DD231135A1 - CIRCUIT ARRANGEMENT FOR CIRCUIT CIRCUIT AND TROUBLESHOOTING IN ELECTRICAL SYSTEMS - Google Patents

Abstract

The invention relates to a circuit arrangement for circuit determination and troubleshooting in electrical systems, which can be used in particular in electrical engineering. The aim and object of the invention is to develop a complex Pruefgeraet, with which you can safely locate under construction site electrical lines, cables and fuses without much effort, the operation of the device should be as simple as possible. The Pruefgeraet is designed so that a pulse generators of small spatial dimensions has only one active component whose pulse frequency is below 50 hertz and is freely selectable within certain limits and can also be operated with mains AC voltage. According to the invention this object is achieved in that in a circuit arrangement with a thyristor whose control electrode is connected via a diode, a protective resistor and a variable resistor on the anode side of the thyristor and the resistor connected to a capacitor connected in parallel on the anode side in series, solved , As Traegerstaueffektungsanaltung a resistor and a capacitor in parallel with the resistor and a capacitor is connected in parallel to the thyristor. Fig. 4

Description

Title of the invention

Circuit arrangement for circuit determination and troubleshooting in electrical systems

Field of application of the invention

The invention relates to a circuit arrangement for circuit determination and troubleshooting in electrical systems, which can be used in particular in electrical engineering.

Characteristic of the known technical solutions

It is known to ignite and extinguish a thyristor having a clock generator which gives periodic firing pulses to the control electrode of the thyristor. It is also known to erase a thyristor with a capacitor and another thyristor. Furthermore, the resonant circuit deletion and the deletion, in which a capacitor is parallel to the series circuit of the thyristor and the load resistor with a very high series resistance, further with a thyristor, diode, resistor, two more resistors and two other capacitors known. In these circuits, the charging times of the capacitors are relatively long and the component cost is relatively large. In the developed

Circuit arrangement arises at the moment of switching a high current surge, which is limited by the set ignition timing and the choke coil. The known technical solutions have the disadvantage that the current pulse used for the solution increases too slowly and the component cost is much greater. Known for locating cables, lines and errors in cables and lines, the inductive method in conjunction with a Tonfrequenzwechselspannung, which is superimposed on a high voltage for burning the error. Furthermore, methods with Meßbrückenschaltungen and Kabelradarverfahren are known. Another known method is the burning-in of a fault in connection with the surge discharge of a capacitor and a special microphone.

The device complexity is much greater in the known methods. Furthermore, it is not possible to carry out the circuit determination on systems in operation using the known methods. Cables, which are with other cables in a route, had to be released for exact localization, (for example, make house connection under tension.) For single-pole point of interruption, the fault had to be previously burned with the Einbrenngerät to make a location can.

Object of the invention

The aim of the invention is to develop a complex test device with the circuit arrangement according to the invention, with which you can safely locate electrical lines, cables and fuses without much effort under site conditions, the operation of the device should be as simple as possible. The primary use of electronic components minimizes the size of the device, resulting in robustness and high reliability. In addition, low production costs are sought.

Explanation of the essence of the invention

The invention is based on the object to develop a circuit arrangement, with the simplest possible means to realize a pulse generator small spatial dimensions, which has only one active component and the pulse frequency is freely selectable within certain limits. The pulse frequency must be below 50 hertz, so that fuses, cables and cables can be clearly located. Furthermore, the pulse generator must also work with the mains AC voltage.

According to the invention, this object is achieved in that connected in a circuit arrangement with a thyristor whose control electrode is connected via a diode, a protective resistor and a variable resistor on the anode side of the tyristor and the anode is connected in series with a resistor connected in parallel with a capacitor connected in parallel , As Trägerstaueffektbeschaltung a resistor and a capacitor is connected in parallel with the thyristor.

