SU378886A1 - ALL-UNION - Google Patents

Description

one

The invention relates to the field of DC electrical measuring equipment and can be applied to grid modeling devices and multiphase electric motors, a transformer.

Devices are known for searching grid mesh defects and windings of multiphase electric motors, short circuit transformers, breaks, made in the form of ohm-meters of measuring bridges. A device is known for measuring the ratio of two grid resistances converging at a single nodal point with the help of a bridge circuit on a rheochord. However, such devices do not satisfactorily solve the task of checking the quality of the set (it is necessary to open the floor coordinates, the resistances in which affect the measurement result by the coordinates being determined or the relative values of the resistances in the coordinates) and do not solve the problem of determining the grid resistance values at all. i.e., under the conditions of the influence of neighboring field resistances and the one-time precise check of the windings of multiphase electric motors and transformers.

The purpose of the present invention is to IB eliminate the overheating of currents through the measured resistances of the pad floor and windings and the comparative arm of the bridge.

increasing the accuracy of measurements of the resistance of the typesetting floor. To do this, in the proposed device, the first terminal of the switching floor of the model, connected via a copper bus to the central anchor point of the dial floor of the grid model, and through a compensating resistor is connected to the comparative shoulder of the bridge unit, and the second, third, fourth and fifth terminals of the switching zero are connected via The copper busbars to the nodal points bordering the center point of the composable floor of the grid model are interconnected and connected to the balanced arm and indicator of the bridge unit.

Peripheral for the selected measurement area, the nodal points 1, 2, 3 to 4 dial field 5 of the grid model through copper buses 6, 7, 8 and 9, terminals 10, 11, 12 and 13 of the switching field 14 are interconnected and

connected to the first balanced arm 15 of the bridge and the indicator 16 of the bridge 17 of the direct current. The resistances of the first and second balance arms 15 and 18 of the bridge are set equal in magnitude.

Central for the selected measurement area, the anchor point 19 of the composing floor is connected via a copper bus 20 and to the switching field switching terminal 21, through a compensating resistance box 22, connected to a comparative

shoulder 23 bridge. In terminal 21 switching

the floor includes an additional diagonal of the bridge 24 with the power supply grid 25.

The device works as follows.

In the selected area of intention of the model field, which includes, for example, the resistors 26, 27, 28 and 29 of the field, through copper wires 6, 7, 8 and 9 and terminals 10, 11, 12 and 13 of the switching field 14 of the model are included fully closed loop 10, П, 12, 13 connected to the balanced arm / 5 and the indicator 16 of the bridge 17, n to the central central nodal point 19 via the copper bus 20 and the switching terminal 21 - floor 14 of the grid model one end of the diagonal 24 of the bridge 17 s power supply 25, and through the compensating resistance box 22 of the bridge / 7 the comparative shoulder 23 of the bridge. The fully closed loop shunts 10, 11, 12 and 13 terminals of the switching field 14 of the model, provides (after the first one is included in the switching field) almost equal Potential of the external ends of the resistors 26, 27, 28 and 29 of the dial floor due to the low resistance of copper HIHH across with respect to the latter, connects the indicated resistors in parallel, and on the compensating resistance box 22, which is connected in series with the central copper thickness, and on which the resistance value is established, is equal to the resistance} 1 and Shii 20, a .d.s., n equals the opposite direction of the emf on the resistance of the central copper flap 20, induced by currents

through resistances nol 26, 27, 28 and 29 n to the reference stores of resistance of the ara.exclusive shoulder 23 of the bridge.

With this switching on and the order of actions under the objects, the influence of the remaining resistors of the field 5 and the resistance of the central copper gauge 20 on the measurement result, as well as the redistribution of currents through the resistors 26, 27, 28 and 29 of the FIELD and reference stores of the comparative arm 23, is completely eliminated. bridge in the process of alternate measurements Reznstorov typesetting floor model.

Subject invention

A device for measuring the resistances of a grid model of a grid box, containing a switching field, copper buses, resistors and a bridge unit, characterized in that, in order to increase the measurement accuracy, there is a first terminal of the switch box connected to the central node of the grid model, through the compensating resistor of the key to the comparative zero of the bridge unit, and the second, third, fourth, and fifth terminals of the switching nol connected through copper nshny to the nodal points bordering the central The second point of the dial-up zero model is interconnected and connected to the balanced arm and the indicator of the bridge unit.