CN114083396B

CN114083396B - Mounting method of turbine rotor blade tip grinding adapter clamp

Info

Publication number: CN114083396B
Application number: CN202010857598.1A
Authority: CN
Inventors: 孙磊; 汪俊熙; 欧阳醌
Original assignee: AECC Commercial Aircraft Engine Co Ltd
Current assignee: AECC Commercial Aircraft Engine Co Ltd
Priority date: 2020-08-24
Filing date: 2020-08-24
Publication date: 2022-10-18
Anticipated expiration: 2040-08-24
Also published as: CN114083396A

Abstract

The adapter fixture for the turbine rotor blade tip grinding and the mounting method thereof are provided, so that the high-pressure turbine rotor can be mounted on turbine rotor blade tip grinding equipment for grinding. The turbine rotor comprises a drum shaft at the front end and a rear shaft neck at the rear end, wherein the rear shaft neck is provided with an external thread part and an end face clamping groove at the rear end; the front end clamp is connected with the drum shaft and provides a front cylindrical surface clamped by the clamp of the blade tip grinding equipment; the rear end clamp comprises a switching shaft sleeve, a front flange and a pressed end face, wherein the switching shaft sleeve comprises a connecting ring, the front flange is arranged at the rear end of the connecting ring, the pressed end face is arranged at the rear end of the connecting ring, and the connecting ring is used for being sleeved on the outer peripheral surface of the rear shaft neck and is in interference fit with the outer peripheral surface of the rear shaft neck; the adapter ring comprises a rear cylindrical surface clamped by a clamp of the blade tip grinding equipment, and an end tooth and a rear flange which are arranged at the front end, wherein the rear flange is connected with the front flange through a fastener, and the end tooth is aligned with and meshed with the end surface clamping groove so as to circumferentially stop rotation of the adapter ring; the pressing nut is sleeved on the external thread part at the rear end of the rear shaft neck and is in threaded connection with the external thread part to press the adapter sleeve tightly.

Description

Mounting method of turbine rotor blade tip grinding and adapting clamp

Technical Field

The invention relates to a transition fixture for connecting a turbine rotor to a turbine rotor tip grinding apparatus.

Background

The high-pressure turbine rotor is an important component of an aircraft engine, the blade size of the high-pressure turbine rotor directly influences the performance of the aircraft engine rotor, and in order to guarantee the blade tip size, the high-pressure turbine rotor needs to be ground on high-speed blade tip grinding equipment after being assembled, so that the diameter of the blade and the blade tip jumping are guaranteed. The sizes of the front end of a drum shaft and the rear end of a rear shaft neck of a model high-pressure turbine rotor cannot meet the requirement of being directly installed on a hydraulic clamp of high-speed blade tip grinding equipment, and blade tip grinding clamps are required to be installed at the front end of the drum shaft and the rear end of the rear shaft neck and can be installed on the hydraulic clamp of the high-speed blade tip grinding equipment. The outer diameter of the rear journal exceeds the maximum diameter which can be satisfied by the hydraulic clamp of the equipment, the rear end of the rear journal is free of bolt holes, and after the blade tip grinding clamp is installed, on the premise that axial fixation is guaranteed, the clamp and the rear journal do not rotate circumferentially in work.

Disclosure of Invention

The invention aims to provide a turbine rotor blade tip grinding adapter fixture, so that a high-pressure turbine rotor can be mounted on turbine rotor blade tip grinding equipment for grinding.

In one embodiment of the turbine rotor blade tip grinding adapter fixture, the turbine rotor comprises a front drum shaft and a rear journal, the rear journal being provided with an external threaded portion and an end face slot at its rear end; the front end clamp is connected with the drum shaft and provides a front cylindrical surface clamped by the clamp of the blade tip grinding equipment; the rear end clamp comprises a switching shaft sleeve which comprises a connecting ring, a front flange arranged at the rear end of the connecting ring and a pressed end face at the rear end of the connecting ring, and the connecting ring is sleeved on the outer peripheral surface of the rear shaft neck and is in interference fit with the outer peripheral surface of the rear shaft neck; the rear end of the blade tip grinding device is provided with a clamping groove, and the clamping groove is provided with a rear cylindrical surface; the rear end clamp comprises a compression nut which is sleeved on the external thread part at the rear end of the rear shaft neck, is in threaded connection and is pressed on the pressed end face so as to compress the switching shaft sleeve.

