CN201892568U - High-precision laser interference type hydrophone - Google Patents

Abstract

The utility model discloses a high-precision laser interference type hydrophone, which has the advantages of high precision, low fabrication cost, long cruise duration and the like. The hydrophone comprises a light path system based on the Michelson interference principle, a control system and a power supply system; the light path system comprises a laser, a half-transmission and half-reflection spectroscope, plane reflectors and a vibrator; one of the plane reflectors and the laser are respectively arranged over and under the spectroscope, moreover, the plane reflector is arranged horizontally, and the top of the plane reflector is provided with a piece of piezoelectric ceramic; the vibrator is arranged vertically, moreover, a layer of reflective film is coated on the inner surface of the vibrator, which faces the spectroscope, and a piezoelectric composite material is attached on the outer surface of the vibrator; the control system comprises a photodiode and a charge amplifier circuit, and electric signals outputted by the photodiode and the charge amplifier circuit are transmitted to a controller; and the controller is used for calculating the amplitude of the measured acoustic signals, and is connected with the piezoelectric ceramic through a piezoelectric ceramic drive circuit.

Description

High-precision laser interfere type nautical receiving set

Technical field

The utility model belongs to the nautical receiving set technical field, specifically, relates to a kind of high precision nautical receiving set based on the laser interference principle.

Background technology

Nautical receiving set is the transducing head that is used for voice signal under water is converted to electric signal.Nautical receiving set can detect the noise of target institute radiation such as submarine, fish, also can directly detect sound source, such as being loaded in small-sized sound source on the fish body, acoustic marker, explosive sound etc., and implements directed tracing.

Present nautical receiving set generally is made up of major parts such as receiving transducer, receiver and end devices.Wherein, receiving transducer is used to gather underwater signal, and acoustical signal is transformed to electric signal transfers to receiver and carry out processing and amplifying, then is sent to end device, by end device show, the storage measured signal, analyze to offer the monitoring personnel.

Traditional nautical receiving set adopts piezoelectric ceramics as senser element, utilizes the inverse piezoelectric effect of material to realize conversion from the acoustical signal to the electric signal.Promptly when piezoceramic material was subjected to the external force effect and produces mechanically deform, material surface can produce electric charge, and electric field changes, and handles obtaining measuring-signal by circuit.But this mode is subjected to the restriction of material property, and the electric field of deformation quantity and generation exists significantly non-linear, and signal Processing is comparatively complicated; And material is subjected to factor affecting such as temperature big, and precision is lower.

The utility model content

The purpose of this utility model is to provide a kind of nautical receiving set based on the laser interference principle, to improve the accuracy of detection of underwater signal.

In order to solve the problems of the technologies described above, the utility model is achieved by the following technical solutions:

A kind of high-precision laser interfere type nautical receiving set comprises light path system based on the Michelson principle of interference, control system and the electric power system that working power is provided for described light path system and control system; The spectroscope, plane mirror and the vibrating reed that in described light path system, comprise laser instrument, half-transmitting and half-reflecting; Wherein, described plane mirror and laser instrument branch are located at spectroscopical up and down both sides, and plane mirror is horizontally disposed with, and its end face is provided with piezoelectric ceramics, and piezoelectric ceramics drives the plane mirror motion when mechanical deformation takes place; Described vibrating reed vertically is provided with, and is coated with one deck reflectance coating at it on spectroscopical inside surface, and the outside surface of vibrating reed is pasted with piezo-electricity composite material; In described control system, comprise the controller that is used to calculate tested acoustical signal amplitude, be used to receive that the electric signal by described photodiode and charge amplifying circuit output is sent to controller by the photodiode of described spectroscope reflection and the two-beam line that transmits and the charge amplifying circuit that is used to receive described piezo-electricity composite material output charge; Controller connects described piezoelectric ceramics by driver circuit for piezoelectric ceramics.

For the ease of the collection of interference pattern, between described laser instrument and spectroscope, be provided with a beam expander, the diameter of the light beam that laser instrument is sent by described beam expander enlarges.

