KR20000002590A - Side collision sense controller for vehicle use - Google Patents

Abstract

PURPOSE: A side collision sensing and controlling device for a vehicle is provided to sense and control an imminent collision by controlling puffing up movement of the side-airbag. CONSTITUTION: The lateral collision sensing and controlling device comprises:a window comparing device(11) to judge if the lateral collision acceleration signal sensed at the accelerometer exceeds a specific limit, a D-flip-flop(12) to output an input signal following the high edge signal which is turned on when the acceleration signal of the vehicle exceeds a specific limit, and the 1st single stabilization trigger circuit(13) to output pulse signals by the high edge signal.

Description

Vehicle side collision detection control

The present invention relates to a vehicle side collision detection control device that can detect the side collision of the vehicle through a simple hardware implementation using a general-purpose IC to control the deployment or unfolding operation of the side airbag.

In the event of a collision and collision or side collision while driving the vehicle, the driver and the passenger's body are leaned toward the front of the vehicle, which causes the head and chest to collide with the steering wheel and to be injured.

Accordingly, many vehicles have installed airbags, and in case of collisions and collisions, the airbags operate to cushion the impact of the human body to reduce the degree of injury.

Airbags installed in the vehicle include a driver's seat airbag installed on the steering wheel to protect the driver, a driver's seat airbag installed on the dashboard in front of the driver's seat next to the driver's seat to protect the occupant in the passenger seat, Side airbags are installed on the side of the driver's seat to protect the driver and passengers in the event of a side collision of the vehicle.These airbags are inflated instantaneously due to the explosion of nitrogen gas generated during the vehicle crash. Will be protected.

The conventional vehicle side collision detection control device for detecting a side collision of the vehicle to operate the side airbag installed for side protection is an electronic control unit using a microcomputer 2 as shown in FIG. 'ECU').

That is, the microcomputer 2 determines the side collision according to an internal software algorithm using the acceleration of the vehicle detected by the accelerometer 1, and if a predetermined side collision is detected, the airbag ignition circuit 4 To activate the side airbag by a nitrogen gas explosion.

However, the conventional vehicle side collision detection control apparatus as described above is not only expensive for the entire system, but also requires much effort for the development of calibration of the software algorithm in the microcomputer.

The present invention has been made to solve the above problems, the purpose of which is to detect the side collision of the vehicle through a simple hardware using a low-cost general-purpose IC instead of the existing expensive microcomputer, both the vehicle side collision acceleration and speed is constant The present invention provides a vehicle side collision detection control device capable of controlling the deployment or non-deployment operation of the side airbag by deploying the side airbag only when the reference value is higher than the reference.

1 is a block diagram of a conventional vehicle side collision detection control device,

2 is a block diagram of a vehicle side collision detection control apparatus according to the present invention,

3 is a view showing the signal waveform of each part generated in accordance with the operation of the vehicle side collision detection control apparatus according to the present invention,

Figure 4 (a), (b) is a view showing the signal waveform of each part in the high-speed collision and low-speed collision according to the present invention,

Figure 5 (a), (b) is a view showing a position where the vehicle side collision detection control apparatus according to the present invention is mounted on the vehicle.

<Description of the symbols for the main parts of the drawings>

10: accelerator 11: window comparator

12: D flip-flop 13: first monostable trigger circuit

14 inverter 15 end gate

16: analog switch 17: integrator

18: comparator 19: second monostable trigger circuit

20: reset switch

According to an aspect of the present invention, there is provided a vehicle side collision detection control apparatus, wherein a vehicle speed signal in which an acceleration signal of a vehicle sensed by an accelerator is equal to or greater than a predetermined standard for a predetermined time is determined based on a predetermined speed. If it is determined that the abnormality is more than a predetermined criterion, the side of the vehicle is considered to have severely crashed, characterized in that the control to deploy the side airbag.

Hereinafter, with reference to the accompanying drawings will be described in detail the configuration and operation of the vehicle side collision detection control apparatus according to the present invention.

FIG. 2 is a block diagram of a vehicle side collision detection control apparatus according to the present invention, wherein a window comparator 11 for determining whether a side collision acceleration signal of a vehicle detected by an accelerator 10 is greater than or equal to a predetermined criterion 11 ), A D flip-flop 12 for outputting an input signal according to a high edge signal generated when the acceleration signal of the vehicle in the window comparator 11 exceeds a predetermined reference, and the window comparator 11 A first monostable trigger circuit 13 which is triggered according to a high edge signal generated when the acceleration signal of the vehicle is greater than or equal to a predetermined reference and outputs one pulse signal having a predetermined width, and the first monostable trigger circuit Inverter 14 for inverting the pulse signal output from (13) and applying it to the reset terminal of the D flip-flop 12, the output signal of the D flip-flop 12 and the first 1 monostable An AND gate 15 for ANDing the output signal of the trigger circuit 13 and an analog switch for switching on and off in accordance with the output signal of the AND gate 15. (16), an integrator (17) for integrating the side impact acceleration signal of the vehicle sensed by the accelerator (10) when the analog switch 16 is on, and in the integrator (17) The comparator 18 outputs a control signal for deploying or unfolding the side airbag by determining whether the output speed signal of the vehicle is greater than or equal to a predetermined reference, and outputs a low edge signal from the AND gate 15. The on-off operation according to the second monostable trigger circuit 19 which is triggered by the low edge signal and outputs one pulse signal and the output signal of the second monostable trigger circuit 19 (17) reset switch to reset Is composed of 20)

The operation of the vehicle side collision detection control device configured as described above will be described with reference to the signal waveform diagram of FIG. 3.

