DE1791051A1 - Device and circuit arrangement for testing coils - Google Patents

Description

B E S C H R E I B U N G "Device and circuit arrangement for testing von Spalen "The invention relates to his switching arrangement for checking of coils, especially to determine Kues @ n @ üses @on windings like this one in übl @ e @@@ Walse @@@ Building elements in electrical circuits v @@@@@@@ t @@@@ en.

The known arrangements of this type can be classified as follows be: TYPE 1: High voltage impulses, such as those in particular with the help of a thyratron can be generated are fed to a coil and the decay of the pulse observed directly on the screen of a cathode ray tube.

TYPE 2: High frequency of high voltage is fed to a coil and resulting from the internal resistance of the voltage source and the load caused by The voltage reduction resulting from the coil is indicated by a measuring instrument.

TYPE 3: Lower high frequency generated by means of an oscillating circuit Voltage is applied to a coil and the change in the coil caused by the coil Measured resonance frequency.

1) The arrangements that work according to these principles have the following Disadvantage. The arrangement according to TYPE 1 requires a comprehensive structure, large body and is therefore impractical to use because it has a respective setting of the Cathode ray tube required. With all three Types provides the required Use of a thyratron or an electron tube is a complication when these components only have a limited lifespan. Furthermore requires the necessary observation of a cathode ray tube or measuring instruments a certain amount of time, quite apart from the necessity of observation makes an automatic check impossible.

The invention has for its object to provide a device for the above To create purpose that has a particularly long service life and with great accuracy which Pur allows us to perform. In addition, the device should be able to to detect a position closure immediately, so that it is for the automatic Exam is suitable.

The task becomes invention. accordingly solved in that to a power transformer an inductance with a pronounced kink characteristic is connected to which via an A. capacitor an impulse transformer lies in parallel across the both the coil to be tested as well as a measuring instrument in a separate branch.

Another display option can be advantageous because @ by ensure that the ignition electrode of a thyristor is attached to the voltage impulse transformer is connected, in which main circuit there is a relay, when activated a buzzer is switched on. Further details emerge from the subclaims.

The invention will be explained with reference to the figure, which shows a Illustrates embodiment.

The mains transformer 1 with the primary winding 26 and the secondary winding 2 a mains voltage is supplied. To the secondary winding 2 is for improvement of the power factor a capacitor 3 is also connected from the secondary winding 2 the series connection of a current-limiting reactance 4 and a magnetic switcha 5, which is formed by an inductance with a pronounced kink characteristic will. The arrangement described here forms a voltage surge generator. At the junction 7 of the reactance 4 and the magnetic switch 5 is a capacitor 6 connected, through which the primary winding 8 of a voltage transformer 9 is fed. The circuit then has a measuring circuit containing one Capacitor 10 to stabilize the load, a measuring instrument 11 for reading of the test result and an adjustable resistance 12 for the tuning of the measuring circuit. The series connection of this component leads to the terminal 13, on which one end of the coil 14 to be pxUtenden is located. You other end this coil 14 is led to the terminal 17, which with the arm of a rotary switch 16 is connected, which is the connection to various taps 1S on the secondary winding 19 of the surge transformer 9 allowed to manufacture.

The circuit also includes another display arrangement that the variable resistor 20 and the transformer 22 with the primary winding 21 and the secondary winding 25 contains. The series connection of the resistor 20 and the primary winding 21 is connected to the primary winding 8 of the surge transformer 9 connected. Starting from the secondary winding 25, the ignition electrode becomes one Thyristor 24 controlled. With these: thyristor a relay winding 23 is switched, which is in series with the main current path of the thyristor 24 at the mains voltage. The contact 28 of the relay 23 switches a buzzer 27, which via the contact 28 also connected to the network. This circuit works in such a way that in the Palle the ignition of the thyristor 24 the relay 23 is energized, which closes its contact 28 and thus the buzzer 27 is operated.

If the circuit is connected to the mains voltage, this is applied the primary winding 26 of the mains transformer t, the one on its secondary winding 2 emits a voltage in the order of magnitude of 200 volts. This voltage is present the magnetic switch 5 via the current-limiting reactant 4. Nit during a half-wave As the output voltage of the network transformer 1 increases, the voltage initially also increases at the magnetic switch 5, the Hondesator 6 being charged accordingly. Achieved now the voltage at de magnetic switch 5 has a value at which the magnetic switch is in When saturation passes, the capacitor 6 can suddenly move across the primary winding 8 of the voltage surge transformer 9 discharged, so that this a voltage surge receives who also. occurs on the secondary winding 19 in a highly stressed form. The pulse generated in this way is then fed to a measuring circuit, which is the measuring instrument 11 and the coil to be tested 14 contains. If the coil has a position lock #, If the measuring instrument 11 shows a different value than the normal value, the one before by the variable resistor 12 and the rotary switch 16 on the basis a damaged coil had been set.

The pulse given by the surge transformer 9 will also fed to a measuring circuit which contains a thyristor 24. Means In the circuit controlled by the thyristor, a coil is tested an acoustic signal emitted by a buzzer 27. Lies on the clamps 13 and 17 a coil with a position lock #, the buzzer 27 is from the relay contact 28 switched on. The voltage surge that can be taken from the surge transformer 9 namely reaches via the transformer 22 and its secondary winding 25 to the Ignition electrode of the thyristor 24, which is ignited and thus a current through the Relay winding 23 can flow. The Anspreobwert the thyristor 24 is appropriate Way regulated by the variable resistor 20.

As can be seen, the connection described above only contains Components that are practically not subject to wear and tear. IEt the circuit will be sharp pulses with precise spacing are generated which allow an adaptation of the circuit to allow the coil to be tested in each case in a simple manner, namely by setting the adjustable resistors and the rotary switch. This leads to a special accurate and reliable working test circuit; especially through the use the thyristor will enable a defective coil without any delay determine which makes the circuit particularly suitable for automatic testing.

PATENT CLAIMS:

Claims (5)

P A T E N T A N S P R Ü C H E 1.) Circuit arrangement for testing of coils, characterized in that an inductance is connected to a mains transformer (1) (5) is connected with a pronounced kink characteristic, to which via a capacitor (6) a surge transformer (9) is in parallel, via which both the Coil (14) and a measuring instrument (11) is fed in a separate branch. 2. Circuit arrangement according to claim 1, characterized in that The ignition electrode of a thyristor continues to be connected to the voltage transformatro (9) (24) is connected, in the main circuit of which there is a relay (23) Actuation a buzzer (27) is switched on. 3. Circuit arrangement according to claim 1 or 2, characterized in that that the inductance (5) is preceded by a current-limiting reactant (4). 4. Circuit arrangement according to one of claims 1 to 3, characterized in that that the measuring instrument (11) is preceded by a rheostat (12) and the to testing coil (14) optionally to different taps (18) of the secondary winding (19) of the surge transformer (9) can be switched on. 5. Circuit arrangement according to claim 2, characterized in that a control resistor (20) is located in the control circuit of the thyristor (24).