DE4430179A1 - Effective vehicle safety distance measurement method, esp. for road traffic - Google Patents

Abstract

The safety distance measuring method involves measuring the time separating the time points at which the back edge of a leading and the front edge of a following vehicle crosses a fixed line. A clock with start and stop devices shows by how much the effective separation differs from the required safe distance. The degree of the difference can be indicated by the colour (GRUEN,ROT,GELB) on a scale with a pointer (Z), or by the colour of a display. Alternatively, it can be indicated acoustically, e.g. using generated speech. The fixed line can be implemented using a light barrier.

Description

In road traffic in particular, it is a top priority requirements that a vehicle to the vehicle in front of it maintains the required safety distance. The required security However, distance is not a fixed distance; rather, it depends on the vehicle speed. As a guideline for the required Safety distance applies in the Federal Republic of Germany in meters, if you take half of the number as a distance, which indicates the speed of the vehicle in km / hour ("half speedometer").

The distance to the vehicle in front can be legal Assessment of traffic situations can be of considerable importance. This In general, distance is not given as an absolute value, rather it becomes the required safety distance as a distance related with the length value 1. When dealing with legal issues then spoken of n times (e.g. 0.3 times) safety distance if n the ratio of the effective distance to the required There is a safe distance from the vehicle in front. Then it will said that the n-fold safety distance had been observed effectively or simplified, the effective safety distance was n. Therefore n is the effective safety distance in relation to a required one Safety distance to which the value 1 is assigned.

The determination of the effective safety distance has so far been technical solved unsatisfactorily. The driver in the vehicle has one Display the speed and get the by dividing it in half required safety distance. A practical procedure with which the effective distance to the vehicle in front from the moving vehicle Vehicle could measure in meters, but does not exist, so the driver relies on your own estimates. The respective effective Safety distance as the quotient of the effective distance and the The required safety distance is therefore generally the driver only known with great inaccuracy.

The police are also interested in road traffic inspections the effective safety distance of the controlled vehicles measure up. To do this, the vehicle distance in meters and the speed measured simultaneously in km / h in separate processes. The halved The quotient of these values is then the effective safety distance. Of the the effort required is very high. The distance measurement requires in general previous road markings, filming and subsequent personnel evaluation; serve to measure speed different techniques.

Because the effective safety distance is based on the vehicle ratio distance to vehicle speed, it can also be - deviating from the only known method today - through a pure one Determine time measurement. In the following, the reference time is the time denotes in which the vehicle travels a distance the size of the required safety distance. At the current Legal position ("half speedometer") the reference time is 1.8 seconds.

The measurement time is the time between the Time passes when the preceding and the following Cross the vehicle over a fixed line. (Of course here is exactly the end of the preceding and the beginning of the following Vehicle).  

The product of reference time and vehicle speed is required safety distance. The product of measurement time and vehicle speed Efficiency is the effective distance. Because the effective safety distance the quotient of the effective distance and the required safety distance, therefore:

The reference time is a constant. The effective safety distance leaves therefore by a pure time measurement - the measurement of the measurement time - determine. The method and device according to the invention use this Facts.

According to claim 1 of the invention, the effective safety distance determined between two vehicles from the time that elapses between the times at which the preceding vehicle and the following vehicle to cross a fixed line. If you take this time as the measuring time, then the effective safety distance is the quotient of the measuring time and Reference time with a constant reference time of 1.8 seconds. The invention thus offers a simple technical possibility for measuring the effective safety distance.

An advantageous embodiment of the invention is set out in claim 2 described. So that the driver of a vehicle can measure the time to be measured can, he should have a clock with start and stop facility. The number shown by the watch should be proportional to the measured time his. For a time the size of the reference time, the number 1 (or about 100 with a percentage display). If this watch is in the moment the end of the car in front is started Vehicle passes a fixed line and is stopped when that If the driver's vehicle reaches this line, the watch then shows the effective safety distance.  

A further advantageous embodiment of the invention is claimed 3 outlined. In the watch used for measurement, the safety-related The meaning of the display is illustrated by the appropriate coloring will. In the case of an analog display, the dial could be colored will. The length of a bar could also be used for illustration will. The bar could also have the appropriate coloring support safety-related statement. A digital display could be in in the same way, depending on the displayed value, different colors.

