CN109100777A - Frequency conversion type oceanic high air gun - Google Patents

Abstract

The invention discloses a frequency-variable marine high-pressure air gun seismic source. It includes components such as an air gun controller, an air storage chamber, a fixed rod, a sleeve, an initial limit mechanism and a cover, and an adjustable limit block is arranged on the fixed rod. During the excitation process, the length of the outlet hole of the gas storage chamber is controlled by the limit between the limit block and the limit end of the sleeve. By adjusting the length of the opening, the gas outlet speed can be adjusted to realize the control of the excitation wavelet frequency.

Description

Frequency conversion type oceanic high air gun

Technical field

The invention belongs to marine seismic prospectiong fields, and in particular to a kind of frequency conversion type oceanic high air gun.

Background technique

Air gun source is a kind of focus being most widely used in current marine seismic prospectiong.It is that current offshore oil is surveyed It visits, the main focus of natural gas hydrate exploration, also plays important work in terms of subbottom structure and evolution, continental shelf With.Air gun source is mainly by injecting high pressure gas into seawater, to generate transient pulse, forms source wavelet.This seed Speed (outlet aperture) in frequency characteristic and high pressure gas the injection water of wave has close relationship.Fig. 1 simulates difference and goes out Source wavelet and its spectrum curve under the conditions of stomata diameter.By comparison as can be seen that outlet aperture is bigger, rate of gas release It is faster, so as to the higher peak value of pulse (Fig. 1 a) of output, more high frequency signals can be obtained in frequency domain accordingly, but It is pore size for low-frequency effects very little, it is as shown in Figure 1 b, different in the 0-100Hz frequency band that oil-gas exploration is concerned about the most Outlet aperture caused by difference very little.This high-frequency energy obtain pressed focus be better able to meet protected with marine organisms Green source design concept for the purpose of shield.But then, it in the detection of some sea-bottom shallow structures, needs to utilize high-frequency energy It measures to improve the resolution ratio of seismic data, such as Seafloor Sulfide mineral deposit SMS (Seafloor Massive Sulfide).SMS Because multiple educate in sea-bottom shallow, and based on bulk, it is therefore desirable to which higher resolution ratio just can efficiently identify out.It is this In the case of just need to improve high-frequency energy as far as possible and improve resolution ratio.

Based on analog result, in order to guarantee that excitation obtains high-frequency energy as much as possible, it is necessary to as far as possible will be high Body of calming the anger is discharged into water as soon as possible, at this time just needs sufficiently large outlet aperture.High-resolution (high-frequency energy) and ocean There is contradictory relationships between biological protection.

Summary of the invention

It is an object of the invention to overcome deficiency in the prior art, a kind of frequency conversion type oceanic high air cannon shake is provided Source.

Technical scheme is as follows:

A kind of frequency conversion type oceanic high air gun, including air gun controller, air storage chamber, fixed link, sleeve, initial limit Position mechanism and capping；

The fixed link is fixed inside air storage chamber, and fixed link is equipped with the limited block of position-adjustable；Sleeve It is set in fixed link, can be moved along fixed link, and its initial position is limited by initial position-limit mechanism；

Air storage chamber is equipped with venthole, and one end and the capping of sleeve are fixedly linked, and the other end is to realize to open with limited block cooperation The positive stop end of mouth length limit, the sleeve is completely interior to be received to original state, and the venthole can be covered completely by covering；

The air gun controller, which is connected by signal wire with position-limit mechanism, realizes control；The air storage chamber passes through gas Conveyance conduit is connected with external air compressor.

Preferably, position of the limited block in fixed link by adjusting completion in advance.As in advance by limited block movement To suitable position, the position of limited block is then locked, makes its can not move relative to fixed bar.

Alternatively, the adjusting rod that the limited block is set in inside fixed link with one is connected, pass through the mobile band of adjusting rod The position of the relatively fixed bar of dynamic limited block, and the position of limited block is fixed by locking adjusting rod.

Alternatively, the air gun controller passes through position of the signal line traffic control limited block in fixed link, for example, described Limited block, which is driven by motor, move up and down it can along fixed link, and can be in fixed link latched position.