In an embodiment of the turbine rotor blade tip grinding and transferring clamp, a front end of the front end clamp is connected to a front end lifting appliance, and a rear end of the adapter ring of the rear end clamp is connected to a rear end lifting appliance.

In one embodiment of the turbine rotor blade tip grinding adapter fixture, the front flange and the rear flange are in surface-to-surface contact and are connected in a spigot joint, and then are connected and fastened by a fastener.

In an embodiment of the method for mounting the turbine rotor tip mill adapter jig,

providing the adapter clamp for the tip mill of the turbine rotor;

heating the adapter sleeve, and keeping the temperature for a certain time to ensure that the adapter sleeve can be in clearance fit with the rear shaft neck;

mounting the adapter sleeve on the rear journal, and determining a circumferential mounting angle of the adapter sleeve;

installing the compression nut to compress the adapter sleeve;

after the adapter sleeve returns to the room temperature, the compression nut is screwed again;

in the process of mounting the adapter ring on the adapter shaft sleeve, aligning the end teeth on the adapter ring and the end face clamping groove of the rear shaft neck at the same time, and connecting the front flange and the rear flange by using bolts to fix the adapter ring on the adapter shaft sleeve;

connecting the nose clip to the drum shaft.

In one embodiment of the installation method, an angular positioning element is selected before installing the adapter sleeve on the rear journal, the angular positioning element having an elongated portion, and the angular positioning element is installed on the front flange of the adapter sleeve;

and under the condition that the elongated part of the angular positioning piece can be aligned with the end face clamping groove of the rear journal, mounting the switching shaft sleeve on the rear journal, and determining the circumferential mounting angle of the switching shaft sleeve.

In one embodiment of the installation method, locating pins are provided on the front flange and locating pin holes are provided on the rear flange; and in the process of mounting the adapter ring on the adapter shaft sleeve, aligning the positioning pin and the positioning pin hole, and simultaneously aligning the end teeth on the adapter ring and the end face clamping groove of the rear shaft neck.

Through interference fit, the tooth's socket aligns the compressing tightly of connecting and clamp bolt, even if rear end anchor clamps are split type structural design, also can guarantee to have spacingly between rear end anchor clamps and the turbine rotor, guarantees can not produce relative motion or rotation, has guaranteed the safety of apex mill in-process part. The turbine rotor blade tip grinding datum is rotated to the structure that the rear end clamp can be matched with blade tip grinding equipment, so that rotor assemblies of different models and sizes can be mounted on the high-speed blade tip grinding equipment, a hydraulic clamp of the equipment does not need to be customized, and the cost is saved.

Drawings

The above and other features, properties and advantages of the present invention will become more apparent from the following description taken in conjunction with the accompanying drawings and examples, in which:

FIG. 1 is a schematic view of the installation of a turbine rotor blade tip mill adapter fixture.

FIG. 2 is a schematic view of the back end clip mounted to the back journal.

FIG. 3 is a rear end view of the adaptor sleeve of the rear end clamp mounted to the rear journal.

Fig. 4 is a right end view of the adaptor sleeve.

Fig. 5 is a half sectional view of the adaptor sleeve.

Fig. 6 is a half sectional view of the adapter ring.

Fig. 7 is a left end view of the adapter ring.

Figure 8 is a cross-sectional view of an angular positioning element.

Figure 9 is a front view of the angular positioning element.

Detailed Description

The following discloses many different embodiments or examples for implementing the subject technology described. Specific examples of components and arrangements are described below to simplify the disclosure, but these are by way of example only and are not limiting as to the scope of the invention. For example, if a first feature is formed on or above a second feature in a description that follows, this may include embodiments in which the first and second features are formed in direct contact, and may also include embodiments in which additional features may be formed between the first and second features, such that there may be no direct contact between the first and second features. Additionally, reference numerals and/or letters may be repeated among the various examples throughout this disclosure. This repetition is for the purpose of simplicity and clarity and does not in itself dictate a relationship between the various embodiments and/or configurations discussed. Further, when a first element is described as being coupled or joined to a second element, the description includes embodiments in which the first and second elements are directly coupled or joined to each other and also includes embodiments in which the first and second elements are indirectly coupled or joined to each other with the addition of one or more other intervening elements.

