SU1598065A1 - Induction motor - Google Patents

Abstract

The invention relates to electrical engineering and can be used to improve asynchronous electric machines with an open stator. The goal is to increase efficiency and simplify the design. An asynchronous electric motor contains an arc stator 1 with a three-phase winding 2 and a secondary element in the form of two rims, K3 winding and magnetic conductor divided into plates 5. An asynchronous electric motor with an open stator operates as follows. When power is supplied to the windings 2 of the control of the stator 1, a traveling magnetic field is created, which, crossing the rods of the windings 6 located in the active zone of the stator, induces an emf in them. Electromagnetic interaction of the currents in the windings 6 of the ferromagnetic rotor plates with the traveling magnetic field of the stator 1 creates the resulting torque, and only plates that are active for the stator are involved in creating the moment, which increases the efficiency of the electric machine and excludes from the design of the brush-collector unit allows to simplify it. 1 n. F-ly. 1 il.

Description

The invention relates to electrical engineering and can be used to improve asynchronous electric machines with an open stator.

The purpose of the invention is to increase efficiency and simplify the design.

Figure 1 shows the machine, front view; fig 2 is the same side view.

An asynchronous electric motor contains an arc stator 1 with a three-phase winding 2, and the secondary element is made in the form of two rims 3 of non-magnetic insulating material mounted on the hub 4 of the wheel and spaced apart by the width of the stator. Between the rims 3 on their outer surface around the perimeter are installed evenly with a gap and fixed plate 5 of ferromagnetic material, bent along the rim arc. In the slots of the plates are rod short-circuited windings 6.

The motor works as follows.

When power is applied to the windings 2 of the stator 1, a traveling magnetic field is created, which, crossing the rods of the windings 6 of the ferromagnetic plates 5, which are currently in the active zone of the stator, induces an emf in them, causing the currents to flow through them. The electromagnetic interaction of the currents in the windings of the 6 ferromagnetic plates of the rotor with the traveling magnetic field of the stator 1 creates the resulting torque. During the rotation of the rotor, each separate

the ferromagnetic plate alternately enters the zone of action of the magnetic field, electromagnetically included in the creation of the torque, and at the same time other plates when they leave the zone of action of the magnetic field of the arc stator are switched off electromagnetically. Thus, only a part of the

ferromagnetic plates that are currently in the zone of action of the magnetic field of the stator, and the remaining plates at this moment are electromagnetically disconnected and therefore there are no losses in them.

Reduction of electrical losses due to the use in the creation of torque only part of the secondary element, namely plates, which are currently in the active zone of the arc

stator, increases efficiency, and the exclusion from the design of the brush-collector site significantly simplifies it and improves reliability.

Claims (1)

Invention Formula An asynchronous electric motor containing an arc stator with a three-phase winding and a rotor with a magnetic core and short-circuited rod windings are distinguished by the fact that increase efficiency and simplify the design, the rotor magnetic circuit is made in the form of separate ferromagnetic plates bent along the stator arc and interconnected by two rims of non-magnetic insulating material. FIG. 2