Dynamic control method of linear steering engine electric loading system

A loading system and dynamic control technology, applied in the direction of computer control, program control, general control system, etc., can solve the problems of unmeasurable linear steering gear loading, affecting loading accuracy, weakly damped pneumatic system, etc., to shorten the dynamic tracking process. , Guarantee force tracking accuracy, improve the effect of loading accuracy

Active Publication Date: 2017-09-26
NANJING UNIV OF SCI & TECH
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

At present, the linear loading method mostly adopts the swing rod type, mechanical type or elastic rod method. These linear loading methods cannot meet the requirements of automation and intelligence of the load simulator, and their control methods are of little significance.
In the application of large torque loading, the main research is the electro-hydraulic servo loading system with hydraulic motor or actuator as the actuator. Document 1 (CN106055753A) discloses a servo command for the excess force of the electro-hydraulic load simulator. Dynamic compensation control method, this loading method has disadvantages such as oil leakage, inconvenient maintenance, sensitivity to oil pollution, and frequent failures. In addition, nonlinear factors such as large inertia and seal friction also greatly affect the loading accuracy, and from From the point of view of the control method, due to the active movement of the load-carrying system and the large connection stiffness causing strong positional interference to the loading system, forced commutation occurs in the two chambers of the loading hydraulic motor, and the commutation produces forced pressure, which is the cause of the electro-hydraulic passive torque. The main reason for the excess torque of the servo system is that the excess torque is often very large, which seriously affects the loading accuracy, and there are interference factors such as servo valve dead zone and pressure fluctuation in the electro-hydraulic system, and the system parameters are easily affected by changes in ambient temperature and working temperature. Systems with strong nonlinear and time-varying factors
Therefore, due to the influence of nonlinear and time-varying factors on the accuracy of the model coefficients of the electro-hydraulic load simulator, the difficulty and complexity of the controller design of the e

Method used

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  • Dynamic control method of linear steering engine electric loading system
  • Dynamic control method of linear steering engine electric loading system
  • Dynamic control method of linear steering engine electric loading system

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Experimental program
Comparison scheme
Effect test

Embodiment 1

[0110] In order to verify the present invention, the components selected in the embodiment are shown in Table 1, and the parameters of the electric loading system of the linear steering gear are shown in Table 2.

[0111] Table 1 Selection of each component of the test bench

[0112]

[0113]

[0114] Table 2 System parameters

[0115] parameter

parameter value

unit

significance

K t

1.75

Nm / A

Electromagnetic torque constant

K e

112

V / Krpm

back emf constant

K L

6000

Nm / rad

elastic stiffness constant

J L

8.81×10 -5

Kgm 2

load moment of inertia

L m

11.4

mH

Inductance constant

R m

2.1

Ω

Stator winding resistance

J m

9.1×10 -4

Kgm 2

Moment of inertia of PMSM

B m

0.052

Nm / Krpm

Motor damping constant

P

25

mm

screw lead

[0116] Secondly, to analyze whether the system is stable, use MATLAB...

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Abstract

The invention discloses a dynamic control method of a linear steering engine electric loading system, comprising the following steps: modeling a servo loading motor, constructing a torque balance equation, and constructing a linear steering engine mechanism model; building a ball screw pair motion model; analyzing the transfer function of the electric loading system, designing a three-closed-loop control method based on a current inner loop, a position outer loop and a force outer loop, and applying complex vector PI control in the current inner loop to enable the current of the servo loading motor to track instruction signals quickly and accurately; and finally, making feed-forward compensation for angular velocity, and verifying the control method. The method takes an electric loading system driven by a permanent magnet synchronous motor as a specific object, and considers the impact of the characteristics of the linear steering engine and the coupling degree between the linear steering engine and the electric loading system. The active force of active displacement of the linear steering engine is inhibited, and the loading precision of the linear loading system is improved. Moreover, a verification method is put forward, which makes a linear load simulator better evaluated.

Description

technical field [0001] The invention belongs to the technical field of control devices, in particular to a dynamic control method for an electric loading system of a linear steering gear. Background technique [0002] In scientific research and industrial production in national defense, aerospace and other fields, it is usually required to test product performance to ensure the performance of the designed product. The electric steering gear is a classic actuator in the aerospace field, which is of great significance to the normal flight and maneuver control of the aircraft. It is an important flight control servo component. As a new type of power transmission actuator, the linear steering gear has Wide application prospects, in addition to being used in the flight control system, it can also be used in other occasions that require action on the aircraft. In the early development process of linear steering gear, the performance test of linear steering gear often required mul...

Claims

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Application Information

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IPC IPC(8): G05B19/408
CPCG05B19/4083G05B2219/35356
Inventor 范元勋徐志伟
Owner NANJING UNIV OF SCI & TECH
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