KR101242927B1 - a driving safety maintenance apparatus for a vehicle - Google Patents

Abstract

The present invention relates to an apparatus for maintaining driving safety of a vehicle, and more particularly, to prevent steering and rolling due to external conditions such as air volume when driving a vehicle, and to safely drive the vehicle.

According to the present invention, the sensor 100 detects whether the driving speed of the vehicle is higher than a reference speed that may be affected by steering and rolling, and the driving speed of the vehicle detected by the sensing sensor 100 affects steering and rolling. A pair of pitot pipe 200 for measuring the wind pressure generated on both the front and left and right sides of the car when the speed is higher than the reference speed that can be received, the left wind pressure and the right wind pressure and the wind pressure of the front left and right of the car input through the pitot pipe 200 The control unit 300 for comparing the pressure difference between the left and right sides of the vehicle and the control unit 300, if the pressure difference is greater than the steering wheel rolling and the rolling generation reference value locking the steering column for a predetermined time so that steering wheel does not occur A pair of electrons that prevents rolling by raising the electric steering column lock (400) and damping force for a certain period of time. In the apparatus for maintaining driving safety of a vehicle, which is composed of a fishery device 500 (ECS), the pitot pipe 200 has a front air inflow pipe 210 into which a wind direction generated in the front direction of the vehicle flows, and a side wind direction of the vehicle. Inflow is achieved by the side inlet pipe 220 is formed in communication.

Sensor, Pitot tube, Front air inlet tube, Side inlet tube, Control unit, Electronic steering column lock, Lock bar, Electronic control suspension device, Lock ring, Lock ring hole

Description

Driving safety maintenance apparatus for a vehicle {a driving safety maintenance apparatus for a vehicle}

1 is a block diagram showing the configuration of the driving safety maintenance apparatus of the present inventors car
Figure 2 is a flow chart showing a state in which the driving safety maintenance device of the present invention is operated
Figure 3 is a perspective view showing a pitot pipe which is a driving safety maintenance device of the present invention car
Figure 4 is a perspective view showing a state in which the electronically controlled suspension device that is the driving safety maintenance device of the present invention vehicle
Description of the Related Art [0002]
100: detection sensor 200: pitot tube
210: front air inlet pipe 220: side inlet pipe
300: control unit 400: electronic steering column lock
410: rock bar 500: electronically controlled suspension
210: front air inlet pipe 220: side inlet pipe
600: steering column 700: lock ring
710: rocking hole

The present invention relates to an apparatus for maintaining driving safety of a vehicle, and more particularly, driving safety of a vehicle such that steering wheel rolling and rolling do not occur due to external conditions such as air volume when driving the vehicle, and the vehicle is safely driven. It relates to a holding device.
In general, when driving a car, a rolling phenomenon occurs in the driving car due to external conditions or influences such as air volume.
That is, when driving a car, the rolling phenomenon occurs while being affected by the wind blowing from the left, right or front.
In addition, when a vehicle driving in a different lane performs overtaking at a high speed while driving a vehicle, steering wheel phenomenon occurs while a pressure difference occurs on both sides of the vehicle.
As a result, the vehicle body is inclined left and right due to the amount of wind applied from the front or the left or the right when driving the vehicle, and thus the vehicle cannot be driven at constant speed. There was a problem.
In addition, in the related art, when an air pressure difference occurs on both sides of the vehicle by driving another vehicle, steering wheel may occur, and thus, steering may not be performed correctly when the vehicle is driven.

SUMMARY OF THE INVENTION An object of the present invention is to provide a driving safety maintenance device of a vehicle, which is capable of driving safely without causing steering wheel rolling and rolling due to external conditions such as air volume applied from the front or left and right sides of the vehicle when the vehicle is driven. There is.

