RU2729558C1 - Compressor intermediate housing of turbojet - Google Patents

Abstract

FIELD: machine building.SUBSTANCE: invention relates to the field of turbomachinery, namely to the elements of the construction of the intermediate casings of gas turbine engines. Disclosed is an intermediate housing of turbomachine with a flow divider, comprising power posts 1, arranged between external 2 and internal 3 circuits, combined with a composite conical flow divider, consisting of fixed 4 and movable 5 sectors. Fixed sectors 4 are made integral with power posts 1, between which there are moving sectors 5, end walls 6 of which are connected by rotary axles 7 with nearby fixed sectors 4, and rear walls 8 of movable sectors 5 are kinematically connected to drive. According to the invention, the outer diameter of internal circuit 3 is formed by stator part 9 of the high-pressure compressor with adjustable guiding devices 10, also stator part 9 of the compressor is connected to fixed sectors 4 of the flow divider, besides, the drive of guide vanes 10 of the compressor and movable sectors 5 of the separator is made common.EFFECT: technical result achieved when using the claimed invention is to increase reliability and reduce weight of the structure by reducing the number of parts, as well as simplifying the engine control system.5 cl, 4 dwg

Description

The invention relates to the field of turbomachinery, namely to structural elements of intermediate casings of gas turbine engines.

Known is the intermediate casing of a turbomachine with a flow divider containing power struts located between the outer and inner contours, united by a composite conical flow divider, consisting of fixed and movable sectors, and the fixed sectors are made in one piece with the power struts between which movable sectors are located, end walls which are connected by pivot axes with the nearby fixed sectors, and the rear walls of the movable sectors are kinematically connected to the drive.

/ RU No. 2672015, IPC F02K 3/02, published: 08.11.2018 / - prototype.

The disadvantage of the known intermediate case is that the mechanization of the circuit separator is implemented without interconnection with other elements of regulation of the degree of bypass, namely with the adjustable compressor guide vanes used in almost all modern gas turbine engines [Agulnik A.B., Bakulev V.I., Gogubev V.A., Kravchenko I.V., Krylov B.A. Thermogasdynamic calculations and calculation of GTE characteristics / Under. ed. Bakuleva V.I .: Textbook .: - M .: Publishing house MAI, 2002. - 256 p .: ill. ISBN 5-7035-2539-X]. This leads to the unjustified use of additional drive elements, which increases the number of parts, complicates the synchronization of control.

The technical result achieved when using the claimed invention is to increase the reliability and reduce the weight of the structure by reducing the number of parts, as well as simplifying the engine control system.

The specified technical result is achieved by the fact that in the intermediate casing of a turbomachine with a flow divider containing power struts located between the outer and inner circuits, united by a composite conical flow divider, consisting of fixed and movable sectors, and the fixed sectors are made in one piece with the power struts, between which there are movable sectors, the end walls of which are connected by pivot axes with nearby fixed sectors, and the rear walls of the movable sectors are kinematically connected to the drive, according to the invention, the outer diameter of the inner contour is formed by the stator part of the high-pressure compressor with adjustable guide vanes, and the stator part of the compressor is also connected with fixed sectors of the flow divider, and the drive of the compressor guide vanes and the movable sectors of the separator is made common, in addition, the change in the position of the movable sectors and at least adjustable guide vanes of one compressor stage is made by means of drive rings connected to a common drive by means of pivot levers and rods, in addition, fingers are installed on the drive ring of the movable sectors, in turn, inclined slots are made on the rear walls of the movable sectors of the separator with the ability to contact the corresponding fingers the drive ring of the movable sectors, in addition, the pivot axes are equipped with beads, in turn, in the end walls of the movable sectors, holes and grooves for the beads are made coaxial with the rotary axes and grooves for fixing the rotary axes by means of split spacer rings, which are located in the corresponding grooves, in addition, fixed Sections of the flow divider are equipped with spherical bearings in contact with the pivot axes.

Composite conical flow divider, consisting of fixed and movable sectors, and the fixed sectors are made in one piece with power struts between which movable sectors are located, the end walls of which are connected by pivot axes with nearby fixed sectors, and the rear walls of the movable sectors are kinematically connected to the drive losses of the total pressure of the flow, due to the change in the position of the moving sectors of the separator, which provides optimal flow around the incoming flow, which leads to a decrease in the specific fuel consumption.

The implementation of the drive of the guide vanes of the high-pressure compressor and the movable sectors of the conical flow divider in general makes it possible to reduce the number of details of the mechanization structure, which leads to a decrease in mass and to an increase in the reliability of this design, in addition, the engine control system is simplified by reducing the number of actuators.

The essence of the claimed invention is illustrated by the drawings, which show the design of the intermediate casing with an adjustable conical flow divider, combined by a common drive with the guide vanes of the high-pressure compressor.