In order to prevent high-frequency noise entering the network through the switching of the thyristor, a choke coil and an interference suppression capacitor are connected in front of it as a low-pass filter. The choke coil further serves to limit the current and in conjunction with the capacitor connected in series for generating the audio frequency of the current pulse. To determine the circuit belonging to the fuse, the pulse generator is plugged into the socket or connected to the open switch contacts. With a search coil and a transistor amplifier, the circuit can be determined at the distribution. To locate a fuse or a cable, the pulse generator is connected at the end of the cable or the cable. With 50 Hertz alternating current = symmetrically loaded cables can be located with a search coil without pulse generator.

If a cable is to be located in a bundle, the pulser is connected and the receiver is a 50 Hertz lock effective, so that the searched cable with the pulse stream

λ λ mm / ^ Λ

Is found. To locate a short circuit, the pulse generator is screwed via an adapter in the fuse element. The pulse current then flows through the short circuit path and the error can be located with the receiver. To locate an interruption, a resistor or a transformer is connected in series with the pulse generator. Thus, a pulse voltage of a few volts can be achieved up to a few kilovolts. If this pulse voltage is applied to a voltage-free cable with an interruption, these pulses can be tracked until the interruption. In order to achieve a relatively accurate detection of ground cables, with two search coils, which are interconnected out of phase and worked with a corresponding amplification of the differential voltage. If there is no mains voltage available at the place of use, this circuit arrangement can be operated with a lead-acid battery, given a corresponding change in the components and the use of a transistor ignition component.

Ausführungsbeispie1

The invention will be explained below with reference to embodiments. The accompanying drawings show the inventive circuit arrangement.

Fig. 1 pulse generator

Fig. 2 pulse generator with circuit determination and line position

Fig. 3 pulse with short circuit location

Fig. 4 pulse with interruption and cable location

pulse

If an AC voltage of 220 V is applied to the pulse generator connection terminals 1, this voltage is applied to the cathode of the thyristor 7 and the capacitor 4 via the fuse 2, via the choke coil 3. The counterpotential lies above the development

Charging resistor 12 and the capacitor 11 at the anode of the thyristor 7, and via the diode 10, the protective resistor 9 and the variable resistor 8 to the control electrode of the thyristor 7 at. To the thyristor 7 are in parallel the capacitor 5 and the resistor 6. They are used for TSE wiring of the thyristor 1. Since there is a potential difference between the control electrode and the cathode of the thyristor 7, the thyristor 7 is ignited immediately after switching on the voltage. The capacitor 11 is uncharged before ignition and thus flows after ignition a pulse current «This current decreases with increasing charge of the capacitor 11 and thus the holding current of the thyristor 7 is exceeded or the thyristor 7 is cleared at the zero crossing of the pulsating DC voltage. Now, the capacitor 11 discharges through the discharge resistor 12. If the voltage across the capacitor 11 reaches a certain value, the thyristor 7 is ignited again via the diode 10, the protective resistor 9 and the variable resistor 8. This process is repeated in the set rhythm. With the variable resistor 8, the ignition voltage and the ignition timing is changed and thus the pulse frequency and the pulse current strength changes. With the choke coil, the current pulse is limited. When switching occurs at the thyristor 7 harmonics, which are blocked by the choke coil 3 and the resulting high-frequency voltage is short-circuited via the suppression capacitor 4. The circuit is protected by the fuse 2 against short circuit. It is still high impedance due to the very high resistances. As a result, too high a contact voltage can occur in the network to be tested.

Pulse generator with circuit determination and line location

If the pulse generator is plugged into a socket, the current pulses flow via the current conductor 15, the pulse generator, the choke coil 3, the fuse 2, the current conductor 14, and the circuit breaker 13 · If a corresponding search coil 22 of a particular circuit breaker 13 is approached, so is induced by the pulse current in the search coil 22, a pulse voltage. This pulse voltage is amplified and rendered acoustically or visually perceptible. In order to

can be located on a distribution in which there are several circuit breakers that are not labeled in older systems, the corresponding circuit breaker 13 are located. To control the circuit breaker 13 is released and the pulse stops. Also you can locate the current conductors 14 and 15, which are indeed affected by this pulse, in their submerged course, whether under plaster, plaster or placed in the ground, with the corresponding search coil 22.

