SU1174750A1 - Independent wave recorder - Google Patents

Abstract

AUTONOMOUS WAVE-GRAPH containing a float with a reference generator, a differential frequency driver, a magnetic recorder, a command unit and a power supply unit, while the differential frequency driver is connected to a reference generator and a magnetic recorder, and In order to improve the accuracy of measurements by eliminating the influence of the environment, it is equipped with a hollow cylindrical tube with side slots and a vane fixed along the tube, a cylindrical float with an axis, a pants with a spherical float at its end and a transducer of angular displacement into frequency, the cylindrical tube being mounted vertically on the float, a cylindrical float placed inside the cylindrical tube with the possibility of moving along its axis along the groove with the help of an axis. in contact with the groove, a bar with a spherical float is fixed on the axis of the cylindrical float so that it can be rotated in a vertical plane and connected with an angular displacement to frequency transducer that is fixed on the cylindrical float and connected to a differential frequency driver.

Description

1 The invention relates to oceanographic measurements and can be used to determine parameters of sea waves. The purpose of the invention is to improve the accuracy of measurements by eliminating the influence of the environment. FIG. 1 shows an autonomous wave scanner, general view; in fig. 2 -. Section A-A in FIG. 1. An autonomous wave guide contains a cylindrical tube 1 with side grooves 2, to which a vane is attached 3. Inside the cylindrical tube 1 there is a cylindrical float 4, which can be vertically moved using an axis 5 installed in the slots 2. An axis 6 is fixed to a rod 6 with a spherical float 7 and an angular displacement to frequency converter 8. The autonomous wave scanner also contains a float 9, inside which is placed the reference generator 10, the differential frequency generator 11, the magnetic recorder 12 and the power supply unit 13 and the command unit. A differential frequency driver 11 is connected to the outputs of the reference generator 10 and the angular displacement converter 8, as well as to the input of the magnetic recorder 12, to the second input of which the power supply unit 13 is connected, a command unit. A damping washer 15 is fastened to the bottom of the float 9 on the pipe 14. The autonomous wave guide works as follows. The weight of all nodes and the buoyancy of the float 9 are selected so that in 502 only half of the cylindrical tube 1 is calm out of the water. Due to the narrow grooves 2 on the lateral sides of the cylindrical tube 1, the water level inside the latter is at slow vertical displacements of the wave guide (cylindrical, tube 1) corresponds to the static level of the water surface. The axis 5 of the cylindrical float 4 is located at the same level. The dimensions of the grooves 2, the diameter of the cylindrical pipe 1, the dimensions of the float 4, which prevent water from entering through the grooves 2 into the cylindrical pipe 1, are chosen so that during agitation the water level in the cylindrical pipe I changes slightly and approx. clearly corresponded to the static level of the water surface. The weather vane 3 provides a turn of the autonomous bu in the direction of the waves. In the calm bar 6 with a spherical float 7 is arranged horizontally. During rough sea, the spherical float 7 moves in a vertical plane and the deflection angle of the rod 6 from the horizontal X. is determined by the instantaneous height of the wave. The frequency of the output signal from converter 8 will depend on the angle, therefore the signal from the frequency difference generator II recorded on the magnetic recorder 12 depends on the angle dC and determines the parameters of the sea waves. As an angular displacement to frequency converter, one can use commercially available sensors, for example, a frequency converter of the PG-1 type.

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Claims (1)

AUTONOMOUS WAVENOGRAPH containing a float with a reference generator, a differential frequency driver, a magnetic recorder, a command unit and a power supply located in it, while a differential frequency driver is connected to a reference generator and a magnetic recorder, characterized in that, in order to improve the accuracy of measurements by eliminating environmental influences, it is equipped with a hollow cylindrical pipe with side grooves and a weather vane fixed along the generatrix of the pipe, a cylindrical float with an axis, a rod with a sphere with a float at its end and a transducer of angular displacement into frequency, with a hollow cylindrical pipe mounted vertically on the float, a cylindrical float placed inside the cylindrical pipe with the possibility of moving along its axis along the groove using the axis. in contact with the groove, the rod with a spherical float is fixed on the axis of the cylindrical float with the possibility of rotation in the vertical plane and is connected to the angular displacement transducer in frequency, which is mounted on the cylindrical float and connected to the differential frequency former. (11) ^