RU2300479C2 - Stationary measuring sonar complex - Google Patents

Abstract

FIELD: hydroacoustics; hydroacoustic studies in natural water basin.

SUBSTANCE: proposed stationary measuring sonar complex has housing made in form of sleeve with suspension articulated in its upper part and made in form of bulky plate. Sonar complex is also provided with equipment carrier and lower-hoist unit. Mounted above axle of stationary drum of lower-hoist unit is outlet draw plate secured on tubular strut. Equipment carrier is made in form of two hemispheres forming positive buoyancy buoy mounted in upper part of sleeve. Mounted inside and on surface on equipment carrier are hydro-physical transducers.

EFFECT: facilitated procedure of setting up the complex at required level of water basin.

6 cl, 3 dwg

Description

The invention relates to sonar and can be used for sonar studies in a natural reservoir.

Known stationary measuring hydroacoustic complex (SIGK), containing the carrier equipment (ON) in the form of a buoy of positive buoyancy and a launching device (SPU) buoy. The winch drum in the SPU buoy is stationary. And the drive is fixed inside the drum. A horizontally oriented rocker is mounted on the axis of the drive, on one end of which a support roller is fixed, and on the other is an earring with a flexible cable stacker roller mounted on it on the horizontal axis (RF Patent No. 2172272, class B 63 V 22/00, 2001) .

The disadvantage of the analogue is the difficulty of its transportation and installation at a regular place in the marine area due to the fact that the well-known SIGK does not have the means to automatically deploy sonar equipment in the marine environment.

Known SIGK, adopted for the prototype, containing HA, made in the form of a buoy of positive buoyancy with a beacon of guidance located on it and inside it, sonar transducers and measuring information conversion equipment, as well as associated with the equipment carrier using a flexible cable SPU, made in the form of a winch located in the housing with a drum, gearbox and drive located in an additional sealed housing filled with oil, while the winch drum is not fixed movably with a vertically oriented axis and made with upper and lower horizontal cheeks protruding beyond the diametrical size of the drum, and the drive is placed inside the fixed drum, and a horizontally oriented rocker is mounted on the drive axis, at one end of which a support roller is supported, resting on the upper cheek of the drum, and on the other end of the rocker arm extending beyond the cheek of the drum, by means of a vertically oriented hinge, an earring is fixed with a stacker roller mounted on it on a horizontal axis flexible cable, with the vertical axis of rotation of the earring and the horizontal axis of rotation of the roller-stacker lying in parallel planes, and the lower edge of the roller-stacker lying in a plane passing through the middle of the winch drum, while the SPU is connected to the underwater control center with located in it power supplies and recording equipment using a trunk cable (RF Patent No. 2220069, cl. B63B 22/00, 2003).

The disadvantage of the prototype is its complexity, leading to difficulties in the automatic deployment of SIGC on a given horizon of a natural reservoir.

The technical result obtained from the implementation of the invention is to simplify the deployment of SIGK on a given horizon of a natural reservoir to increase the reliability of the installation of the complex in a regular place.

This technical result is achieved due to the fact that in the well-known SIGC containing a ND, made in the form of a buoy of positive buoyancy with a guidance beacon located on it and inside it, sonar transducers and measurement information conversion equipment, as well as those connected with the ND using a flexible cable SPU cable, made in the form of winchs located in the housing with a drum, gearbox and drive located in an additional sealed housing filled with oil, while the forehead drum the docks are fixed motionless with a vertically oriented axis and are made with upper and lower horizontal cheeks protruding beyond the diametric size of the drum, and the drive is placed inside the fixed drum, and a horizontally oriented rocker is mounted on the drive axis, on one end of which a support roller is supported, resting on the upper cheek of the drum and at the other end of the rocker arm extending beyond the cheek of the drum, by means of a vertically oriented hinge, an earring is fixed with it mounted on it on the horizontal axis p with a flexible cable stacker, the vertical axis of rotation of the earring and the horizontal axis of rotation of the stacker roller lie in parallel planes, and the lower edge of the stacker roller lies in the plane passing through the middle of the winch drum, while the SPU is connected to the underwater control center with the power units located in it and the recording equipment using the main cable, the housing is made in the form of a glass with a suspension pivotally mounted in its upper part, while above a vertically oriented axis On the drum of the SPU rocker, an output die is installed, mounted on a tubular stand, coaxial with the drum, and the buoy of positive buoyancy is made in the form of two hemispheres installed in the upper part of the glass.