Preferably, described laser instrument preferably adopts laser diode, to reduce cost.

Further, comprise A/D converter, D/A converter and CPU in described controller, the current signal of described charge amplifying circuit output transfers to described CPU after A/D converter is transformed to digital signal; Described photodiode connects described CPU or connects described CPU by A/D converter; Described CPU exports analog voltage signal to driver circuit for piezoelectric ceramics by D/A converter.

Further again, in described nautical receiving set, also be provided with communication system, connect described controller, the amplitude of the tested acoustical signal that controller calculate is generated is uploaded to end device and shows and store.

Further again, described light path system, control system, electric power system and communication system are arranged in the housing, the left end of described housing or right-end openings, described vibrating reed is installed on described opening part, and then form an airtight chamber with described housing, and the inside surface of described vibrating reed is in chamber.

Further, described housing is the cylindric of horizontal placement; Described vibrating reed is circular corrosion resistant plate; The preferred plated film of described reflectance coating is in the center of vibrating reed inside surface.

Preferably, the piezo-electricity composite material that is attached to described vibrating reed outside surface is bar shaped, and is arranged in parallel and is provided with many; Perhaps it can be designed to annular, and the center of circle overlaps with the center of circle of vibrating reed.

Compared with prior art, advantage of the present utility model and good effect are: nautical receiving set of the present utility model utilizes the Michelson principle of interference, copy the structural design mode of Michelson interferometer to carry out the structural design of light path system in the nautical receiving set, respond to the vibration of detected sound source by vibrating reed, and then the beam length as gage beam is changed, change the formed interference fringe of two-beam line that reflects and transmit by spectroscope thus, and then by detecting the amplitude that change of interference fringes calculates detected sound source indirectly, and can further compensate the amplitude that calculates by the distance of regulating reference arm, to obtain more accurate strength of sound source.She Ji nautical receiving set has remarkable advantages such as precision height, cruising time is long, cost is low thus, can be widely used in fields such as petroleum prospecting, oceanographic survey.

After reading the detailed description of the utility model embodiment in conjunction with the accompanying drawings, other characteristics of the present utility model and advantage will become clearer.

Description of drawings

Fig. 1 is the structural representation of existing Michelson interferometer;

Fig. 2 is that the center is the interference fringe pattern of speck;

Fig. 3 is that the center is the interference fringe pattern of blackening;

Fig. 4 is the one-piece construction synoptic diagram of the high-precision laser interfere type nautical receiving set that proposes of the utility model;

Fig. 5 is the establishment structural representation of light path system and control system among Fig. 4.

Embodiment

Below in conjunction with accompanying drawing embodiment of the present utility model is done explanation in further detail.

Nautical receiving set of the present utility model designs based on the Michelson principle of interference, at first the Michelson principle of interference is briefly introduced below.

Fig. 1 is the structural representation of Michelson interferometer, comprises two plane mirror M ₁And M ₂, half reflection and half transmission spectroscope G ₁And light beam receiving screen E.Wherein, spectroscope G ₁Be obliquely installed, and the acute angle that is become with horizontal direction is 45 °; Definition spectroscope G ₁On be coated with reflectance coating one side be reflecting surface, the one side relative with reflecting surface is transmission plane, then with spectroscope G ₁Transmission plane towards light source S and plane mirror M ₂, reflecting surface is towards plane mirror M ₁With screen E; Two plane mirror M ₁, M ₂Adjacent, and one be horizontally disposed with, and another piece vertically is provided with.

The light that sends as light source S is injected into spectroscope G ₁When last, light is through spectroscope G ₁After be divided into gage beam S1 and reference arm S2 two-way.Wherein, gage beam S1 is that light is through spectroscope G ₁Transmission arrives plane mirror M ₁Light beam, return after reflection, again through spectroscope G ₁Reflecting surface reflection after, form light beam S1 ' arrivals and shield E; Reference arm S2 is that light is through spectroscope G ₁After the reflection, directive plane mirror M ₂Light beam, through mirror M ₂After the reflection, inject spectroscope G once more ₁, again through spectroscope G ₁After the transmission, form light beam S2 ' arrival screen E.Two-beam S1 ', S2 ' meet at screen E place, interfere, and form circular interference fringe, as Fig. 2, shown in Figure 3.

