PL36690B1 - - Google Patents

Description

The object of the invention is to test the inter-turn insulation and to determine the number of turns of the coils or individual turns of the windings, eg transformers, measuring transformers and other electrical devices. In the manufacture of measuring transformers, the regulations require that the interturn and inter-layer insulation of windings be tested with a voltage of 2.5 times the nominal voltage, which has so far been performed on the finished transformer. Often this insulation turned out to be insufficient, failing to withstand the test, or due to insulation damage during production, the windings have short-circuits, often again due to carelessness in winding, they have an inadequate number of turns. Such a transformer had to be dismantled again and the windings re-wound with a new wire, which increases the production costs in the material and labor, and at the same time makes it impossible to meet deadlines and execute the production plan. The winding is also often used, without knowing how many turns it has, which is most often the case when rebuilding or repairing apparatuses manufactured in other plants. Determining the number of turns has hitherto required unrolling the coil and counting the turns, thus destroying the winding, which often had to be made again of a new material. The use of the device described below, according to the invention, allows the number of coil turns to be determined in a short time, without windings. It also allows you to inspect the windings and to carry out the tests prescribed by regulations during production. It allows to find and determine the location of the winding damage, which in some cases can be removed by isolating the short-circuit site, thus avoiding the complete winding of the winding with a new material. The drawing shows the subject of the invention by title, as in Fig. 1, Fig. 2: a measuring line, Fig. 3 - side view of a measuring device, Fig. 4 - top view of this measuring device The principle of the measuring device according to the invention is explained in Fig. 1, which is based on a compensation method using a zero galvanometer. It consists in that the beginning of the test coil joins the beginning of the reference coil seated on a common magnetic core, moreover provided with a magnetizing winding, and a zero galvanometer is connected between the ends of said coils. In the case of an equal number of turns of the two coils, the electromagnetic forces induced in them cancel each other out, without causing a deflection of the galvanometer. The measurement of the number of turns of the test coil is carried out in such a way that the galvanometer is tilted to zero by gradually turning on the turns of the reference coil until their number equals the number of turns of the test coil, after which the searched value is read on the reference scales. Fig. 2 shows a diagram of a measuring device according to the invention. The magnetizing winding 5, mounted on one of the columns of the two-column core 6 of the actual measuring device, is fed via a frequency converter 2 from a 3-phase current network 1. An ammeter 3 is connected to the winding 5 circuit. The test coil 4 is placed on the second column of the transformer core 6, which is made of transformer sheet metal, including the comparison coil 10, consisting of three sections, namely one a 10-turn section with leads every ten turns, a second 90-turn section with leads every ten turns, and a third 200-turn section with leads every hundred turns. The leads of the individual sections are switched by means of three rotary switches 7, 8 and 9 to the circuit of the tested coil 4 and a magnetoelectric zero galvanometer 12, the sensitivity of which is regulated by a resistor 11, short-circuited by a pressure switch. In order to attach the test coil 4, the yoke of the device core is lifted by means of the lever 13 (FIG. 3). It should be emphasized that the measuring device of the bathtubs should be supplied with a current with a frequency generally higher than 50 rounds / sec, in order to ensure sufficient accuracy of the indications of this device. The second frequency, equal to 125 rounds / sec, is carried out to test the interturn and interlayer insulation of the tested coils with a test voltage 2.5 times higher than the nominal voltage, avoiding simultaneous pre-magnetization and "operating". The device according to the invention makes it possible to determine the number of coil turns, having up to 300 turns PL

Claims (3)

Claims 1. A device for determining the number of turns and checking the interturnal and interstitial insulation of coils, characterized by the fact that it has a two-column core (6) made of a visor plate with a yoke, lifted by means of a lever (13), equipped with a coil (10), consisting of three sections, namely one 10-turn section with leads every turn, the second 90-turn section with leads every ten turns, and a third 200-turn section with leads every hundred turns , switched by means of three rotary switches (7, 8, 9) to the circumference of the tested coil (4) and a magnetoelectric zero galvanometer (12). 2. Device according to claim A device as claimed in claim 1, characterized in that it has a magnetizing winding (5) in which the circuit is connected to an ammeter (3) and which is powered by a frequency converter (2). 3. Device according to claim The method of claim 1, characterized in that one of the core columns is adapted to fit on and remove the winding under test after the core yoke is manually lifted upward. Zdzislaw Kowal To the patent description No. 36690? Fig. I Fig. 2. (WJJls "Press" Stalinogród - 4050 - 3.9.54 - BI bezdrz. 100 g - 150 - R-5-17291 PL