CH680690A5 - - Google Patents

Description

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description

The arrangement of the control elements such as the steering wheel, brake pedal, accelerator pedal, clutch pedal, gear lever, fittings, etc., the windows and the driver's seat is selected in automobiles in such a way that the forward driving is supported as optimally as possible. The arrangement is rather unfavorable for reversing. The driver has to laboriously turn his torso and head backwards to be able to see from the rear window. With this posture, it is difficult to operate the foot pedals and the steering wheel. Another complicating factor is that the entire area behind the car cannot be seen through the rear window and the rear side windows. There is usually a so-called blind spot. Obstacles in the area of this blind spot are not visible to the driver. Low obstacles that are immediately behind the car cannot be seen by the driver when reversing. If the windows are steamed up or icy, the view to the rear is additionally restricted. If you want to make full use of the loading capacity of station wagons, you have to put up with the fact that the rear window is covered by the loaded goods and thus the view is blocked. It is particularly difficult to drive backwards in trucks where the loading space or the tipper make it impossible to see the rear.

In order to make reversing easier and to prevent collisions and accidents, the following aids have been used so far.

Rear-view mirrors above the windshield inside the car and on the outside of the car on the left and right of the driver extended the view to the rear. With these rear-view mirrors, however, only a part of the area behind the car could be captured, so that the view from the rear window was still necessary. The blind spot could not be remedied with the help of the rear-view mirror.

The rear window was equipped with a window heater in order to defrost the window and prevent it from fogging up. Windscreen wipers were used to remove rainwater and snow. The windscreen heater and wipers were only available for the rear window but not for the outside mirrors and the rear side windows. In frost, rain and snow, the rear view was still restricted.

For reversing in the dark, there were reversing lights that were attached to the back of the car and were switched on as soon as you put the vehicle into reverse. The reversing lamps were only useful if the rear view mirrors, the rear side windows and the rear window were not fogged up, not iced over and not covered by water or snow.

Video camera systems were another option. However, due to the space requirements of their screens, they are only suitable for trucks. A video camera was attached to the rear wall of the hold, facing the rear. She picked up the area behind the car. The captured image was displayed on a screen in the driver's cabin.

With all aids, with the exception of the video camera system, it was necessary for the driver to look through the rear window and turn his head and upper body towards the rear. This uncomfortable position hindered the driver from operating the foot pedals and may also reduce his ability to react. All aids assume that the driver reacts correctly and sufficiently quickly when an obstacle appears.

Due to the shortcomings of the previous reverse driving aids, there were repeated collisions between cars traveling backwards and buildings, barriers, traffic signs, parked cars or other objects in the way.

Such accidents could be prevented if the previous reverse driving aids were supplemented with an additional device that can detect an obstacle and brake the car to a standstill before a collision occurs.

The object of the invention is to create a device which measures the distance between the automobile and the obstacles located behind it when a motor vehicle is reversing and displays the measured values to the driver on a display device. If the vehicle falls below a specified minimum distance, the device should automatically brake the vehicle to a standstill.

The object is achieved according to the invention with the aid of the training features according to the characterizing part of patent claim 1.

The device is intended as a safety accessory that can be installed in conventional automobiles. There is a possibility that the automobile manufacturers will produce the device themselves and install it in the automobile at the customer's request.

There are two types of device. In the first embodiment, the distance between the automobile and the obstacle is determined using ultrasound waves. The distance measurement is therefore carried out according to the same principle as with the spatial orientation system of the bats. In the second embodiment, the distance is determined by means of electromagnetic waves based on the principle of the radar. Show it:

Fig. 1 diagram of a reverse driving aid of the first type.

Fig. 2 diagram of a reverse driving aid of the second type.

The structure and operation of a device of the first embodiment are described below.