If plane of motion mirror M ₁Perhaps M ₂The optical path difference of two-beam S1, S2 will change, thereby making interference fringe that corresponding the variation be taken place, " emerges " (diameter that is the center speck becomes big gradually) or to center " indentation " (diameter that is the center speck diminishes gradually) in the center from interference pattern of showing as.Fig. 3 is that the center speck became the interference pattern of center blackening after interference pattern process shown in Figure 2 changed.Suppose that Δ d is plane mirror M ₁The distance that moves, " emerging " be positive dirction, bright fringes counting was k when forward moved ₊" indentation " is negative direction, and bright fringes counting was k when negative sense moved _-, by the Michelson principle of interference as can be known:

$\mathrm{\Δd}=(k_{+}-k_{-})\frac{\mathrm{\λ}}{2}---\left(1\right)$

Wherein, λ is the wavelength of light beam S.Just can calculate plane mirror M thus ₁Displacement Δ d.

Based on above-mentioned Michelson principle of interference, the utility model has designed a kind of high-precision laser interfere type nautical receiving set, referring to shown in Figure 5, utilizes laser instrument 1 as light source S, emission light copies the topology layout mode of Michelson interferometer that spectroscope 3 and plane mirror 4,6 are set simultaneously.Wherein, plane mirror 6 can adopt one deck reflectance coating plated film to realize on vibrating reed 7, to be used to reflect the light beam S6 that reflects by spectroscope 3.By the vibration of the tested acoustical signal of vibrating reed 7 induction, and then utilize the vibration of vibrating reed 7 to change the distance of gage beam, the interference pattern that is produced by spectroscope 3 reflections and the two-beam line that transmits is changed.Then, utilize photodiode Phd to replace the screen E in the Michelson interferometer to detect interference pattern, specifically can detect the speck at interference pattern center.When the center of interference pattern is speck, photodiode Phd conducting; When the center was blackening, photodiode Phd ended, and counted by the conducting number of times to photodiode Phd, can obtain the count value of bright fringes.Direction of vibration for tested acoustical signal, can attach piezo-electricity composite material by outside surface (a promptly opposite side) with the inside surface that is coated with reflectance coating 6 at vibrating reed 7, detect by variation tendency, judge the direction of vibration of tested acoustical signal indirectly piezo-electricity composite material output charge signal.Just can obtain k thus ₊, k _-Occurrence, and then utilize Michelson principle of interference formula (1) can calculate the amplitude of tested acoustical signal.

Because the vibration signal amplitude that adopts Michelson principle of interference formula (1) to be calculated can only embody amplitude and be The vibration signal intensity of integral multiple, and be not for amplitude

The signal of integral multiple then can't accurately measure.For head it off, to improve the degree of accuracy that voice signal is measured, the utility model is further installed piezoelectric ceramics 9 at the end face of plane mirror 4, referring to shown in Figure 5, mechanical deformation takes place by control system control piezoelectric ceramics 9, and then drive plane mirror 4 motions, with the compensation vibration component.Utilize the oscillating component offset that the vibration signal amplitude that calculates by formula (1) is proofreaied and correct, to obtain the amplitude of tested acoustical signal more accurately.

Below by a specific embodiment, elaborate the concrete establishment structure and the principle of work thereof of described high-precision laser interfere type nautical receiving set.

Embodiment one, and referring to shown in Figure 4, the nautical receiving set of present embodiment mainly partly is made up of housing 8, light path system, control system, electric power system and communication system etc., and wherein, the concrete establishment structure of light path system and control system is referring to shown in Figure 5.

