KR102017051B1 - Breakage Prevention Structure for Drive Shaft of MDPS System - Google Patents

Abstract

The present invention relates to a drive shaft damage prevention structure of the electric power steering system, in more detail,
When the maximum angle of burr joint (BJ, Birfield Joint) of the drive shaft of the motor driving power steering (MDPS) system applied to the vehicle occurs (for example, the stall stall, etc.) The present invention relates to a technique for controlling the steering pull turn angle of the electric power steering system to prevent further folding of the BJ part.

Description

Breaker Prevention Structure for Drive Shaft of MDPS System

The present invention relates to a drive shaft damage prevention structure of the electric power steering system, in more detail,

When the maximum angle of burr joint (BJ, Birfield Joint) of the drive shaft of the motor driving power steering (MDPS) system applied to the vehicle occurs (for example, the stall stall, etc.) The present invention relates to a technique for controlling the steering pull turn angle of the electric power steering system to prevent further folding of the BJ part.

In general, a drive shaft, a drive system component of a vehicle, is a shaft connecting a final drive and a wheel, and its strength is generally determined by the size of a standardized constant velocity joint (CVJ).

The strength of the drive shaft is typically the maximum in the straight state, the strength decreases as the angle of the Birfield Joint (BJ, Birfield Joint) increases, so that when the maximum cutting occurs, the response falls to 40% of the strength in the straight state. Indicates.

Therefore, since the strength of the drive shaft varies variably depending on the state, efforts have been made to improve the strength of the drive shaft to prevent breakage and damage.

On the other hand, generally known general drive shafts are configured in such a way that the maximum angle of burfield joint occurs during the reverse (R stage) stall of the electric power steering system (MDPS), which is shown in FIG. .

BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a perspective view showing a pulley tie rod and a knuckle arm of a conventional MDPS.

As shown, when the full turn of the MDPS is made, compared to the initial angle of rotation (the angle between the tie rod and the knuckle arm), the reverse burrs are driven by the reverse reaction force and / or the additional compliance by the suspension compliance during the reverse stall. The angle over the permissible joint is generated in the field joint part.

As described above, when an angle larger than the allowable articulation is generated, it is a major cause of the drive shaft failure by generating at least 5 degrees more than the maximum pull turn angle intended in the initial design.

FIG. 2 simplifies the knuckle arm swing trajectory and tie rod swing trajectory of FIG.

As shown, the full turn-off without torque load is located at each ball joint axis of the A line, but the pull-turn at the reverse stall torque load causes the steer reversal force and the second right moment to occur. As a result, the hard point may be moved to the B line, where additional cutting occurs, thereby causing shaft breakage.

If the hard point is located on the B line, even if the reverse recovery force is generated in the MDPS, since three points are located on the horizontal line as shown in the figure, the three points are stationary on the same line and stopped in the same direction or in the front direction of the vehicle. As a result, it is more likely to cause further inflation by rack thrust.

Therefore, there has been a demand for a technique of increasing the strength of the drive shaft applied to the conventional MDPS system so as to maintain the strength even in the case of the maximum cutting along the reverse stall as described above.

However, in the related art, a method of increasing the size mainly as a method of increasing the strength of the drive shaft having the above characteristics has been generally applied. In addition, the following known techniques for increasing heat treatment or other rigidity are applied. It has been used to increase the rigidity of the drive shaft.

Conventional techniques for solving the above problems have a configuration in which a stopper is provided to suppress the occurrence of additional cutting, or the input torque of the constant velocity joint (CVJ) is reduced by reducing the torque. However, the above-mentioned known technology newly generates the following problems and demands a solution to them.

1) The structure in which the stopper is placed may cause discomfort to the driver of the vehicle due to the joint occurring after the stopper, or the stopper may be touched under the stopper installation tolerance even in the normal condition due to the stopper installation tolerance. There was concern.

2) In the method of reducing torque, if the vehicle parked on the steep slope has a problem that the vehicle cannot drive normally due to torque reduction, and the vehicle is pushed on the steep slope and may cause an accident.

