SU1089710A1 - Core of magnetic circuit of electric machine - Google Patents

Abstract

1. CORE OF MAGNETIC WIRE OF ELECTRIC MACHINE, having packages laminated from steel sheets, radial ventilation channels located between packages. and turbulators located on the inside of the ventilation channels and located on their walls, characterized in that, in order to increase cooling efficiency and reduce ventilation losses, the turbulators are made in the form of a series of semicircular protrusions 5-10% high of the channel width and arranged along concentric circles on the outermost sheets of the packages from the bore to the periphery of the core. 2. A core according to claim 1, characterized in that said protrusions on opposite extreme sheets of one ventilation duct (L la are made with mutual displacement. 00 co.

Description

The invention relates to electrical engineering, and more specifically to electrical engineering, and can be used in the manufacture of coolant gas cores of the magnetic conductor of large electric machines. The design of the core of the magnetic circuit of an electric machine laminated from steel sheets is known, in which: holes are formed that form axial ventilation channels. The flow of cooling gas passing through the axial channels removes the losses generated in the core of the magnetic circuit. Such a design of the core in large electric machines does not provide effective cooling due to uneven heat dissipation caused by the heating of the gas in a long channel, and also leads to a large valve losses due to the large hydraulic resistance of the long channels in the core. Also known is the core of the magnetic wire of an electrical machine, having packets made of steel sheets, e adialnye vent channels disposed between the inwardly facing paketag and air passages, and arranged on the walls of the channel turbulators 2J. However, in this design, there is no turbulization of flow over the entire surface of the package, but the ventilation losses are significant. The purpose of the invention is to increase the cooling efficiency of the core of the electric machine and reducing ventilation losses. To achieve this goal in the core of the electric machine having laminated sheets of steel sheets, radial ventilation channels located between the packages and facing the inside of the ventilation ducts; 1) and placed on their walls ah turbulizaFory, the latter are formed as a series of semicircular projections a height of 5-10% of the channel width and are arranged in concentric okra "m worn on the outer sheets hibernation packets from growing toward the periphery of the core. The said protrusions on the opposite extreme sheets of one fan-1cc channel are made with mutual displacement. Large protrusions are performed at gas velocities in the channel up to 15 M / Cj and smaller protrusion height at speeds of 20 m / s and above. Such an embodiment of the extremely 1x sheets of the package allows to obtain a turbulent gas movement in the surface layer and thereby increase heat transfer from the surface of the package facing the radial ventilation duct without increasing gas consumption and ventilation losses in the channel. FIG. shows the core of the electric machine of the electric machine, a longitudinal section; in fig. 2 - rass A-A in FIG. 1; FIG. 3 is the node in FIG. Fig. 4 shows the same embodiment. The core of the magnetic circuit consists of packages laminated from sheets 2, Struts 3 installed between packages 1 form radial ventilation channels 4 On the extreme sheets 5 of packages 1, a series of semicircular projections 6 are made, facing inward the radial ventilation drip 4 having a height of 5-10 % of the width of the channel 4 and located perpendicular to the p axis; each ventilation shaft 4 formed between the spacers 3. These protrusions 6 on the opposite extreme sheets 5 of one ventilation channel 4 can be performed in chessboard In order (FNG-4), the losses generated by the core of the magnetic core are transmitted through the surface of the extreme sheets 5 to the cooling gas moving in the radial channel 4. The cooling gas in the radial ventilation cap 4 moving along the surface of the extreme sheets 5 rises on on its way, the protrusions 6 breaks down from them and forms whirlwinds. The vortex slides along the smooth surface of the sheet 2 and by the time of its dissolution it comes across the next protrusion 6, in the last picture is repeated,. Such turbulization cooling of its gas at the boundary of the vortex region leads to intensive heat exchange. The implementation of alternating BbiCTynoB in the extreme sheets of the packets allows for the advancement of the growth of the tagshoot

Claims (2)

1. CORE OF THE MAGNETIC WIRE OF THE ELECTRIC MACHINE, having bursts of steel sheets, radial ventilation ducts located between the bundles and facing the inside of the ventilation ducts and located on their walls, turbulators, characterized in that, in order to increase cooling efficiency and reduce ventilation losses, turbulators made in the form of a number of semicircular protrusions with a height of 5-10 !? from the width of the channel and are arranged in concentric circles on the extreme sheets of packets from the bore to the periphery of the core. 2. The core according to π. 1, characterized in that the said protrusions on opposite extreme sheets of one ventilation duct are made with mutual displacement. (rig. 1