In light path system, spectroscope 3 can be selected the beam split eyeglass of half-transmitting and half-reflecting for use, and reflecting surface up, and is that 45 ° relation is obliquely installed according to acutangulating with surface level.Correspondence is provided with plane mirror 4 and laser instrument 1 in the both sides up and down of spectroscope 3, and as shown in Figure 5, described plane mirror 4 promptly is equivalent to the M among Fig. 1 ₁, towards the reflecting surface of spectroscope 3, but need be with its horizontal positioned, its end face is provided with piezoelectric ceramics 9, and moves up and down under can driving in the deformation of piezoelectric ceramics 9.Inside surface at vibrating reed 7 is coated with one deck reflectance coating 6, to form plane mirror, replaces the M among Fig. 1 ₂, be separately positioned on the left and right sides of spectroscope 3 with the photodiode Phd that receives interference fringe.Described vibrating reed 7 should vertically be placed, and is coated with the transmission plane of the inside surface of reflectance coating 6 towards spectroscope 3; The outside surface of vibrating reed 7 attaches piezo-electricity composite material 5, such as piezoelectric ceramics-high polymer composite material etc., makes piezo-electricity composite material 5 with vibrating reed 7 concurrent deformations.Because piezoelectric effect, the distortion back produces change in charge, and then utilizes change in charge trend to judge the direction of vibration of tested acoustical signal.

In the present embodiment, described laser instrument 1 can adopt laser diode to realize that S sends laser as light source.For the ease of the sampling of interference pattern, a beam expander 2 preferably further is installed again, as shown in Figure 5 between described laser instrument 1 and spectroscope 3.Behind the laser process beam expander 2 that laser instrument 1 sends, the enlarged-diameter of light beam, the laser that expands after restrainting is two-way in spectroscope 3 punishment: the light beam S4 of directive plane mirror 4 is defined as reference arm, and the light beam S6 of directive vibrating reed 7 is defined as gage beam.In the present embodiment, preferably adopting enlargement factor is that 10 times beam expander 2 carries out system design, and the diameter that expands the laser beam behind the bundle can reach 5.4mm.

In the control system of present embodiment, mainly comprise parts such as photodiode Phd, charge amplifying circuit QA, driver circuit for piezoelectric ceramics PDC and controller, referring to shown in Figure 5.Wherein, charge amplifying circuit QA can adopt an electric current to amplify chip and realize, connects piezo-electricity composite material 5 by lead, receives the current signal of piezo-electricity composite material 5 outputs, and after carrying out processing and amplifying, exports controller to.Described controller is judged the direction of vibration of current tested acoustical signal according to the variation tendency of the current signal of charge amplifying circuit QA output.Meanwhile, controller is connected with photodiode Phd, counts, determine parameter value k by conducting number of times to photodiode Phd ₊, k _-The output terminal of controller connects driver circuit for piezoelectric ceramics PDC, produces mechanical deformation by driver circuit for piezoelectric ceramics PDC control piezoelectric ceramics 9.

In the present embodiment, described controller can adopt a cpu chip to cooperate an A/D converter to realize.Analog current signal by charge amplifying circuit QA output is after A/D converter carries out analog to digital conversion, and the output digital signal is to CPU, to make things convenient for the judgement of CPU to current transformation trend.Can directly transfer to wherein one road I/O mouth of CPU by the current signal of photodiode Phd output, when CPU has detected the electric current input, think photodiode Phd conducting, count; Otherwise, think that photodiode Phd ends, stop counting.Certainly, described photodiode Phd also can connect CPU by A/D converter, when photodiode Phd conducting, by A/D converter output digital signal 1, to change the count value among the CPU; And when photodiode Phd ends, the output digital signaling zero, this moment, CPU did not carry out accumulated counts.

Concrete principle of work to the high-precision laser interfere type nautical receiving set of present embodiment is described in detail below.