Fig. 1 shows a turbine rotor, in particular a high-pressure turbine rotor, comprising a drum shaft 11 and an aft journal 12. The blank portion between the drum shaft 11 and the rear journal 12 is omitted. The adapter fixture for the turbine rotor blade tip mill comprises a front end fixture 3 and a rear end fixture 2. The front end of the drum shaft 11 is connected to the front end jig 3. The rear end of the rear journal 12 is connected to the rear end jig 2.

As shown in fig. 2, the rear journal 12 is provided at its rear end with a male screw portion 121 and an end surface catching groove 122. The rear end clamp 2 comprises an adapter sleeve 21, an adapter ring 22 and a compression nut 23.

Referring to fig. 4 and 5, the adaptor sleeve 21 includes a connecting ring 210, a front flange 211 provided at a rear end of the connecting ring 210, and a pressure receiving end surface 212 at a rear end of the connecting ring 210, wherein the connecting ring 210 is adapted to be fitted over an outer circumferential surface of the rear journal 12 with interference.

With reference to both fig. 6 and 7, adapter ring 22 includes a rear cylindrical surface 220 that provides for gripping by clamp 42 of the tip sharpening apparatus, as well as an end tooth 222 and a rear flange 221 disposed at the forward end.

As shown in fig. 2, rear flange 221 is connected to front flange 211 by fasteners 24, and end teeth 222 are aligned and engaged with end surface slots 122 to circumferentially stop adapter ring 22.

The pressing nut 23 is fitted over the male screw portion 121 at the rear end of the rear journal 12 and screwed to press against the pressure receiving end surface 212 to press the adaptor sleeve 21.

Returning to fig. 1, the front end clamp 3 provides a front cylindrical surface that is clamped by the clamp 41 of the tip sharpening apparatus. Therefore, the adapter clamp can be used for grinding the tip of the turbine rotor, and the turbine rotor can be installed on the tip grinding equipment.

Through aforementioned interference fit, the tooth's socket aligns compressing tightly of connecting and clamp bolt, even if rear end anchor clamps are split type structural design, also can guarantee to have spacingly between rear end anchor clamps and the turbine rotor, guarantees can not produce relative motion or rotation, has guaranteed the safety that the apex ground in-process part. The turbine rotor blade tip grinding datum is rotated to the structure that the rear end clamp can be matched with blade tip grinding equipment, so that rotor assemblies of different models and sizes can be mounted on the high-speed blade tip grinding equipment, a hydraulic clamp of the equipment does not need to be customized, and the cost is saved.

As shown in fig. 1, the front end of the front end clamp 3 is connected to the front end spreader 31, and the rear end of the adapter ring of the rear end clamp 2 is connected to the rear end spreader 5. Therefore, the installation of the turbine rotor on the blade tip grinding equipment can be realized, and the transportation of the turbine rotor can also be realized.

As shown in FIG. 2, the front flange 211 and the rear flange 221 are connected by surface-to-surface contact and seam allowance, and are fastened by the fastening member 24. The transfer of the turbine rotor blade tip grinding reference is facilitated through the spigot connection.

The mounting method of the turbine rotor blade tip grinding adapter clamp comprises the following steps:

the adapter sleeve 21 is heated and kept warm for a certain time, so that the adapter sleeve 21 and the rear shaft neck 12 can be in clearance fit.

The adapter sleeve 21 is mounted on the rear journal 12, the circumferential mounting angle of the adapter sleeve 21 is determined, and after the circumferential mounting angle is determined, alignment of the upper end teeth and the end face clamping grooves in the later step and alignment of each fastener connecting hole are facilitated.

The compression nut 23 is installed and the compression nut 23 is screwed on the male screw part 121 to compress the adapter sleeve 21.

After the adapter sleeve 21 is returned to room temperature, the compression nut 23 is retightened.

During installation of the adapter ring 22 on the adapter sleeve 21, the end teeth 222 on the adapter ring 22 are aligned with the end surface slots 122 of the rear journal 12, and the front flange 211 and the rear flange 221 are connected using fasteners 24 or bolts to secure the adapter ring 22 to the adapter sleeve 21.

The front end gripper 3 is attached to the drum shaft 11.

In order to ensure that the split structure of the rear end clamp is assembled in place at one time and aligned in the circumferential direction, and improve the assembly efficiency, before the adapter sleeve 21 is installed on the rear journal 12, the angular positioning piece 25 shown in fig. 8 and 9 is selected, and the angular positioning piece 25 is provided with the elongated portion 251. As shown in fig. 3, the angular positioning member 25 is mounted to the front flange 211 of the adaptor sleeve 21. One way of mounting is to form attachment holes at both ends of the angular positioning member 25, which align with the attachment holes on the front flange 211 and then fasten with bolts 26.

