RU155513U1 - DEVICE FOR THE FIXED INSTALLATION OF WORKING BLADES OF A CCD FOR STAND TESTS - Google Patents

Abstract

1. The device is a fixed installation of GTE rotor blades for bench tests, comprising a base made with profiled grooves for accommodating at least three adjacent blades, equipped with a clamping device for attaching the blades, which includes screws for fixing the blades in the grooves of the base through adapter inserts, characterized in that it further comprises a base plate and two washers, the plate having a central circular hole, two symmetrical grooves made in the form of annular sectors relative to the axis of the central hole, and a number of mounting holes on the periphery, and each washer is a central circular hole and two symmetrical circular rows of holes for the studs located around the central hole with a radius of the row equal to the average radius of the grooves of the base plate, in addition, the base is made in the form of a model a segment of a part of a rim of a disk with profiled grooves of the stage of the impeller of the fan or compressor and two shelves having a single flat supporting surface located opposite to the grooves along which th is in contact with the base plate, while the shelves have two opposite circular rows of blind threaded holes with studs installed in them, which are located around the central hole at a radius equal to the average radius of the grooves of the base plate, where the base is connected to the base plate through one washer with the location of the studs in the washer holes and slots of the plate and fixed with nuts on the studs on the opposite side of the plate through another washer with the possibility of free rotation together with the washers relative to the base plate on the back

Description

The utility model relates to the field of aircraft engineering and can be used to study the processes of impact interaction of the working blades of an aircraft engine in a collision with foreign objects, namely birds and hailstones.

Full-scale tests on the ingress of foreign objects, carried out on the engine, or on the rotating impellers of fans or compressors at the stands, are extremely expensive and do not make it possible to study the influence of various design, technological and operational factors on the durability of the working blades. Therefore, before conducting full-scale tests, it is necessary to perform a calculation analysis of the resistance of the working blades when foreign objects get on them with the choice of the most dangerous (critical) situations in the place and direction of the impact, the flight path of foreign objects and other factors. The calculations should be based on experimentally tested models of working blades and foreign objects, which can be done by conducting less expensive bench studies on separate working blades fixed for testing. Such tests make it possible to verify the design models, establish the most dangerous conditions and direction of impact, including the position of the “critical” sections of the feather of the blades, and partially reproduce the damage expected on rotating working blades, identifying design weaknesses. A device for bench impact tests should ensure the strength and rigidity of fastening of fixed working blades at high dynamic loads arising from collisions with the blades of large birds, the ability to control the angles of the trajectory of throwing foreign objects in different places of the blade profile of the blade along its length and reuse of equipment (its maintainability). The strength and rigidity of all elements of the stand exposed to impact loads and the safety requirement for the experiment should also be ensured.

A device for stationary installation of an object on a bench for testing objects on impact (RF patent No. 21957) is known. The stand contains a base on which the anvil is rigidly fixed with the test object placed on it and a hammer, connected by means of a flexible element to the hammer reset device. The anvil is equipped with additional interchangeable inserts, in each of which a nest is made in the shape of the test object. So, for example, to test the ball, the nest is made spherical in shape. The anvil design provides rigidity of the installation of the test object on it and the stationarity of its position during a series of tests. However, the installation of the striker relative to the test object on the bench does not meet the condition of the real interaction of the GTE blade pen with a foreign object.

A device for stationary installation of an object in a test bench for testing objects for a sequence of shock pulses is known (RF patent No. 1442848). The stand contains a base with a device for installing the test object and a pendulum drummer. However, the proposed installation of the striker does not provide an impulse with different impact energy as if foreign objects of different masses hit the GTE blade.

The closest analogue of the same purpose as the claimed technical solution is the device for the fixed installation of GTE blades in RF patent No. 110483. The device contains a base and profiled grooves for accommodating at least three adjacent blades, which brings closer to the real interaction of adjacent GTE blades with a foreign object during impact tests. The device includes a clamping device for attaching the blades, which includes screws for fixing the blades in the grooves of the base through the adapter inserts. The device provides testing of working GTE blades, however, its disadvantage is that it does not allow you to adjust the angular position of the GTE blades relative to the hammer.

The utility model is based on the solution of the problem of fixed installation of the blades before impact on the required angular position at a selected radius of impact of the GTE rotor blades with foreign objects in accordance with the real velocity triangle of the rotating impeller and the foreign object.

The technical result is the prevention of the eversion of the installed in a predetermined position of the working blades from the profiled groove of the base and / or rotation of the base relative to the base plate in the process of impact of the blade by an object.

The problem is solved in that the device for the fixed installation of gas turbine rotor blades for bench tests contains a base made with profiled grooves for accommodating at least three adjacent blades. The base is equipped with a clamping device for attaching the blades, which includes screws for fixing the blades in the grooves of the base through the adapter inserts.

