SU1665462A1 - Device for feeding coolant into hollow conductors of a turbine generator rotor winding - Google Patents

Abstract

The invention relates to electrical engineering. The purpose of the invention is to increase reliability. The device comprises a cylinder 1 with a free end surface 2. On the inner surface of the cylinder 1 there are annular pressure grooves 3 - 5 separated by walls 6. In the wall 6 an additional groove 7 is made, connected by channel 8 with a hole 9 on the end surface 2. In grooves 3 - 5 through pipes 11-13, water is supplied with different temperature. In case of overflow of the groove 3 with water, the surplus through the groove 7, the drain channel 8 and the opening 9 is thrown into the external environment. Eliminating the mixing of water at different pressure slots improves the cooling of the winding, which achieves the objective of the invention. 1 il.

Description

The invention relates to electrical engineering, relates to devices for supplying a coolant to the hollow conductors of a rotor winding of a turbogenerator, and can be used in industries that require a supply of fluid having a different temperature.

The aim of the invention is to increase reliability by eliminating the mixing of fluid from different slots.

The drawing shows a device for supplying coolant to the hollow conductors of the rotor winding of the turbogenerator, a longitudinal section.

The device contains a cylinder 1 with a free end surface 2. On the inner surface of cylinder 1 there are pressure annular grooves 3,4.5, separated by annular walls 6. In walls 6 between pressure grooves 3 and 4, an additional groove 7 is made, connected by means of a drain channel 8 with an opening 9 on the end surface 2 of cylinder 1. The outlet 9 of the drain channel 8 is located on a smaller radius with respect to the inlet of the drain channel 8 The next wall 6 has a protrusion 10. having an internal diameter smaller than edyduschey wall 6.

When the number of pressure grooves is more than two walls with an additional groove 7 and the protrusion 10 alternate.

The water in the slots 3, 4, 5 is supplied through pipes 11, 12, 3, and the water temperature at the entrance to each pipe is different. The device works as follows.

ABOUT

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Cooling water is supplied under pressure to each pressure slot 3.4, 5, respectively, through pipes 11, 12, 13, and at the entrance to each pipe water has a different temperature ti.ta.ta. In case of overflow, the grooves 3 with water at the inlet temperature ti, the excess water with temperature ti does not enter the groove 4, since the projection 10 prevents it, and this surplus enters the additional groove 7 and through the drain channel 8 and the hole 9 under the action of centrifugal force will be thrown into the external environment

The location of the inlet and outlet openings of the drain channel 8 at different levels makes it possible to create, during rotation of the rotor, a hydraulic lock that prevents air leakage, which helps to reduce noise when ejecting liquid,

The advantage of the invention is that the mixing of water from different pressure slots is eliminated, as a result of which water flows into each group of conductors.

with the required inlet temperature, which allows to improve the cooling of the winding, and thereby increase the reliability of the turbogenerator rotor,

Claims (1)

Invention Formula Device for supplying coolant to the hollow conductors of the rotor winding of the turbogenerator and draining them, which is installed at the end of the rotor coaxially with it is a hollow cylinder with annular, connected on one side with the conductors, grooves on the inner surface and the fluid supply tube into the indicated grooves, characterized in that increase reliability by eliminating mixing of fluid from different grooves; the hollow cylinder is made with additional annular grooves located between said annular grooves and channels inclined to the rotor axis in the direction of its end, which are connected with additional grooves and draining the fluid. H g - s / - h iJ, tL1  pa na