CN201321999Y - Adjustment control device of adjustable stator blade of axial flow compressor - Google Patents

Abstract

The utility model relates to an adjustment control device of the adjustable stator blade of an axial flow compressor, which comprises an angular displacement transducer ZT. The angular displacement transducer ZT is arranged at the lower part of a left and right servo cylinder SM on the lower machine shell of an axial flow compressor; the angular displacement mechanical signal input end of the angular displacement transducer ZT is connected with the mechanical displacement output end of the servo cylinder SM through a shifting fork; the analog signal output end of the angular displacement transducer ZT is connected with the input end of a distributor ZY; the output end of the distributor ZY is connected with the input end of a PID controller; the PID controller is integrated with an electro-hydraulic servo valve to form an integrated electro-hydraulic servo valve SV; and the integrated electro-hydraulic servo valve SV is connected with the servo cylinder SM through an oil channel distributor. The utility model requires no independent controller, and integrated the PID regulation function and the servo valve, thereby leading to high integration. Simultaneously, the utility model solves the problem of signal attenuation, and has the advantages of simple control circuit, convenient on-site commissioning and operation and high anti-pollution performance.

Description

A kind of control set for adjusting of axial flow compressor variable stator vane angle

Technical field

The utility model relates to a kind of control set for adjusting of axial flow compressor variable stator vane angle, particularly a kind of control set for adjusting that adopts the axial flow compressor variable stator vane angle of electrohydraulic control control.

Background technique

Axial flow compressor stator blade servo-system is that axial flow compressor is realized control automatically and the key and the core of regulating, particularly convert the electrical signal to the electrohydraulic control of hydraulic pressure signal and the servomotor of output mechanical force, its performance directly influences the working stability of compressor.

China is from introducing axial flow compressor, is applied in stator blade and regulates electrohydraulic control in the servo-system, and what the initial stage adopted is the servovalve of MOOG series or homemade YFW10 series, but this type of valve stops up easily, and resistance tocrocking is poor.Up to the mid-90 in last century, because the user is to the high request of electrohydraulic control resistance tocrocking, begin to use the BD series product of introducing the U.S., and progressively in the axial flow compressor product, obtain promoting, although the resistance tocrocking of BD series product is than the serial or homemade YFW10 series of servo of MOOG valve height, but its resistance tocrocking still has deficiency, and particularly the line between its controller and the servovalve is long, and signal degradation is serious.

Summary of the invention

The purpose of this utility model is to overcome above-mentioned the deficiencies in the prior art, a kind of servo control set for adjusting of axial flow compressor variable stator vane angle is proposed, this device no longer needs independently controller, band PID regulatory function and servovalve are integrated, the level of integration height, the problem, the control loop that have solved signal degradation simultaneously are simple, and field adjustable is easy to operate, and have the high characteristics of resistance tocrocking.

The technical solution of the utility model is achieved in that a kind of control set for adjusting of axial flow compressor variable stator vane angle, comprise and be installed in an axial flow compressor lower housing left side, the angular displacement transmitter ZT of right servo-cylinder SM bottom, the angular displacement mechanical signal input end of angular displacement transmitter ZT and the mechanical displacement output terminal of servo-cylinder SM are connected by shift fork, the analog signal output of angular displacement transmitter ZT is connected with the input end of distributor ZY, the output terminal of distributor ZY is connected with the input end of PID controller, the integrated formation integral type of PID controller and electrohydraulic control electrohydraulic control SV, this integral type electrohydraulic control SV is connected with servo-cylinder SM by the oil circuit distributor.The PID controller directly drives the spool of electrohydraulic control SV by signal operation, comparison, amplification conversion, changes the valve position of spool, reaches control hydraulic oil and enters the oil mass of servo-cylinder SM, and enter the direction of the ante-chamber or the back cavity of oil cylinder.Thereby drive the piston motion of servo-cylinder SM, the piston rod of servo-cylinder SM is connected with the adjusting cylinder of variable stator vane angle, reaches the purpose of the adjusting control of stator blade.

Because the utility model has adopted present advanced person's integral type electrohydraulic control, PID regulator and servovalve are integrated, have solved the problem of signal degradation; Adopted new oil circuit distributor, the level of integration height, so this device has the resistance tocrocking height, the no signal decay, control loop is simple, and field adjustable is easy to operate simultaneously, has improved the reliability of system, the advantage of practicability.

Description of drawings

Accompanying drawing is a structure principle chart of the present utility model.

Embodiment

Below in conjunction with accompanying drawing structural principle of the present utility model and working principle are elaborated.

Referring to accompanying drawing, structural principle of the present utility model is: a kind of control set for adjusting of axial flow compressor variable stator vane angle, comprise and be installed in an axial flow compressor lower housing left side, the angular displacement transmitter ZT of right servo-cylinder SM bottom, the angular displacement mechanical signal input end of angular displacement transmitter ZT and the mechanical displacement output terminal of servo-cylinder SM are connected by shift fork, the analog signal output of angular displacement transmitter ZT is connected with the input end of distributor ZY, the output terminal of distributor ZY is connected with the input end of PID controller, PID controller and electrohydraulic control SV are integrated, and integral type electrohydraulic control SV is connected with servo-cylinder SM by the oil circuit distributor.The PID controller is by signal operation, comparison, amplification conversion, directly drive the spool of electrohydraulic control SV, change the valve position of spool, reach the oil mass that control hydraulic oil enters servo-cylinder SM, and the direction that enters the ante-chamber or the back cavity of oil cylinder, thereby drive the piston motion of servo-cylinder SM, the piston rod of servo-cylinder SM is connected with the adjusting cylinder of variable stator vane angle, reaches the purpose of the adjusting control of stator blade.

Working principle of the present utility model is: be used for measuring actual static blade angle signal with the two-wire system angular displacement transmitter ZT that is installed in the left and right servo-cylinder SM bottom of axial flow compressor lower housing, convert thereof into the current signal of 4 corresponding～20mA by having the distributor of scene 2 function into, wherein one the tunnel send unit control system to can be used for the static blade angle supervision, the one tunnel delivers to the PID controller of integral type electrohydraulic control SV.The PID controller receives the command signal of 4～20mA of main air flow regulator FIC simultaneously, the PID controller is compared these two signals in inside, difference finally produces a signal that directly drives electrohydraulic control SV valve core movement through the PID calculation process with after amplifying.Under the control of integral type electrohydraulic control SV, the power oil of 8Mpa or 12.5Mpa acts on servo-cylinder SM by oil dispenser, drives the adjusting parts and reaches desired location, thereby realize the purpose that the axial flow compressor stator blade is regulated.

Claims (1)

1. A kind of servo control set for adjusting of axial flow compressor variable stator vane angle, comprise and be installed in an axial flow compressor lower housing left side, the angular displacement transmitter ZT of right servo-cylinder SM bottom, it is characterized in that: the angular displacement mechanical signal input end of angular displacement transmitter ZT and the mechanical displacement output terminal of servo-cylinder SM are connected by shift fork, the analog signal output of angular displacement transmitter ZT is connected with the input end of distributor ZY, the output terminal of distributor ZY is connected with the input end of PID controller, the integrated formation integral type of PID controller and electrohydraulic control electrohydraulic control SV, integral type electrohydraulic control SV is connected with servo-cylinder SM by the oil circuit distributor.

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