excitation signal for sending control transmitting coil with exchange current, and the synchronizing signal employing Transistor-Transistor Logic level of this excitation signal is carried in electric wave and is launched by wireless transmitting terminals;

Transmitter host computer platform, is connected by serial bus with transmitter, and the correlation parameter of transmitter is set;

Receiver, be connected with receiving coil, by the information with synchronizing signal of wireless synchronization signal receiving end receiver/transmitter transmitting, extract synchronizing signal transmitting sequential, and calculate transmitting sequential for controlling the collection of NMR signal, the NMR signal that the hydrogen proton that reception receiving coil senses produces;

Receiver host computer platform, is connected with receiver by serial bus, and receiver parameters is set, and receives the NMR signal the storage that detect by receiver; Described receiver host computer platform is connected with wireless network receiving node by network interface line;

Wireless network data Transmit-Receive Unit, be connected with transmitter host computer platform by network interface line and be connected with wireless network antenna, this wireless network data Transmit-Receive Unit generation network signal is realized wireless telecommunications with wireless network receiving node and is connected, and makes data sharing between receiver host computer platform and transmitter host computer platform.

Further, described wireless network data Transmit-Receive Unit comprises the signal transmitting line being connected to form successively by data transfer interface and digital to analog converter, power amplifier, scrambler, the signal receiving lines being connected and composed successively by demoder and wave filter, analog to digital converter, switch.

Further, described transmitter comprises transmitting communication interface, transmitting sequence control card, driving circuit, transmitting bridge road, joins humorous electric capacity, large power supply, power-supply control card and wireless synchronization signal transmitting terminal, wherein launch communication interface, for being connected with the communication of transmitter host computer platform; The steering order of transmitting sequence control card receiver/transmitter host computer platform, and calculate launch time and synchronizing signal time according to steering order, send the control signal that receives synchronizing signal and transmitting clock signal; The control signal that driving circuit receives transmitting clock signal transforms and then control transmitting bridge road DC voltage that large power supply is laid in advance in storage capacitor launches with exchange current by joining humorous Capacity control transmitting coil, launches sequence control card simultaneously and synchronizing signal is carried in to specific wireless wave band by wireless synchronization signal transmitting terminal outwards launches.

Further, described receiver comprises reception communication interface, wireless synchronization signal receiving end, receive sequential control board, all-wave capture card, relay, matching network and signal amplifier, wherein, receive sequential control board and connect reception steering order by receiving communication interface receiver host computer platform, calculate relay delay time and gather and control delay time, an output terminal that receives sequential control board connects relay, one input end connects wireless synchronization signal receiving end, receiving sequential control board is received synchronizing signal and received signal by Control receiving coil under the triggering of synchronizing signal by wireless synchronization signal receiving end, the signal receiving enters the collection of carrying out signal in all-wave capture card by matching network and signal amplifier, all-wave capture card exports receiver host computer platform to by receiving communication interface.

Further, the input end access of described all-wave capture card receives the interface of sequence control card, by the triggering of synchronizing signal, controls all-wave capture card and carries out the collection of data.

Further, described transmitting sequence control card comprises programmable instructions controller, one output terminal of programmable instructions controller is for receiving synchronous signal output end mouth, receiving synchronous signal output end mouth is connected with wireless synchronization signal transmitting terminal, programmable instructions controller is also connected with comparer I, timer I, comparer II, timer II and transmitting clock signal output port, the initial output low level of synchronous signal output end mouth, board clock time base under, start timing, synchronous signal output end changes output high level, by timer I timing, and pass through the synchronizing signal time that comparer I compares timing result and calculating, in the time that timing result is identical with the synchronizing signal time, synchronous signal output end recovers output low level, complete the generation of synchronizing signal, the initial output low level of transmitting clock signal output terminal, start timing output high level, timer II timing, timing result is by comparison launch time of comparer II and setting, in the time that timing result is identical with launch time, transmitting clock signal output port recovers low level, completes the generation of transmitting clock signal.