Start laser instrument 1 emission laser, after beam expander 2 expands bundle, be injected into spectroscope 3 with minute ejaculation two-way light beam: (1) reference arm S4: after laser arrives spectroscope 3, arrive plane mirror 4 through refraction, after plane mirror 4 reflections, get back to spectroscope 3 again, after the reflecting surface reflection of spectroscope 3, form light beam S4 ' directive photodiode Phd; (2) gage beam S6: after laser arrives spectroscope 3, arrive the reflectance coating 6 of the inside surface of vibrating reed 7, reflect back into spectroscope 3, transmit light beam S6 ' through spectroscope 3 then through reflectance coating 6 through the reflecting surface reflection.Two-way light beam S4 ' and S6 ' meet at photodiode Phd place, interfere, and form the interference pattern of concentric ring-shaped.During system initialization,, make photodiode Phd detect the speck at interference pattern center by light path system is carried out preconditioning.

Nautical receiving set is put under water, when there is voice signal in detected waters, when sound wave arrives vibrating reed 7, just cause the vibration of vibrating reed 7, thereby change the distance of gage beam S6, make interference fringe produce corresponding the variation, cause photodiode Phd break-make thus, and utilize CPU constantly the conducting number of times of photodiode Phd to be counted.Because the outside surface at vibrating reed 7 is pasted with piezo-electricity composite material 5, the two direction of vibration unanimity, the acoustic wave action that arrives nautical receiving set is in piezo-electricity composite material 5, make it produce deformation, output charge is after charge amplifying circuit QA carries out processing and amplifying, output current signal exports CPU to after A/D converter is transformed to digital signal.The variation tendency of the current signal that the CPU basis receives is judged the direction of vibration of current sound wave, such as when current signal constantly increases, regards as positive dirction, and the conducting number of times of the photodiode Phd that writes down during this is accumulated to parameter k ₊In; When current signal constantly reduces, regard as negative direction, the conducting number of times of the photodiode Phd that writes down during this is accumulated to parameter k _-In.With parameter k ₊, k _-The computing formula of substitution Michelson principle of interference:

$\mathrm{\Δ}1=(k_{+}-k_{-})\frac{\mathrm{\λ}}{2}---\left(2\right)$

Can calculate the Oscillation Amplitude Δ 1 of current tested acoustical signal.Here, described λ represents Wavelength of Laser.

By formula (2) as can be known, amplitude less than Signal can't measure, and be not for amplitude

The signal of integral multiple also can't calculate exactly.For head it off, present embodiment has proposed following solution:

When vibration causes that interference fringe changes, if after the highlight signal that photodiode Phd detects changes k time, do not rest on bright fringes place, promptly photodiode Phd is in cut-off state, vibratory output then is described except integral multiple is arranged

Outward, also exist less than

Amount.At this moment, CPU is by analog voltage signal Ucmp of D/A converter output, after this signal amplifies through driver circuit for piezoelectric ceramics PDC, deformation takes place in control piezoelectric ceramics 9, and then drive plane mirror 4 motions, change the length of reference arm S4, with compensating measure arm S6, till photodiode Phd detected the center speck, promptly photodiode Phd entered till the conducting state.

Known control piezoelectric ceramics 9 deformation amplitudes are

Voltage be U, as can be known:

$\frac{U_{\mathrm{cmp}}}{U}=\frac{\mathrm{\δ}}{\mathrm{\λ}/2}---\left(3\right)$

Wherein, δ is U _CmpThe deformation amplitude of corresponding piezoelectric ceramics 9.Then the offset of oscillating component is:

$\mathrm{\δ}=\frac{\mathrm{Ucmp}}{U}\·\frac{\mathrm{\λ}}{2}---\left(4\right)$

If select 8 D/A converter for use, then bucking voltage U can be sub-divided into wavelength

According to aforementioned content,, can calculate the amplitude Δ L of current tested acoustical signal, that is: by formula (2) and formula (4)

$\mathrm{\ΔL}=\mathrm{\Δ}1+\mathrm{\δ}=(k_{+}-k_{-}+\frac{\mathrm{Ucmp}}{U})\frac{\mathrm{\λ}}{2}---\left(5\right).$

After measuring end, the counter among the CPU is carried out clear operation, use in order to subsequent detection.Certainly, the monitoring personnel also can send reset instruction to CPU by the end device on the water surface, to empty the count value of counter among the CPU, again sound wave are detected.

