CN105353418A - Ion remote sensing geophysical prospecting instrument and remote sensing geophysical prospecting method thereof - Google Patents
Ion remote sensing geophysical prospecting instrument and remote sensing geophysical prospecting method thereof Download PDFInfo
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- CN105353418A CN105353418A CN201510883378.5A CN201510883378A CN105353418A CN 105353418 A CN105353418 A CN 105353418A CN 201510883378 A CN201510883378 A CN 201510883378A CN 105353418 A CN105353418 A CN 105353418A
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Abstract
The invention discloses an ion remote sensing geophysical prospecting instrument and a remote sensing geophysical prospecting method thereof. The ion remote sensing geophysical prospecting instrument includes a touch control module used for inputting geophysical prospecting resonant frequency numerical values to an STC microcomputer module; the STC microcomputer module transmits control signals to control a crystal oscillator module to generate corresponding frequency voltage signals; the frequency voltage signals are inputted into a stepless modulation carrier frequency amplification module; the stepless modulation carrier frequency amplification module performs pre-amplification on the frequency voltage signals; the pre-amplified frequency voltage signals are inputted into a high-voltage carrier frequency transmitting and modulation receiving module; the high-voltage carrier frequency transmitting and modulation receiving module converts the pre-amplified frequency voltage signals into high-voltage electromagnetic waves; the high-voltage electromagnetic waves are transmitted through a transmitting antenna; the high-voltage carrier frequency transmitting and modulation receiving module makes radio electromagnetic wave signals received by a directional search receiving antenna to form corresponding frequency strong electromagnetic fields; the frequency strong electromagnetic fields are converted on two rotatable directional antennas and are modulated by the high-voltage carrier frequency transmitting and modulation receiving module, and therefore, a positive electromagnetic field and a negative electromagnetic field can be formed on the two antennas, and the two parallel antennas can rotate and intersect with each other, and the direction of a measured object can be pointed out. The ion remote sensing geophysical prospecting instrument of the invention has the advantages of simple operation, far detection distance and the like.
Description
Technical field
The present invention relates to remote sensing geophysical exploration technical field.
Background technology
The physical prospecting instrument that current reconnoiter mechanism uses, conventional have magnetic method, electrical method and the seismic method used detects.Magnetic method: be utilize nature magnet or electromagnetism to do a large amount of different net degree and reconnoitre reconnoitring within the scope of district, tries to achieve that magnetic field, underground is abnormal looks for magnetic iron ore, and can the magnetic iron ore of underground have outside magnetic anomaly, volcanic tuff and some rock mass thereof have magnetic anomaly.Electrical method: be transfer over the ground electrical measurement obtain the earth natural electricity deposit electricity and resistivity height look for Nonferrous Metals, but underground water deposition broken belt constructs different rock mass and can change intensification rate, resistivity anomaly changes, seismic method: be utilize human-generated explosives earthquake motion ripple to survey oil, underground water sediment can cause seismic wave attenuation, has a lot of complicated geologic media to be very restricted in addition.Such as U.S. V8 technology a lot of international technology personnel think most advanced, every platform cost 2,300,000 yuan, but it to be an electrical prospecting apparatus only add hyundai electronics program technic, the supplemental characteristicization of former survey is directly converted to Abnormal Map.The exception found out of various geophysical prospecting above, directly can not determine that the thingness that will look for is abnormal, more can not directed, location, qualitative, final conclusion object place.Can not the darker object of depth of investigation, more can not carry out long-range search and orientation from any in large area region.
Summary of the invention
The technical problem to be solved in the present invention is to provide a kind of ion remote sensing geophysical exploration instrument and remote sensing geophysical exploration method thereof, it have easy and simple to handle, save time, power saving, laborsaving, the features such as detection range is far away; Be adapted to the use of varying environment, Different field, different field.
