RU44148U1 - GAS TURBINE ENGINE - Google Patents

Abstract

The utility model relates to the field of turbine engineering and can be used in gas turbine engines and gas turbine installations, mainly small ones. The technical task of the utility model is to reduce the long dimensions of the engine and its mass, increase the reliability of the generator. The stated technical problem is solved in that the gas turbine engine contains an input device with a cowl, a fan disk with a blade, a hub and a rim, between which an annular recess is formed in the disk, and an electric generator including a stator fixed inside the cowl. New in the utility model is that the generator is displaced along the axis of the engine toward the disk and at least part of the stator is located in the recess on the disk.

Description

The utility model relates to the field of turbine engineering and can be used in gas turbine engines and gas turbine installations, mainly small ones.

Known gas turbine engine containing an input device with a fairing, and an electric generator including a stator mounted on a support of the front bearing. (US Patent No. 3,214,908, CL 60-39.28, filed June 21, 63)

The disadvantages of this design is that it is equipped with its own bearings for the generator, which complicates the design, increases its weight and dimensions.

Also known is a gas turbine engine (British Patent No. 1141001, FIG, application 03.03.65) containing an inlet device with a cowl, a fan disk with a web, a hub and a rim, between which an annular recess is formed in the disk, and an electric generator including a stator fixed inside the fairing.

The generator in such an engine does not have its own bearing units, shaft, springs, which simplifies the design of the engine, reduces its mass and long dimensions. However, the recess on the disk remains free and is not used to place part of the generator stator, which does not allow to further reduce the long dimensions of the engine and its mass.

In addition, the increased length of the cantilever part of the shaft on which the generator rotor is fixed contributes to the bending of this part and, as a consequence, the appearance of an eccentricity of the air gap between the rotor and the stator, which leads to the appearance of large unilateral forces of attraction, which reduces the reliability of the generator.

The technical task of the utility model is to reduce the long dimensions of the engine and its mass, increase the reliability of the generator.

The stated technical problem is solved in that the gas turbine engine contains an input device with a cowl, a fan disk with a blade, a hub and a rim, between which an annular recess is formed in the disk, and an electric generator including a stator fixed inside the cowl.

New in the utility model is that the generator is displaced along the axis of the engine toward the disk and at least part of the stator is located in the recess on the disk.

The accompanying drawings depict the proposed engine.

Figure 1 - a gas turbine engine with a rotor of an electric generator located on the console part of the shaft.

Figure 2 - a gas turbine engine with a rotor located inside the sleeve, and with an offset blade disk.

The gas turbine engine contains an input device with a cowl 1, a fan disk with a blade 2, a hub 3 and a rim 4, between which an annular recess 5 is formed in the disk, and an electric generator including a stator 6 fixed inside the cowl 1 and rotor 7.

The stator 6 and the rotor 7 of the generator are offset along the axis 8 of the engine toward the blade web 2 of the disk and at least part of the stator is located in the annular recess 5 on the disk. In the annular recess 5 can only be located windings 9 of the stator 6 or windings 9 and the magnetic circuit 10.

The rotor 7 of the generator can be fixed outside the cantilever part of the shaft 11 (figure 1) or inside the adapter sleeve 12 (figure 2) connected to the fan disk.

In order to place a large part of the generator stator 6 in the annular recess 5 on the disk, its depth can be increased, for which

it is necessary to shift the blade web 2 along the axis 8 of the engine downstream. The length of the cantilever part of the shaft 11 (Fig. 1) or the length of the adapter sleeve 12 (Fig. 2) in this case is reduced, and the likelihood of their bending is reduced, which reduces the likelihood of vibrations of magnetic origin due to the reduced risk of an eccentricity of the air gap between the rotor 7 and stator 6, leading to the appearance of large forces of unilateral attraction.

This arrangement of the stator of the generator will reduce the long dimensions, the mass of the engine, increase the reliability of the generator.

Claims (1)

A gas turbine engine comprising an input device with a cowl, a fan disk with a blade, a hub and a rim between which an annular recess is formed in the disk, and an electric generator including a stator fixed inside the cowl, characterized in that the generator is displaced along the axis of the engine toward the disk and at least part of the stator is located in a recess on the disk.