For the nautical receiving set that makes present embodiment can adapt to underwater environment, light path system shown in Figure 5 and control system are arranged in the housing 8, referring to shown in Figure 4.Described housing 8 can be designed to the cylindric of horizontal positioned, and in left end or right-end openings, Fig. 4 is the structural representation that opening is arranged on left end.Vibrating reed 7 is installed in described opening part, and edge and housing 8 are fixing, form an airtight chamber with housing 8.In order to respond to the acoustical signal in the water exactly, when described vibrating reed 7 is installed, should be outwardly with its outside surface, promptly piezo-electricity composite material 5 is outwardly; Inside surface inwardly, promptly reflectance coating 6 is in described chamber.Other parts, control system, communication system and the electric power system of light path system all is built in the described chamber, to avoid the erosion of water.

At the nautical receiving set of cylinder shell, described vibrating reed 7 can be designed to circle, with suitable with the port of cylinder shell 8.The described vibrating reed 7 preferred bigger materials of rigidity that adopt are made, so that nautical receiving set can bear the bigger deep-marine-environment of pressure.In the present embodiment, can adopt corrosion resistant plate to make described vibrating reed 7, even the nautical receiving set of Xing Chenging places 500 meters the deep-marine-environment also can operate as normal thus.Certainly, present embodiment is not limited in above giving an example.

In order to improve the sensitivity that tested acoustical signal detects, described piezo-electricity composite material 5 decision design are in strip or annular.If select bar shaped piezo-electricity composite material 5 for use, then should be simultaneously many of the parallel attachings of the outside surface of vibrating reed 7, and avoid the center of vibrating reed 7, make the center of vibrating reed 7 can directly experience sound wave.If select ring piezoelectric compound substance 5 for use, the center of circle of described ring piezoelectric compound substance 5 is overlapped with the center of circle of vibrating reed 7, the center of vibrating reed 7 is exposed, directly to experience the fluctuation of voice signal.Meanwhile, the reflectance coating 6 of vibrating reed 7 inside surfaces also should be arranged on the center of vibrating reed 7, and make as far as possible as the light beam S6 of gage beam just directive be positioned on the reflectance coating 6 of vibrating reed 7 centers so that the deformation of vibrating reed 6 can be reflected in the variation of gage beam truly.

The amplitude Δ L that calculates the tested acoustical signal that generates by control system can be uploaded to terminal device in wired or wireless mode by communication system, showing and to store, and then offer and be positioned at monitoring and the analysis that waterborne or ground monitoring personnel carry out underwater sound source.Simultaneously, monitor staff's steering order also can be by reaching nautical receiving set under water, with the duty of control nautical receiving set under the terminal device.

Nautical receiving set can lay separately according to the purposes needs, also can form the towed array row by a plurality of nautical receiving sets, detects voice signal jointly.Adopt the nautical receiving set of present embodiment, compare traditional water and listen utensil that following significant advantage is arranged:

(1) accuracy of detection height; The double-decker that present embodiment adopts vibrating reed and piezo-electricity composite material to fit is judged the direction of vibration of sound wave, thus the cumulative errors of having avoided traditional sensing method to cause; Utilize the mode of feedback, calculate the reference arm complementary range according to bucking voltage, thus can accurately detect amplitude less than

Measuring-signal; The stability of the laser instrument of selecting for use 1 is 10 ^-4, optical wavelength 635nm, interfere accuracy of detection can reach 10 thereby make ^-8The rank of m.

