SU682984A2 - Contact-free synchronous electric machine - Google Patents

Description

one

This invention relates to electric machines and, in particular, to contactless lightning machines.

Known electric car on the main ed. St. No. 610254.

The disadvantage of such a construction is its significant relative mass, i.e., the magnitude of the mass per unit of power.

The aim of the invention is to reduce the mass per unit of power. This goal is achieved in that the stator sectors are made in the form of laminated axial cores, the root winding is made in the form of coils, which are placed on the cores, and the number of cores is equal to the number of pole protrusions of the rotor.

FIG. 1 shows a longitudinal section of a variant of an electric maschina with a central air gap; in fig. 2 is a cross section of the same machine.

The synchronous machine contains a non-magnetic case 1, individual laminated cores 2 fixed axially in the case, core-coil 3 cores placed on the cores 2. In case 1 a sleeve 4 is installed, inside which is located the excitation conductor 5 connected to the DC source . On non-magnetic hollow shaft 6,

2

mounted on podshnnnka 7, installed magnetic packets 8 and 9, forming the rotor 10 of the machine. The overlays 8 and 9 are made in the form of laminated sectors, in which

the arc of the outer surface and increases the minimum distance along the circumference between adjacent cores 2. Packages 8 shift shifted circumference relative to packets 9 by an angle equal to the shift of neighboring

2. The number of jackets 8 and 9 of the rotor 10 is equal to the number of hearts 2.

The operation of the electric machine in the generator mode is carried out as follows.

The direct current flowing through the current lead 5 / creates a working magnetic note, which closes along the path with a minimum magnetic resistance as follows: packet 8, left gap, core 2, iravium

gap, package 9, iravy gap, adjacent core 2, left gap, neighbor ikakt 8, etc. The force of the flow direction tangentially in 8 n 9 packs and axially in the cores 2. When the rotor turns on

angle equal to sdvnga angle of the neighboring cores 2, magnetic flux in the ethnical cores to mypypyerc. T, thus, rotation of the rotor leads to iuric flow switching in the cores 2 and induction of the working EMF in the coils 3.

The described machine can operate in engine mode. Perhaps the mechanical design of the proposed electric machine.

If the operating conditions of the machine allow the use of dynamic electrical contacts (w, current, liquid metal, etc.), the conductor 5 can be dispersed, rotated and executed, for example, in the form of a high conductor of a sleeve, to which two sides supply direct current, or in the form of a rod or a set of rods, SMS, relative to the axial line. It can be used as conductor 5 of the machine shaft.

It is possible to use a superconductor w, its hyperconductor w, its, as well as a liquid metal conductor 5. In all cases its construction will be relatively simple due to the linear geometry.

The conductor 5 may be formed from the sides of the turns of the coil, the outer part of which is located outside the stator.

The machine can operate on self-excitation, when the excitation current is created by means of a step-down transformer and rectifier connected to the core winding.

When powered by an alternating current conductor 5, the machine will provide modulated voltage.

It is possible to design a machine in which the bags 8 and 9 are fixed and the cores 2 (the coils rotate around an axis.

The proposed synchronous electric machine has a relative mass, i.e., a mass per unit of power, less than in the prototype, approximately 1.5 times, due to a decrease in the diameter of the active zone and the outer diameter of the machine due to the absence of frontal parts of the root winding and an increase in induction in the gap pz in the absence of teeth on the cores.

Claims (1)

Invention Formula Contactless synchronous electric car by author. St. No. 610254, characterized in that, in order to reduce the mass per unit of washing, the stator sectors are broken in the form of laminated axially cores, the core winding is made in the form of coils, which are placed on the cores, and the number of cores is equal to the number of pole protrusions of the rotor. yut.i W