RU2794949C1 - Compensators for relative movements of the inner and outer housings of turbomachines - Google Patents

Abstract

FIELD: turbomachinery.

SUBSTANCE: design of compensators for relative movements of the inner and outer housings of turbomachines, in particular compensators used as a housing for measuring equipment used to measure various gas flow parameters. The relative displacement compensator of the inner and outer casings of the turbomachine is made in the form of a housing for a measuring device and contains a hollow tubular element with a flange made at the end section of its outer surface, installed with gaps in the coaxial through holes of the said housings, an obturator mounted on the hollow tubular element, made in the form of two annular elements of different diameters, connected telescopically, on opposite end sections of the outer surfaces of which a shoulder and a flange are made, moreover, the flanges of the obturator annular element and the hollow tubular element are rigidly connected to each other, the flange element mounted on the hollow tubular element with a gap and rigidly fixed on the outer housing, and on the side of the inner diameter of the flange element, an annular groove is made with the formation of an annular cavity between it and the outer housing, in which the bead of the annular obturator element is installed with a gap between its outer surface and the wall of the annular cavity opposite to it, with the possibility of its displacement in one plane, transverse to the longitudinal axis of the hollow tubular element, within the annular cavity, the hollow tubular element is connected to the inner housing by means of a bayonet lock, the hollow tubular element is fixed from rotation relative to its longitudinal axis by means of a locking device made in the form of a plate with a through hole and two pairs of grooves opposite the centre of the plate, mounted on a hollow tubular element with a gap, as well as two pairs of rod-shaped elements, with one pair of opposite grooves located perpendicular to the other pair, while one a pair of rod-like elements is installed in the holes of the flanges of the hollow tubular element and the annular obturator element, as well as in a pair of opposite grooves of the plate with the possibility of displacement of the former within the latter, and the other pair of rod-shaped elements is installed in another pair of opposite slots of the plate with the possibility of displacement of the former within the latter, as well as in the holes of the flange element, in addition, on the section of the outer surface of the hollow tubular element located in the inner housing, along its longitudinal axis, a number of through holes for the inlet of the gas flow is made.

EFFECT: ensuring the preservation of a fixed angular position of the hollow tubular element in the medium flow.

1 cl, 3 dwg

Description

The invention relates to the field of turbomachinery, and in particular to the design of compensators for relative movements of the inner and outer casings of turbomachines, in particular compensators used as a housing for measuring equipment used to measure various gas flow parameters.

As the closest analogue, a relative displacement compensator of the inner and outer casings of the turbomachine was chosen, containing a hollow element rigidly fixed on the inner casing, passing through the inner and outer casings, a movable connection installed on the outer casing and including an annular element and a means for connecting the annular element with the hollow element , made in the form of a spherical sleeve enclosing the hollow element and forming a spherical hinge with the annular element, and a telescopic connection with the hollow element, while the connection means is provided with a means for joint movement of the hollow element, the annular element and the spherical sleeve (see RU 2639399 C1) .

The disadvantage of the known compensator is the lack of maintaining a fixed angular position of the hollow element relative to its longitudinal axis during operation. In the known device, the hollow element is not fixed from rotation around its longitudinal axis, which leads to a displacement of measurements relative to the direction of the medium flow in the turbomachine and, as a result, to errors and inaccuracies in measuring the flow parameters.

The technical result achieved by using the claimed invention is the preservation of a fixed angular position of the hollow tubular element in the medium flow.

Due to the design features of the present invention, it is possible to fix the hollow tubular element from rotation around its longitudinal axis, which ensures its stable position in the medium flow, ensuring the stability and accuracy of measurements of the medium flow parameters.

The expected technical result is achieved by the fact that the relative displacement compensator of the inner and outer housings of the turbomachine is made in the form of a housing for the measuring device and contains a hollow tubular element with a flange made at the end section of its outer surface, installed with gaps in the coaxial through holes of the said housings, obturator, installed on a hollow tubular element, made in the form of two annular elements of different diameters, connected telescopically, on opposite end sections of the outer surfaces of which a shoulder and a flange are made, moreover, the flanges of the obturator ring element and the hollow tubular element are rigidly connected to each other, the flange element mounted on a hollow tubular element with a gap and rigidly fixed on the outer body, and on the side of the inner diameter of the flange element an annular groove is made to form an annular cavity between it and the outer body, in which a bead of the annular obturator element is installed with a gap between its outer surface and the wall opposite to it an annular cavity, with the possibility of its displacement in one plane, transverse to the longitudinal axis of the hollow tubular element, within the annular cavity, the hollow tubular element is connected to the inner body by means of a bayonet lock, the hollow tubular element is fixed from rotation relative to its longitudinal axis by means of a locking device made in in the form of a plate with a through hole and two pairs of grooves opposite the center of the plate, mounted on a hollow tubular element with a gap, as well as two pairs of rod-shaped elements, with one pair of opposite grooves located perpendicular to the other pair, while one pair of rod-shaped elements is installed in the holes of the flanges of the hollow tubular element and an annular obturator element, as well as in a pair of opposite slots of the plate with the possibility of displacement of the former within the latter, and another pair of rod-shaped elements is installed in another pair of opposite slots of the plate with the possibility of displacement of the former within the latter, as well as in the holes of the flange element, except in addition, on the section of the outer surface of the hollow tubular element located in the inner housing, along its longitudinal axis, a number of through holes for the inlet of the gas flow is made.

Such a design provides for fixing the hollow tubular element from rotation around its longitudinal axis, and also allows you to set the hollow tubular element in several positions relative to its longitudinal axis, at the required angle, before work with subsequent fixation, which allows you to ensure high accuracy and stability of measurements of the flow parameters of the medium in the turbomachine circuit, which makes it possible to obtain reliable data on the operation of the turbomachine in the process of experimental and finishing work.