Further, described reception sequence control card comprises programmable instructions controller, and programmable instructions controller receives the steering order from serial communication unit, calculates relay delay time and gather to control delay time, one input end of this programmable instructions controller is synchronous signal input end, one output terminal is for gathering control signal output port, this collection control signal output port connects all-wave capture card, one output terminal is that relay control signal output port is connected with relay, this reception sequence control card also comprises board clock, and time delay comparer I and time delay comparer II, in the time that synchronizing signal is rising edge, board clock time base under, start timing, also compare the collection control delay time of time delay timing result and calculating by time delay comparer I timing, control the variation that gathers control signal output terminal, complete the generation that gathers control signal, board clock time base under, start timing, by time delay comparer II timing the Control delay time of time delay timing result and calculating relatively, the variation of pilot relay control signal state output terminal, completes the generation of relay control signal.

The utlity model has following advantage and beneficial effect: the utility model is according to nuclear magnetic resonance detection principle, the mode of applying all-wave collection in underground works receives NMR signal, the signal of subsurface investigation front water body and the all-wave data of noise are supplemented, improve the integrality of subsurface investigation water body data acquisition, for late time data processing provides abundant foundation more.

Transmitter and receiver are completely independent, and connect without cable, and both,, only by wireless synchronization transceiver terminal and wireless network transmissions signal and data, have simplified Connection Step and the mode of operation of total system.Between receiver and transmitter, can adjust arbitrarily without distance limit, conveniently in underground works small space, survey, dirigibility and practicality that body of groundwater is surveyed are improved, the front water body in underground works can be effectively measured, the basis that gushing water occurs in underground works, gush the geological disaster forecasting such as mud can be become.

Brief description of the drawings

Fig. 1 is the underground all-wave nuclear magnetic resonance sniffer structural representation based on wireless network in the utility model embodiment;

Fig. 2 is the modular structure block diagram of transmitter in Fig. 1;

Fig. 3 is the modular structure block diagram of receiver in Fig. 1;

Fig. 4 is the modular structure block diagram of launching sequence control card in the utility model embodiment;

Fig. 5 is the modular structure block diagram that receives sequence control card in the utility model embodiment;

1 transmitter host computer platform, 2 wireless network data Transmit-Receive Units, 3 wireless network antennas, 4 transmitters, 5 transmitting coils, 6 receiving coils, 7 receivers, 8 receiver host computer platform, 9 wireless network receiving nodes, 10 data transfer interfaces, 11 digital to analog converters, 12 power amplifiers, 13 scramblers, 14 demoders, 15 wave filters, 16 analog to digital converters, 17 switches, 18 transmitting communication interfaces, 19 power-supply control cards, 20 transmitting sequence control cards, 21 large power supplies, 22 driving circuits, 23 transmitting bridge roads, 24 join humorous electric capacity, 25 wireless synchronization signal transmitting terminals, 26 wireless synchronization signal receiving ends, 27 receive communication interface, 28 receive sequence control card, 29 relays, 30 matching networks, 31 signal amplifiers, 32 all-wave capture cards.

Embodiment

Be described in further detail below in conjunction with drawings and Examples:

Embodiment 1

As shown in Figure 1, a kind of underground all-wave nuclear magnetic resonance sniffer based on wireless network, this device comprises:

Transmitting coil 5, receiving coil 6, transmitter 4, transmitter host computer platform 1, receiver 7, receiver host computer platform 8 and wireless network data Transmit-Receive Unit 2, wherein transmitter 4 is connected with transmitting coil 5, be used for sending and control transmitting coil 5 with exchange current transmitting excitation signal, and the synchronizing signal of this excitation signal is launched by wireless transmitting terminals; Transmitter host computer platform 1 is connected by serial bus with transmitter 4, and the correlation parameter of transmitter 4 is set by transmitter host computer platform 1; Receiver 7 is connected with receiving coil 6, the NMR signal producing for receiving hydrogen proton that receiving coil 6 senses, receiver host computer platform 8 is connected with receiver 7 by serial bus, and receiver 7 parameters are set, and receives the NMR signal the storage that detect by receiver 7; The information with synchronizing signal that receiver 7 is launched by wireless synchronization signal receiving end receiver/transmitter 4, extract synchronizing signal transmitting sequential, by launch time and the reception synchronizing signal time comparison of relatively synchronizing signal transmitting sequential and its calculating, for controlling the collection of NMR signal;