For solving the problems of the technologies described above, the technical solution used in the present invention is:
A kind of ion remote sensing geophysical exploration instrument, comprise for the touch-control module to STC micro computer module input detection thing resonant frequency numerical value, STC micro computer module sends control signal control crystal oscillator module and produces corresponding frequency voltage signal, the frequency voltage signal that crystal oscillator module produces inputs electrodeless modulated carriers amplification module and carries out enlarge leadingly to this frequency voltage signal, the enlarge leadingly frequency signal input high pressure carrier frequency that electrodeless modulated carriers amplification module exports is launched and modulation receiver module, high pressure carrier frequency is launched and modulation receiver module converts this enlarge leadingly frequency signal to high-tension electricity magnetic wave through transmission antennas transmit, the wireless signal received through beam search receiving antenna is converted to corresponding frequencies electric signal with modulation receiver module and is delivered to STC micro computer module by the transmitting of high pressure carrier frequency, and ion remote sensing geophysical exploration instrument is also provided with the display screen for showing each associated signal parameter.
The present invention improves further and is:
The enlarge leadingly frequency signal that electrodeless modulated carriers amplification module exports exports STC micro computer module to through sampling and exports on a display screen.
Ion remote sensing geophysical exploration instrument employing parameter is: the lithium battery power supply of DC12V6000mAh.
A kind of ion remote sensing geophysical exploration method, comprises the following steps:
The first step, by touch-control module to STC micro computer module input determinand resonant frequency numerical value;
Second step, STC micro computer module sends control signal according to this resonant frequency numerical value to crystal oscillator module, produces the oscillator signal with this resonant frequency numerical value same frequency to make crystal oscillator module;
3rd step, the oscillator signal that crystal oscillator module produces inputs electrodeless modulated carriers amplification module, carries out enlarge leadingly to this frequency signal, adapts to high pressure carrier frequency launch the requirement with modulation receiver module input end to make it;
4th step, this frequency signal input high pressure carrier frequency transmitting of amplifying through electrodeless modulated carriers amplification module converts high-tension electricity magnetic wave to through transmission antennas transmit with modulation receiver module;
5th step, above-mentioned high-tension electricity magnetic wave runs into the resonant frequency object identical with this frequency, namely resonance is produced, form concussion ion beam electrostatic electromagnetic field, beam search receiving antenna receives this electrostatic electromagnetic field signal, converts corresponding frequencies electromagnetism to sprinkle resonance signal through the transmitting of high pressure carrier frequency with modulation receiver module, this signal function is on directional receiving antenna, rotate and intersect, just can know object region and form, by the display of detected information regarding objects on a display screen.
The beneficial effect adopting technique scheme to produce is:
There is particulate ion according to object various in nature in the present invention, and the particulate ion of various material has resonance state characteristic, is also the general character of all substances.But various physical property is different, requires that resonance state frequency values is also different, can find different material by different frequency value.Comprise for the touch-control module to STC micro computer module input detection thing resonant frequency numerical value, ion remote sensing geophysical exploration instrument is also provided with the display screen for showing each associated signal parameter, the various determinands reserved are settled the standard concussion frequency values by touch-control module input micro computer module, then by frequency values that display shows, the object that selection will detect, STC micro computer module sends control signal control crystal oscillator module and produces corresponding frequency voltage signal, the digital controlled signal that STC micro computer module sends converts simulating signal control crystal oscillator module to through digital to analog converter and produces corresponding frequency voltage signal, the frequency voltage signal that crystal oscillator module produces inputs electrodeless modulated carriers amplification module and carries out enlarge leadingly to this frequency voltage signal, launch with modulation receiver module the input requirements of signal intensity to adapt to high pressure carrier frequency, the enlarge leadingly frequency signal input high pressure carrier frequency that electrodeless modulated carriers amplification module exports is launched and modulation receiver module, high pressure carrier frequency is launched and modulation receiver module converts this enlarge leadingly frequency signal to high-tension electricity magnetic wave through transmission antennas transmit, if run into the object of equivalent oscillation frequency, resonance will be formed with it.Resonance forms resonance plasma Shu Jing electricity electromagnetic field, high pressure carrier frequency is launched and the wireless signal received through beam search receiving antenna is converted to corresponding frequencies electromagnetism with modulation receiver module and sprinkle signal and be delivered on receiving antenna antenna, form positive and negative electromagnetic field and intersect, just can know object region coordinate and form, by the display of detected information regarding objects on a display screen.It has easy and simple to handle, directly perceived, save time, power saving, laborsaving, the features such as detection range is far away; Be adapted to the use of varying environment, Different field, different field.
Accompanying drawing explanation
Fig. 1 is electrical block diagram of the present invention.
Embodiment
Below in conjunction with the drawings and specific embodiments, the present invention is further elaborated.
