RU2533323C1 - Vector receiving device - Google Patents

Abstract

FIELD: radio engineering, communication.

SUBSTANCE: vector receiving device contains a sound transparent frame and a vector receiver connected by a suspension. The latter is a closed linear element with the mass distributed along its length and fixed to the sound transparent frame and to the vector receiver in two points each. The suspension points divide the linear element length into four equal parts. This closed linear element has a form of a metallic or a plastic chain, with the negative buoyancy. The total buoyancy of the suspension and vector receiver is less or equal to zero.

EFFECT: higher measurement accuracy.

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Description

The invention relates to the field of hydroacoustics and can be used to measure the parameters of acoustic fields in natural conditions of the seas and oceans.

Known vector receiving device (VPU), implemented in an underwater glider, containing a soundproof frame and a vector receiver (VP), interconnected by means of a suspension (patent for utility model of the Russian Federation No. 106880, class B63C11 / 48, G01S15 / 02, B63G8 / 00 , 2011).

This VPU is taken as a prototype.

A disadvantage of the known VPU is the lack of identity following the sensing elements of the VP for the vibrations of the particles of the medium under the action of an acoustic wave due to obstacles to these vibrations of the suspension of the VP.

The technical result obtained from the implementation of the invention is to eliminate the imperfection of the suspension of the VP, thereby increasing the accuracy of the following elements of the VP of the vibrations of the particles of the investigated medium under the action of an acoustic wave.

This technical result is achieved due to the fact that in the known VPU containing a soundproof frame and VP connected with each other by means of a suspension, the suspension is made in the form of a closed linear element with a distributed mass along the length, fixed at two points on a soundproof frame and two points on the VP moreover, the suspension points divide the length of the linear element into four equal parts, and the closed linear element is made with a mass evenly distributed along the length.

A closed linear element with a mass evenly distributed along the length, made in the form of a chain of metal or plastic links.

VP can be performed with positive buoyancy, and a linear element with negative buoyancy, while the total buoyancy of the suspension and VP is less than or equal to zero.

Also, VP can be performed with negative buoyancy, and a linear element with positive buoyancy, while the total buoyancy of the suspension and VP is not less than zero.

The invention is illustrated by drawings. Figure 1 presents the scheme of the runway in plan, and figure 2 from the front.

VPU contains a soundproof frame 1, for example, a cylindrical shape and VP 2, for example, a spherical shape, as shown in FIG. 12.

VP 2 and frame 1 are interconnected by means of a suspension made in the form of a closed linear element 3, with a distributed mass along the length, fixed at points A, B on VP 2 and at points B, D on frame 3.

In this case, the points A, B, C, G of the suspension divide the length of the linear element 3 into four equal parts: AB, BV, BG, and AG. In this case, the AB line will be perpendicular to the SH line, and the O point of intersection of the AB and SH lines will lie below point D of the application of Archimedean forces.

In the frequent case, the closed linear element 3 can be made with a uniformly distributed mass, for example, in the form of a chain of metal or plastic links.

VP 2 can be performed with positive buoyancy and linear element 3 with negative buoyancy, while the total buoyancy of the suspension and VP 2 is less than or equal to zero.

VP 2 can be performed with negative buoyancy and linear element 3 with positive buoyancy, then the total buoyancy of the suspension and VP 2 will be no less than zero.

VPU works as follows.

Position the device at a given point in the natural reservoir. Sensitive sensing elements located inside the VP 2 interact with the sound field along with the VP 2 (the sensing elements and the sound field are not shown in the drawings).

A flexible suspension carrying VP 2 together with sensing elements provides the possibility of their oscillations together with the particles of the medium as a whole.

The sensing elements transform these oscillatory movements into electrical signals proportional to the vibrational acceleration of the sensing element.

For the performance of the VPU, it must have positive or neutral buoyancy, i.e. the average density of VPU elements should be less than or close to the density of the medium, then the vibrational velocity of the sensing elements of VP 2 will be maximum.

The above suspension performance in the VPU allows to increase the accuracy of the following elements of the airspace perceiving the vibrations of the particles of the medium under study, which ultimately increases the accuracy of measuring the sound field parameters in a natural reservoir.

Claims (4)

1. Vector receiving device containing a translucent frame and a vector receiver, interconnected by means of a suspension, characterized in that that the suspension is made in the form of a closed linear element with a mass distributed along the length, fixed at two points on a soundproof frame and two points on a vector receiver, and the suspension points divide the length of the linear element into four equal parts, and the closed linear element is made with evenly distributed length mass. 2. The vector receiving device according to claim 1, characterized in that a closed linear element with a mass evenly distributed along the length, made in the form of a chain of metal or plastic links. 3. The vector receiving device according to claim 1, characterized in that that the vector receiver is made with positive buoyancy and the linear element is negative, while the total buoyancy of the suspension and the vector receiver is less than or equal to zero. 4. The vector receiving device according to claim 1, characterized in that that the vector receiver is made with negative buoyancy, and the linear element is positive, while the total buoyancy of the suspension and the vector receiver is not less than zero.

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