New in the utility model is that the device further comprises a base plate and two washers. The plate has a central circular hole, two symmetrical grooves made in the form of annular sectors relative to the axis of the central hole and a number of fixing holes on the periphery. Each washer has a central circular hole and two symmetrical circular rows of stud holes located around the central hole with a row radius equal to the average radius of the slots of the base plate. In addition, the base is made in the form of a model segment of the disk rim part with profiled grooves of the stage of the fan impeller or engine compressor and two shelves. The shelves have a single flat supporting surface, located opposite the grooves, along which the base is in contact with the base plate. Moreover, the shelves have two opposite circular rows of blind threaded holes with studs installed in them, which are located around the central hole at a radius equal to the average radius of the grooves of the base plate. The base is connected to the base plate through one washer with the location of the studs in the holes of the washer and the grooves of the plate and secured by nuts on the studs on the opposite side of the plate through another washer with the possibility of free rotation together with the washers relative to the base plate by a predetermined angle and subsequent fixing in this position.

With this device, the fixed installation of the GTE rotor blades:

- the presence of an additional base plate and two washers, where the plate has a central circular hole, two symmetrical grooves made in the form of circular sectors relative to the axis of the central hole and a number of fixing holes on the periphery, and each washer - a central circular hole and two symmetrical circular rows of holes for the studs located around a central hole with a radius of a row equal to the average radius of the grooves of the base plate ensures that the desired angular position before impact is installed on the selected radius of the blade rum with foreign objects in accordance with the real speed triangle of the rotating impeller and foreign object and access to the parts of the device for their installation on the stand;

- the implementation of the base in the form of a model segment of the disk part of the stage of the impeller of the fan or compressor of the engine with profiled grooves of the stage of the impeller of the fan or compressor of the engine and two shelves having a single flat supporting surface located opposite the grooves along which it contacts the base plate, provides fixation of the test blades in profiled grooves of the base and installation of the base on the base plate using washers;

- the presence on the shelves of two opposite circular rows of blind threaded holes with studs installed in them, which are located on a circle radius equal to the average radius of the grooves of the base plate, makes it possible to rotate the working blades relative to the base plate by a predetermined angle;

- connection of the base with the base plate through one washer with the location of the studs in the grooves of the plate and fastening with nuts on the studs on the opposite side of the plate through another washer with the possibility of rotation together with the washers relative to the base plate at a predetermined angle and subsequent fixation in this position ensures the required position of the test blades on a base plate for bench tests.

The development and refinement of the set of essential features of a utility model for particular cases of its implementation is given below:

- on the base in the place of exit of the grooves, thrust plates can be fixed. This ensures that the shanks of the working blades are prevented from falling out of the base grooves when the blades collide with a foreign object;

- on the outer surface of the plate and the side surface of the base may be respectively angular and installation marks mated with each other. This ensures the installation of the blades in the base at a given angle for bench testing;

- between the blades can be installed model fairings, fastened with the base on the brackets. This provides a partial unloading of the profiled groove of the base and prevents the blades from turning out of the profiled groove of the base in the process of hitting the blade with a foreign object.

Thus, the problem posed in the utility model of the fixed installation of the blades before impact on the required angular position at the selected radius of impact of the GTE rotor blades with foreign objects in accordance with the real velocity triangle of the rotating impeller and the foreign object is solved.

The proposed device is part of a ballistic stand (not shown), which additionally includes a bed, a pneumatic gun for firing foreign objects (for example, carcasses of birds), an aiming system, monitoring and recording equipment, etc. The device is installed on the stand bed.

The present utility model is illustrated by a detailed description of the design and operation of the device for the fixed installation of GTE rotor blades for testing with reference to FIG. 1-8, where:

in FIG. 1 shows a bottom view in axonometric projection of a model segment of the disk of the impeller (base);

in FIG. 2 is a bottom view in axonometric projection of the base with transitional inserts and screws installed in the grooves under the shanks of the working blades;

in FIG. 3 - top view of the puck;

in FIG. 4 is a top view of a portion of a base plate;

in FIG. 5 is a top view in axonometric projection of the mounting of the base on the base plate;

in FIG. 6 is a bottom view in axonometric projection of the mounting of the base on the base plate;

in FIG. 7 is a bottom view in axonometric projection on the device for the stationary installation of GTE rotor blades on a base plate for bench tests;

in FIG. 8 is a view of the fairing in axonometric projection.

The device for the fixed installation of GTE rotor blades for bench tests contains (see Fig. 1, 2, 7) a base 1 made with profiled grooves 2 for accommodating at least three adjacent blades 3. The base 1 is equipped with a clamping device for attaching the blades 3 , which includes (see Fig. 2) screws 4 for fixing the blades in the grooves 2 of the base through the adapter inserts 5.

