SU1302231A1 - Apparatus for checking the blanking of electrodynamic geophone - Google Patents

Abstract

The invention relates to geophysical instrumentation, and to devices for monitoring parameters of seismic receivers. The purpose of the invention is to increase the reliability and noise immunity of the device. With the help of a linear voltage generator and comparator, the instantaneous value of the seismic receiver signal is converted into a time interval that is filled with pulses from the crystal oscillator, ensuring high measurement accuracy. 1 il. (Ls.

Description

The invention relates to geophysical instrumentation and can be used to control the mashing and symmetry of the location of the geophone receiver relative to its magnet system.

The purpose of the invention is to increase the reliability and noise immunity of the device.

The drawing shows the functional scheme of the device.

The device consists of a generator of 1 rectangular current pulses, an amplifier 2, a generator 3 linearly measuring voltage, a comparator 4, a crystal oscillator 5, a logic element AND 6, a reversible counter 7, an indication unit 8, a test receiver 9 and two position and three directions.

In this case, the first direction of the switch 10 is connected to a common point, the second to the output of current generator 1 and the input of amplifier 2. One output of test seismic receiver 9 is connected to the first position of the first and second position of the second directions of switch 10, and the other output of test seismic receiver 9 is connected with the second position of the first and the first position of the second directions of the switch 10. The output of the generator 1 current is connected to the input of the generator 3 of a linearly varying voltage, the output of which and the output of the amplifier 2 are connected to each of the inputs of comparator A, the outputs of comparator 4 and the crystal oscillator 5 are each connected to one of the inputs of the AND 6 logic element, the output of which is connected to the third direction of the switch 10 One of the positions of this direction is connected to the direct input and the second the input of the countdown of the reversible counter 7, the output of which is connected to the display unit 8.

The device works as follows.

First, the test seismic receiver 9 is excited by the generator 1 of current pulses in the first position of the switch 10. At the same time, the output of the AND 6 logic element is connected to the input of the direct count of the reversible counter 7.

After termination of the exciting current pulse, the generator 3 of the linearly varying voltage is started up and at the output of the comparator 4

the time interval from the moment of the end of the current pulse to the moment of comparison of the saw of the generator 3 with the amplified output signal of the seismic receiver 9. This interval is filled with the pulses of the crystal oscillator 5, which through the logic element 6 receives the direct input of the reversing counter 7.

Next, the switch 10 is moved to the second position. In this case, the polarity of the connection of the seismic receiver 9 to the generator 1 of rectangular current pulses changes, and the output of the logic element And 6 is connected to the counting output of the reversible counter 7.

The process of driving the geophone, starting the generator 3 of the linearly varying voltage, forming the time interval, filling it and counting the pulses is repeated, after which the indications of the display unit are read.

In the absence of mashing, the output signals of the seismic receiver with its different polarity excitation are identical. Therefore, the temporary gates formed by the comparator 4 and the bursts of pulses are identical to the logical element AND b, and therefore the reversible counter 7 is set to the zero position after the monitoring process.

Thus, the zero readings of the display unit 8 correspond to the absence of rubbing, and other than zero, to its presence. I

Claims (1)

Invention Formula The control unit for mashing the electrodynamic seismic receiver, containing the tested seismic receiver, current generator, amplifier, display unit and switch for two positions and three directions, the first of which is connected to a common point, the second to the output of the current generator and the amplifier input, one output of the tested seismic receiver connected to the first position of the first and second position of the second directions of the switch, and the other output of the test seismic receiver is connected to the second position of the first and the first position v switch directions, characterized in that, in order to increase the reliability and position 3 130223 resistance, it is supplied with a generator of linearly varying voltage, a comparator, a quartz oscillator, a logic element AND and a reversible counter, the output 5 of the current generator is connected to the input of the generator of linearly varying voltage, the output of which and the output amplifier are each connected to one from the inputs of the comparator, the outputs of the comparator 0 14 Pa and a crystal oscillator are each connected to one of the inputs of the logical element I, the output of which is connected to the third direction of the switch, one of the positions of this direction is connected to the input of the direct counting, and the other position - to the counting input of the reversible counter, the output of which is connected to the unit indications. Editor N. Tupitsa Consel D.Zargar n Tehred L.Serdyukova Proofreader M.Samborska Order 1215/46 Circulation 731 Subscription VNIIPI USSR State Committee for inventions and discoveries., 113035, Moscow, Zh-35 Raushsk nab. 4/5 Production and printing company, Uzhgorod, st. Project, 4