It is more further, the place or sleeve positive stop end of the locating part and sleeve limit end in contact and locating part The place of contact is equipped with elastic cushioning material, such as rubber material, for weakening impact.

Preferably, the initial position-limit mechanism is setting telescopic convex block in fixed link, and the convex block is by air gun It is flexible that controller controls it.

Preferably, the air storage chamber is cylindrical, and the fixed link is located at its axle center.It is more further, it is described Venthole be located at a cylindric end face, at circle；The gas transmission pipeline is located at another end face of air storage chamber.

More further, the gas transmission pipeline is equipped with valve, and the aperture of the valve is controlled by air gun Device control.

The present invention at work, first original state when, sleeve is limited in initial position by initial position-limit mechanism, capping lid Firmly venthole is in air-tight state.

Position of the limited block in fixed link is adjusted and locks, which determines final capping relative to venthole Opening length L, and Opening length is bigger, then shows that venthole diameter is bigger, rate of gas release is faster, higher so as to output Peak value of pulse, more high frequency signals can be obtained in frequency domain accordingly.

After the adjustment of limited block position, gas enters air storage chamber by gas transmission pipeline and reaches required pressure.

When explosive source, air gun controller controls initial position-limit mechanism and cancels limit, and sleeve can be along fixed link at this time It is mobile；Under high pressure gas effect, sleeve is mobile relative to fixed bar, and opens venthole；When the positive stop end of sleeve is moved to limit It when at the block of position, can not just be moved again, thus can cover opening relative to venthole according to the position control of limited block Mouth length L, then controls rate of gas release, obtains corresponding frequency.

If the sleeve that need to bounce back to initial position, can be bounced back by driving limited block band moving sleeve, after reaching setting position, Sleeve is limited by initial position-limit mechanism again.

In order to reach balance as far as possible, the present invention devises a frequency conversion type high pressure airgun focus, and this design is most Big feature just can be achieved on the selection of different excitation modes, and instruction is passed to pore size control system by signal transmission system System, realizes the unlatching in different outlet apertures, thus the control of tangible outlet speed, reduction/increase high-frequency energy.For example, with In acquisition for the purpose of oil-gas exploration, it is set as low outlet speed, to reduce the high frequency harmful to marine organisms as far as possible Energy.It in acquisition for the purpose of by SMS, is set as being higher by gas velocity degree, to guarantee the excitation of high-frequency energy.

Detailed description of the invention

Simulation source wavelet (a) and its spectrum curve (b) under the conditions of Fig. 1 difference outlet aperture；

Fig. 2 is frequency conversion type oceanic high air gun status diagram to be excited of the present invention；

Fig. 3 is frequency conversion type oceanic high air gun excited state schematic diagram of the present invention；

Fig. 4 is the limited block and initial position-limit mechanism schematic diagram in embodiment.

Specific embodiment

The present invention will be further described with reference to the accompanying drawing.

It as shown in Figures 2 and 4, is present invention status diagram to be excited, frequency conversion type oceanic high air gun, including gas Gun controller 6, air storage chamber 1, fixed link 2, sleeve 3, initial position-limit mechanism 5 and capping 4；The fixed link 2 is fixed at Inside air storage chamber 1, fixed link 2 is equipped with the limited block 7 of position-adjustable；Sleeve 3 is set in fixed link 2, can be along fixed link It is mobile, and its initial position is limited by initial position-limit mechanism 5；Air storage chamber 1 is equipped with venthole 8, and one end of sleeve 2 and capping 4 are solid Fixed to be connected, the other end realizes the positive stop end of Opening length limit to cooperate with limited block 7, and the sleeve is completely interior to be received to initial shape After state, capping 4 can cover the venthole 8 completely.

In state to be excited, air storage chamber is in air-tight state.

As shown in figure 4, in the present embodiment, the limited block 7 is set in 11 phase of adjusting rod inside fixed link with one Even, adjusting rod 11 can move up and down, and be connected by the fluting 12 in fixed link with limited block 7, so that adjusting rod 11 can drive Limited block 7 moves up and down, and locks adjusting rod 11 by locking part 13 to fix the position of limited block 7.

In the present embodiment, the initial position-limit mechanism 5 be arranged in fixed link telescopic convex block, the convex block by It is flexible that air gun controller 6 controls it.The positive stop end 10 of sleeve 3 is equipped with for cooperating convex block to carry out the recessed of initial position limit Cave.

