SU1200218A1 - Apparatus for measuring electric field strength in sea water from movable carrier - Google Patents

Abstract

A DEVICE FOR MEASURING THE VOLTAGE OF ELECTRIC FIELD IN MARINE WATER FROM A MOBILE MEDIA, containing a primary measuring transducer with a rotating base and measuring electrodes, different from; that, in order to reduce the consumed electric power, increase the sensitivity and reliability of the device, as well as ensure measurement of two components of the electric field intensity vector during carrier movement, the device has three measuring electrodes located in one plane, one of which is placed in a dielectric drum , at the end of which a spinner is installed, a contact hole is made on the pattern, and the other two electrodes are mounted on the end of the salt so that they form with the first mutually perp Dicular axes of the system (L we are coordinates. t «bQ 00

Description

The invention relates to the physical oceanology and can be used to measure the electrical components of the intensity of the electromagnetic fields in the marine environment in surveying large areas using sub-charge carriers. The purpose of the ibret. | W is to reduce the unbalanced electric power, reduce the sensitivity and reliability of the device, as well as ensure the measurement of the vector field of the electric field strength in two coordinates. FIG. 1 shows the sensor, cross section; in fig. 2 - the same, side view; Fig. 3 is an electrical block diagram of the device. The device for measuring the strength of the electric field in sea water comprises an inner 1 and two outer 2 and 3 measuring electrodes. The housing 4 has the shape of a cylinder and is made of a dielectric material, a hole 5 is made on the side surface of the cylinder. On one of the base of the cylinder is mounted a turntable with pastes 6, which allows the cylinder to rotate as the carrier 7 moves. , acting on the upper and lower blades of the turntable, a protective casing 8 is provided. To obtain the synchronizing pulses used to process the signal on the forming dielectric drum, the constants are fixed a magnet 9, and the adjacent electrodes 2 and 3, the reed switches 10 mounted on the support arm 11. Sinhronizirukschie signals as well as signals with the measuring electrodes with fed through cables 12 in the sealed container 13, where is placed the electronics unit. FIG. Figure 3 shows the electrical structure of the sensor. An electrical signal corresponding to the vertical component of the electric field strength from electrodes 1 and 2 is fed to the matching transformer 14, then through the amplifier 15 to the input of the synchronous detector 16, and then to the registering device 17. The synchronization is realized from an electromechanical device, including a magnetic relay on the reed switch 10, and a permanent magnet 9 located near the contact aperture, as well as an amplifier 18. The measurement channel of the horizontal component of the electric electric field is built on a similar principle, and comprises soglasuk diy transformer 19, the amplifier 20, sinhronnm detector 21, the reed switch 10 and driver amplifier 22. The apparatus operates as follows. The rotation of the measuring base is carried out at the expense of the energy of the incident flow using a system of 6 blades located directly on the dielectric housing 4 of the rotating base. A magnetic relay is also placed on the reed switch 10, which is activated when rotating the constant magnet 9, which is rigidly connected to the rotating base. The received signals are synchronizing in the amplification path of the sensor constructed as a modulator torus-demodulator. The rotating base 4 is a circular cylinder, made of a dielectric, the length of which is an order of magnitude smaller than the radius of its base. Inside the cylinder on its axis there is an internal measuring electrode 1 (graphite or chlorine-silver), which is in a conductive medium, filling the cylinder volume with the external medium and the electrode is connected through a contact hole 5 of round rectangular shape, made in the lateral surface cylinder. The potential perceived by the contact hole 5 is transferred to an isolated cylinder volume to the inner measuring electrode 1. The outer measuring electrodes 2 and 3 are located in close proximity to the side surface of the cylinder in a vertical plane on the horizontal in a vertical line passing through the axis of rotation of the cylinder, which allows to realize a two-coordinate sensor. When the cylindrical base 4 rotates around an axis with the help of the blades 6, it is located 1X on one of its bases, under the action of the incident flow of fluid, the contact hole 5 in the side surface of the cylinder periodically comes into direct contact with one of the extrusions. four

them measuring electrodes, implemented, then the maximum distance is

In addition, caNbiM reduces the size of the measuring base to almost the cylinder diameter, realizes the maximum size of the measuring base.

Claims (1)

DEVICE FOR MEASURING ELECTRIC FIELD TENSION IN SEA WATER FROM MOBILE CARRIER, containing a primary measuring transducer with a rotating base and measuring electrodes, characterized in that, in order to reduce the consumed electric power, increase the sensitivity and reliability of the device, as well as ensure the measurement of two components of the electric field strength vector during carrier movement, the device has three measuring electrodes located in the same plane, one of which is placed in a dielectric drum, at the end of which is installed Lena spinner, a contact hole is made on the generatrix, and two other electrodes are mounted on the console so that they form mutually perpendicular axes of the coordinate system with the first one. * "* I ¹ . ¹²