Receiver host computer platform 8 is by network interface line connecting wireless network receiving node 9; Wireless network data Transmit-Receive Unit 2, be connected with transmitter host computer platform 1 by network interface line and be connected with wireless network antenna 3, this wireless network data Transmit-Receive Unit 2 produces network signal and realizes wireless telecommunications with wireless network receiving node 9 and be connected, and makes data sharing between receiver host computer platform 8 and transmitter host computer platform 1.

Wireless network data Transmit-Receive Unit 2 comprises the signal transmitting line being connected to form successively by data transfer interface 10 and digital to analog converter 11, power amplifier 12, scrambler 13, the signal receiving lines being connected and composed successively by demoder 14 and wave filter 15, analog to digital converter 16, switch 17.

As shown in Figure 2, transmitter 4 comprises transmitting communication interface 18, transmitting sequence control card 20, driving circuit 22, transmitting bridge road 23, joins humorous electric capacity 24, large power supply 21, power-supply control card 19 and wireless synchronization signal transmitting terminal 25, wherein launch communication interface 18, for being connected with 1 communication of transmitter host computer platform; The steering order of the transmitting sequence control card 1 serial communication unit receiver/transmitter host computer platform 1 by self, and calculate launch time and synchronizing signal time according to steering order, send the control signal of synchronizing signal and transmitting clock signal; The control signal that driving circuit 22 receives transmitting clock signals transforms and then controls the DC voltage of transmitting bridge road being laid in advance by large power supply 21 in storage capacitor and controls transmitting coil 5 with exchange current transmitting by joining humorous electric capacity 24, launches sequence control card 20 simultaneously and synchronizing signal is carried in to specific wireless wave band by wireless synchronization signal transmitting terminal outwards launches.Wherein, transmitting bridge road 23 adopt be H bridge road form, two road and bridge road have respectively two high-power IGBT switching tubes.Transmitter host computer platform 1 arranges the correlation parameter such as launch time, excitation pulse frequency of transmitter 4, receiver host computer platform 8 arrange receiver 7 signal amplifier parameter, receive every operation of receiver parameters such as signal center frequency, matching factor.

Transmitter host computer platform 1 connects transmitting communication interface 18 by serial ports power-supply control card 19 and transmitting sequence control card 20 is carried out to parameter setting.Arrange after duration of charging and charging voltage to power-supply control card 19, the boost DC-DC module that power-supply control card 19 is controlled in large power supply 21 is prepared against transmitting to storage capacitor output setting voltage.Transmitting sequence control card 20 is produced the transmitting sequential of Transistor-Transistor Logic level by logical device, frequency is local Larmor frequency, continues 40ms launch time, and driving circuit 22 through conversion, drives transmitting bridge road 23 by this control signal.While work in transmitting bridge road 23, the DC voltage that large power supply 21 is laid in advance in storage capacitor is launched with exchange current by joining humorous electric capacity 24 and transmitting coil 5.Proton in underground water is received the electric field excitation that transmitter current produces, and transits to high level.

As shown in Figure 4, transmitting sequence control card 20 comprises programmable instructions controller, one output terminal of programmable instructions controller is for receiving synchronous signal output end mouth, receiving synchronous signal output end mouth is connected with wireless synchronization signal transmitting terminal, programmable instructions controller is also connected with comparer I, timer I, comparer II, timer II and transmitting clock signal output port, the initial output low level of synchronous signal output end mouth, board clock time base under, start timing, synchronous signal output end changes output high level, by timer I timing, and pass through the synchronizing signal time that comparer I compares timing result and calculating, in the time that timing result is identical with the synchronizing signal time, synchronous signal output end recovers output low level, complete the generation of synchronizing signal, the initial output low level of transmitting clock signal output terminal, start timing output high level, timer II timing, timing result is by comparison launch time of comparer II and setting, in the time that timing result is identical with launch time, transmitting clock signal output port recovers low level, completes the generation of transmitting clock signal.