An object of the present invention, the sensor 100 for detecting whether the traveling speed of the vehicle is more than the reference speed that can be affected by steering and rolling, and the driving speed of the vehicle detected by the sensor 100 A pair of pitot pipes 200 for measuring wind pressures generated at the front and left and right sides of the car when the vehicle is over a reference speed that may be affected by pulling and rolling, and the left wind pressure and the right wind pressure of the car input through the pitot pipe 200; The controller 300 which receives the wind pressure of the front left and right sides and compares the pressure difference between the left and right sides of the vehicle, and the steering wheel for a predetermined time so that the steering wheel does not occur when the pressure difference compared by the control unit 300 is greater than the steering wheel rolling and the rolling generation reference values. The electronic steering column lock (400: Electric Streering Colum Lock) that locks the column and the damping force are raised for a certain period of time to prevent rolling. In the driving safety maintenance device of a vehicle consisting of a pair of electronically controlled suspension device (500: ECS), the pitot pipe 200 is the front air inlet pipe 210 is introduced into the wind direction generated in the front direction of the vehicle, The side inlet pipe 220 through which the side wind direction of the vehicle is introduced is achieved by being in communication.
Hereinafter, the technical configuration of the present invention with reference to the accompanying drawings in detail as follows.
1 is a block diagram showing the configuration of the driving safety maintenance device of the present invention, Figure 2 is a flow chart showing a state in which the driving safety maintenance device of the present invention is operated, Figure 3 is a driving safety maintenance device of the present invention car Figure 4 is a perspective view showing the inpitot tube, Figure 4 is a perspective view showing a state in which the electronically controlled suspension device that is the driving safety maintenance device of the present invention vehicle.
As shown in FIGS. 1 and 2, the apparatus for maintaining driving safety of the vehicle of the present invention is provided by the sensor 100 when the driving speed of the vehicle is greater than or equal to a reference speed at which steering wheel rolling and rolling may occur. The wind pressure and the right wind pressure and the wind pressure on the front left and right sides are measured through a pair of pitot pipes 200 installed on both front left and right sides of the car, and the wind pressures measured through the pitot pipes 200 are inputted to the control unit 300 and the vehicle. The pressure difference between the left and right sides of the control unit 300, and the electronic steering column to lock the steering column for a certain period of time if the pressure difference of the air volume of the left and right sides determined by the control unit 300 is greater than the handle pull and rolling generation reference value. At the same time as the lock 400 is operated, one side damping force in the direction of high wind pressure is raised for a predetermined time so that rolling does not occur. (500: ECS) is activated.
Here, as shown in FIG. 3, the pitot tube 200 communicates with the front air inflow pipe 210 through which the wind direction generated in the front direction of the vehicle flows and the side inflow pipe 220 through which the side wind direction of the vehicle flows. It is formed so as to be able to measure the wind direction in the front direction and the side direction of the vehicle at the same time driving the car.
On the other hand, the pitot pipe 200 is respectively installed on both the left and right sides of the front bumper installed on the front of the car, so that the wind direction generated in the front direction and left and right direction of the car when driving the car directly flows into the inside of the pitot pipe 200 It turns out that it is more preferable.
In addition, as shown in FIG. 4, a locking bar 710 into which the lock bar 410 of the electronic steering column lock 400 is retracted is formed at an outer portion of the steering column 600 which is locked by the electronic steering lock 400. The spline-type lock ring 700 is inserted into the outer portion is coupled, when the wind pressure difference occurs on both the left and right sides of the vehicle while driving the vehicle, when the steering wheel control signal is output from the controller 300, the steering column ( The lock bar 410 of the electronic steering column lock 400 is drawn out to the outside by a driving force of a motor (not shown) to lock the lock 600, and the lock bar 410 drawn by the motor is locked of the lock ring 700. The steering column 600 is locked by being inserted into the ring hole 710 so that the handle pull phenomenon does not occur.
At this time, the lock bar 410 is revealed that the locking column 410 is locked while being drawn into the locking ring 710 only for a short time in the range that does not interfere with the safe operation.
In the driving safety maintenance method of the vehicle of the present invention configured as described above, when the driving speed of the vehicle is higher than a reference speed that may be affected by steering and rolling, the detection sensor 100 detects this and installs each of the front bumper left and right sides of the vehicle. Through the pitot pipe 200 is measured the wind pressure in the front left and right sides of the car and the left and right both sides of the car, the wind pressure measured through the pitot pipe 200 is transmitted to the control unit 300, the The controller 300 compares the pressure difference between the left wind pressure, the right wind pressure, and the front left and right wind pressures of the vehicle.
On the other hand, when the pressure difference between the left and right sides and the front left and right of the car compared by the control unit 300 is greater than the steering wheel rolling and rolling generation reference value, the steering wheel anti-steering control signal is output to lock bar 410 of the electronic steering column lock 400 The lock bar 410 is inserted into the lock ring hole 710 of the lock ring 700 while being drawn out to the outside by a driving force of a motor (not shown) to lock the steering column 600 so as not to cause handle pull phenomenon.
Of course, the lock bar 410 locks the steering column 600 while the lock bar 410 is pulled in only for a short time in a range that does not interfere with the safe operation.
In this case, the controller 300 does not cause rolling by operating the electronic control suspension device (ECS) so that the damping force of the vehicle in a high wind pressure direction is raised for a predetermined time so that rolling does not occur.

Therefore, in the present invention, even when wind pressure difference occurs in the front left and right sides of the car and the left and right sides of the car while driving the car, the steering wheel column is instantaneously generated, so that steering wheel steering does not occur, and is generated on both sides of the car. The rolling phenomenon does not occur even by the wind pressure difference, so that the stability of the vehicle while driving is improved and the riding comfort of the occupant in the vehicle is improved.

Claims (5)

Detection sensor 100 for detecting whether the driving speed of the vehicle is more than the reference speed that can be affected by steering and rolling, and the driving speed of the vehicle detected by the detection sensor 100 may be affected by steering and rolling. If the reference speed is greater than a pair of pitot pipe 200 for measuring the wind pressure generated in the front and left and right sides of the car, and receives the wind pressure of the left and right wind pressure and the front wind and left and right of the car input through the pitot pipe 200. An electronic steering column for locking the steering column for a predetermined time so that the steering wheel does not occur when the control unit 300 compares the pressure difference between the left and right sides of the vehicle and the pressure difference compared by the control unit 300 is greater than the steering wheel rolling and rolling generation reference values. A pair of electronically controlled stringers that raise the lock (400: Electric Streering Colum Lock) and damping force for a certain period of time to prevent rolling In the driving safety maintenance device of the vehicle consisting of a tooth (500: ECS), the pitot pipe 200 is the front air inflow pipe 210, which is introduced in the wind direction generated in the front direction of the vehicle and the wind direction of the side of the vehicle flows The side inlet pipe 220 is a driving safety maintenance device of the vehicle, characterized in that formed in communication. delete The apparatus of claim 1, wherein the pitot pipe (200) is installed on both left and right sides of the front bumper installed at the front of the vehicle. The lock ring hole 710 into which the lock bar 410 of the electronic steering column lock 400 is inserted is inserted into the outer side of the steering column 600 which is locked by the electronic steering column lock 400. Driving safety device of the vehicle, characterized in that the spline-type lock ring 700 is formed is coupled. The driving bar of claim 4, wherein the lock bar 410 locks the steering column 600 while the lock bar 410 is inserted into the locking ring 710 only for a short time in a range where safety driving is not hindered. Device.

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