Embodiment is as shown in Figure 1 known, a kind of ion remote sensing geophysical exploration of the present embodiment instrument, comprise for the touch-control module (model: SN ?HCO ?N) to STC micro computer module input detection thing resonant frequency numerical value, STC micro computer module sends control signal control crystal oscillator module (model: COMCLOK) and produces corresponding frequency voltage signal, the frequency voltage signal that crystal oscillator module produces inputs electrodeless modulated carriers amplification module (model: CZDX) and carries out enlarge leadingly to this frequency voltage signal, the enlarge leadingly frequency signal input high pressure carrier frequency that electrodeless modulated carriers amplification module exports is launched and modulation receiver module (model: KFZW), high pressure carrier frequency is launched and modulation receiver module converts this enlarge leadingly frequency signal to high-tension electricity magnetic wave through transmission antennas transmit, the wireless signal received through beam search receiving antenna is converted to corresponding frequencies electric signal with modulation receiver module and is delivered to STC micro computer module by the transmitting of high pressure carrier frequency, and ion remote sensing geophysical exploration instrument is also provided with the display screen for showing each associated signal parameter.
The enlarge leadingly frequency signal that electrodeless modulated carriers amplification module exports exports STC micro computer module to through sampling and exports on a display screen.
Ion remote sensing geophysical exploration instrument adopts parameter to be: DC12V the lithium battery power supply of 6000mAh.
Principle of work and process:
There is particulate ion according to object various in nature in the present invention, and the particulate ion of various material has resonance state characteristic, is also the general character of all substances.But various physical property is different, requires that resonance state frequency values is also different, can find different material by different frequency value.
The various determinands reserved are settled the standard concussion frequency values by touch-control module input micro computer module, then by frequency values that display shows, the object that selection will detect, STC micro computer module sends control signal control crystal oscillator module and produces corresponding frequency voltage signal, the digital controlled signal that STC micro computer module sends converts simulating signal control crystal oscillator module to through digital to analog converter and produces corresponding frequency voltage signal, the frequency voltage signal that crystal oscillator module produces inputs electrodeless modulated carriers amplification module and carries out enlarge leadingly to this frequency voltage signal, launch with modulation receiver module the input requirements of signal intensity to adapt to high pressure carrier frequency, the enlarge leadingly frequency signal input high pressure carrier frequency that electrodeless modulated carriers amplification module exports is launched and modulation receiver module, high pressure carrier frequency is launched and modulation receiver module converts this enlarge leadingly frequency signal to high-tension electricity magnetic wave through transmission antennas transmit, if run into the object of equivalent oscillation frequency, resonance will be formed with it.Resonance forms electromagnetostatic field, high pressure carrier frequency is launched and is modulated receiver module and the wireless signal received through beam search receiving antenna converted to corresponding frequencies electromagnetic signal and be delivered to and directional receiving antenna forms positive and negative electromagnetic field and intersect, just can know object region coordinate and form, by the display of detected information regarding objects on a display screen.
Ion remote sensing geophysical exploration method, comprises the following steps:
The first step, by touch-control module to STC micro computer module input determinand resonant frequency numerical value;
Second step, STC micro computer module sends control signal according to this resonant frequency numerical value to crystal oscillator module, produces the oscillator signal with this resonant frequency numerical value same frequency to make crystal oscillator module;
3rd step, the oscillator signal that crystal oscillator module produces inputs electrodeless modulated carriers amplification module, carries out enlarge leadingly to this frequency signal, adapts to high pressure carrier frequency launch the requirement with modulation receiver module input end to make it;
4th step, this frequency signal input high pressure carrier frequency transmitting of amplifying through electrodeless modulated carriers amplification module converts high-tension electricity magnetic wave to through transmission antennas transmit with modulation receiver module;
5th step, above-mentioned high-tension electricity magnetic wave runs into the resonant frequency object identical with this frequency, namely resonance is produced, form electrostatic electromagnetic field, beam search receiving antenna receives this electrostatic electromagnetic field signal, launches convert corresponding frequencies electromagnetic wave signal to modulation receiver module through high pressure carrier frequency, this signal is delivered on directional receiving antenna, form positive and negative electromagnetic field and intersect, just can know object region coordinate and form size, by the display of detected information regarding objects on a display screen.Utilize the general character of various different material, the method detecting multiple different material is gone by a kind of mode, be that different material is under terrestrial gravitation effect, adsorb small micro-ion identical with former physical property, to its remote transmission radio electromagnetsm ripple, make the particulate ion of material produce resonance state, form resonance plasma bundle electromagnetic field and find material, this method is referred to as ion remote sensing geophysical exploration method.
