RU191523U1 - REVERSE POWER TURBINE STEP ASSEMBLY - Google Patents

Abstract

The utility model relates to the field of turbine engineering and can be used in reversible power marine turbines containing a reverse turbine. The stage assembly of the reversible power turbine contains radially mounted U-shaped screens overlapped by end parts by means of connecting elements and fixed from moving in the longitudinal direction by means of levers. The connecting elements are placed on the edges of the bottom wall of the U-shaped screen and are made in the form of a protrusion and a groove with protruding shoulders. At the edges of the side walls from the groove of the bottom wall, recesses are made. The utility model allows to increase the reliability of the engine by eliminating jamming between the U-shaped screens, by reducing the number of contact points between the U-shaped screens. 3 ill.

Description

The utility model relates to the field of turbine engineering and can be used in reversible power marine turbines containing a reverse turbine.

A known design of a stage of a reversible power turbine (patent No. 2636965, IPC F01D 1/30, published on November 29, 2017), comprising a nozzle apparatus, working blades over which U-shaped screens are radially mounted, overlapped by end parts by means of connecting elements , and fixed from moving in the longitudinal direction by means of levers, while the connecting elements are placed on the edges of the bottom wall of the U-shaped screen and are made in the form of a protrusion and a groove with protruding shoulders. Inside the U-shaped screen above the working blades, a T-shaped stationary nadrotorny insert is installed. On the front side of the U-shaped screen relative to the gas flow direction, an outer protrusion is made, which contacts the inner surface of the outer wall of the nozzle apparatus in the extended position of the U-shaped screen, corresponding to the operation of the reversing reverse power turbine. During operation of the reverse turbine, the U-shaped screen moves to the “open” position, while the nadrotor T-shaped insert, which is a stator part, remains in place, reducing the flow of the working fluid through the cavity under the U-shaped screen. A U-shaped screen having a protrusion on the front side wall, moving to the upper position, is in contact with a counterpart made integral with the stator part of the turbine, overlapping the gap above the U-shaped screen. As a result, during operation of the reverse turbine, there is a decrease in leakages of the working fluid (gas) in the cavity above and below the U-shaped screen.

The disadvantage of this design is the presence of an excessive number of contact points between the U-shaped screens, leading to their jamming during engine operation.

The technical result, which the utility model aims to achieve, is to increase engine reliability by eliminating jamming of U-shaped screens between each other, by reducing the number of contact points between U-shaped screens.

The technical result is achieved by the fact that in the node of the stage of the reversing power turbine, containing radially mounted U-shaped screens overlapped by end parts by means of connecting elements, and fixed from moving in the longitudinal direction by means of levers, while connecting elements are placed at the edges the bottom wall of the U-shaped screen and made in the form of a protrusion and a groove with protruding shoulders, in contrast to the notches known on the edges of the side walls on the side of the groove of the bottom wall.

The claimed solution is illustrated by drawings, which depict: FIG. 1 is a General view of the connection node of the U-shaped screens as part of a reversible power turbine; FIG. 2 is a general view of a U-shaped screen of a reversible power turbine before refinement; FIG. 3 is a general view of the U-shaped screen of a reversible power turbine after refinement.

The stage node of the reversing power turbine (Fig. 1) contains radially mounted U-shaped screens 1, which are overlapped by end parts by means of connecting elements 2 and 3 (Fig. 3). Each U-shaped screen 1 is fixed from moving in the longitudinal direction by means of a lever 4, which passes through the ear 5, located on the outer surface of the bottom wall 6 of the screen 1. The connecting elements are made in the form of a protrusion 2 and a longitudinal groove 3 with protruding shoulders. The connecting elements 2 and 3 are placed at the edges of the bottom wall 6 of the screen 1. (Fig. 3).

In the radial direction, the U-shaped screens 1 are in contact with each other on the surfaces 7 and 8 (Fig. 2) of the reciprocal U-shaped screen 1, in the longitudinal direction they are fixed using the lever 4 mounted in the upper ear 5 of the U-shaped screen 1 (FIG. . one). Due to the fact that an additional end fixing of the U-shaped screens 1 is not required, since they are fixed on the lever 4, to exclude the possibility of their jamming when touching each other, at the edges of the side walls 9 and 10 from the side of the groove 3 of the bottom wall 6 notches 11 are made (Fig. 3).

Thus, this technical solution allows to increase the reliability of the engine by ensuring the operability of U-shaped screens, as a result of reducing the number of contact points between them.

Claims (1)

A step assembly of a reversible power turbine containing radially mounted U-shaped screens lapped together by end parts with connecting elements and fixed from movement in the longitudinal direction by means of levers, while the connecting elements are placed on the edges of the bottom wall of the U-shaped screen and are made in the form of a protrusion and a groove with protruding shoulders, characterized in that recesses are made on the edges of the side walls from the side of the groove of the bottom wall.

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