Pulse generator with short circuit location

If a circuit is subject to a short circuit point 16, the upstream circuit fuse 13 melts and the conductor 14 and 15 is disconnected from the mains. In order to locate the fault, the pulse generator is connected to the pulse encoder terminals 1 in the current conductor 14. Thus, via the short circuit point 16 to the pulse generator terminals 1 of the pulse generator 220 V AC and the pulse generator operates. Now, with the search coil 22, the pulse current is tracked via the current conductor 14 of the short-circuiting point 16 and the current conductor 15 and thus locates the short-circuiting point 16.

Pulse generator with interruption and cable location

If the pulse generator, a transformer 17 or a resistor connected in series, the pulse current flows through the conductor 15, the terminal to transformer 24, the transformer 17 or the resistor 18 and the pulse generator. By the generated current pulse, a magnetic field is generated in the transformer 17, which in accordance with the transmission ratio of the transformer 17 in the secondary winding thereof induces a higher voltage. To the terminal 26, the conductor 19 is connected. For electrical installations it is sufficient to use a resistor 18 for the transformer 17. At the resistor 18 is caused by the current pulse, a voltage drop. The pulse voltage difference is applied to the conductor 19 via the terminal. If an interruption has occurred in a circuit, there is no possibility of a pulse current for

To bring flow. Therefore, a voltage pulse is generated with this circuit, which is applied to the broken conductor 19. This voltage pulse is received via a corresponding search coil 22 and made audible. This makes it possible to locate an interruption 20 in a conductor 19 or the course of an open voltage-free cable. In order to pinpoint an interruption 20, two search coils 22 and 23 are interconnected. The pulse strength 21 is much weaker at the interruption 20. Until the interruption 20, the pulse strength 21 at the search coils 22 and 23 is equal and the voltage difference is approximately zero. If the interruption 20 is reached with the search coil 23, the induced pulse voltage becomes lower and a voltage difference arises between the search coil 22 and 23 which is made audible. This allows an interruption to be accurately located.

Claims (5)

invention claim 1. Circuit arrangement for circuit determination and troubleshooting in electrical systems by means of a pulse generator, a pulse generator with circuit detection and line location, a pulse with short-circuit location and a pulse with break detection, characterized in that the circuit arrangement of the pulse encoder terminals (1), the fuse (2) Reactive coil (3), the suppression capacitor (4), the capacitor (5), the resistor (6), the thyristor (7), the variable resistor (8), the protective resistor (9), the diode (10), the capacitor (11), the discharge resistor (12) ,, the circuit fuse (13), the transformer (17), the resistor (18), the conductor (19), the interruption (20), the pulse strength (21), the search coils ( 22, 23), the terminal to the transformer (24), the terminal to resistor (25), the terminal to conductor 19 (26), the transistor ignition component (27), the terminal to the control electrode (28), the terminal a n anode (29) and the lead-acid battery (30). 2. Circuit arrangement according to item 1, characterized in that with the thyristor (7) of the resistor (12) connected in series and the resistor (12) of the capacitor (11) is connected in parallel, via the diode (10), the protective resistor (9), the controllable resistor (8) of the thyristor (7) is ignited and that the resulting current pulse in the frequency and in the current strength can be changed. 3. Circuit arrangement according to item 1, characterized in that the pulse generator to the power conductors (14) and (15) is connected to the circuit determination and line position. 4. Circuit arrangement according to item 1, characterized in that the pulse generator between the conductor (14) is clamped and the pulse current for short-circuit location via the short-circuit point (16) flows. 5. Circuit arrangement according to item 1, characterized in that with the pulse generator, a transformer (17) or a resistor (18) for pulse voltage generation are connected in series, wherein the generated pulse voltage is used for interruption and cable location. ! to make fun of things