The foregoing is only preferred embodiment of the present invention, not in order to restriction invention, within the spirit and principles in the present invention all, any amendment done, equivalent replacement, improvement etc., all should be included within protection scope of the present invention.
Claims (4)
1. an ion remote sensing geophysical exploration instrument, it is characterized in that: comprise for the touch-control module to STC micro computer module input detection thing resonant frequency numerical value, described STC micro computer module sends control signal control crystal oscillator module and produces corresponding frequency voltage signal, the frequency voltage signal that described crystal oscillator module produces inputs electrodeless modulated carriers amplification module and carries out enlarge leadingly to this frequency voltage signal, the enlarge leadingly frequency signal input high pressure carrier frequency that described electrodeless modulated carriers amplification module exports is launched and modulation receiver module, described high pressure carrier frequency is launched and modulation receiver module converts this enlarge leadingly frequency signal to high-tension electricity magnetic wave through transmission antennas transmit, described high pressure carrier frequency launches the radio electromagnetsm ripple signal will received through beam search receiving antenna with modulation receiver module, converts the forceful electric power electromagnetic field of corresponding frequencies to, acts on two receiving antennas, form positive and negative electromagnetic field, and two antennas are intersected.Described ion remote sensing geophysical exploration instrument is also provided with the display screen for showing each associated signal parameter.
2. a kind of ion remote sensing geophysical exploration instrument according to claim 1, is characterized in that: the enlarge leadingly frequency signal that described electrodeless modulated carriers amplification module exports exports STC micro computer module to through sampling and exports on a display screen.
3. a kind of ion remote sensing geophysical exploration instrument according to claim 1, is characterized in that: described ion remote sensing geophysical exploration instrument employing parameter is: the lithium battery power supply of DC12V6000mAh.
4. an ion remote sensing geophysical exploration method, is characterized in that comprising the following steps:
The first step, by touch-control module to STC micro computer module input determinand resonant frequency numerical value;
Second step, STC micro computer module sends control signal according to this resonant frequency numerical value to crystal oscillator module, produces the oscillator signal with this resonant frequency numerical value same frequency to make crystal oscillator module;
3rd step, the oscillator signal that described crystal oscillator module produces inputs electrodeless modulated carriers amplification module, carries out enlarge leadingly to this frequency signal, adapts to high pressure carrier frequency launch the requirement with modulation receiver module input end to make it;
4th step, this frequency signal input high pressure carrier frequency transmitting of amplifying through electrodeless modulated carriers amplification module converts high-tension electricity magnetic wave to through transmission antennas transmit with modulation receiver module;
5th step, above-mentioned high-tension electricity magnetic wave runs into the resonant frequency object identical with this frequency, namely resonance is produced, form the strong electrostatic electromagnetic field of resonance plasma bundle, beam search receiving antenna receives this electrostatic electromagnetic field signal, launch through high pressure carrier frequency and convert corresponding frequencies electromagnetic signal to modulation receiver module, this signal function, on two directional receiving antennas, makes antenna automatically intersect.Just can point out object region coordinate and form, by the display of detected information regarding objects on a display screen.
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Cited By (3)
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| CN107898460A (en) * | 2018-01-05 | 2018-04-13 | 河北坤宇物探科技有限公司 | A kind of ion calculus remote sensing instrument |
| CN112859185A (en) * | 2021-04-08 | 2021-05-28 | 河南拉莫尔量子科技有限公司 | Non-invasive remote material detection device based on earth field nuclear magnetic resonance |
| CN113608279A (en) * | 2021-09-02 | 2021-11-05 | 三门峡金地之源物探科技有限公司 | Method and measuring system for accurately detecting substance |
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| CN112859185A (en) * | 2021-04-08 | 2021-05-28 | 河南拉莫尔量子科技有限公司 | Non-invasive remote material detection device based on earth field nuclear magnetic resonance |
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| CN113608279A (en) * | 2021-09-02 | 2021-11-05 | 三门峡金地之源物探科技有限公司 | Method and measuring system for accurately detecting substance |
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