RU2465465C2 - Guide vane turning mechanism - Google Patents

Abstract

FIELD: machine building.

SUBSTANCE: guide vane turning mechanism of axial turbine or compressor includes housing with case with turning vanes, which is installed into it. Levers connected in movable manner to the ring resting on the case are fixed on vane trunnions. Mechanisms comprising the shaft installed in the sleeve attached to the housing and levers on the shaft ends are located on both sides of the housing. Levers are hinged to the ring on one end of the shaft and to hydraulic actuator on the other end. On one of the hydraulic actuators there installed is spool valve through which oil is supplied from turbine or compressor control system to its pressure cavity connected by means of a pipe to pressure cavity of the second hydraulic actuator.

EFFECT: invention allows improving the reliability of guide vane turning mechanism.

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Description

The invention relates to power engineering, in particular to axial gas turbines and compressors with rotary guide vanes that regulate the flow of working gas, mainly working on explosive, flammable and toxic gases.

The known mechanism of rotation of the guide vanes of an axial compressor of a gas turbine with a capacity of 16 MW produced by the Ural Turbomotor Plant (see B. S. Revzin. Gas turbine gas pumping units, publishing house "Nedra", M., 1986, Fig. 68, p. 123 ... 125), comprising a housing (cage), 4 rows of rotary guide vanes, blade arms, rotary drive rings connected to the blade arms by spherical articulated bearings, actuated by a common lever connected to the hydraulic actuator (prototype).

The disadvantage of this design of the rotation mechanism of the guide vanes of the axial compressor or turbine is the application of the hydraulic drive force in one place to the drive ring, which with different resistance to rotation of each individual blade entails a different deformation of the drive ring around the circumference and causes distortions, deformations and pinching of it in the bearings located on the turbine or compressor housing. The elimination of pinching of the drive rotary rings of the turbine or compressor is especially important for the case of placing a cage with blades and a drive ring inside the turbine or compressor housing, i.e. without visual control of the rotation mechanism.

The objective of the invention is to increase the reliability of the mechanism of rotation of the guide vanes of an axial turbine or compressor operating on explosive, flammable and toxic gases (for example, natural or blast furnace gas and others) in the continuous control mode.

The problem is achieved in that the rotation mechanism of the guide vanes of the axial turbine or compressor, comprising an axial turbine and compressor housing, mainly with a cage with rotary vanes with levers fixed on their pins, movably connected to a ring resting on the cage located on both sides mechanisms including a shaft mounted in a sleeve attached to the turbine or compressor housing, levers at the ends of the shaft, articulated at one end with a ring and hydraulic drive with the other end, characterized in that a spool is installed on one of the hydraulic actuators, through which oil is supplied from the turbine control system or compressor to its pressure cavity, connected by a pipe to the pressure cavity of the second hydraulic drive.

A general view of the rotation mechanism of the guide vanes of an axial turbine or compressor is shown in FIG. 1, FIG. 2 — view A — shows a cross-section through a turbine or compressor.

In the casing of the turbine or compressor 1, consisting of the upper and lower halves, a cage 2 of two halves is installed in the tooth with rotary guide vanes 3 inserted into it with removable levers 4 fixed on their pins, movably connected to the ring 5 by means of pins fixed to it ring 5, supported on a ferrule 2, mechanisms located on both sides of the turbine or compressor housing, including a shaft 6 mounted movably in a sleeve 7 attached to the turbine or compressor housing 1, a lever 8 at the end of the shaft 6, connected w pivotally with a ring 5, and a lever 9 at the other end of the shaft 6, pivotally connected to the rod of the hydraulic actuator 10, on which the spool 11 of the oil supply from the control system of the turbine or compressor (not shown conventionally) of one of the two hydraulic actuators 10 located on the brackets of the turbine housing is mounted or compressor 1, while the pressure cavity of the second hydraulic actuator is connected to the pipe 12 with the pressure cavity of the hydraulic actuator 10 with the spool 11. The lever 4 is connected by a traverse 13 with a ring 5, and the lever 8 with it is a traverse 14.

The mechanism for turning the guide vanes of the turbine or compressor works as follows. When oil is supplied from the turbine or compressor control system to the pressure cavity of the hydraulic actuator 10 with the spool 11, the rod is moved and the lever 9 is rotated and the lever 8 mounted on the shaft 6 is connected to it 6, which moves the ring 5 in the axial direction, which, in its in turn, acts through the beam 13 on the lever 4 of the guide vanes 3, sets it in a certain position corresponding to the optimal mode of operation of the turbine or compressor.

The use of the mechanism for turning the guide vanes according to this proposal on the experimental gas utilization turbine TGU-11 with a capacity of 7 MW confirmed its high operational reliability (operating time for this period amounted to more than 50,000 hours of continuous operation) (technical result).

Claims (1)

A turning mechanism for guide vanes of an axial turbine or compressor, comprising a turbine or compressor housing predominantly with a cage with rotary vanes, levers fixed to their pins, movably connected to a ring resting on the cage, mechanisms located on both sides of the turbine or compressor casing, including a shaft mounted in a sleeve attached to the turbine or compressor housing, levers at the ends of the shaft, pivotally connected at one end to a ring and hydraulic drive at the other end, characterized in that a spool is installed on one of the hydraulic actuators, through which oil is supplied from the turbine or compressor control system to its pressure cavity connected by a pipe to the pressure cavity of the second hydraulic drive.

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