The present invention was made to solve the above problems,

When the maximum angle of burr joint (BJ, Birfield Joint) of the drive shaft of the motor driving power steering (MDPS) system applied to the vehicle occurs (for example, the stall stall, etc.) An object of the present invention is to prevent steering of the BJ part by controlling the steering pull turn angle of the electric power steering system.

The present invention to achieve the above object,

In the drive shaft damage prevention structure of the electric power steering system, MDPS control unit for reversing the shift in conjunction with the transmission; Receiving, by the MDPS control unit, an input torque of a constant velocity joint from a vehicle body control unit, and determining whether an input torque of the constant velocity joint exceeds a predetermined reference torque; And recognizing that the reverse stall occurs through the reverse speed shift and the constant torque input torque, the MDPS control unit performs control to reduce the engine torque in association with the engine control unit.

In addition, when the MDPS control unit performs a control to reduce the engine torque, the steering station reversal force is generated, the pull turn angle of the electric power steering system is reduced by the steering station reversal force.

The MDPS control unit may further include determining whether the steering angle is greater than or equal to a preset allowable steering angle. When the steering angle is greater than or equal to a preset allowable steering angle, the MDPS control unit receives an input torque of a constant velocity joint from the vehicle body control unit. It is characterized by.

The MDPS control unit may determine that the pull turn angle is reduced, and stop the engine torque reduction control when the pull turn angle is reduced below a preset ratio of the maximum pull turn angle.

In addition, the MDPS control unit, after performing the control to reduce the engine torque, after stopping the engine torque reduction control for a predetermined time, characterized in that the.

The present invention having the configuration as described above,

When the allowable steering angle of the electric power steering system is set in advance, and the steering angle exceeds the allowable steering angle in the reverse stall condition, the control to reduce the pullon stroke is prevented from cutting off the burfield joint of the drive shaft. There is.

In addition, there is an effect to reduce the engine torque during the reverse stall, and to reduce the rack stroke by applying a reverse recovery force in the electric power steering system.

Finally, the engine torque is output to the maximum to prevent the vehicle from being controlled by the reverse restoring force applied by the electric power steering system in a state where the stroke is suppressed at a predetermined angle or more during reverse stall. There is an effect to overcome the uncontrollable situation.

BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a perspective view showing a pulley tie rod and a knuckle arm of a conventional MDPS.
FIG. 2 simplifies the knuckle arm swing trajectory and tie rod swing trajectory of FIG.
3 is a flowchart showing a preferred embodiment of the drive shaft breakage prevention structure of the electric power steering system of the present invention.
4 to 6 show the mechanism for generating the reverse recovery force according to the reduction of the engine torque.

The present invention relates to a drive shaft breakage prevention structure of an electric power steering system, and more particularly, to a burfield joint (BJ) part of a drive shaft of an electric power steering system (MDPS) applied to a vehicle. When the cutting occurs at maximum (for example, a reverse stall), the steering pull turn angle of the electric power steering system is controlled to prevent further cutting of the burfield joint part, thereby causing damage to the drive shaft. Has a configuration to prevent.

At this time, when the reverse stall is generated, the engine torque is reduced and then the reverse power is applied from the electric power steering system to reduce the rex stroke. In the state in which the stroke is suppressed, the above problem is solved by configuring the engine torque to be output at the maximum in order to prevent the vehicle from being pushed.

Hereinafter, exemplary embodiments of the present invention having the above configuration will be described in detail with reference to the accompanying drawings.

3 is a flowchart showing a preferred embodiment of the drive shaft breakage prevention structure of the electric power steering system of the present invention.

The present invention has a configuration for controlling the steering pull turn angle by a control unit of the electric power steering system (hereinafter referred to as 'MDPS control unit'), and is configured to prevent the additional articulation of the Burfield joint, according to the following steps Is performed accordingly.

When the driving of the first vehicle is started (S001), the MDPS control unit is connected to the transmission of the vehicle, and determines whether the R stage shift is made from the transmission (S002). The drive shaft breakage prevention structure of the electric power steering system of the present invention is intended to prevent damage to the drive shaft caused by the burr joint of the burfield joint generated during the reverse stall of the vehicle. It is determined whether the shift is performed to the reverse stage by receiving the shift stage information.

