Aero gas turbine engine with speed reduction gearbox

Abstract

A lay shaft assembly for a speed reduction gearbox in a geared turbofan gas turbine engine, the lay shaft assembly having an output gear formed on a lay shaft as a single piece, and an input welded gear formed as a separate piece that is welded to the shaft in close proximity to the output gear. The output gear is machined and precision-ground prior to welding the input welded gear to the lay shaft so that the two gears can be located in close proximity. The input welded gear is precision-ground after the gear has been welded to the shaft.

Claims

1. A process for forming a lay shaft of a speed reduction gearbox comprising the steps of: forming an output gear with an output gear blank as a single piece; machining teeth in the output gear blank; machining teeth on an input welded gear blank where the input welded gear blank has a greater diameter than the output gear blank; heat treating the output gear with the machined teeth and the input welded gear with the machined teeth; precision-grinding the teeth on the output gear; welding the input welded gear with the machined teeth to the lay shaft in close proximity to the output gear such that the machined teeth on the output gear could not be ground with the input welded gear welded on the lay shaft; and, precision-grinding the machined teeth on the input welded gear.

2. A lay shaft assembly for a speed reduction gearbox comprising: a lay shaft with an input welded gear and an output gear; the input welded gear has a greater diameter than the output gear; the input welded gear is in close proximity to the output gear; and, the lay shaft assembly is formed according to claim 1.

Description

BRIEF DESCRIPTION OF THE SEVERAL VIEWS OF THE DRAWINGS

(1) FIG. 1 shows the lay shaft and two separate gear blanks according to the present invention.

(2) FIG. 2 shows the lay shaft with the two separate gears with machined teeth on both gears according to the present invention.

(3) FIG. 3 shows the two separate gears after heat treatment.

(4) FIG. 4 shows the output gear with precision ground teeth according to the present invention.

(5) FIG. 5 shows the assembly in a fixture with the welded gear attached to the shaft.

(6) FIG. 6 shows the lay shaft with the welded gear having precision-ground teeth.

(7) FIG. 7 shows an isometric view of the lay shaft gear set of the present invention.

(8) FIG. 8 shows a schematic view of a geared turbofan engine with the lay shaft gear set of the present invention.

DETAILED DESCRIPTION OF THE INVENTION

(9) The present invention is a geared turbofan gas turbine engine for a small aircraft such as a UAV in which a speed reduction gearbox is used to reduce the speed of the gas turbine output shaft. The gearbox incorporates an intermediate lay shaft gear set formed from two separate gears that are machined in the unassembled state where the welded gear is precision-ground after it has been welded to the output gear to form a compact gear assembly with the two gears as close together as possible.

(10) The process starts with two gear blanks that include the lay shaft 11 with an output gear blank 12 and a separate input welded gear blank 13. The output gear blank 12 is formed integral with the lay shaft 11 but could be formed as a separate piece that is then secured to the lay shaft 11. FIG. 1 shows the lay shaft 11 with the output gear blank 12 and the separate welded gear blank 13.

(11) The gear teeth on both the output gear 12 and welded gear 13 are then machined with the two gears still separated as seen in FIG. 2 with the machined output gear teeth 14 and the machined input gear teeth 15. The machined output gear teeth 14 and the machined input gear teeth 15 are then both heat treated to a specified hardness of the gears.

(12) FIG. 3 indicates the heat treatment step in which the lay shaft 11 and both gears 12 and 13 are heat treated.

(13) In the next step in FIG. 4, the machined teeth 14 of the output gear 12 are then precision-ground to form the output teeth 16. The welded or input gear 13 with the cut teeth 15 is then welded to the lay shaft 11 in close proximity to the precision-ground output gear 12 using fixturing 18 as seen in FIG. 5. The machined teeth 15 on the welded input gear 13 are then precision-ground to form the finished input welded gear teeth 17 as seen in FIG. 6. Thus, the smaller diameter output gear teeth 16 are both machined and precision-ground on the lay shaft 11 while the larger diameter input gear 13 is first machined with cut teeth 15 and then welded to the lay shaft 11 in close proximity to the output gear 12, and then precision-ground to form the finished gear teeth 17 while in place on the lay shaft 11. With this design, the intermediate lay shaft gear set for a speed reduction gear box is formed from two separate gears that are machined in the unassembled state where the welded gear teeth 17 are precision-ground after it has been welded to the lay shaft 11 to form a compact gear assembly with the two gears as close together as possible.

(14) FIG. 7 shows the finished lay shaft assembly 10 with the lay shaft 11, output gear 12 and the output gear teeth 16 and the input welded gear 12 with gear teeth 17. The lay shaft assembly 10 is used as a speed reduction gear set in a gearbox of a turbofan gas turbine engine to reduce the rotational speed from the engine to the fan.

(15) FIG. 8 shows a diagram of a turbofan engine with a compressor 21 driven by a turbine 23 with a combustor 22 that produces a hot gas flow that passes through the turbine to drive both the compressor 21 and a fan 25 of the engine. A speed reduction gearbox 24 is positioned between the engine and the fan to reduce the rotation speed of the engine to the fan 25.