SU1102631A1 - Drive to centrifugal separator - Google Patents

Abstract

The DRIVE TO THE CENTRIFUGAL SEPARATOR contains a high-frequency asynchronous electric motor, including a housing and a stator winding mounted on a vertical shaft, a short-circuited rotor, and a static frequency converter, characterized in that, in order to improve efficiency, an additional stator mounting is mounted in the motor housing, and the stator is mounted on the motor. ferromagnetic rotor. (L with

Description

The invention relates to centrifugal separator drives and can be used in agricultural production, food, medical, chemical and other industries.

A liquid separator is known, the drive of which contains a high-frequency asynchronous electric motor and a static frequency converter 1 This drive has such disadvantages as large power losses during start-up and lowered energy indicators in the operating mode.

The closest to the invention to the technical essence, and the achieved result is a centrifugal separator containing a high-frequency asynchronous electric motor, including a housing, a CTaTopkyro winding, a short-circuited rotor mounted on a vertical shaft and a static frequency converter t

The disadvantages of the known drive are high cost due to the higher installed capacity of the power semiconductor elements of the static frequency converter, significant losses of electricity during acceleration and low energy indicators in the operating mode, which reduces its efficiency.

The purpose of the invention is to increase efficiency.

The goal is achieved by the fact that in the drive to the centrifugal separator, which contains a high-frequency asynchronous electric motor, comprising a housing, a stator winding, a short-circuited rotor mounted on a vertical shaft, and a static frequency converter, an additional stator winding is mounted in the motor housing, and a vertical stator shaft is attached to the motor, and a vertical stator shaft is mounted;

FIG. 1 shows the drive to the centrifugal separator, general view, longitudinal section; in fig. 2 - motor performance data.

The drive consists of an asynchronous electric motor, comprising a housing 1, a working stator winding 2 and an additional 3, a short-circuited rotor 4 and a ferromagnetic rotor 5 mounted on a vertical shaft 6. The stator windings 2 and 3 through the switching device 7 are connected to the static converter 8 frequency.

The drive works as follows

When a static frequency converter 8 is connected to the network by a switching device 7, the voltage is applied to the additional stator winding 3 and the ferromagnetic rotor and the rotor of the separator is accelerated. When the rotational frequency is reached, corresponding to the intersection point of the mechanical characteristics of the electric drive (curve) and separator (curve b), the voltage is switched to the working stator winding 2 and the short-circuited rotor 4. In this period, the acceleration ends and the rotor of the generator reaches the operating frequency of rotation (the point of intersection of the curves of the mechanical characteristics of the electric drive (curve c) and the separator (curve b).

Braking and stopping is carried out by switching the supply voltage from the working locking winding 2 to the additional 3 with the drive switching to the inactive or dynamic braking mode.

Thus, the drive has lower cost, less power loss and higher efficiency.

Claims (1)

DRIVE TO A CENTRIFUGAL SEPARATOR, comprising a high-frequency asynchronous electric motor, including a housing and a stator winding, a short-circuited rotor and a static frequency converter mounted on a vertical shaft, characterized in that, in order to increase the efficiency, an additional stator vertical winding is mounted in the electric motor housing, and - ferromagnetic rotor. S and „„ 1102631