As shown in Figure 3, receiver comprises reception communication interface 27, wireless synchronization signal receiving end 26, receive sequential control board 28, all-wave capture card 32, relay 29, matching network 30 and signal amplifier 31, wherein, receive sequential control board 28 and be connected reception steering order with receiver host computer platform by the serial communication unit and the reception communication interface 27 that carry, calculate relay 29 delay times and gather according to steering order and control delay time, an output terminal that receives sequential control board 28 connects relay 29, one input end connects wireless synchronization signal receiving end 26, receive sequential control board 28 by the synchronizing signal of wireless synchronization signal receiving end receiver/transmitter transmitting and control receiving coil 6 by relay 29 under the triggering of synchronizing signal and receive the NMR signal that hydrogen proton produces, the signal receiving enters by matching network 30 and signal amplifier 31 collection of carrying out signal in all-wave capture card 32, all-wave capture card 32 exports receiver host computer platform 8 to by receiving communication interface.The input end access of all-wave capture card 32 receives the interface of sequence control card 28, by the triggering of synchronizing signal, controls all-wave capture card 32 and carries out the collection of data.

Transmitting sequence control card 20, in producing transmitting TTL sequential, is sent to wireless synchronization signal transmitting terminal by transmitting clock signal output port, makes synchronizing signal be carried in specific wireless wave band and launches to receiver 7.Wireless synchronization signal receiving end 26 is in wait accepting state after initialization always, is detecting that wireless synchronization signal transmitting terminal 25 launches after synchronizing signal, and synchronizing signal is extracted, and the reception sequential control board 28 of sending into receiver carries out sequential processing.

As shown in Figure 5, receive sequence control card 28 and comprise programmable instructions controller, programmable instructions controller receives the steering order from serial communication unit, calculates relay delay time and gather to control delay time; One input end of this programmable instructions controller is synchronous signal input end, one output terminal is for gathering control signal output port, this collection control signal output port connects all-wave capture card, one output terminal is that relay control signal output port is connected with relay, this reception sequence control card 28 also comprises board clock, and time delay comparer I and time delay comparer II, the control procedure of this reception sequence control card 28:

Synchronous signal input end is connected with wireless synchronization signal receiving end, in the time having synchronizing signal input, input TTL logic level, programmable instructions controller carries out level identification, gather the initial output low level of control signal output terminal, in the time that synchronizing signal is rising edge, board clock time base under, start timing, gathering control signal output terminal keeps low level constant, also compare the collection control delay time of time delay timing result and calculating by time delay comparer I timing, in the time that timing result is identical with collection delay time, gather control signal output terminal and be changed to high level, after duration, recover low level, complete the generation that gathers control signal, the initial output low level of relay control signal output terminal, start timing output high level, in the time that synchronizing signal is rising edge, board clock time base under, start timing, relay control signal output terminal keeps low level constant, also compare the Control delay time of time delay timing result and calculating by time delay comparer II timing, in the time that timing result is identical with relay delay time, relay control signal output terminal is changed to high level, after duration, recover low level, complete the generation of relay control signal.

According to nuclear magnetic resonance principle, finish after certain hour in current emission, the hydrogen proton in underground water can produce relaxation effect, utilizes sensor receiving coil 6 can sense the NMR signal that hydrogen proton produces.Receiver host computer platform 8 by receive communication interface 17 receiver parameters such as sample frequency, amplifier magnification ratio is set, and by parameter downloads to receiving in sequence control card 28.Receive sequence control card 28 and process the wireless synchronization signal receiving, and do accurate delay pilot relay 29 and all-wave capture card 32.The signal receiving on receiving coil 6 is after matching network 30, and in signal, the electromagnetic noise of aliasing will reduce, and NMR signal is tentatively extracted.Signal passes through signal amplifier 31 again, and faint NMR signal just can be amplified to the amplitude that all-wave capture card 32 can collect.The all-wave capture card 32 that sets sample frequency is digital signal by the simulation NMR signal collection after amplifying, and stores corresponding shared file memory location into by receiving communication interface 27, completes the effective reception to NMR signal.

