FR2566539A1 - Method for identifying electrical cables and apparatus for implementing this method - Google Patents

Abstract

The method involves the generation, at a predetermined point on the line, of a current consisting of short pulses with peak values much higher than those of the currents normally flowing in the line and at a constant very low frequency, whatever the status of the load on the line under test and whether or not a voltage has been applied. The apparatus has two operating positions. One position is on the mains supply in which a resistor 4 is connected in series with a thyristor 5 controlled by a time base 6 synchronised with the mains supply in order to create a current surge once every second. The second position is an independent one in which the current is created by a capacitor 9 connected to an auxiliary power supply 10 and discharged through a thyristor 12. Application particularly to the identification of cables or ducts revealed when digging trenches.

Description

 The invention relates to a method for identifying electrical cables and to an apparatus for implementing this method. It will find its application in particular but not exclusively to identify the cables updated during excavations.

 When excavations are carried out in urban areas, it is frequent to be in the presence of several cables and pipes, the respective functions of which are precisely unknown.

 To identify the cable on which one wants to intervene, there are several known methods which consist in sending in the cable a high frequency signal, for example a musical frequency signal and in testing the cables to be identified using a sensor. tuned on this frequency. However, these high frequency signals have the drawback of creating induction phenomena which can lead to confusion when two line cables run a certain distance close to one another. In addition, the devices used have the drawback of not having an autonomous source.

 The main purpose of the present invention is to provide a method of identifying electrical cables which has the advantage of not creating induction phenomena in neighboring pipes or cables, and of being able to be used both to identify a live line than a live line.

 Another object of the invention is to propose an apparatus for identifying electrical cables implementing the above method. This device has two operating modes, a first mode called operation on the network and a second mode called autonomous operation.

 Another object of the invention is to propose an apparatus whose basic diagram is simple and whose components are inexpensive.

 Another object of the invention is to propose an apparatus comprising detection and signaling means which make it possible to eliminate signals corresponding to the currents which normally pass through the identified cables and display only the identification signals.

 Other objects and advantages of the present invention will appear during the description which follows, which is given only for information and which is not intended to limit it.

 The method of identifying electrical cables of a distribution network comprising a plurality of lines, in particular but not exclusively for identifying the cables updated during an excavation, in which one generates at a determined point of one lines a known signal and the cables are tested at the place of identification to determine the corresponding line, characterized in that, whatever the state of the line tested, energized or not, a current is generated at this point short pulses, of high intensity with respect to the normal currents traversing the line, and of very constant low frequency.

 The apparatus for identifying the electric cables for the implementation of this method, comprising in particular means for generating on the line tested a known signal and means for sensing and analyzing the currents crossing the identified cables, is characterized in that the first means generate a current on the line consisting of short pulses of high intensity with respect to normal currents flowing through the line and of very low constant frequency, whether the line is or is not under tension.

 The invention will be better understood if reference is made to the description below as well as to the accompanying drawings which form an integral part thereof.

- Figure 1 shows schematically, without limitation, a preferred embodiment of the device in the operating position on the network.

- Figure 2 shows schematically, without limitation, an apparatus according to the invention in the autonomous operating position.

- Figure 3 shows schematically the sensor used for the detection of identification signals.

 The method according to the invention makes it possible to identify the electric cables of a distribution network comprising a plurality of lines regardless of the state of the line tested, that is to say that this line is under tension or that 'it is off. It consists in injecting on the line at a determined point, generally at one end of this line, at the place of use, a signal constituted by a current appearing in the form of short pulses of high intensity if the one refers to the normal load of the line and whose periodicity is constant and relatively high compared to the period of the main current.

 When the method is implemented on a live line, the current in the form of short pulses is generated directly from the voltage of the line in question, thus defining the live operation.

 The method according to the invention therefore causes an overcurrent which can be superimposed on the normal current and already existing in the line.

 On the other hand, when the method is used to test a supply line which is not energized, the current made up of brief pulses is generated from an autonomous source. In addition, to authorize the passage of the current delivered by this autonomous source, it is necessary to put the cables to be identified in a state which allows the passage of the identification current, for example by carrying out an assembly in short circuit.

 The injection on the line of a very low frequency signal, for example of the order of one Hz, makes it possible to suppress the phenomena of induction in the cables or the neighboring conduits, and this whatever the load of the line considered.

 According to another characteristic, the identification method consists in eliminating at the reception level the signals which correspond to the normal currents which flow through the electric cables and in keeping only the signals corresponding to the short identification pulses.

