SU424101A1 - MAGNETIC FERROMETER - Google Patents

Description

one

The invention is intended to determine the average value of the measured parameter (iron content) in a given interval and can be used for testing drilling and blasting and mine wells in mining enterprises.

Currently, a number of devices used in industry with a similar purpose are known.

However, the use of such devices requires a significant amount of manual processing: recording the instrument readings at the well with pointwise measurements and calculating the average value, calculating the average recording amplitude for automatically recording the readings on the chart tape when determining the average value of the measured parameter (iron content) over the well.

To show the measurement accuracy and simplify the measurement process, the proposed ferrometer is equipped with a controlled time relay, a pulse generator, counters of the number of pulses and the number of measured intervals by a dividing device, one of the inputs of a controlled time relay is connected to a depth sensor that sets the beginning of the measurement cycle, and the other two inputs are connected respectively to an amplitude-phase detector and a pulse generator, while the outputs of the controlled relay are connected to the inputs

meters whose outputs are connected to the input of the separating device.

On the slit ": e shows the block diagram of the proposed ferrometer containing sensor

magnetic susceptibility 1, block 2, including a generator of C p y co-voltage and amplitude phase detector, controlled by time relay 3, pulse generator 4, counters 5 p 6 of the number of pulses, sensor

depth 7 C control button 8, the separating device 9 and the indicator 10. The ferrometer operates as follows. When moving the magnetic sensor, the sensor reconstructs the 111 mch 1 wave along the GAP of the well at the output

a signal appears that is proportional to the magnitude of the susceptibility of the rocks forming the borehole walls. This signal is fed to the input controlled by the depth sensor of a time relay whose operation time is determined by the amplitude of the input signal. When measuring, the counter 5 receives pulses from the pulse generator, in this case the number of pulses on the counter is:

where: / - pulse frequency from the generator im30 pulses; ti is the time of operation (transmission) of the time relay at each switch on; n is the number of inclusions. The time relay is activated by the control button located on the depth sensor. The button is turned on when the magnetic susceptibility sensor is displaced along the axis of the well to its length. At the same time, the number of button actuations is registered on the counter, which corresponds to the number of measurement points. The time of the time relay is chosen so that even at the maximum signal it does not exceed the time required to send the sensor to its length, and the pulse frequencies are used to ensure the specified accuracy of their recordings for this period of time. With the help of the dividing device it is possible to obtain the ratio of the values on the counters which will correspond to the average value of the measured parameter at a given interval. With the help of an established correlation dependence, this average value can be transformed (either directly in the instrument, or during subsequent processing) into iron content. Thus, the proposed magnetic ferrometer makes it possible to obtain data on the average value of the measured parameter at a given interval. The subject matter of the invention is an aggregate ferrometer, consisting of a magnetic susceptibility sensor, powered by a sinusoidal voltage generator and connected to the input of an amplitude-phase detector, and a depth sensor, characterized in that, in order to improve the accuracy and speed up the measurement process, it is equipped with time relay, imiuls generator, counters of the number of pulses and the number of measured intervals and a dividing device, moreover, one of the inputs of a controlled time relay is connected to a depth sensor that specifies roan measurement cycle, and the other two inputs connected respectively to the amplitude phase detector and a pulse generator, wherein the outputs of the controllable switch are connected to the inputs of counters, the outputs of which are connected to the input of the divider device.

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