Hemispheres buoy positive buoyancy made of fiberglass.

The sealed housing of the SPU drive, filled with oil, contains a temperature compensator for volume expansion or compression of the oil.

SIGK additionally contains a reed switch, mounted in the lower part of the buoy near the output die, while a limit switch in the form of a magnetic disk is inserted into the die body.

A buoy of positive buoyancy is made in the form of upper and lower hemispheres, and a volume filled with syntactic with a density of 0.5 g / cm is mounted in the lower hemisphere.

The suspension is made in the form of a plate with the ratio of the weight of the plate to the weight of the glass 0.1 ÷ 0.2.

The invention is illustrated by drawings.

Figure 1 presents a General view of the SIGC in assembled form; figure 2 presents separately SPU; figure 3 - stages of the deployment of SIGK in a regular place of a natural reservoir.

SIGK contains (FIG. 1) an HA made in the form of a buoy 1 of positive buoyancy with a guidance beacon 2 located on it and inside it, a broadband hydrophone 3, a hydrostatic pressure sensor 4, and measurement information conversion equipment 5.

There is also a SPU installed in the housing 6, made in the form of a glass to which the suspension 7 is pivotally attached. Moreover, the SPU is located in the lower part of the housing 6, and the suspension 7 is attached to its upper part.

SPU includes a winch with a drum 8 and a drive 9 with a gear (not shown). The winch drum 8 is fixedly fixed on the bottom of the glass 6. The axis of the fixed drum 8 is oriented vertically, and its horizontal cheeks 10 protrude beyond the diametral size of the drum 8. A rocker 12 is mounted on the axis 11 of the drum 8, the support roller 13 is fixed at one end thereof (Fig. 1 , 2), resting on the cheek 10 of the reel 8. And on the other end of the rocker arm 12 extending beyond the cheek of the reel 8, an earring 15 is fixed by means of a vertically oriented hinge 14 with a stacker 17 of flexible cable 18 mounted on it on the horizontal axis 16, performing about the role of the cable link. The vertical axis of rotation of the earring 15 and the horizontal axis of rotation 16 of the roller-stacker 17 lie in two parallel vertical planes. And the lower edge of the stacker roller 17 lies in a plane passing through the middle of the winch drum 8.

The actuator 9 with the gearbox is located in an additional sealed enclosure (not shown in the drawing) filled with oil to equalize the pressure inside and outside the housing. The drive housing 9 also has an elastic temperature compensator for volumetric expansion or compression of the oil (not shown).

Communication with the surface control center (not shown) is carried out via a trunk cable 19 attached to the housing, for example, using fasteners 20 (Fig. 2). On the lower cheek of the drum 8 is fixed L-shaped limiters 21 (figure 2) of the flexible cable.

An output die is mounted above the vertically oriented axis 11 of the SPU, mounted on a tubular stand 22, coaxial with the stationary drum 8. At the same time, an end switch in the form of a magnetic disk 23 is inserted into the die body.

Near the magnetic disk 23 in the lower part of the buoy 1 is fixed reed switch 24.

The buoy 1 of positive buoyancy is made in the form of two hemispheres: the upper and lower, installed in the upper part of the glass 6 above the SPU. Hemispheres are made of fiberglass. At the same time, a volume filled with syntactic with a density of 0.5 g / cm ^{3 is} mounted in the lower hemisphere. The suspension 7 is made in the form of a plate pivotally mounted on the glass 1. The plate has a sufficiently large weight relative to the weight of the glass 1 (Within 0.1 ÷ 0.2 of the weight of the glass). A sufficiently large lateral surface of the suspension plate should significantly reduce the rotation of the HA around its longitudinal axis during descent and ascent.

The current lead to the drive housing 9 is carried out through a switching unit 25 with a sealed conductive buffer capable of withstanding the constant influence of hydrostatic pressure of 50 MPa.

An intermediate connecting cable 26 is connected to the switching unit (Between the main cable 19 and the cable cable of the SPU winch).

At the same time, cables with a length of 5 m are laid inside the diameter of the hull in order to be able to change the measuring transducers by lifting them on board small boats. The transducers themselves are mounted using quick-release clamps on the surface of the HA. The acoustic space of the spacecraft is formed by a hemispherical buoyancy surface, which, due to its shape, has a scattering reflection and a hemispherical sound-transparent fairing.

