SU542305A2 - Electric machine with deep cooling - Google Patents

Description

the cooling agent is located in the vacuum object stub.,

FIG. 1 shows the rotor of the electric machine in the area of the cylindrical rims of the plug in longitudinal section; in fig. 2- j rotor in the zone of the bottom of the plug in the pryudal section; in fig. 3 - the rotor in the zone of the cylindrical shells of the plug in cross section; in fig. 4 - the movement of the exhaust cooling agent. The proposed electric machine has a rotor containing a non-magnetic cylinder 1 placed on a winding 2 fixed in frame 3. The non-magnetic cylinder 1 is wrapped around insulating screens 4 and 5. A vacuum field & 6 is formed between the screens and cylinder 1 The two coaxial cylindrical shells T and 8, hermetically connected to the bottom 9 and 1O, are shaped like a cup in longitudinal section and form an additional cavity 11 in which the end parts of the winding are placed. The edge 12 is connected to the sealing ridge 13 by the enclosure 14. Thus, a chamber 15 is formed adjacent to the ridge 13, which is a continuation of the external volume 16 of the heat insulating plug, in which between the cylindrical shells 7 and 8 and the bottoms 9 and 10 there is a heat shield 17 with tubes 18 fixed on it connecting the cavity 19 with the chamber 20. On the outer surface of the shell 7 there are ribs 21, which organize the movement of the cooling agent as it passes along the non-magnetic cylinder 1. When installed, a heat insulating plug is installed in the rotor and it is pre-cooled, for example, by filling the vacuum volume 16 with liquid nitrogen. After the evaporation of nitrogen and the evacuation of the vacuum volume, the temperatures of the mating surfaces are equalized, resulting in a seal between the ridge 13, the fins 21, and the non-magnetic cylinder 1.

Claims (1)

In this case, through pipes 18, enters chamber 20, from which it passes to the exit from the rotor through a channel formed by the inner surface of the non-magnetic cylinder 1 and the outer surface of the shell, cooling the corresponding portion of the non-magnetic cylinder and thereby blocking the heat gain to the inside of the rotor. Thus, as a result of the fact that each plug is made with an additional cavity for accommodating the end, the outwinding parts of the winding, the axial size of the rotor is reduced and spaced. The placement of tubes in the vacuum volume of the plug ensures that the exhaust cooling agent passes through without increasing its consumption. Practically, for example, for a turbogenerator with a capacity of 20,000 kw, shells are required in the order of 500 mm, and the distance between the heads of 9 and 1O is only 50 mm. Thus, in the present invention, taking into account, chgo. heat insulating caps 2 pieces, the reduction of the length of the burner is equal to 2 (500-5О) 9OO mm. With the length of the active part of the rotor 2 OOO mm reduction is 45%. Invention Formula Electric machine with deep cooling according to aut. St. No. 262240, tolichausha so that, in order to improve the weight and size parameters by reducing the axial size of the rotor while maintaining the flow rate of the cooling agent, each of the caps is made with an additional cavity in which the end is placed. parts of the winding, and tubes for removal of the cooling agent are located in the vacuum volume of the plug. Sources of information taken into account in the examination: Aut. St. No. 262240, cl. H 02 K 9/16, 1968 1 13 20 2 5 78 S 6 7 8 ,, ,, ,, ,, ,,. L / I        L y /// l // y / y // l // y //} / L l //// y // X / / A ,, / SL., L ,,, X ,,,,,, ,,,, II , // // / / L // l // l ////////// t / 7. at k h lkuuu h hh h h y h h h h h k ig.7 77 A // 7 / Y, j  , .A UTT  / g t.T.T JL H h V U V / .A.,.    -y i-f. f ( .f i 75 77