SU1544990A1 - Adjustable nozzle unit of radial-axial turbine - Google Patents

Abstract

The invention relates to turbine engineering and can be used in transport gas turbine engines, as well as in steam turbines with centripetal adjustable steps. The aim of the invention is to increase the economics of the turbine operation by providing the optimum inter-wear gap, as well as improving the reliability and accuracy of blade installation. The rotary axes 4 of the nozzle vanes 3 are eccentrically located in the rotary bushings 6 equipped with gear wheels 7. Freely rotating intermediate gears 8 are aligned with them, and the driving ring 5 is made in the form of two gear rims 10, 11, respectively interacting with the gear wheels 7 rotary bushings 6 and through intermediate gears 8 — with gears 9 of pivot axes 4 of blades 3. Such an embodiment of the nozzle apparatus allows the selection of a certain gear ratio of the pairs of gears 10.7, 11.8, and 8.9 in to set the optimum size of the spacing gap 8 regardless of the installation angle α _{for the} blades 3, to improve the installation accuracy of the blades 3 due to the elimination in the drive mechanism of the links in which gaps appear during operation, to improve the strength characteristics of the blade embedment. 4 il.

Description

independent of the installation angle otu of the blades 3, improve the accuracy of the installation of the blades 3 due to the elimination of links in the drive mechanism, in which gaps appear during operation, improve the strength characteristics of the blade embedment. 4 il.

The invention relates to a vehicle construction and can be used in transport gas turbine engines, as well as in steam turbines with centripetal adjustable steps.

The aim of the invention is to increase the economics of the turbine operation by providing the optimum interfate gap at different blade installation angles, as well as improving the reliability of operation and blade mounting accuracy.

Fig. 1 shows a radial-axial turbine, a longitudinal section; in Fig. 2, the same with opposed toothed rims; in Fig. 3, view A in Fig. 2 (with a nominal flow rate of the working medium) in Fig. 4 - the same, with partial consumption of the working environment.

The adjustable nozzle unit contains blades 3 located between cases 1 and 2 with rotary axes 4 and a rotary ring 5. The nozzle device is equipped with rotary bushings 6 having gears 7 and intermediate gears 8 arranged coaxially with them. The rotary axes 4 are equipped with gear wheels 9 and placed with eccentricity Ј in the rotary bushings 6, and the rotary ring 5 is made in the form of two gear rims 10 and 11, respectively interacting with the gear wheels 7 of the rotary bushings 6 and through intermediate staves Rni 8 with gear wheels 9 rotary axes 4 blades 3. Between the output edges of the blades 3 and the input edges of the working blades 12 of the rotor 13, there is a constant spacing gap of 0. The blades 3 are set at an angle oCu0j in the form of a mezhlopat full-time channels 14 with the throat a.

In the nominal mode of operation, the blades 3 with the rotary axes 4 are in a certain position with the corresponding angles c.

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a certain value of the interlock gap 00. The size of the throat a channel 14 provides the required flow rate of the working medium G.

To obtain a new mode of operation of the turbine, for example, with a decrease in the flow from the actuator actuator (not shown), the force is transmitted to the rotary ring 5, causing it to move counterclockwise. In this case, a pair of corresponding gearing of the crown 10 and the wheels 7, the crown 11 and the gears 8, and the wheels 9 provide the rotation of the sleeve 6 counterclockwise and the axes 4 of the blades 3 in a clockwise direction. Simultaneously with the rotation of the sleeve 6, the pivot axis 4 of the blades 3 moves in the circumferential direction by the value of q (n and by the value of A g B5 the radial direction. In the new position, new geometrical parameters of the adjustable nozzle apparatus are set: installation angles ui interlayer gap 01 and throat channels 14 of the nozzle apparatus, in accordance with article throat size, a0), the flow of the working medium G ((GG) is skipped. At the same time, the eccentricity Ј, gear ratios of the gears of the crown 10 and wheel 7, the crown 11 and gear 8, gear wheels 8 and 9 are selected such that &. Ј0-B (const Similarly mode is performed with an increased flow rate of the working medium.

In an adjustable nozzle apparatus, it is possible to select almost any position of the rotary axis 4, for example, at the location of the maximum thickness of the blade section 3, as a result of which the joint area of the blade 3 with axis 4 is increased, which increases the reliability of the design.

The installation accuracy of the blade 3 is improved due to the elimination of links in the drive mechanism, in which gaps appear during operation.

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Invention Form

An adjustable nozzle apparatus of a radial-axial turbine containing blades with rotary axes located between the housings and a rotary ring, characterized in that, in order to increase the economics of the turbine operation by ensuring the optimum size of the spacing gap at different angles of blade installation, as well as increasing reliability of operation and accuracy of installation

current, the nozzle apparatus is equipped with rotating sleeves having gears, and intermediate gears are aligned with them, and the swivel axes are equipped with gears and are placed eccentrically in rotating sleeves, and the rotating ring is made in the form of two 10 toothed crowns, respectively interacting with cogwheels of turning sleeves and through intermediate gears with cogwheels of swiveling blades of blades.

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Claims (1)

Form l. but inventions An adjustable nozzle device of a radial-axial turbine, comprising blades with rotary axes located between the housings and a rotary ring, characterized in that, in order to increase the efficiency of the turbine operation by ensuring an optimal value of the interventional gap at different blade angles, as well as increasing reliable. ty work and accuracy of installation of a blade 0 ⁶ current, the nozzle apparatus is equipped with rotary bushings having gears and intermediate gears coaxially located with them, and the rotary axes are equipped with gears and eccentrically placed in the rotary bushings, the rotary ring being made in the form of two gear rims, respectively interacting with gears rotary bushings and through intermediate gears with gears of rotary axes of the blades. FIG. 4