SIGK works as follows.

The sequence of operations for installing a scientific equipment with equipment consists of three stages and consists in the following (Fig. 3).

At the first stage, the NA, suspended and connected to the main cable 19, is discharged overboard the support vessel 26 with the help of ship launching and lifting equipment.

In the second stage, the support vessel 26, pitting the cable 19 with constant slack, departs from the HA to the required distance.

At the third stage, electric power is supplied to the SPU ON from the vessel 26 via cable 19. The SPU drive 9 drives the beam 12 into rotation, with which the earring 15 starts to rotate with the stacker roller 17 mounted on it.

Flexible cable 18, reeling off from the side surface of the stationary drum 9, passes a die on a tubular stand 22, which does not allow the HA to rotate in a conical spiral when lifting, as is the case in the analogue and prototype.

When the AT reaches the regular place of the natural reservoir, the voltage from the drive 9 is removed, and the SIGK is ready for operation. At the same time, the depth of immersion of the air heater is controlled by the hydrostatic pressure sensor.

After obtaining the necessary information using the measuring transducers and its preliminary processing in the apparatus 5, the information is transmitted via cables 26, 19 to the surface information processing center (not shown in the drawing).

The location of the AT is constantly monitored as in the prototype at the 2 beacon guidance.

In case of emergency situations with SIGK used as a prototype emergency search buoy (not shown in the drawing).

Lowering ON with the help of SPU is performed in a similar way when applying voltage of a different polarity to drive 9.

A buoy 1 of positive buoyancy is installed in the housing seat on top of the housing, so that the probe of its reed switch 24 is in magnetic contact with the magnetic disk 23. Therefore, when the buoy 1 is installed in its seat, the voltage to the actuator 9 is automatically turned off.

Thus, in comparison with the prototype, SIGK is characterized by increased reliability of its installation in a regular place of a natural reservoir and subsequent “folding” of the complex into a compact design for its lifting and transportation.

Claims (6)

1. A stationary measuring hydroacoustic complex containing an equipment carrier made in the form of a buoy of positive buoyancy with a pointing beacon located on it and inside it, hydroacoustic measuring transducers and measuring information conversion equipment, as well as a lifting device connected to the equipment carrier using a flexible cable made in the form of winchs located in the housing with a drum, gearbox and drive located in an additional sealed box a mustache filled with oil, while the winch drum is fixed motionless with a vertically oriented axis and is made with upper and lower horizontal cheeks protruding beyond the diametrical size of the drum, and the drive is placed inside the fixed drum, and a horizontally oriented rocker is mounted on the drive axis, at one end of which is fixed support roller resting on the upper cheek of the drum, and on the other end of the rocker arm extending beyond the cheek of the drum, an earring is fixed by means of a vertically oriented hinge mounted on it on a horizontal axis, the stacker roller of the flexible cable, the vertical axis of rotation of the earring and the horizontal axis of rotation of the roller stacker lie in parallel planes, and the lower edge of the stacker roller lies in the plane passing through the middle of the winch drum, while hoisting the device is connected to an underwater control center with power supplies located in it and recording equipment using a trunk cable, characterized in that the housing is made in the form of a glass with a hinge but fixed with a suspension in its upper part, while an output die is mounted on a rocker arm of the launching device above the vertically oriented axis of the drum, mounted on a tubular stand coaxial with the drum, and the buoy of positive buoyancy is made in the form of two hemispheres installed in the upper part of the glass. 2. The stationary measuring sonar complex according to claim 1, characterized in that the hemispheres of the buoy of positive buoyancy are made of fiberglass. 3. The stationary measuring sonar complex according to claim 1, characterized in that the sealed housing of the hoisting device drive, filled with oil, contains a temperature compensator for volume expansion or compression of the oil. 4. The stationary measuring hydroacoustic complex according to claim 1, characterized in that it further comprises a reed switch, mounted in the lower part of the buoy at the output die, while an end switch in the form of a magnetic disk is inserted into the die body. 5. The stationary measuring sonar complex according to claim 1, characterized in that the buoy of positive buoyancy is made in the form of upper and lower hemispheres, and a volume filled with syntactic with a density of 0.5 g / cm is mounted in the lower hemisphere. 6. The stationary measuring sonar complex according to claim 1, characterized in that the suspension is made in the form of a plate with a ratio of the weight of the plate to the weight of the glass 0.1 ÷ 0.2.

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