Based on the underground all-wave nuclear magnetic resonance detection method of wireless network, comprise following order and step:

Selected measuring point in a.Ce district, vertical laying transmitting coil 5 and receiving coil 6 centered by measuring point, and transmitting coil 5 is connected with the transmitting coil terminals of transmitter 4, receiving coil 6 is connected with the receiving coil terminals of receiver 7;

B. transmitter host computer platform 1, by network interface and network settings connecting wireless network data transmit-receive unit 2 and wireless network antenna 3, produces wireless network.

C. receiver Host Computer Software Platform 8 is connected by network interface with wireless network receiving node 9, and the wireless network of setting and wireless network receiving node 9 network, and sets up and shares data store path;

D. transmitter host computer platform 1 is connected with transmitter 4 by serial ports, receiver host computer platform 8 is connected with receiver 7.And its running parameter is configured;

E. move underground all-wave nuclear magnetic resonance sniffer control software, sniffer brings into operation, and carries out all-wave data acquisition;

F. after data acquisition completes, the data that gather are all saved to transmitter host computer platform 1 by receiver host computer platform 8 by file-sharing path, move underground all-wave nuclear magnetic resonance sniffer interpretation software in transmitter host computer platform 1, inverting estimates the hydrologic parameters such as water yield, permeability, pore size, can become the basis that gushing water occurs in underground works, gush the geological disaster forecasting such as mud.

Embodiment 2

Be with the difference of embodiment 1, transmitter host computer platform 1 is connected with wireless network data Transmit-Receive Unit 2, wireless network antenna 3 by network interface line, transmitter host computer platform 1 is connected with transmitter 4, transmitting coil 5 by serial bus, multiple receiver host computer platform 8 connect with corresponding receiver 7, receiving coil 6 by serial bus respectively, multiple receiver host computer platform 8 connect with corresponding wireless network receiving node 9 by network interface line respectively, and each wireless network receiving node 9 is all connected to the wireless network producing through wireless network dual-mode antenna 3 and connects.

Claims (7)

1. the underground all-wave nuclear magnetic resonance sniffer based on wireless network, is characterized in that, this device comprises:

Transmitting coil;

Receiving coil;

Transmitter, is connected with transmitting coil, launches excitation signal for sending control transmitting coil with exchange current, and the synchronizing signal employing Transistor-Transistor Logic level of this excitation signal is carried in electric wave and is launched by wireless transmitting terminals;

Transmitter host computer platform, is connected by serial bus with transmitter, and the correlation parameter of transmitter is set;

Receiver, be connected with receiving coil, by the information with synchronizing signal of wireless synchronization signal receiving end receiver/transmitter transmitting, extract synchronizing signal transmitting sequential, and calculate transmitting sequential for controlling the collection of NMR signal, the NMR signal that the hydrogen proton that reception receiving coil senses produces;

Receiver host computer platform, is connected with receiver by serial bus, and receiver parameters is set, and receives the NMR signal the storage that detect by receiver; Described receiver host computer platform is connected with wireless network receiving node by network interface line;

Wireless network data Transmit-Receive Unit, be connected with transmitter host computer platform by network interface line and be connected with wireless network antenna, this wireless network data Transmit-Receive Unit generation network signal is realized wireless telecommunications with wireless network receiving node and is connected, and makes data sharing between receiver host computer platform and transmitter host computer platform.

2. according to the underground all-wave nuclear magnetic resonance sniffer based on wireless network claimed in claim 1, it is characterized in that, described wireless network data Transmit-Receive Unit comprises the signal transmitting line being connected to form successively by data transfer interface and digital to analog converter, power amplifier, scrambler, the signal receiving lines being connected and composed successively by demoder and wave filter, analog to digital converter, switch.

