TH76943B - Process and regeneration of distorted parts at the gas turbine vane plate. - Google Patents

Abstract

Methods and regenerators of distorted parts of the turbine vane for gas turbine engines such as low-pressure ventricle discs and especially the chera parts. The inner shroud is compared with its outer shroud to achieve the original design position and size.

Claims (3)

1. Method of reconciliation of the size of a vane segment with an outer shroud, an inner shroud and a number of airfoils filed between there. Where the inner ceramic part has been moved in a relative distortion direction With the outer cherid due to work in a gas turbine engine. The above method consists of heating the vent to a temperature within the range of 1600 ° F to 2050 ° F, firmly clamping the said outer ceramic portion of the vent to the fixed attachment point. one Fixed to the base In order to prevent the movement between the outer certs and the base, the drive of the inner certs away from the base in the direction opposite to the The direction of such distortion until the inner ceramic part reaches the specified distance. In advance from the said base To allow the vent to cool. And part discharge The aforementioned outer certs of the said vent portion from the first attachment 2. Method of Clause 1 where the process of heating the said vent portion until Temperatures within the range of 1600 ° F to 2050 ° F are included by making the vane part. The temperature was heated to within the range 1925 ° F to 1975 ° F. 3. Method of Clause 2, where the outer shroud included a number of rails extended from there and the clamping process for the chera. The outside side of the said sheet. Firmly into the aforementioned mounting parts that are attached to the base, assembled by clamping Hold at least one such rail in the said retainer. 4. Method of claim 3 where the procedure for allowing the said vent to cool. It consists of allowing the said vent to cool to the ambient temperature. 5. Method of claim No. 4 where such inner shroud includes flanges extending from there. This includes the mounting bolt holes that pass there and the specified distance has been made. This is provided when the mounting bolt hole is aligned with the pin in the second mounting bracket that is attached. With the base. 6. Method of claim 5, where the procedure for the release of the outer Cherald. Of the veneer section from the first anchoring part is followed by the process of drilling the holes in the mounting bolts. It is a predetermined large diameter hole. Inserting a cylindrical plug into a hole with Such large diameter Welding of the plug into the large diameter hole and drilling through the plug to replace the mounting bolt hole 7. Clause 1 method also includes clamping the chera. Inside 8. Method of Clause 7 where the clamping of the inner shroud is removed. The inner shroud is accomplished by aligning the locking pinholes through the mounting bolts. The inner shroud and the keyway in the face plate of the inner shroud. 9. Machine for returning the size of the vane segment with the outer shroud portion. Inside (inner shroud) and a number of airfoils filed between there, where the inner shroud was moved in a distorted direction. Compared with the outer cherid due to work in a gas turbine engine. Such a machine that It consists of a base, an outer shroud attachment that is attached to the base. Retainer part The inside that was fixed to the base. And compression equipment that is attached to the base under the Sherard attachment. Inside such Where the outer shroud retainer is designed to receive and seize the cheroid. The aforementioned exterior of the said webbing part is removable. And an internal cheroid attachment It is designed to accept the aforementioned inner shroud of the slidable vent portion 1 0. Clause 9 of Clause 9 where the aforementioned outer shroud includes the side plate clamping plate. The bottom is arranged directly under the gripping plate, the base plate and the guide bolts. Fixed to the said base plate Where the grip plate slides on the guide pin towards the base plate 1 1. Device of Clause 10, where the aforementioned outer shroud includes a number of rails extending from there, and the aforementioned gripping plates, including the gripping faces facing the said baseplate. The base plate includes the base plate surface facing the gripping plate. And both clamping plates And the said base surface, including the contour, which corresponds to at least one such rail, so that when at least one such rail is clamped to the outer shroud retainer. The force exerted by the gripping plate and the base to one or more of the rails. Scattered to avoid permanently deforming at least one of the rails 1 2. Device of Clause 11, where the inner shroud retainer includes the front, back plate and the spacer which maintains such front plate in such a way that it is away from it. Determine the space between them, which is wide enough to accommodate that inner shroud of the sheet segment. The Venetian can slide freely when one or more of the rails are clamped to the Cherard retainer. Outside as mentioned 1 3. Machine of claim 12, where the compression device, including the piston and the compression block, is attached directly to the top end of the piston under the gap and the top surface of the compression block. Is contoured so that it is flush with the lower face of the section Such a inner shroud