PL85565B1 - - Google Patents

Description

The subject of the invention is the transmitter of the induction carotase apparatus used in prospecting geophysics. The apparatus for induction carotase is known, consisting of a transmitter designed to generate a primary electromagnetic field in a profiled hole and a receiver reacting to the secondary electromagnetic field generated by currents. a vortex with a scale surrounding the bore connected to a measuring or recording device. The transmitter consists of a power supply, generator, amplifier, transformer and probe, equipped with generation coils. The power supply is connected to an external voltage source and powers the stabilized generator and the amplifier. The generator is connected to the input of the amplifier, which feeds the transformer, the secondary winding of which is connected to the probe's generation coils. The transmitter produces an alternating current in the generation coils of constant amplitude and frequency, which creates the primary electromagnetic field. Under the influence of changes in the conductivity of the water filling the profiled hole and the conductivity of the scales, and under the influence of changes in the ambient temperature, the impedance of the generation coils changes, as a result of which the value of the current flowing in these coils changes and, consequently, the intensity of the primary electromagnetic field changes. The same effect is caused by a change in the supply voltage. This leads to erroneous indications of the meter or recorder located in the receiver of the apparatus. The transformers used in the known transmitter limit the minimum overall dimensions of the transmitter. In the transmitter of the apparatus for inductive carotase, which is the subject of the invention, equipped with a power supply and a stabilized generator, to which an amplifier is connected, supplying the probe's generation coils, the essence of the invention is that the output of the amplifier is are connected, series-connected capacitor, generation coils and measuring resistor, while a stabilization circuit is connected to the power input of this amplifier. The stabilization circuit is equipped with a regulator, one of its inputs is connected between the generation coils and the measuring resistor, and the second input is connected to one of the outputs of the power supply.2 85565 The main advantage of the invention is the elimination of external influences, such as: change of the surrounding conductivity environmental transmitter, a change in the ambient temperature or a fluctuation in the supply voltage, which has a beneficial effect on the measurement accuracy of inductive carotase apparatus. This elimination was achieved thanks to the use of a stabilization system, equipped with a regulator and obtaining resonance in the circuit of the probe's generation coils by switching on a capacitor of the selected capacity. An additional benefit is the possibility of transmitter miniaturization, resulting from the removal of the transformer from its system. As a result, this allows for a carotase of holes with a diameter smaller than before, already from 65 mm, while the known apparatus could only be used for holes with a diameter of not less than 120 mm. The subject of the invention is shown in the example of the embodiment in the drawing, which shows the diagram of the transmitter apparatus for induction carotase. An example of a transmitter of an apparatus for induction carotase is equipped with a generator 1, stabilized by a quartz resonator, to the output of which an amplifier 2 is connected »To the output of this amplifier 2 are connected in series capacitor 3, generation coils 4 and measuring coils resistor 5. In the transmitter circuit there is also a stabilization circuit 6 equipped with a current regulator, one input of which is connected to the point between the generation coil 4 and the measuring resistor 5, connected to the mass of the transmitter. The second input of the stabilization circuit 6 is connected to one of the outputs of the power supply 7. The output of the stabilization circuit 6 is connected to the input 8 of the amplifier 2. The second output of the power supply 7 is connected to the input of the generator 1. A series circuit made of a capacitor 3, generating coils 4 and of the measuring resistor 5 forms a resonant circuit with a frequency equal to the frequency of generator 1. The load of the amplifier 2 is the sum of the generation loss resistances of the coils 4 and the measuring resistance of the measuring resistor 5 connected in series. The transmitter circuit operates as follows: , they cause a change in the voltage drop on the measuring resistor 5. This causes the stabilization system 6 to be actuated and by this system, through the amplifier 2, to regulate the current intensity values in the generation coils 4 to the set value. The same effect is caused by the change in the supply voltage which is supplied from the power supply 4 to the second input of the stabilization circuit. PL

Claims (1)

1. Patent claim The transmitter of the apparatus for induction carotase, equipped with a power supply and a stabilized generator, to which the amplifier supplying the probe's generation coils is connected, characterized in that the amplifier output (2) is connected to the capacitor (3) and the generation coils connected in series with each other (4) and a measuring resistor (5), while the power supply input (8) of the amplifier (2) is connected to a stabilization circuit (6) equipped with a regulator, one input of which is connected between the generation coil (4) and the measuring resistor (5), and the second input is connected to one of the PSU's outputs (7). Wash. Typographer. UP PRL, circulation 120 + 1U Price PLN 45 PL