First, the window comparator 11 inputs the side collision acceleration signal of the vehicle sensed by the accelerator 10, and determines whether the input acceleration signal is out of a range of ± G0, which is a predetermined reference, and the acceleration signal is shown in FIG. If it is out of the ± G0 range as shown in 3, the high edge signal is output to the clock terminal CLK of the D flip-flop 12 and the first monostable trigger circuit 13.

Subsequently, the first monostable trigger circuit 13 is triggered according to the high edge signal output from the window comparator 11 and has a single pulse high signal having a width of x (ms) as shown in FIG. 3. Is output to the AND gate 15 and to the inverter 14 connected to the reset terminal R of the D flip-flop 12.

In addition, the D flip-flop 12 outputs a high signal applied to the input terminal D according to the input of the high edge signal output from the window comparator 11 and the reset signal output from the inverter 14. Output as is through ⓑ as shown in Figure 3 through (Q).

The AND gate 15 then multiplies the signal ⓑ output from the D flip-flop 12 and signal ⓒ output from the first monostable trigger circuit 13 to generate a high signal as shown in FIG. 3. Output

At this time, while the high signal of the D flip-flop 12 is output, the high pulse signal of x (ms) of the first monostable trigger circuit 13 smaller than the width of the high signal is the logical product of the AND gate 15. As output according to the characteristic, the outputs of the first monostable trigger circuit 13 and the AND gate 15 are the same.

Subsequently, the high signal output from the AND gate 15 is applied to the analog switch 16 so that the analog switch 16 is switched on and thus the vehicle side collision acceleration signal sensed by the accelerator 10. Ⓐ is applied to the + terminal of the integrator 17 through the resistor R1.

Accordingly, the integrator 17 integrates the side collision acceleration signal to obtain a side collision velocity signal of the vehicle as shown in FIG. 3, and applies the obtained velocity signal to one terminal of the comparator 18.

Then, the comparator 18 compares the constant reference speed signal of V0 given by the resistors R2 and R3 with the vehicle side impact speed signal applied from the integrator 17, so that the vehicle side collision speed signal is greater than V0. A control signal for deploying the side airbag as shown in FIG. 3 is output to the airbag ignition circuit.

As described above, in the present invention, when the vehicle side collision acceleration signal is equal to or greater than a predetermined reference and the velocity signal that is an integral value is also equal to or greater than a predetermined criterion, the collision is seriously generated on the side of the vehicle and the side airbag is controlled.

On the other hand, when the side collision acceleration signal of the vehicle detected by the accelerator 10 from the window comparator 11 does not deviate from the ± G0 range, the high edge signal cannot be output to the first monostable trigger circuit 12. The AND gate 15 also outputs an off signal, that is, a low edge signal.

Accordingly, the second monostable trigger circuit 19 operating on the low edge signal outputs to the airbag ignition circuit a pulse signal for undeploying the side airbag as shown in Fig. 3 in accordance with the low edge signal.

4A and 4B show signal waveforms of respective parts for deploying or undeploying the side airbags in the high speed collision and the low speed collision in the present invention. When a side collision occurs, it shows that the control signal for deploying the side airbag such as ⓔ is output because the acceleration signal ⓐ and the speed signal ⓓ are above a certain standard for a predetermined time ⓒ.

(B) shows that a control signal for not deploying the side airbag such as ⓔ is output when the vehicle speed signal ⓓ is below a certain reference even if the acceleration signal ⓐ of the vehicle is above a certain reference during the predetermined time of ⓒ.

5 (a) and (b) is a view showing a position in which the vehicle side collision detection control apparatus according to the present invention is mounted on the vehicle, the vehicle side collision detection control apparatus according to the present invention is a B-pillar (Pillar) of the vehicle ) Or a side-sill, and the like, and the mounting position thereof is the same as in the plan view of FIG. 5 (a) and the front view of FIG. 5 (b).

As described above, the present invention has the effect of lowering costs compared to the case of using a conventional microcomputer by controlling the deployment or non-deployment operation of the side airbag through hardware implemented using a simple low-cost analog device.

In addition, by implementing the hardware of the present invention in a dedicated one-chip (One-Chip) can further simplify the system, when combined with a semiconductor acceleration sensor can be further simplified.

Claims (1)

A window comparator 11 for determining whether the side impact acceleration signal of the vehicle sensed by the accelerator 10 is greater than or equal to a predetermined criterion, and a high level generated when the acceleration signal of the vehicle is greater than or equal to the predetermined criterion in the window comparator 11. D flip-flop 12 for outputting an input signal in accordance with an edge signal, and a window having a predetermined width triggered by the high edge signal generated when the acceleration signal of the vehicle is greater than or equal to a predetermined reference by the window comparator 11. An inverter for inverting a first monostable trigger circuit 13 for outputting a pulse signal and a pulse signal output from the first monostable trigger circuit 13 to be applied to a reset terminal of the D flip-flop 12 ( 14) an AND gate 15 for performing an AND operation on the output signal of the D flip-flop 12 and the output signal of the first monostable trigger circuit 13, and switching according to the output signal of the AND gate 15. On/ An integrator 17 for integrating a pre-operated analog switch 16, an integrator 17 that integrates the side collision acceleration signal of the vehicle sensed by the accelerator 10 when the analog switch 16 is on, and the integrator 17 The comparator 18 for outputting a control signal for deploying or unfolding the side airbag by determining whether the speed signal of the vehicle output from the vehicle is greater than or equal to a predetermined reference, and for outputting a low edge signal from the AND gate 15. A second monostable trigger circuit 19 which is triggered by the low edge signal and outputs one pulse signal, and a switching on / off operation according to an output signal of the second monostable trigger circuit 19 to operate the integrator 17 Vehicle side collision detection control device, characterized in that consisting of a reset switch (20) for resetting.