SU39884A1 - Device for measuring the voltage of an electric field - Google Patents

Description

Currently used devices for measuring the intensity of the earth's electric field (e.g., Benndorf equipment) are essentially direct current devices. Meanwhile, the use of alternating current and the use of amplifying action of cathode lamps could significantly increase the accuracy and speed of readings.

The present invention aims to solve this problem.

The device proposed according to the invention mainly consists of a metal probe placed in an electric field of the earth or other measurable field. Depending on the insulating properties of the stand, the potential of the probe will more or less quickly assume the value of the constant potential of the place where it is located. If it is quickly moved to another place, higher or lower than the original, then its potential relative to the earth will change. Obviously, with the oscillatory movement of the probe up and down in the field of the earth, a periodic change can be achieved (306)

the potential of its potential, which oscillations can be arbitrarily amplified by a low-frequency cathodic amplifier, can be corrected by measuring direct current electrical measuring instruments.

Thus, the auxiliary elements of the instrument are: 1) an engine, preferably mechanical, for example, a spring-loaded, moving metal body of the probe oscillating upward or DOWN rotationally in the field of the earth so that its potential varies, 2) the cathode amplifier is low. frequency, the input grid of which is connected to the above-mentioned body, 3) lamps, a new (or other) detector at the amplifier output, 4) a measuring instrument of direct current in the detector circuit.

An exemplary design of these parts is shown schematically in the attached drawing.

The metal case 1 contains batteries for powering amplifier 2; the grid of the first lamp of the amplifier is conductively connected to a metal (hollow) body 3 serving as a probe, attached to axis 4, made of amber or sulfur and clockwise rotation 5 driven |

The body 3 is designed in such a way that during rotation it can occupy either position 3, or position 31, but its center of gravity remains (to avoid jolts) on the axis of rotation 4. The detector current (of the last amplifier lamp or other detector) is measured device 6.

For the calibration of the entire instrument, a metallized surface 7 is installed above it, the dimensions of which must be sufficiently large compared with the dimensions of the entire instrument; this surface is supported by insulating legs 8, 8 and is connected by wire 9 to amplifier batteries, and through the switch 10 its potential relative to the earth can be changed within certain limits; This potential is conveniently measured by the same device 6, which measures the detector current. The transition from one measurement to another is made by the second knob of the switch 10, not shown in the drawing.

In the practice of measurements, it is convenient to arrange the device 6 and the switch 10 remote on the connecting cord so that the observer can move away from the device to such a distance that his body does not distort the electric field of the earth at the location of the device.

The subject matter of the invention.

Claims (1)

1. A device for measuring the voltage of an electric field, characterized by the use of a oscillating back and forth probe 3, for amplifying a change in the potential of which in the measured electrostatic field a cathode amplifier is used, to the output of which a measuring device is connected. 2, in the apparatus according to claim 1, use for calibrating a large metallized surface 7 located near the probe, which communicates a certain potential with respect to the ground. tp