SU897123A3 - Device for measuring rock density in wells - Google Patents

Description

a change in the energy spectrum that is difficult to register at high energy values. The distortion of the non-energy spectrum is more pronounced, the higher the bait content in the solution.

Thus, the content of barite in the well leads to a decrease in the accuracy of measuring the count rate.

The purpose of the invention is to improve the measurement accuracy.

This goal is achieved by the fact that the first, second and third comparators, an inverter, AND and OR logic circuits, a trigger circuit, a dividing circuit, are introduced into a device for measuring the density of rocks in wells, containing a gamma-ray source, a detector, an electronic signal processing circuit. a switch, a scale unit, the inputs of the first and second comparators being connected to the detector output, the output of the first comparator connected to the input of the AND circuit via the inverter and to the inputs of the divider and OR circuit, the output of the second comparator n with the second input of the AND circuit directly, the output of the AND circuit is connected to the inputs of the OR circuit and the divider, the output of the OR circuit is connected to the input of the trigger circuit, the output of which is connected to the switch, and the divider output is connected to the input of the third comparator, whose output is connected to the control circuit with the switch, and the last with the scale unit.

The difference of the device is also the fact that the first comparator is equipped with a reference block with a normal threshold counting rate equal to S, and the second is equal to the average amplitude of pulses exceeding the amplitudes of the threshold pulses.

The drawing shows a diagram of the proposed device.

The device contains a photomultiplier with a scintillator 1 and 2. The output pulses from the photomultiplier resulting from the action of gamma quanta scattered by rocks 3 are fed to amplifier A, from which the signal goes to the first and second comparators 5 and 6, whose reference reference levels are equal to S and Agp. From the outputs of the Comparators 6 and 5, the signals arrive at the inputs of the inverter 7 and the AND 8 logic circuit with two inputs, to which the signals

From the output of the inverter and the second comparator. The output of the first comparator 5 and the output of the circuit And 8 are connected to two inputs of the divider 9 and the outputs of the circuit

OR 10, the output of which is connected via the release circuit 11 to the switch 12 (to terminal A). In this case, the output of the comparator 5 is directly connected to the terminal B of the switch 12. The switch allows you to connect the specified terminals to the scale unit 13. In addition, the output circuit And 8 and the output of the first comparator 5 is connected to the divider 9.

5 The output of the divider receives a signal equal to, where N is the pulse counting rate from the comparator 5 N (j is the pulse counting rate from the output of the AND 8 circuit output. The signal is fed to the input of the third comparator, the signal from which controls the operation of the switch 12 Since the value remains close to unity and does not decrease below the threshold value fixed at 0.95, the switch 12 remains in the state shown in the drawing. When the ratio becomes less than the threshold one, the switch switches to another position.

The device works as follows.

When the amplitude of the signal from the output of the amplifier is less than the threshold, the operation of the Comparators 5 and 6 does not occur. In the case when the signal amplitude exceeds the threshold value S, but will be less than the average amplitude of Ay, the comparator will trigger 5, 3 if the amplitude is

more And, then the operation of both comparators 5 and 6.

Under the above conditions, the AND 8 circuit will always generate a pulse signal in response to any pulse signal from amplifier 3, whose amplitude lies between S and A. At the output of the comparator 5, a signal will always occur when the amplitude of the signal from amplifier exceeds the value A,

Claims (2)

Thus, the pulse count rate N, at the output of the circuit And 8 will correspond to the pulse generation rate with amplitude between S and and the pulse count rate N, at the output of the comparator 5 will correspond to the pulse inertia velocity with amplitude exceeding В (.г. 1 × 11 L. According to the obtained counting rates N-, N (j, the division scheme yields the ratio N / Mn, and the comparator 1 compares this value with the level of 0.95. Since this ratio is always less than the specified level, since the counting rates remain approximately the same then comparat The op will maintain the switch 12 in the position shown in the drawing.According to this inclusion, the signal from the output of the OR 10 circuit will be passed through the release circuit 11 to the input of block 13. Then the dividing circuit 9 is activated, and the output of the circuit 13 is NQ, If the ratio becomes less than 0.95 level (physically, this means that the barite contained in the solution causes a significant weakening of the amplitude of the part of the spectrum of the signal located above the Afp value), then the comparator T will switch the switch 12 to another position. A scaling unit will receive pulses whose amplitudes exceed the average amplitude A. Logging will be the counting speed N Q. Thus, the proposed device allows to reduce errors caused by the presence of barite in (measurements of rock density. Claim 1, A device for measuring the density of rocks in wells, containing a gamma radiation source, a detector. 36, an electronic signal processing circuit that differs from the fact that, in order to improve measurement accuracy, it contains first, second and third comparators, an inverter, AND and OR logic, a release circuit, a dividing circuit, a switch, a scale unit, the inputs of the first and second comparators are connected to the detector output, the output of the first comparator is connected to the input of the AND circuit via the inverter and to the inputs of the divider and the OR circuit, the output of the second comparator is connected to the second input of the And circuit, the output of the AND circuit is connected to input With the OR circuit and the divider, the output of the OR circuit is connected to the input of the trigger circuit, the output of which is connected to the switch, the output of the divider is connected to the input of the third comparator, the output of which is connected to the control circuit through the control circuit and the scale unit. 2. The device according to claim 1, about 1 tl, which means that the first comparator is equipped with a reference block with a normal threshold counting rate equal to S, and the second equal to the average amplitude of the pulses exceeding the amplitudes of the threshold pulses. Sources of information taken into account in the examination 1. US Patent No. З 13470, cl. 250-83.3, published. 19b7. 2. US patent number 332162, cl. 250-83.3, publ. 19b7 (protot + p).