Figure 1 shows a schematic diagram of the arrangement of the adjustable flow divider of the intermediate housing.

Figure 2 shows the relative position of the movable and fixed sectors of the adjustable flow divider of the intermediate body.

Figure 3 shows the mechanization of the drive of the adjustable flow divider of the intermediate casing and the guide vanes of the high pressure compressor.

Figure 4 shows the fixation of the movable sector of the adjustable flow divider of the intermediate body.

The intermediate casing of the turbomachine with a composite conical flow divider contains power struts (1) located between the outer (2) and inner (3) circuits, united by a composite conical flow divider, consisting of fixed (4) and movable (5) sectors, and the fixed the sectors (4) are made in one piece with the power struts (1) between which the movable sectors (5) are located, the end walls (6) of which are connected by the pivot axes (7) with the nearby fixed sectors (4), and the rear walls (8) movable sectors (5) are kinematically connected to the drive. The outer diameter of the inner loop (3) is formed by the stator part (9) of the high-pressure compressor with adjustable guide vanes (10), and the stator part (9) of the compressor is connected to the fixed sectors (4) of the flow divider, and the drive of the guide vanes (10) of the compressor and the movable sectors (5) of the separator is made common. In a particular case of implementation, the common drive consists of an interconnected control hydraulic cylinder (11), a rocker arm (12) and an external thrust (13). Changing the position of the movable sectors (5) and at least the adjustable guide vanes (10) of one compressor stage is performed by means of the corresponding drive rings (14) (15). The external thrust (13) is connected to interconnected brackets (16) (17), connected to the corresponding pivot arms (18) (19), movably fixed on the platform (20), which in turn is fixedly fixed on the stator part of the high pressure compressor. The drive rings (14) (15) are connected to the corresponding pivoting levers (18) (19) by means of rods (21) (22). Pins (23) are installed on the drive ring (14) of the movable sectors (5), in turn, on the rear walls (8) of the movable sectors (5) of the separator, inclined slots (24) are made with the ability to contact the corresponding fingers (23) of the drive ring ( 14) moving sectors (5). The pivot axes (7) are equipped with collars (25), in turn, in the end walls (6) of the movable sectors (5), holes (26) and grooves (27) for the collars (25) are made coaxial with the rotary axes (7) axes (7) by means of split spacer rings (28), which are located in the corresponding grooves (29). The fixed sectors (4) of the flow divider are equipped with spherical bearings (30) pressed into the holes (31) and in contact with the pivot shafts (7).

Changing the position of the movable sectors (5) is carried out in conjunction with the rotary guide vanes by means of the control hydraulic cylinder (11), transmitting the force through the rocker arm (12) to the external thrust (13), then to the interconnected brackets (16) (17), which change the position when moving pivoting levers (18) (19), transmitting the force to the drive rings (14) (15) through the rods (21) (22), respectively. Changing the position of the guide vanes is described using one stage as an example and is carried out through the drive ring (15). When moving, the drive ring (14) acts on the movable sectors (5) by means of the fingers (23) installed on the ring (14), contacting the corresponding inclined slots (24), deflecting them relative to the pivot axes (7).

Claims (5)

1. The intermediate casing of a turbomachine with a composite conical flow divider, containing power struts located between the outer and inner circuits, united by a composite conical flow divider, consisting of fixed and movable sectors, and the fixed sectors are made in one piece with the power struts, between which there are movable sectors, the end walls of which are connected by rotary axes with the nearby fixed sectors, and the rear walls of the moving sectors are kinematically connected to the drive, characterized in that the outer diameter of the inner contour is formed by the stator part of the high-pressure compressor with adjustable guide vanes, and the stator part of the compressor is connected to the fixed sectors a flow separator, and the drive of the compressor guide vanes and the moving sectors of the separator is made common. 2. The intermediate housing of the turbomachine according to claim 1, characterized in that the change in the position of the movable sectors and at least the adjustable guide vanes of one compressor stage is made by means of drive rings connected to a common drive by means of pivoting levers and rods. 3. The intermediate casing of the turbomachine according to claim 2, characterized in that fingers are installed on the drive ring of the movable sectors, in turn, on the rear walls of the movable sectors of the separator, inclined slots are made with the ability to contact with the corresponding fingers of the drive ring of the movable sectors. 4. The intermediate casing of the turbomachine according to claim 1, characterized in that the pivot axes are provided with beads, in turn, in the end walls of the movable sectors, holes and grooves for the beads are made coaxial with the pivot axes to fix the pivot axes by means of split spacer rings, which are located in corresponding grooves. 5. The intermediate casing of the turbomachine according to claim 1, characterized in that the fixed sectors of the flow divider are equipped with spherical bearings in contact with the pivot axes.

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