SU658666A1 - Electric machine stator - Google Patents

Description

I

The invention relates to electrical engineering and relates to the cooling of electrical machines.

Known stator of an electric machine, having a magnetic core with channels with different cross-section 1J.

The disadvantage of this design of machines is the uneven distribution of temperature along the length of the stator magnetic circuit, reaching large values.

A stator of an electric machine is also known, having a magnetic core with radial channels and communicating with the latter axial channels located above the back of the magnetic circuit and in the magnetic core, one of which is located on both sides of the radial channels and have a different cross-section 2.

However, the known design does not provide for the cooling of the hottest section of the magnetic circuit.

The purpose of the invention is to improve the cooling of the stator magnetic core by redistributing the cooling agent but its length in the axial ventilation channels.

The goal is achieved by the fact that the axial channels with different cross-sections are located in the magnetic core to form an H-shaped longitudinal section with the other mentioned channels.

The drawing shows an electric machine, a longitudinal section.

In the left part 1 of the stator magnetic circuit there are axial ventilation channels 2 of a larger section than the axial ventilation channels 3 in the right part 4. Axial ventilation channels 2 and 3 communicate with radial ventilation channels 5 made in the stator magnetic conductor between the channels 2 and 3.

The circulating flow of the internal agent is carried out by the pressure element 6 located on the shaft 7 of the rotor 8.

Through the tubes 9 of the cooler 10, the outside air is forced through to the pressure elements 11.

The cooling agent of the pressure elements 6 is supplied to the annular space of the air cooler 10 and after cooling enters the axial ventilation ducts 12 located above the back of the magnetic duct and the chamber 13 of the frontal connections

Singing 14 oOmotki stltora. I. - channels 12 one part of the flow of cooling agent enters the channels 5 of the stator magnetunit, and the other part — into the chamber 15 of the lobonal connections 16 of the stator winding.

From the chamber 13, the cooling agent enters the channels 3 of the right part 4 of the stator magnetic core and the axial ventilation channels 17 of the rotor 8.

From channels 3 and 5, the cooling agent enters the channels 2 of the left part 1 of the stator magnetic circuit, and then ns channels 2 and. 17th century the chamber is 15 frontal connections 16, from where it enters the pressure element 6. All channels form in a longitudinal section an H shape.

The execution of an axial ventilation channels in one part of the stator magnetic circuit of a stator than in another allows a greater amount of cooling agent to flow through the axial ventilation channels of the left part of the stator magnetic circuit than that through the axial ventilation channels of the right part, i.e. into that part of the stator magnetic circuit, which is in a thermal state, as a result of which a greater telome and more uniform distribution are depleted ture along the length of the stator winding mzgnitonrovoda.

Claims (2)

1. USSR Author's Certificate No. 278837, cl. H 02 K 9/02, 1966. 2. Patent of the USSR No. 238450, cl. H 02 K 9/16, 1967. ten 17