(2) low in energy consumption; Because the laser instrument 1 of present embodiment selects for use the lower laser diode of power consumption to design, the power consumption of total system can be low to moderate 5W; Electric power system can adopt battery to provide electric power supply for light path system, control system and communication system, and cruising time is long, is fit to place for a long time underwater operation.

(3) good airproof performance; Because the nautical receiving set of present embodiment can detect very faint signal, therefore, vibrating reed 7 can be selected the bigger material of rigidity for use, and good airproof performance can be 500 meters even darker underwater environment normal operation.

Certainly; above-mentioned explanation is not to be to restriction of the present utility model; the utility model also is not limited in above-mentioned giving an example, and variation, remodeling, interpolation or replacement that those skilled in the art are made in essential scope of the present utility model also should belong to protection domain of the present utility model.

Claims (10)

1. high-precision laser interfere type nautical receiving set is characterized in that: comprise light path system based on the Michelson principle of interference, control system and the electric power system that working power is provided for described light path system and control system; The spectroscope, plane mirror and the vibrating reed that in described light path system, comprise laser instrument, half-transmitting and half-reflecting; Wherein, described plane mirror and laser instrument branch are located at spectroscopical up and down both sides, and plane mirror is horizontally disposed with, and its end face is provided with piezoelectric ceramics, and piezoelectric ceramics drives the plane mirror motion when mechanical deformation takes place; Described vibrating reed vertically is provided with, and is coated with one deck reflectance coating at it on spectroscopical inside surface, and the outside surface of vibrating reed is pasted with piezo-electricity composite material; In described control system, comprise the controller that is used to calculate tested acoustical signal amplitude, be used to receive that the electric signal by described photodiode and charge amplifying circuit output is sent to controller by the photodiode of described spectroscope reflection and the two-beam line that transmits and the charge amplifying circuit that is used to receive described piezo-electricity composite material output charge; Controller connects described piezoelectric ceramics by driver circuit for piezoelectric ceramics.

2. high-precision laser interfere type nautical receiving set according to claim 1 is characterized in that: be provided with a beam expander between described laser instrument and spectroscope, the diameter of the light beam that laser instrument is sent by described beam expander enlarges.

3. high-precision laser interfere type nautical receiving set according to claim 2 is characterized in that: described laser instrument is a laser diode.

4. according to each described high-precision laser interfere type nautical receiving set in the claim 1 to 3, it is characterized in that: comprise A/D converter, D/A converter and CPU in described controller, the current signal of described charge amplifying circuit output transfers to described CPU after A/D converter is transformed to digital signal; Described photodiode connects described CPU or connects described CPU by A/D converter; Described CPU exports analog voltage signal to driver circuit for piezoelectric ceramics by D/A converter.

5. according to each described high-precision laser interfere type nautical receiving set in the claim 1 to 3, it is characterized in that: in described nautical receiving set, also be provided with communication system, connect described controller, the amplitude of the tested acoustical signal that controller calculate is generated is uploaded to end device and shows and store.

6. high-precision laser interfere type nautical receiving set according to claim 5, it is characterized in that: described light path system, control system, electric power system and communication system are arranged in the housing, the left end of described housing or right-end openings, described vibrating reed is installed on described opening part, and then form an airtight chamber with described housing, and the inside surface of described vibrating reed is in chamber.

7. high-precision laser interfere type nautical receiving set according to claim 6, it is characterized in that: described housing is the cylindric of horizontal placement; Described vibrating reed is circular corrosion resistant plate.

8. high-precision laser interfere type nautical receiving set according to claim 6, it is characterized in that: described reflectance coating is positioned at the center of vibrating reed inside surface.

9. high-precision laser interfere type nautical receiving set according to claim 8, it is characterized in that: the piezo-electricity composite material that is attached to described vibrating reed outside surface is bar shaped, and is arranged in parallel and is provided with many.

10. high-precision laser interfere type nautical receiving set according to claim 8 is characterized in that: the piezo-electricity composite material that is attached to described vibrating reed outside surface ringwise, and the center of circle overlaps with the center of circle of vibrating reed.

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