KR19980030965A - Gas turbine engine - Google Patents

Abstract

Start the gas turbine engine. A cap member having an output shaft supported by the engine body, a drawing shaft splined to the output shaft, screwed into the output shaft and a through hole through which the drawing shaft passes, and preventing the drawing shaft from being separated from the output shaft; It is characterized by including a seal member interposed between the cap member and the end of the output shaft, which can simplify the support structure of the lead shaft.

Description

Gas turbine engine

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a gas turbine engine, and more particularly, to a gas turbine engine having an improved coupling structure between a power output shaft and a drawing shaft.

The gas turbine engine has a compressor that multi-stages the air, a combustor that generates high-temperature, high-pressure gas by injecting fuel from the nozzle into the high-pressure air supplied from the compressor, and obtains a rotational force by using the gas generated in the combustor. Includes a turbine.

In the engine configured as described above, the disk of the turbine is rotated by the high temperature and high pressure gas obtained by mixing and burning high pressure air and fuel in the combustor from the compressor. Part of the power obtained by the rotation of the disk is used to drive the compressor, and surplus power is transmitted to an external device for driving through the drawing shaft connected to the output shaft of the engine.

1 shows a mounting state of the drawing shaft connected to the output shaft of the gas turbine engine for drawing power.

As shown, the inner circumferential surface of the hollow 10a formed at the end of the output shaft 10 is formed into a spherical surface having a predetermined curvature, and the first spline 11 is formed in the longitudinal direction. An end of the drawing shaft 20 coupled to the output shaft 10 is formed in a spherical shape, and a second spline 21 is formed along the spherical surface and inserted into the hollow 10a of the output shaft 10. In addition, the drawing shaft 20 is rotatably supported at a central portion thereof by the support means 30 installed on the main body of the gas turbine engine. The support means 30 includes a bearing housing 31 installed in the direction parallel to the output shaft and a bearing support 32 surrounding the lead shaft 20, an outer circumferential surface of the bearing support 32, and a bearing housing ( 31 and a plurality of bearings 33 provided between the inner circumferential surface. A spring housing 34 interposed between the bearing housing 31 and the bearing support 32 to contact the outer ring of the bearing, a spring 35 inserted into the spring housing, and an end of the spring; And a snap ring 36 engaged with the groove formed in the end of the bearing housing 31. In addition, a lubricating oil supply pipe (not shown) for supplying lubricating oil to the bearing is connected to the bearing housing.

The combination of the conventional output shaft 10 and the extraction shaft 20 configured as described above is spline-coupled with the output shaft 10 in a state in which the central portion of the extraction shaft is supported by a separate support means 30 and the output shaft 10. The coupling structure of the lead shaft 20 is complicated, and there is a hassle to install a separate supply pipe for supplying lubricant to the bearing of the support means. In addition, there is a problem in that the installation area of the drawing shaft becomes wider and the structure for power transmission becomes larger.

The present invention has been made to solve the above technical problem, and an object thereof is to provide a gas turbine engine having a simple coupling structure of an output shaft and a drawing shaft of an engine and a simple lubricating oil supply.

1 is a cross-sectional view showing a coupling state of a conventional output shaft and the extraction shaft,

2 is a cross-sectional view showing a coupling portion between the output shaft and the drawing shaft of the gas turbine engine according to the present invention;

3 is a cross-sectional view showing a coupling state of the output shaft and the drawing shaft shown in FIG.

Brief description of symbols for the main parts of the drawings

40; output shaft 50; drawing shaft

52; A cap member 54; Seal

The present invention to achieve the above object,

A cap member having an output shaft supported by the engine body, a drawing shaft splined to the output shaft, a through hole coupled to the output shaft and passing through the drawing shaft to prevent the drawing shaft from being separated from the output shaft; And a seal member interposed between the end of the output shaft.

In the present invention, the spline coupling is a hollow spherical surface is formed at the end of the output shaft and the first splines having a spherical curvature are formed along the inner surface of the hollow, is formed at the end of the extraction shaft and coupled to the hollow It is configured to include a second spline coupled to the first spline on the outer peripheral surface.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

In the gas turbine engine according to the present invention, the coupling between the disk of the turbine and the output shaft and the extraction shaft provided with the impeller of the compressor is shown in FIGS. 2 and 3.

As shown in the end of the output shaft 40 has a hollow formed in the inner surface is spherical, the end of the drawing shaft 50 has the same spherical surface as the sphere inside the hollow, the hollow inner surface and the withdrawal shaft 50 A plurality of first and second splines 41a and 51a, which are meshed with each other, are respectively formed at the ends of the ends. In addition, a cap 52 having a through hole 52a through which the drawing shaft 50 coupled to the output shaft 40 penetrates is screwed at the end of the output shaft 40, and an end of the output shaft 40 is capped. The seal member 54 is installed between the flange portion of the member 52, that is, the flange portion 52b formed at the edge of the through hole 52a. The seal member 54 preferably forms a groove along the inner circumferential surface so as to contain the lubricant. Reference numeral 60 denotes an input shaft of the gearbox, and 70 denotes a lubricating oil supply pipe for supplying lubricating oil to the same drawer of the drawing shaft.

In the gas turbine engine according to the present invention configured as described above, power transmitted from an output shaft is transmitted through a spline-coupled withdrawal shaft, and the line-lined withdrawal shaft is capable of rotating at a predetermined angle, and is connected to a cap member screwed to the output shaft. This makes it possible to prevent the departure of the drawing shaft.

The combination of the output shaft and the extraction shaft as described above has a simple support structure of the extraction shaft, and there is no intermediate support portion of the extraction shaft, thereby simplifying the lubricating oil supply structure for this portion.

Claims (2)

A cap member having an output shaft supported by the engine body, a drawing shaft splined to the output shaft, a through hole coupled to the output shaft and through which the drawing shaft passes, and preventing the drawing shaft from being separated from the output shaft; A gas turbine engine comprising a seal member interposed between a member and an end of an output shaft. The method of claim 1, The spline coupling is a hollow spherical surface is formed at the end of the output shaft and a first spline having a curvature of the spherical surface is formed along the inner surface of the hollow, the end of the extraction shaft is coupled to the hollow and the first spline on the outer peripheral surface Gas turbine engine comprising a second spline coupled to