 The apparatus for identifying the electric cables, allowing the implementation of the preceding process, has two operating positions, the position "operating on the network! ' and the position "autonomous operation" which are shown diagrammatically in FIGS. 1 and 2.

 In FIG. 1, the line considered 1 is identified by the conductors 2 and 3. On this supply line are mounted in series a resistor 4 of low value and a thyristor 5. The thyristor is controlled by a time base 6, supplied and synchronized on the network by means of a supply 7. The time base 6 controls during half-wave the conduction of the thyristor, which causes an instantaneous and regular rate an important call of current which fears an overcurrent on line 1 which can be superimposed on the already existing current.

 This overcurrent has a constant periodicity of one second, which makes it possible to distinguish this signal from normal disturbances of the network such as, for example, the starting of motors or powerful devices.

 In the autonomous mode of operation, the current injected into line 8 comes from a high-value capacitor 9 which is permanently charged by means of an auxiliary current source, for example a storage battery10 or else a resistance 11. The capacitor 9 is periodically connected to the line to be identified by means of a thyristor 12, controlled by a time base 13 which puts the thyristor in conduction once per second, the time necessary to discharge the capacitor 9 , or about six milliseconds.

 According to the invention, the apparatus comprises means for capturing and analyzing the currents passing through the cables to be identified which in particular comprise a sensor 14 illustrated in FIG. 3. This sensor is in the form of an open transformer by taking a magnetic circuit 15 placed in a coil 16, with which the cable to be identified 17 is completely or partially surrounded, being in the form for example of a cable with four conductors. The signal of known periodicity and of high intensity injected into the line creates an alternating electromagnetic field around the conductor, which results in the appearance of an electric current at the terminals of the coil immersed in a variable electromagnetic field. This signal is processed using the device illustrated in FIG. 4, in which there is shown the sensor 14 which generates a voltage with which the amplifier 18 is attacked then a rectifier which controls a comparator 19. This comparator compares the voltage thus obtained with a predetermined tension which corresponds to the normal load of the cable considered in service. This comparator 19 supplies a signal which corresponds to the overcurrents of current generated by the short pulses, this signal then being injected into an audible or visual signaling device 20.

 The embodiment which has just been described is given for information only, and other embodiments of the present invention, within the reach of ordinary skill in the art, could be adopted without however get out of it.

Claims (9)

Claims  1. Method for identifying electrical cables from a distribution network comprising a plurality of lines, in particular but not exclusively for identifying the cables updated during an excavation, in which one generates at a determined point in the one of the lines has a known signal and the cable is tested at the place of identification to determine the corresponding line, characterized in that, whatever the state of the line tested, energized or not, a current is generated at this point consisting of brief pulses, of high intensity vis-à-vis the normal currents traversing the line, and of very low constant frequency.  2. Method according to claim 1, characterized in that when said line is energized, the current-consisting of brief pulses is generated directly from the current of the line.  3. Method according to claim 1, characterized in that when said line is not energized, the current consisting of brief pulses is generated from an auxiliary source, and the cables to be identified are placed in a state which allows passage of this current.  4. Method according to any one of the preceding claims, characterized in that when the current traversed by the cables to be identified is detected, the signals corresponding to the normal currents of the line are eliminated and only the signals corresponding to the briefs are kept impulses.  5. Apparatus for identifying the electric cables for implementing the method according to claim 1, comprising in particular means for generating on the line tested a known signal and means for sensing and analyzing the currents crossing the cables to be identified, characterized by the fact that the first means generate a current on the line consisting of short pulses of high intensity vis-à-vis normal currents flowing through the line and of very low constant frequency, whether the line is or is not energized.  6. Apparatus for identifying electrical cables according to claim 5, characterized in that said first means consist of a resistor (4) mounted in series with a thyristor (5) on the line to be tested (1), the thyristor ( 5) being controlled by a time base (6) synchronized with the current crossing the line tested (1).  7. Apparatus for identifying electrical cables according to claim 5, characterized in that said first means consist of a capacitor (9) charged by an auxiliary current source (10) and connected in series with a thyristor (12) on the line to be tested, the thyristor (12) being controlled by a time base (13) which turns on the thy ristor (12) the time necessary to discharge the capacitor (9).  8. Apparatus for identifying electrical cables according to any one of claims 5, 6 or 7, characterized in that the frequency of the brief pulses is one Hz.  9. Apparatus for identifying electrical cables according to any one of claims 5, 6, 7 or 8, characterized in that the second means notably comprise a sensor (15) consisting of an open transformer in which the current consists of brief pulses generates a current which drives an amplifier (18) then a rectifier and a comparator (19) which compares this current with the current which normally crosses the cable in service and supplies a signaling device.