RU191521U1 - GAS REDUCTION ASSEMBLY FOR A GAS TURBINE ENGINE - Google Patents

Abstract

The utility model relates to the field of gas turbine construction and can be used in fastening points of gas outlets. The technical result aimed at achieving this technical solution is to eliminate the displacement of the axis of the gas outlet in the vertical and horizontal directions, by ensuring the possibility of thermal movements of the gas outlet in the longitudinal and transverse directions, as well as simplifying the assembly of the structure, by ensuring the collectability of the gas outlet with the gas outlet casing without additional elements. The th result is achieved by the fact that in the attachment site of the gas outlet of the gas turbine engine containing the gas outlet mounted on the supporting elements, the casing, in contrast to the known supporting elements, includes front, middle and rear supports, each of which contains two brackets mated to each other , one of which is located on the wall of the gas outlet, and the other on the wall of the casing, while in the front support between the brackets there is an articulated bearing, in the middle support one of the brackets has a groove along which the tooth moves rugogo bracket and a rear leg between the bracket and the casing further has laths.

Description

The utility model relates to the field of gas turbine construction and can be used in fastening points of gas outlets.

Closest to the proposed design is a gas turbine engine gas outlet mount (“Gas Turbine Engines”, authors: A. A. Inozemtsev, V. L. Sandratsky, OJSC “Aviadvigatel” Perm, 2006, pp. 590-591) comprising a gas outlet mounted on support elements, a casing. The gas outlet mounting unit also includes a bracket and a linkage system that connects to the gas outlet support elements and frame brackets using spherical bearings. The bracket fixes the gas outlet in the longitudinal and transverse directions, and the vertical link rods in the vertical direction. The gas outlet mounting unit and the gas outlet connection elements with the engine provide the possibility of thermal movements of the gas outlet relative to the engine and the gas turbine engine frame.

The disadvantage of this design is the presence of a displacement of the axis of the gas outlet during thermal movements in the vertical and horizontal directions. Also, to ensure the collection of the product, it is necessary to use additional elements - shims.

The technical result to which this technical solution is directed is to eliminate the displacement of the gas outlet axis in the vertical and horizontal directions, by ensuring the possibility of thermal displacement of the gas outlet in the longitudinal and transverse directions, as well as simplifying assembly of the structure, by ensuring the collectability of the gas outlet with the exhaust casing without additional items.

The technical result is achieved by the fact that in the attachment site of the gas outlet of the gas turbine engine containing the gas outlet mounted on the supporting elements, the casing, in contrast to the known supporting elements, includes front, middle and rear supports, each of which contains two brackets mated to each other , one of which is located on the wall of the gas outlet, and the other on the wall of the casing, while in the front support between the brackets there is an articulated bearing, in the middle support one of the brackets has a groove along which etsya tooth of another bracket, and a rear leg between the bracket and the casing further has laths.

The claimed solution is illustrated by drawings, which depict: FIG. 1 is a structural diagram of a gas distribution module; FIG. 2 - view A; FIG. 3 - view B, FIG. 4 is a cross-section GG, FIG. 5 is a cross section DD, FIG. 6 is a cross-section BB, FIG. 7 - section EE.

The attachment site of the gas outlet of the gas turbine engine (Fig. 1, 2) includes a front support, a middle support and a rear support.

To form a cooling channel that provides the required temperature of the outer surfaces due to ejection blowing, the gas outlet 1 is installed in the casing 2 (Fig. 1). The gas outlet 1 in the casing 2 is installed on the fundamental legs 3 of the object frame.

The gas outlet 1 is installed in the casing 2 on two front bearings (Fig. 4), two middle bearings (Fig. 5) and one rear support (Fig. 7).

The front support (Fig. 4) consists of two brackets 4 and 5. The bracket 4 is attached to the gas outlet 1, the bracket 5 to the casing 2 of the gas outlet 1. The design of the front support uses an articulated bearing 6 to ensure the collection of the gas outlet 1 with the casing 2. The front support fixes gas outlet 1 in the vertical and longitudinal directions and provides freedom of thermal expansion of the gas outlet 1 in the transverse direction.

The middle support (Fig. 5) consists of two brackets 7 and 8. The bracket 7 is attached to the gas outlet 1, the bracket 8 to the casing 2 of the gas outlet 1. The bracket 7 has a groove 9 (Fig. 6), along which the tooth 10 of the bracket 8. moves the support fixes the gas outlet 1 in the vertical direction and provides freedom of thermal expansion in the transverse and longitudinal directions.

The rear support (Fig. 7) consists of a bracket 11, which is attached to the gas outlet 1 and an arm 12, which is attached to the casing 2 of the gas outlet 1. The rear support fixes the gas outlet 1 in the transverse direction, provides freedom of thermal expansion in the longitudinal direction and allows for alignment of the gas outlet 1 with a casing 2 due to the adjustment of the pads 13.

The gas outlet 1 is installed in the lower part of the split casing 2 on the front and middle bearings due to the articulated bearing 6. Next, on the rear support, the gas outlet 1 is aligned with the casing 2 by fitting the plates 13. The upper part of the casing 2 is installed on the lower part of the casing 2, consisting of of two halves, by means of a bolted connection. An adapter is installed on the upper part of the casing 2 to ensure docking with the exhaust system. Then mount the back cover on the casing 2 by means of a bolted connection.

The fastening assembly of the gas turbine exhaust valve works as follows.

During engine operation, the gas vent is heated. The front support fixes the gas outlet 1 in the vertical and longitudinal direction and provides freedom of thermal expansion of the gas outlet in the transverse direction. The middle support fixes the gas outlet 1 in the vertical direction and provides freedom of thermal expansion in the transverse and longitudinal directions. The rear support fixes the gas outlet 1 in the transverse direction and provides freedom of thermal expansion in the longitudinal direction.

Thus, due to the articulated bearing used in the front support, the gas outlet is installed in the gas outlet casing without additional elements, while the grooves used in the middle support are provided along with the longitudinal clearance between the brackets in the back support structure, and the gas outlet can be thermally moved in the longitudinal direction. Due to the presence of a gap between the brackets in the front and middle bearings, the possibility of thermal movements of the gas outlet in the transverse direction is provided. In this case, the axis of the gas outlet is fixed relative to the casing during operation.

Claims (1)

A gas turbine engine gas outlet mounting assembly comprising a gas outlet mounted on support elements, a casing, characterized in that the support elements include front, middle and rear supports, each of which contains two brackets mated to each other, one of which is located on the wall gas outlet, and the other on the wall of the casing, while in the front support between the brackets there is an articulated bearing, in the middle support one of the brackets has a groove along which the tooth of the other bracket moves, and in the rear support ezhdu bracket and the casing further has laths.

Images