SU941909A1 - Device for measuring load in three-phase current system - Google Patents

Description

. one

The invention relates to electrical measuring equipment and can be used to measure the total load and its active component in a symmetric and asymmetric three-phase gok system using a voltage meter.

A device is known for measuring active and reactive components of insulation resistance in a three-phase current system containing a three-phase transformer, the primary windings of which are connected to each phase, and its secondary windings are connected to a load, three measuring devices, two of which are directly through switches, and the third through two parallel-connected capacitors and the corresponding switches are connected to the second terminals of the primary winding of the transformer connected by a star C-Onedost izv The conventional device for measuring the resistance in a three-phase current system consists in its limited functionality due to the fact that the active and reactive components of the resistance are measured separately, i.e. It is not possible to measure the total load.

ten

It is also known a device for measuring the load in a three-phase current system, comprising current transformers, the primary windings of which are included in each phase,

Claims (2)

) 5a secondary are connected to rectifiers, the output circuits of which are paralleled by smoothing (they are capacitors and connected in series with a voltage meter, allowing you to measure the load in symmetric and asymmetrical three-phase current systems using one appliance 1g1. The disadvantage of this device for measuring The load in a three-phase current system is also a limitation of its functionality due to the fact that when measuring the total load of the system, it is not possible to release it. The purpose of the invention is to expand the functionality, the goal is achieved by the fact that the device for measuring the load in the three-phase current system contains current transformers, the primary windings of which are included in each phase, and the secondary windings are connected to rectifiers parallel to but the output buses of which are connected with smoothing capacitors with load resistors connected in series with a voltage meter, a three-phase voltage transformer is introduced, the primary windings of which are soy connected to the corresponding phases, additional resistors connected one to each diode arm of rectifiers, and switches through which the secondary windings of the three-phase voltage transformer are connected to the rectifier input buses, and the output average outputs of the secondary windings of current transformers and tension. The drawing shows the basic electrical circuit of the proposed device. The device contains a current transformer 1, the peg windings of which are included in each phase, a three-phase voltage transformer 2, the primary windings of which are connected to a star and connected to a controlled system, additional resistors 3 connected one to each diode arm k, meter 5 eg connected in series with the rectifier load resistors 6, parallel to the output circuits of which are connected to one smoothing capacitor 7, and switch 8, which provides for the restructuring of the circuit from uncontrolled rectifiers 9-11 are full-time controlled, in which the secondary windings of current and voltage transformers are connected to the input terminals, and the mean points of these windings are connected to the output terminals. 94 The device operates as follows. When the switch 8 is in the lower position (the initial position shown in the ria drawing), through the inputs of uncontrolled rectifiers 9-11 by means of current transformers 1 voltage, proportional to the load in each phase, is supplied to the diode arms connected by a bridge circuit. The voltages rectified by resistors 6 are smoothed by capacitors 7 and their total value, proportional to the total load of the monitored system, is recorded by the voltage meter 5. When the switch 8 is in the upper position through the inputs of the full-wave controlled rectifiers 9-P, transformers 1 and 2 are applied to the diode arms connected in an annular circuit to supply voltage U proportional to the load current and voltage of each phase, respectively. If, at the outputs of the full-wave controlled rectifiers 9-P, the voltages are proportional to the active components of the loads of the corresponding phases. These voltages are smoothed by the capacitors 7 and their total value is recorded by the voltage meter 5. The total and active component of the load of the i-th (, 3) phase under the condition are determined by the formulas. Total load tni-1 ,,) R (, where С-, is the capacitor capacitance 7, R is the resistance of resistor 6; T .., - is the period of load current in the 1st phase; K; - transformer ratio of transformer 1-g - and w is the maximum current value in the i-th phase, 1 is the direct resistance of the diode; the active resistance is half of the secondary winding of the transformer 1, 1 is the resistance of the resistor 3. The voltage meter 5 records the value of U - R6S G.-. 1-1 "5 Active component VKi Iw4 12., csr () (ii where is the resistance of half of the secondary windings of the transformer 2, f / i is the angle of the shift between current and voltage I and Phases The voltage meter 5 fixes the value of V-% 5, and the range of measured loads is selected within wide limits of the ammeters. The upper limit of the active component is determined by the condition Uj and. The device is calculated for measurements in industrial energy systems Frequencies There is a principle on the possibility of its operation at other frequencies, the range of which is determined by the limit of the operability of the components of known elements. The use of new elements of a three-phase transformer along with additional resistors and a switch allows, along with measuring the total load of an asymmetrical three-phase current system, to isolate its active component, which expands the functionality of the device and the scope of its application. The invention claims a device for measuring the load in a three-phase current system containing current transformers whose primary windings are included in each phase and the secondary windings are connected to rectifiers, parallel to the output buses of which are smoothing capacitors with load resistors connected in series with a voltage meter, characterized in that, in order to extend the functionality, a three-phase voltage transformer is introduced into it, the primary windings of which are connected in a star and connected additional resistors connected one by one to each diode arm of the rectifiers and switches through which they are connected to the input, respectively. The rectifier busbars have the secondary windings of a three-phase voltage transformer, and the output windings are the middle leads of the secondary windings of current transformers and voltages. I Sources of information taken into account during the examination 1. USSR author's certificate W, cl. G 01 R 27/18, published 08.08.72 2. The patent of Germany No. 2526187, cl. S 01R 19/22, publ. 1973 (prototype).