If it is determined in step S002 whether the gear shift of the current transmission is shifted to the reverse stage (R stage), the MDPS control unit determines whether the steering angle is greater than or equal to a preset allowable steering angle (S003). As described above, the present invention aims to prevent the occurrence of the back restoring force due to the drive reaction force during the reverse stall, the additional cutting by the suspension compliance, and the like, and thus checks the reverse shift as described above.

If it is determined in step S003 that the steering angle exceeds the allowable steering angle, the controller determines whether the input torque of the constant velocity joint is equal to or greater than a preset reference torque (S004). In this step, the MDPS control unit recognizes whether a reverse stall has occurred by determining whether a stall (stall, a state in which an axel pedal is input as a WOT condition) is performed in a state in which a short shift is made to the reverse stage.

If it is determined in step S004 that the input torque of the constant velocity joint is equal to or greater than a preset reference torque, the MDPS control unit controls the engine torque to reduce the engine torque, thereby inducing steering reverse recovery (S005). In this step, the control of the engine torque may be made in conjunction with the MDPS control unit and the engine control unit.

When the engine torque is decreased in the step S005, the steer reverse restoring force is generated by the secondary camber moment and the backward driving force according to the bending angle, and the pull turn angle of the electric power steering system is reduced by the reverse restoring force (S006). ). More specifically, an inward forward load is generated by camber and steer moments generated by the bending angle, and this load moves the tie rod end mount position forward (orbital trajectory of the knuckle arm and tie rod end). It consists of a structure that generates an additional cut. As described above, the reverse restoring force generated by the reduction of the engine torque is illustrated in FIGS.

When the additional field of burfield joint of the drive shaft is prevented by reducing the pull turn angle as described above, the MDPS control unit according to the reduced engine torque in step S005, in order to further prevent the vehicle from being pushed on the slope The engine torque reduction control is stopped (S007). In a preferred embodiment of the present invention, the MDPS control unit detects a decrease in the Fulton angle, and may be configured to perform the step S007 when the Fulton angle is reduced. In other words, the MDPS control unit is configured to detect that the pull turn angle is reduced, and to stop the engine torque reduction control when the pull turn angle is reduced below a preset ratio of the maximum pull turn angle.

However, the present invention is not limited to the above configuration, and in another embodiment of the present invention, the MDPS control unit may be performed after a preset time wait after performing the control to reduce the engine torque in step S005. Therefore, the engine torque is reduced and restored for a preset waiting time.

Although the preferred embodiment of the drive shaft breakage preventing structure of the electric power steering system of the present invention has been described in detail above, this is merely a specific example for the purpose of understanding the present invention, and is intended to limit the scope of the present invention. It is not. In addition to the embodiments disclosed herein, it is apparent to those skilled in the art that other modifications based on the technical idea of the present invention can be implemented.

Claims (5)

In the drive shaft damage prevention structure of the electric power steering system,
Recognizing the reverse gear shift in conjunction with the MDPS control unit transmission;
Receiving, by the MDPS control unit, an input torque of a constant velocity joint from a vehicle body control unit, and determining whether an input torque of the constant velocity joint exceeds a predetermined reference torque; And
And recognizing that the reverse stall occurs through the reverse speed shifting and the constant torque input torque, the MDPS control unit performs a control to reduce the engine torque in association with the engine control unit.
The MDPS control unit,
After determining that the Fulton angle is reduced and the Fulton angle is reduced below a preset ratio of the maximum Fulton angle, the engine torque reduction control is stopped or the engine torque reduction control is performed. Drive shaft breakage prevention structure of an electric power steering system, characterized by stopping the reduction control.
The method of claim 1,
If the MDPS control unit performs a control to reduce the engine torque,
Steer back restoring force is generated, the drive shaft damage prevention structure of the electric power steering system, characterized in that the pull turn angle of the electric power steering system is reduced by the steer back restoring force.
The method of claim 1,
And determining whether the steering angle is greater than or equal to a preset allowable steering angle.
And, if the steering angle is equal to or greater than a preset allowable steering angle, the MDPS control unit receives an input torque of the constant velocity joint from the vehicle body control unit.
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