The device further comprises (see Fig. 3, 4) a base plate 6 and two washers 7. The plate 6 has a central circular hole 8, two symmetrical grooves 9 made in the form of annular sectors relative to the axis of the central hole 8 and a number of mounting holes 10 around the periphery. Each washer 7 has a central circular hole 11 and two symmetrical circular rows of holes 12 for the studs 13 (see Fig. 6). The holes 12 are located around the central hole 11 with a row radius equal to the average radius of the grooves 9 of the base plate 6. The base 1 (see Fig. 1, 2) is made in the form of a model segment of a part of the rim of the disk with profiled grooves 2 of the stages of the fan impeller or engine compressor and two shelves 14 and 15 having a single flat supporting surface located opposite the grooves 2. The base 1 in a single plane of the shelves 14, 15 is in contact with the base plate 6. The shelves 14, 15 have two opposite circular rows of blind threaded openings 16 with installed pins 13, which are located on a radius of a circle equal to the average radius of the grooves 9 of the base plate 6. The base 1 is connected to the base plate 6 through one washer 7 with the location of the studs 13 (see Fig. 6) in the holes 12 of the washer 7 and the grooves 9 of the plate 6, fixed with nuts 17 on the studs 13 on the opposite side of the plate 6 through another washer 7 with the possibility of rotation together with the washers 7 relative to the base plate 6 at a predetermined angle, followed by fixing in this position.

On the outer surface of the base plate 6 and the side surface of the base 1 (see Fig. 5) there are respectively mounting and corner marks 19, 20 mating with each other when adjusting the rotation of the base 1 with the blades 3.

Between the blades 3 (see Fig. 5, 7, 8) on the brackets 21 are installed fairings 22.

The connection between the base 1 and the base plate 6 is detachable (see Fig. 5, 6) with the possibility of angular orientation of the base 1 relative to the base plate 6 and the movable axis of the pneumatic gun of the ballistic stand (not shown) according to the installation 19 and angular 20 marks. In preparation for firing, this allows you to simulate the real angle of the trajectory of the impact of a bird (or hail) with a GTE blade in accordance with the velocity triangle in real conditions. After adjustment, the angular orientation of the base 1 is rigidly fixed by tightening the nuts 17 on the studs 13 and does not change during each experiment.

The Central holes 8 and 11, respectively, in the base plate 6 and washers 7 provide a free approach to the parts of the device and facilitate its assembly and adjustment.

In the place of exit of the grooves 2 of the base 1 (see Fig. 1, 2, 5), thrust plates 23 are installed.

The operation of the device is as follows. A shot is being fired by a foreign object of the configuration and weight required for the test. During the dynamic interaction of the blade 3 with a foreign object, a large force is created, first deforming the feather of the blade and then loading all the nodes of the device. The transfer of force from the impact of a foreign object into the working blade 3 on the base 1 occurs through the castle connection. The direction of the force vector tends to rotate the base 1 relative to the plate 6 and additionally creates a moment in the castle connection on the shoulder, approximately equal to the distance from the transition of the shank of the blade to the feather to the central point of the impact region of an extraneous object into the blade. The moment acting upon impact on the blade tends to unscrew the shank of the blade 3 from the profiled groove 2. Tightening the nuts 17 (see Fig. 6, 7) does not allow the base 1 to rotate relative to the plate 6. Tightening the screws 4 tightly pressing the adapter 5 to the bottom of the shank of the blades 3 and the installation of model cowls 22 prevents the blade from turning in the groove 2.

To test the blades, an experimental setup was created. Before testing at the design study stage, in relation to the conditions of collision of the blades with a foreign object (bird carcass weighing 1.4 kg), at a carcass speed of 260 m / s and an installation angle of 18 degrees of the plane of rotation of the blades relative to the axis of the air gun at the selected radius of the blade, the rigidity parameters of the device nodes were determined , the thread diameters of the screws and holes are selected and the tightening torques are assigned. After testing, the blades remained in the profiled grooves 2 of the base 1, the installation mark after testing the position did not change. After disassembling the device, the adapter inserts freely entered and exited the grooves of the base, the shanks of the blades freely entered and exited the grooves of the device. The threads of the clamping screws 4 were not damaged. Marking of thread jamming of blind holes for studs and warping of washers. The tests were considered successful. After repair in terms of updating the thread of blind holes 16 and straightening the washer 7 under the press, the device was ready for further testing.

Claims (3)

1. The device is a fixed installation of GTE rotor blades for bench tests, comprising a base made with profiled grooves for accommodating at least three adjacent blades, equipped with a clamping device for attaching the blades, which includes screws for fixing the blades in the grooves of the base through adapter inserts, characterized in that it further comprises a base plate and two washers, the plate having a central circular hole, two symmetrical grooves made in the form of annular sectors relative to the axis of the central hole, and a number of mounting holes on the periphery, and each washer is a central circular hole and two symmetrical circular rows of holes for the studs located around the central hole with a radius of the row equal to the average radius of the grooves of the base plate, in addition, the base is made in the form of a model a segment of a part of a rim of a disk with profiled grooves of the stage of the impeller of the fan or compressor and two shelves having a single flat supporting surface located opposite to the grooves along which th is in contact with the base plate, while the shelves have two opposite circular rows of blind threaded holes with studs installed in them, which are located around the central hole at a radius equal to the average radius of the grooves of the base plate, where the base is connected to the base plate through one washer with the location of the studs in the washer holes and slots of the plate and fixed with nuts on the studs on the opposite side of the plate through another washer with the possibility of free rotation together with the washers relative to the base plate on the back This angle with subsequent fixation in this position. 2. The device according to p. 1, characterized in that on the base at the exit of the grooves are fixed thrust plates. 3. The device according to p. 1, characterized in that between the blades mounted fairings, fastened to the base.

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