RU1786373C - Device for measuring sea wave parameters - Google Patents

Abstract

The invention relates to measuring equipment, in particular to equipment for measuring the parameters of sea waves, and can be used both for research purposes and to ensure the operation of ship wave propulsors. The aim of the invention is to expand the functionality of the device by providing a determination of the direction of propagation of the sea wave and the current value of the velocity vector of the orbital motion of the rear in waves. To achieve this goal, the cross-shaped weather vane shaft is mounted in the plane of the longitudinal axis of the device body and is made fully rotated, for which the cross-shaped weather vane is installed symmetrically with respect to the longitudinal axis of the housing on the consoles of the said shaft on both sides of the housing. 2 ill. .

Description

The invention relates to measuring equipment, in particular to equipment for measuring the parameters of sea waves. both for research purposes and to support the operation of ship wave propulsors .v

A device is known for determining the parameters of sea waves, comprising an electric contact pole and a measuring shield providing remote measurement of wave height 1.

The disadvantage of this device is the inability to determine wave parameters such as the direction of the wave velocity vector and the direction of the current value of the velocity vector of the orbital motion of water during waves.

A device is also known for determining the direction of the relative velocity of the flow of water in two mutually perpendicular planes, containing a longitudinal

the casing with its fixing unit in space at one end and a weather vane at the other, the said assembly being able to rotate the casing around the longitudinal axis and provided with an angle sensor for this rotation, and the vane is mounted on a shaft placed perpendicular to the plane of the longitudinal axis of the casing and kinematically associated with the angle sensor of rotation of this shaft about its axis, wherein the weather vane is made in the form of crosswise plates, one of which is installed in the plane of the shaft of the weather vane 2.

The disadvantage of this device is the inability to determine the current value of the velocity vector of the orbital motion of water during waves, due to the fact that the weather vane shaft is not located in the plane of the longitudinal axis of the device body and is not fully rotated.

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Another disadvantage of the device is the inability to determine the amplitude of the sea wave.

The aim of the invention is to expand the functionality of the device by providing a determination of the direction of propagation of the sea wave and the current value of the velocity vector of the orbital motion of water during waves.

The goal is achieved in that the vane shaft is mounted in the plane of the axis of the casing and is cantilevered on both sides of the casing, and a cross-shaped vane is installed on each console of said shaft symmetrically with respect to the longitudinal axis of the casing, with the vane plates placed on one side of the shaft.

In FIG. 1 is a side view of an apparatus for determining the parameters of sea waves; in FIG. 2 is a view along arrow A in FIG. 1.

The device for determining the parameters of sea waves comprises a corvus 1, made in the form of a glass, facing the bottom down, which is installed, for example, in the hull of the vessel with the possibility of vertical movement down - for work, up - for storage without exposure to sea water. The descent and ascent are carried out by means of a drive (conventionally not shown).

On the lateral outer walls of the housing there are recesses a, in which on the brackets 2 made of a hydrophobic dielectric, uninsulated electrodes 3 are installed, each of which is connected to recording equipment (not shown).

A shaft 4 is installed in the lower part of the housing in the plane of its longitudinal axis, on the console protruding parts of which there are fixed cross-shaped weathercocks 5, each of which contains a vertical 6 and horizontal 7 feathers (plates).

Using a mechanical transmission 8 or a synchronous servo system (not shown), the shaft 4 is connected to a rotation angle sensor (not shown), and the housing 1 is connected via a gear 9 to the gear of the rotation angle sensor of the case (not shown).

During operation of the device, the housing is lowered into water so that the 0-0 mark coincides with

equilibrium water level in the wave. The amplitude of the wave is measured by the parallel-mounted electrodes 3, which are closed between themselves by sea water. When draining the electrode gap, the target

opens.

Under the action of the oncoming flow of water, due to the orbital movement of water during waves, the horizontal plates 7 are continuously installed

along the flow, rotate the shaft 4 and the angle sensor of this shaft connected to it through a mechanical transmission 9, and the vertical plates 6, also being installed along the flow, rotate the housing 1

Claims (1)

and a housing angular position sensor connected thereto via gear 9. . The claims A device for determining the parameters of sea waves, containing longitudinal a casing with a fixing unit in space at one end and a weather vane at the other, the said assembly being adapted to rotate the casing around a longitudinal axis and provided with a sensor for this rotation, and the weather vane is mounted on a shaft located perpendicular to the plane of the longitudinal axis of the casing and kinematically connected with the angle sensor of rotation of this shaft about its axis, while the weather vane is made in the form of crosswise plates, one of which is installed in the plane of the wind vane shaft, distinguishing - so that, in order to expand functionality by providing determine the direction of propagation of the sea wave and the current value of the velocity vector of the orbital motion of water during waves, the weather vane shaft is installed in the plane of the longitudinal axis of the housing and made cantilevered on both sides of the housing, and a cross-shaped weather vane mounted on each console of said shaft symmetrically with respect to the longitudinal axis of the housing, the weather vane plates being placed on one side of the shaft.