RU2258998C1 - Oil bath of water-wheel generator thrust bearing - Google Patents

Abstract

FIELD: electromechanical engineering.

SUBSTANCE: proposed oil bath has U-shaped oil-cooler sections whose water lines are interconnected through pipe connections disposed inside bath body and rigidly fixed to body walls. Installed in top part of oil bath body are annular pipelines for cooling water supply and drain; each pipe connection is divided into two parts and one of them communicates on one end with annular water supply pipeline and other part communicates on one end with annular water drain pipeline.

EFFECT: enhanced efficiency of oil cooling in thrust-bearing oil bath, enhanced operating reliability of the latter.

1 cl, 2 dwg

Description

The invention relates to the field of electrical engineering and is intended for use, in particular, in the oil baths of the bearings of hydrogenerators.

The closest technical solution to the claimed one - the prototype - is the oil bath of the hydrogenerator foot (A.S. USSR No. 279770, N 02 K 5/16, 1970) with built-in U-shaped sections of oil coolers connected by water through pipes located inside the housing bathtubs and rigidly connected to the walls of the housing.

The disadvantage of this oil bath of the thrust bearing of the hydrogenerator is the insufficient efficiency of cooling the oil in the oil bath of the thrust bearing, because the pipes located inside the oil bath that connect the oil cooler sections to water provide a sequential passage of cooling water from one oil cooler section to another, which reduces the cooling efficiency of the oil in each subsequent oil cooler section. A decrease in the reliability of this oil-bearing thrust bath is also associated with this, since in the event of a malfunction in one of the sections of the oil cooler, it is necessary to stop the hydrogenerator and repair this section of the oil cooler, and only after its repair can the hydrogenerator be put into operation.

The objective of the present invention is to improve the cooling efficiency and reliability of the oil bath of the thrust bearing of the hydrogenerator.

The technical result is achieved by the fact that the oil bath of the hydrogenerator foot contains integrated U - shaped sections of oil coolers, connected through water by means of nozzles placed inside the bath body and rigidly connected to the walls of the body, while ring pipelines are installed inside the oil bath body in its upper part supply and discharge of cooling water, and each nozzle is divided into two parts, the end of one of which is connected via water to the ring water supply pipeline, and the end of the other part is connected by ode annular drain water conduit.

The proposed oil bath of the thrust bearing of the hydrogenerator is shown in the drawings, where in Fig.1 is a vertical section of the oil bath of the thrust bearing; figure 2 is a horizontal section a - a in figure 1.

In the oil bath of the thrust bearing plate, U - shaped sections of oil coolers 1 are located in the openings of the walls 2 of the oil bath and are attached to them by their pipe boards 3 through gaskets 4. Inside the oil bath in its upper part there are two annular pipes 5 and 6, one of which is 5 annular a water supply pipeline from which cooling water is supplied to the oil cooler sections, and the other 6 is used to drain water from the oil cooler sections and is an annular water drain pipe. Each connecting pipe connecting adjacent sections of oil coolers inside the oil bath, the pipe is divided into two parts, one of which 7 from the wall 2 of the oil bath is directed to the annular water supply pipe 5 and connected to it, and the second part 8 from the wall of the bath 2 is directed to the annular water discharge pipe 6 and connected to it. The annular pipelines 5 and 6 can be located either completely or partially in the oil layer, or outside it. The pipelines themselves can be fixed in the bath, for example, to its upper disk with conventional trims.

During the operation of the hydrogenerator, cooling water from the annular water supply pipe 5 through one part of the pipe 7 enters the oil cooler section, and then from the section through the other part of the pipe 8 returns to the ring water drain 6.

Thus, in each section of the oil cooler, cooling water directly enters from the annular water supply pipe 5, and then goes to the water discharge pipe 6, i.e. all sections of the oil coolers are connected to the water supply and drain pipelines in parallel and cooling water with the same temperature enters each section of the oil cooler, which makes it possible to most effectively cool the oil in the oil bath of the thrust bearing. In this case, in case of damage to one of the sections of the oil cooler, this damaged section can be dismantled and sent for repair, and instead a temporary gasket is installed, similar to the tube plate of the oil cooler section only without a hole at the location of the end of the pipe in the wall hole, i.e. during the repair of the oil cooler section, the hydrogenerator can operate to provide power generation. The annular water supply and drain pipelines located in the upper part of the thrust bearing oil bath in the oil additionally cool the oil and reduce the formation of oil vapors in the oil bath, and when they are positioned above the oil, oil vapor condensates on them and their penetration into the hydrogenerator on the stator and rotor windings is reduced , thereby increasing reliability. Being in the oil, the water supply and discharge pipelines can reduce the number of cooling tubes in the oil cooler sections and their dimensions, and therefore the dimensions of the oil bath, and also allow to increase the duration of the hydrogenerator when the cooling water supply is stopped.

Thus, this device allows to increase the efficiency of cooling the oil in the oil bath of the thrust bearing and the reliability of its operation.

Claims (1)

An oil bath of a hydrogenerator foot with integrated U-shaped sections of oil coolers connected by water through nozzles located inside the bath body and rigidly connected to the walls of the body, characterized in that ring pipes for supplying and draining cooling water are installed inside the oil bath body in its upper part, and each nozzle is divided into two parts, the end of one of which is connected via water to the annular pipeline of water supply, and the end of the other part is connected by water to the ring pipeline of wa water.

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