SU1660119A1 - Three-phase starting inductive resistor - Google Patents

Description

The invention relates to electrical engineering, in particular to the ballast control devices. The purpose of the invention is to increase the power factor. An induction resistor consists of 3 identical magnetically unrelated elements, each of which has two steel hollow cylinders 1 of equal length, representing a magnetic conductor. Along the axes of symmetry of each pair of cylinders, windings 2 are wound, whose ends of the same name are interconnected, while the others are connected to the phase windings of the rotor of an asynchronous electric motor. The scattering fluxes are reduced in this resistor due to the location of the windings inside the magnetic circuit. 1 il. 3

(/one

I.'AE * S

The invention relates to the electrical industry, in particular to the ballast control devices used for asynchronous motors with a phase rotor.

The purpose of the invention is to increase the power factor.

The drawing shows the proposed three-phase starting induction resistor (IR),

The device consists of three identical magnetically unrelated elements, each of which consists of two steel hollow cylinders 1 of equal length, representing a magnetic core. Along the axes of symmetry of each pair of cylinders, windings 2 are wound, whose ends of the same name are interconnected, while the others are connected to the phase windings of the rotor of an asynchronous electric motor.

Three-phase starting IR operates as follows.

The windings 2 are connected to the rotor of the asynchronous electric motor. By turning on the stator windings in the network, a rotating magnetic field is created, inducing an emf in the rotor windings. In the windings of the rotor and windings located inside the cylinders IL, a current occurs. The current frequency is maximum and equal to the network. The current in the windings of the IR creates a magnetic flux, closed in a short way, along the circular perimeter of the cylinder with scattering flows are almost zero. Magnetic flux induces eddy currents and active losses in the magnetic core, proportional to the square of the frequency of the current. The magnitude of the active losses and the resistance of the MI is maximum when the rotor is stationary. In the process of acceleration of the rotor, the frequency of its current decreases, the active losses and the magnitude of the resistance of the IL decrease. By the end of the launch

1660119

losses and resistance are minimal, the electric motor starts to work according to the natural mechanical characteristic.

The magnetic conductor of IL does not contain joints. The technical solution of the IR reduces the scattering fluxes to almost zero, the power factor is maximum. There is no need for magnetic coupling of the magnetic circuits of the phases. The mass decreases, the cooling conditions of the magnetic circuit are improved.

The electrical parameters of the IR are determined by the length, external diameter, thickness of the cylinder walls, the number of turns of the windings, and the material of the magnetic circuit.

The magnetic core of the IR is made of structural steel. The windings are made of copper or aluminum wire.

ten

15

The use of IR allows you to ensure a smooth start of the electric motor, it becomes possible to work in heavy mode intermittent load.

five

Claims (1)

Claim Three-phase starting induction resistor containing three pairs of ferromagnetic hollow cylinders, three windings, characterized in that, in order to increase the power factor, the pair of cylinders are parallel to each other so that they are not magnetically connected to each other and other pairs of cylinders, the windings are wound along the symmetry axes of each pairs of cylinders.