3. according to the underground all-wave nuclear magnetic resonance sniffer based on wireless network claimed in claim 1, it is characterized in that, described transmitter comprises transmitting communication interface, transmitting sequence control card, driving circuit, transmitting bridge road, joins humorous electric capacity, large power supply, power-supply control card and wireless synchronization signal transmitting terminal, wherein launch communication interface, for being connected with the communication of transmitter host computer platform; The steering order of transmitting sequence control card receiver/transmitter host computer platform, and calculate launch time and synchronizing signal time according to steering order, send the control signal that receives synchronizing signal and transmitting clock signal; The control signal that driving circuit receives transmitting clock signal transforms and then control transmitting bridge road DC voltage that large power supply is laid in advance in storage capacitor launches with exchange current by joining humorous Capacity control transmitting coil, launches sequence control card simultaneously and synchronizing signal is carried in to specific wireless wave band by wireless synchronization signal transmitting terminal outwards launches.

4. according to the underground all-wave nuclear magnetic resonance sniffer based on wireless network claimed in claim 1, it is characterized in that, described receiver comprises reception communication interface, wireless synchronization signal receiving end, receive sequential control board, all-wave capture card, relay, matching network and signal amplifier, wherein, receive sequential control board and connect reception steering order by receiving communication interface receiver host computer platform, calculate relay delay time and gather and control delay time, an output terminal that receives sequential control board connects relay, one input end connects wireless synchronization signal receiving end, receiving sequential control board is received synchronizing signal and received signal by Control receiving coil under the triggering of synchronizing signal by wireless synchronization signal receiving end, the signal receiving enters the collection of carrying out signal in all-wave capture card by matching network and signal amplifier, all-wave capture card exports receiver host computer platform to by receiving communication interface.

5. according to the underground all-wave nuclear magnetic resonance sniffer based on wireless network claimed in claim 4, it is characterized in that, the input end access of described all-wave capture card receives the interface of sequence control card, by the triggering of synchronizing signal, controls all-wave capture card and carries out the collection of data.

6. according to the underground all-wave nuclear magnetic resonance sniffer based on wireless network claimed in claim 3, it is characterized in that, described transmitting sequence control card comprises programmable instructions controller, one output terminal of programmable instructions controller is for receiving synchronous signal output end mouth, receiving synchronous signal output end mouth is connected with wireless synchronization signal transmitting terminal, programmable instructions controller is also connected with comparer I, timer I, comparer II, timer II and transmitting clock signal output port, the initial output low level of synchronous signal output end mouth, board clock time base under, start timing, synchronous signal output end changes output high level, by timer I timing, and pass through the synchronizing signal time that comparer I compares timing result and calculating, in the time that timing result is identical with the synchronizing signal time, synchronous signal output end recovers output low level, complete the generation of synchronizing signal, the initial output low level of transmitting clock signal output terminal, start timing output high level, timer II timing, timing result is by comparison launch time of comparer II and setting, in the time that timing result is identical with launch time, transmitting clock signal output port recovers low level, completes the generation of transmitting clock signal.

7. according to the underground all-wave nuclear magnetic resonance sniffer based on wireless network claimed in claim 4, it is characterized in that, described reception sequence control card comprises programmable instructions controller, programmable instructions controller receives the steering order from serial communication unit, calculates relay delay time and gather to control delay time, one input end of this programmable instructions controller is synchronous signal input end, one output terminal is for gathering control signal output port, this collection control signal output port connects all-wave capture card, one output terminal is that relay control signal output port is connected with relay, this reception sequence control card also comprises board clock, and time delay comparer I and time delay comparer II, in the time that synchronizing signal is rising edge, board clock time base under, start timing, also compare the collection control delay time of time delay timing result and calculating by time delay comparer I timing, control the variation that gathers control signal output terminal, complete the generation that gathers control signal, board clock time base under, start timing, by time delay comparer II timing the Control delay time of time delay timing result and calculating relatively, the variation of pilot relay control signal state output terminal, completes the generation of relay control signal.

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