The essence of the present invention is illustrated by figures 1-3.

In FIG. 1 shows a longitudinal section of the claimed compensator of the inner and outer casings of the turbomachine.

In FIG. 2 shows the relative displacement compensator of the inner and outer casings of the turbomachine in isometry.

In FIG. 3 shows a top view of the claimed compensator.

The relative displacement compensator of the inner and outer housings 1 and 2 of the turbomachine is made in the form of a housing for the measuring device and contains a hollow tubular element 3 with a flange 4 made at the end section of its outer surface, installed with gaps in the coaxial through holes of the said housings 1 and 2. The compensator also contains an obturator mounted on a hollow tubular element 3, made in the form of two annular elements 5 and 6 of different diameters, connected telescopically, on opposite end sections of the outer surfaces of which a shoulder 7 and a flange 8 are made, moreover, the flanges 4 and 8 of the annular element 5 of the obturator and of the hollow tubular element 3 are rigidly connected to each other by means of screws 9. The compensator also includes a flange element made in the form of two plates 10 and 11, installed on the hollow tubular element 3 with a gap and rigidly fixed to the outer casing 2 by screws 12, and with on the side of the inner diameter of the flange element, a groove is made with the formation of an annular cavity 13 between it and the outer body 2, in which a bead 7 of the obturator annular element 6 is installed with a gap between its outer surface and the wall of the annular cavity 13 opposite to it, with the possibility of its displacement in one plane , transverse to the longitudinal axis of the hollow tubular element 3, within the annular cavity 13, the hollow tubular element 3 is connected to the inner body 1 by means of a bayonet lock 14. The hollow tubular element 3 is fixed from rotation relative to its longitudinal axis by means of a locking device made in the form of a plate 15, having a through hole in which a hollow tubular element is installed with a gap, and having two pairs of grooves 16 and 17 opposite the center of the plate 15, as well as two pairs of rod-shaped elements 18 and 19 (for example, screws), with one pair of opposite grooves located perpendicular to the other pair , while one pair of rod-like elements 18 is installed in the holes of the flanges 4 and 8 of the hollow tubular element 3 and the ring element 5 of the obturator, as well as in a pair of opposite grooves 16 of the plate 15 with the possibility of shifting the former within the latter, and the other pair of rod-shaped elements 19 is installed in another pair of opposite grooves 17 of the plate 15 with the possibility of displacement of the first within the latter, as well as in the holes of the flange element 10, in addition, on the section of the outer surface of the hollow tubular element 3, located in the inner body 1, a number of through holes 20 is made along its longitudinal axis.

To measure the parameters of the gas flow in the turbomachine circuit, the compensator with the measuring device installed in it is installed through holes 20 at the desired angle to the flow. The compensator is fixed in the inner housing 1 of the turbomachine with a bayonet lock 14, as well as on the outer housing 2 with screws 9. At the same time, due to the possibility of moving the annular element 6 relative to the annular obturator element 5 in the radial direction relative to the longitudinal axis of the turbomachine, as well as the displacement of the hollow tubular element 3 in one plane transverse to the longitudinal axis of the latter, the relative displacements of the outer 2 and inner 1 housings of the turbomachine are compensated due to deformations caused by the influence of high temperatures during operation. The measuring device may contain thermoelectrodes for temperature measurement, channels for measuring total pressure, channels for sampling gas for chemical analysis, or otherwise. Due to the fact that during movements caused by the temperature factor, the compensator allows you to maintain a stable angular position in the medium flow in the turbomachine circuit, the parameters obtained by the measuring device remain stable over time, the accuracy of measurements is maintained, their convergence during repeated measurements. This makes it possible to obtain reliable information about the processes occurring during the operation of a turbomachine, and, therefore, based on the results obtained, make the right decisions related to the design of components and parts of a turbomachine during experimental and finishing work.

Claims (1)

Compensator for relative displacements of the inner and outer housings of the turbomachine, characterized in that it is made in the form of a housing for a measuring device and contains a hollow tubular element with a flange made at the end section of its outer surface, installed with gaps in the coaxial through holes of the said housings, an obturator mounted on hollow tubular element made in the form of two annular elements of different diameters, connected telescopically, on opposite end sections of the outer surfaces of which a shoulder and a flange are made, moreover, the flanges of the obturator ring element and the hollow tubular element are rigidly connected to each other, the flange element mounted on the hollow tubular element with a gap and rigidly fixed on the outer body, and on the side of the inner diameter of the flange element, a groove is made with the formation of an annular cavity between it and the outer body, in which a bead of the annular obturator element is installed with a gap between its outer surface and the wall of the annular cavity opposite to it, with the possibility of its displacement in one plane, transverse to the longitudinal axis of the hollow tubular element, within the annular cavity, the hollow tubular element is connected to the inner body by means of a bayonet lock, the hollow tubular element is fixed from rotation relative to its longitudinal axis by means of a locking device made in the form of a plate with a through hole in which a hollow tubular element is installed with a gap, having two pairs of grooves opposite to its center, as well as two pairs of rod-shaped elements, with one pair of opposite grooves located perpendicular to the other pair, while one pair of rod-shaped elements is installed in the holes of the flanges of the hollow tubular element and the annular element of the obturator, as well as in a pair of opposite slots of the plate with the possibility of displacement of the former within the latter, and another pair of rod-shaped elements is installed in another pair of opposite slots of the plate with the possibility of displacement of the former within the latter, as well as in the holes of the flange element, in addition , on the section of the outer surface of the hollow tubular element located in the inner case, a number of through holes is made along its longitudinal axis.

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