The adapter sleeve 21 is mounted on the rear axle journal 12, with the elongated portions 251 of the angular positioning elements 25 being able to align with the end-face notches 122 of the rear axle journal 12, thereby determining the circumferential mounting angle of the adapter sleeve 21. The angular positioning block 25 is aligned with the end face slot 122 at the rear end of the rear journal 12, so that the installation of the adapter sleeve 21 meets a certain circumferential angle requirement, and when the adapter ring 22 is installed, the adapter ring 22 meets the requirements of being aligned with the connecting hole of the adapter sleeve 21 and the requirements of being aligned with the end face slot 122 of the rear journal 12 by the end teeth 222. After the adapter sleeve 21 is placed on the rear journal 12, the angular positioning elements 25 are removed.

As shown in fig. 4 and 7, the front flange 211 is provided with positioning pins 213, and the rear flange 221 is provided with positioning pin holes 223. In the process of mounting the adapter ring 22 on the adapter sleeve 21, the positioning pin 213 and the positioning pin hole 223 are aligned, and the end tooth 222 on the adapter ring 22 and the end face slot 122 of the rear journal 12 are aligned, so that the positioning and mounting functions are achieved, and the mounting efficiency is further improved.

Although the present invention has been disclosed in terms of preferred embodiments, it is not intended to be limited thereto, and variations and modifications may be made by those skilled in the art without departing from the spirit and scope of the invention. Therefore, any modifications, equivalent changes and modifications made to the above embodiments according to the technical essence of the present invention are within the scope of the present invention defined by the claims.

Claims

1. The mounting method of the turbine rotor blade tip grinding and adapting clamp comprises the steps that the turbine rotor comprises a drum shaft at the front end and a rear shaft neck at the rear end, and the rear end of the rear shaft neck is provided with an external thread part and an end face clamping groove; it is characterized in that the preparation method is characterized in that,

providing a turbine rotor blade tip grinding and adapting clamp; the adapter clamp for the tip mill of the turbine rotor comprises a front end clamp and a rear end clamp; the front end clamp is used for connecting the drum shaft and providing a front cylindrical surface clamped by the clamp of the blade tip grinding equipment; the rear end clamp comprises a switching shaft sleeve, a switching ring and a compression nut; the adapter sleeve comprises a connecting ring, a front flange arranged at the rear end of the connecting ring and a pressed end face at the rear end of the connecting ring, wherein the connecting ring is used for being sleeved on the outer peripheral surface of the rear shaft neck and is in interference fit with the outer peripheral surface of the rear shaft neck; the adapter ring comprises a rear cylindrical surface clamped by a clamp of the blade tip grinding equipment, and an end tooth and a rear flange which are arranged at the front end, wherein the rear flange is used for being connected with the front flange through a fastener, and the end tooth is used for aligning and meshing with the end surface clamping groove so as to enable the adapter ring to stop rotating in the circumferential direction; the compression nut is sleeved on the external thread part at the rear end of the rear shaft neck, is in threaded connection with the external thread part and is pressed on the pressed end face so as to compress the adapter sleeve;

mounting the adapter sleeve on the rear journal and determining a circumferential mounting angle of the adapter sleeve;

installing the compression nut to compress the adapter sleeve;

when the adapter sleeve returns to the room temperature, the compression nut is screwed again;

connecting the nose clip to the drum shaft.

2. The method of claim 1, wherein prior to installing the adaptor sleeve to the rear journal, angular positioning members are selected, the angular positioning members having elongated portions, the angular positioning members being installed to the front flange of the adaptor sleeve;

and under the condition that the elongated part of the angular positioning piece can be aligned with the end face clamping groove of the rear journal, the switching shaft sleeve is installed on the rear journal, and therefore the circumferential installation angle of the switching shaft sleeve is determined.

3. The method of mounting of claim 1, wherein locating pins are provided on the front flange and locating pin holes are provided on the rear flange; and in the process of mounting the adapter ring on the adapter shaft sleeve, aligning the positioning pin and the positioning pin hole, and simultaneously aligning the end teeth on the adapter ring and the end face clamping groove of the rear shaft neck.