As shown in figure 3, initial position-limit mechanism 5 is recycled to inside fixed link when excited state；The capping 4 of sleeve 3 is in air pressure Effect is lower to open, and moves with moving sleeve 3 along fixed link, and positive stop end 10 stops when reaching 7 position of limited block, opening at this time Mouth length L is the Opening length of this excitation.By adjusting Opening length L, i.e., adjustable outlet speed is realized to high-frequency energy The control of amount.

In addition to the structure shown in Fig. 4, position of the limited block 7 in fixed link can also adjust completion in advance.As in advance Limited block 7 is moved to suitable position, then locks the position of limited block 7, makes its can not move relative to fixed bar.

Alternatively, the air gun controller 6 passes through position of the signal line traffic control limited block 7 in fixed link, for example, described Fixed link be equipped with rack gear, the limited block 7 be equipped with gear, gear is driven by motor along rack movement, makes limited block 7 It can be moved up and down along fixed link 2, and can be in 2 latched position of fixed link.

Preferably, the locating part is contacted with the place of sleeve limit end in contact or sleeve positive stop end with locating part Place is equipped with elastic cushioning material, such as rubber material, for weakening impact.

Preferably, the air storage chamber is cylindrical, and the fixed link is located at its axle center.It is more further, it is described Venthole 8 be located at a cylindric end face, at circle；The gas transmission pipeline is located at another end face of air storage chamber.

More preferred, the gas transmission pipeline is equipped with valve, and the aperture of the valve is by air gun controller Control.

Claims (8)

1. A frequency conversion type marine high-pressure air gun seismic source is characterized in that comprising an air gun controller (6), an air storage chamber (1), a fixed rod (2), a sleeve (3), an initial limit mechanism (5) and cover (4); The fixed rod (2) is fixed inside the gas storage chamber (1), and the fixed rod (2) is provided with a position-adjustable limit block (7); the sleeve (3) is sleeved on the fixed rod (2). ), it can move along the fixed rod, and its initial position is limited by the initial limit mechanism (5); The gas storage chamber (1) is provided with an air outlet (8), one end of the sleeve (2) is fixedly connected to the cover (4), and the other end is a limit end that cooperates with the limit block (7) to realize the adjustment of the opening length. After the sleeve is fully retracted to the initial state, the cover (4) can completely cover the air outlet (8); The air gun controller (6) is connected to the initial limit mechanism (5) through a signal line to realize the control of the initial limit mechanism (5); the gas storage chamber (1) is connected to the external connected to the air compressor. 2. The frequency conversion type marine high-pressure air gun seismic source according to claim 1, characterized in that the limit block (7) is connected to a set of adjustment rods arranged inside the fixed rod, and the movement of the adjustment rod drives the limit The position of the block (7) relative to the fixed rod, and the position of the limit block (7) is fixed by locking the adjusting rod. 3. The frequency conversion marine high-pressure air gun seismic source according to claim 1, characterized in that the air gun controller (6) controls the position of the limit block (7) on the fixed rod through a signal line. 4. The variable-frequency marine high-pressure air gun seismic source according to claim 1, characterized in that the place where the limiter contacts the limit end of the sleeve or the place where the limit end of the sleeve contacts the limiter is provided with Elastic shock-absorbing material. 5. The frequency conversion type marine high-pressure air gun seismic source according to claim 1 is characterized in that said initial position-limiting mechanism (5) is a telescopic bump arranged on the fixed rod, and the bump is controlled by the air gun controller ( 6) Control expansion and contraction. 6. The variable-frequency marine high-pressure air gun seismic source according to claim 1, characterized in that the air storage chamber is cylindrical, and the fixed rod is located at its axis. 7. The frequency conversion type marine high-pressure air gun seismic source according to claim 6 is characterized in that said air outlet (8) is positioned at an end face of a cylindrical shape, and is circular; said gas delivery pipeline is positioned at the gas storage chamber Another end. 8. The variable-frequency marine high-pressure air gun seismic source according to claim 1, characterized in that said gas delivery pipeline is provided with a valve, and the opening of said valve is controlled by an air gun controller.