SU746370A1 - Apparatus for determining cable laying depth - Google Patents

Description

The invention relates to the field of electrical and wired communication technology and can be used to search for cables by electromagnetic methods. The device is intended to continuously determine the depth of the cable that is wrapped around by alternating current when moving along the cable. Devices are known for determining the distance from the cable, streamlined by alternating current, to the measurement site using two sensors located at different distances from the cable. For example, a Weslern teectric, ClflA device type 121A 1. The disadvantage of the device 121A is the complexity of the process. measurement, eliminating the possibility of continuous automatic determination of the depth when moving along the cable. Of the known devices, the closest in technical essence to the present invention is a device in which two receiving sensors through an input switch and through a Vibrtl control divider are connected to the input of an AC amplifier, to the output of which a negative feedback control and measuring circuit are connected to the output switch. (OOS). An output indicator is connected to the auxiliary output of the measuring circuit OOS. The additional output of the OOS control circuit and the output of the source of the reference signal are connected to the separate inputs of the null organ, the output of which is connected via the storage element IK. the control input of the controlled divider. The device also contains a unit for synchronous control of switches 2. This device has the following disadvantages. The emf induced in the sensors are, as a matter of fact, non-phase due to the fact that making the Sensor and their circuits identical is technically difficult. Therefore, at the differential output of the sensors, the resulting signal is not the algebraic difference of the instantaneous EMF induced in the sensors, the obtaining of which is a necessary condition for the device to work, but their geometric difference, which, as is known, depending on the magnitude of the phase shift between these EMFs, may be more or less their hebraic difference. This circumstance leads to an error in measurement. The noise voltage arising during the operation of an electronic switchboard also geometrically adds to the voltage of the useful signals and is a source of additional error, in addition, switching signals leads to combinational-frequency errors in determining the depth of the cable . Finally, due to the considerable complexity of the circuit, the size and weight of the device are unacceptable for a portable field device. The aim of the invention is to improve the accuracy of determining the depth of the cable run and to control the device. This goal is achieved by the fact that a detector, an additional detector and an additional detector are added to the device, which contains receiving sensors spaced apart in height, an upstream divider connected to the AC amplifier, and an indicator. controlled divider. The AC amplifier is connected to the input of the Detector, the output of which is connected to the control inputs of both controllable dividers. The output of another sensor is connected to an indicator through an additional controllable divider. The drawing shows a block diagram of a device for determining the depth of a cable that is streamlined by alternating current. As shown in the diagram, the input sensors 1 (middle) and 2 (far) are connected, respectively; to the signal inputs of identical controlled dividers of 3 and 4 voltages. AC amplifier 5 and detector b sub1 (: is connected to control inputs 7 and 8. Dividers. The output of the additional divider is connected to the input of output indicator 9, according to which the depth of the cable is measured. Determination of the depth of the cable by the device When an alternating current flows in a cable in sensors located near it, EMFs are induced, the magnitudes of which are inversely proportional to the distance between the cable and the sensors:, m E., K / h + E,) where E and EJ are the effective values of emf induced by respectively, in the near and far sensor ah; h is the distance to the cable from the proximal sensor; . - distance between sensors 1 and 2; k - coefficient of proportionality.

Claims (2)

746370 Voltage Ts, near sensor 1 is attenuated by divider 3 inversely proportional to the input voltage, resulting in output. de divider voltage Uj. . is kept constant: 56b.X 4S COn5l, where Kj4 1 is the transmission coefficient of divider 3., The voltage Uj of the far sensor 2 before being brought to indicator 9 is attenuated by divider 4, the transmission coefficient of which is K. Kj, therefore. Replacing Kg in formula (3) with its value found from formula (2) and replacing the output voltages of the sensors with expressions for the emf measured in them, found from formula (1), we find that the voltage at the input of the indicator N is the proportionality coefficient. As can be seen from formula (4), the signal at the input of the output indicator is proportional to the depth of the cable. The scale or indicator reading device can be calibrated directly to the depth of the cable. The absence in the circuit of the electronic signal switching device and the independence of the device operation from the phase shift between the signals, -induced in the sensors, increase the accuracy of the depth measurement, especially at low signal levels induced in the sensors. It follows from formula (4) that the initial portion of the indicator scale is stretched. This circumstance also contributes to the increase. NICK) accuracy of measurements at relatively shallow cable depths that meet the depth standards (0.8 1, 2 m) for laying communication cables. The device is characterized by low cost, small size and weight. Dimensions and. especially, the weight, as well as the increase in measurement accuracy, are decisive for a portable device, with which the operator must move along the cable routes during their installation or certification, which significantly affects the operator's productivity. The invention The device for determining the depth of the cable, containing different height sensors for receiving, one of which is connected to an AC amplifier through a controlled divider, and an indicator that, in order to improve the accuracy of measurements and simplify the device , it is equipped with a detector and an additional controllable divider, the detector being connected between the amplifier output and the control inputs of both controllable dividers, and the other sensor through the second controllable divider of the connection not to indicator. Sources of information emation taken into account during the examination 1.J. Be f e L aboratories Recerd, November, 1965, 400-401. 2. Authors certificate of the USSR 385251, cl. G 01 V 3/00, 1973 (prototype).