A further advantageous embodiment of the invention is claimed 4 shown. So as not to force the driver to read the watch when he wants to be informed about the effective safety distance or to enhance the effect of a reading, the device could acoustic signals are given according to claim 1, which by their nature indicate the degree of deviation from the required safety distance (e.g. tones of different heights or sequences).

A further advantageous embodiment of the invention is claimed 5 shown. Reading the clock and the associated short-term Averting the traffic is not necessary if the effective safety distance in normal language acoustically through the Device according to claim 1 is issued.

In claim 6, an embodiment of the invention is shown, the is particularly advantageous if the effective safety distance not from the moving vehicle, but from the outside - for example through the Police - to be measured. The use of light barriers is already common in police measurements. It is therefore also possible to measure the time between the release of a light barrier the vehicle in front and the interruption of the same light barrier passes through the following vehicle. From this time follows when dividing by the reference time (1.8 sec) the effective safety distance.  

Two exemplary embodiments are described in more detail below:
In example 1, the effective safety distance is determined by the driver of the vehicle. For this purpose, the vehicle's clock is provided with an additional display option. Fig. 1 shows an analog clock with a further pointer (Z) for measuring the effective safety distance, which looks like a conventional second hand. The dial has an additional division from 0 to 2.0. In the initial state, the pointer Z is at rest in position 0.

The dial also contains a colored marking. At a Measurement that leads to a display in the range below 1.0 would be the effective safety distance smaller than the required Safety distance. The effective safety distance would therefore be too small; the vehicle distance would have to be increased. This area is therefore highlighted in red. The range between 1.0 and 1.2 is marked in yellow is just above the required safety distance and at which is why a slight reduction in distance is too small and would lead to impermissible effective safety distance. Of the The area above 1.2 is marked in green.

There is a button at the end for entering the start and stop signals the turn signal lever. By pressing this button, the pointer Z started and then stopped again. The clock is like that constructed the pointer Z exactly 3.6 seconds after it started in the position would be 2.0 if it were not stopped in the meantime.

When passing a suitable fixed reference point - such as one Post, tree or shrub on the side of the road - the clock will go through the Driver then started when the end of the vehicle in front passed the Point happens. The clock is stopped as soon as your own vehicle is the same Has reached point. The position of the pointer Z is then without any further Conversion of the effective safety distance.  

In Fig. 1, the pointer Z is in the red area at a value which is less than 0.7. The effective safety distance is therefore less than 0.7. For reasons of safety, it would be absolutely necessary in this situation to increase the distance to the vehicle in front at least until a new measurement gives a value above 1.0.

If Z is 1.0, the effective safety distance is 1, this means that the required safety distance is maintained. For values greater than 1.0, the effective distance is around corresponding factor greater than the required safety distance. If a value below 1 is displayed, the effective distance to the vehicle in front too low. It must be enlarged until one measurement again gives a value that is no longer below 1.0. Of the yellow area between 1.0 and 1.2 on the dial should suggest Maintain an effective safety distance above 1.2 if possible.

In example 2, the effective safety distance from the outside - about by the police - measured. A light barrier gives the start and Stop signal for time measurement. Timekeeping starts when that preceding vehicle releases the light beam and ends when that following vehicle interrupts the same light beam again. Splits then the time measured in seconds by 1.8, you get directly the effective safety distance. To ensure that not only If there is a random short-term approximation, comparative measurements can be made be carried out on additional light barriers in suitable spatial areas Intervals are installed.

Claims (6)

1. The device and method for measuring the effective safety distance of vehicles, characterized in that the effective safety distance between two vehicles is determined from the time that elapses between the times at which the preceding and the following vehicle cross a stationary line. 2. Device according to claim 1, characterized in that by a Clock with start and stop device shows how strong the effective distance deviates from the required safety distance. 3. Device according to claim 2, characterized in that by the Color in the range of a scale or by the color of the representation of the Degree of deviation from the required safety distance is shown becomes. 4. The device according to claim 1, characterized in that acoustic Characters are given that indicate the degree of deviation from the required Mark safety distance. 5. The device according to claim 1, characterized in that the deviation acoustically output in speech form from the required safety distance becomes. 6. The device according to claim 1, characterized in that the stationary Line is realized by a light barrier.