The ultrasound transmitters 4, which emit the ultrasound pulses, and the electroacoustic receivers 5, which receive the ultrasound waves reflected by the obstacle, are embedded in plate-shaped holders 3 made of flexible plastic. On the rear bumper of the car is one of these brackets on the left and right

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3 attached. Piezoelectric, magnetostrictive or other ultrasonic transmitters 4 can be used. In the case of piezoelectric ultrasound transmitters 4, the ultrasound transmitter 4 also serves as an ultrasound receiver 5.

The control unit 7a for the ultrasound transmitter 4 and the ultrasound receiver 5 are accommodated in a cuboid housing 1 made of hard plastic 1. This housing 1 also contains the necessary computing unit 7b. The use of integrated circuits (chips) is provided for the control unit 7a and the computing unit 7b. A pulse generator 2, which is also located in the plastic housing 1, generates pulses from high-frequency alternating current, which are passed via a cable to the ultrasonic transmitters 4 and converted there into corresponding ultrasonic pulses. A frequency of 55 to 75 kilohertz is provided for the ultrasonic pulses.

The structure of the second embodiment is similar to that of the first. Transmitter 19 emit pulse-shaped electromagnetic waves. The waves reflected by an obstacle (the echo) are picked up by receivers 20. The transmitter 19 and the receiver 20 are also embedded in plate-shaped holders 3 made of plastic, which are attached to the rear bumper. The control unit 7a and the computing unit 7b are also accommodated in a hard plastic housing 1. This housing also contains a pulse generator 21, which generates individual pulses that modulate the transmitters 19 that emit pulse-shaped electromagnetic waves (radar pulses). The reflected waves are received by the receivers 20 and the signals are forwarded to the computing / control unit 7a, 7b.

The computing unit 7a determines the transit time of the ultrasound pulses or the radar pulses. The transit time is the duration between the transmission of an ultrasound pulse or radar pulse and the impact of the ultrasound waves or electromagnetic waves reflected by the obstacle on the receiver 5, 20. The computing unit 7a is equipped with a clock for determining the transit time. If the pulse generator 2 or 21 sends a pulse, it simultaneously transmits an electrical start signal to the dial gauge via a cable. If the reflected ultrasound waves strike the receiver 5, the latter generates an electrical stop signal which is also passed on to the dial gauge via a cable. If the reflected electromagnetic waves strike the receiver 20, this transmits an electrical stop signal from the dial gauge.

The dial gauge determines the time between the arrival of the start and stop signals. This transit time is a measure of the distance between the transmitter 4, 19 and the reflecting obstacle. A minimum runtime is predefined unchangeably in the computing unit 7b. This minimum running time corresponds to a minimum distance between the transmitter 4, 19 and the obstacle of 10 to 20 centimeters. If the running time determined by the dial gauge falls below the minimum running time, this is reported to the control unit 7a by means of an electrical pulse. The control unit 7a switches on a pump 11, which immediately increases the pressure in the pressure lines 12 of the brake system by pumping in brake fluid. The brakes 13 are blocked by the pressure increase. In brake systems which have a brake linkage 24 or cable pulls 25 as the power transmission device, the brakes are blocked when the minimum running time is undershot by means of a mechanism 26 which acts directly on the brake linkage 24 or on the cable pulls 25. An electric motor or a hydraulic pump in connection with a hydraulic cylinder can serve as the drive for this mechanism 26.

The dial gauge transmits the measured transit times to the computing unit 7b. This evaluates the transit times and calculates the distances corresponding to the transit times. The calculated distances are passed on to a digital display device 8 which is attached to the dashboard. The driver can read the respective distance between the vehicle and the obstacle from this display device 8. The display device 8 is also equipped with a warning light 16 and a loudspeaker 17. If the minimum running time or the minimum distance is undershot, it emits an optical and an acoustic warning signal.

The reverse drive aid is only activated when reverse gear is engaged. Whether the reverse gear is engaged or not is determined by means of a reverse gear sensing device 10 which is attached to the shift lever 9. The reverse gear sensing device 10 is directly connected to the control unit 7a. If the reverse gear sensing device 10 reports that the reverse gear has been engaged, the control unit 7a switches the device on. If a forward gear or idle is engaged, the control unit 7a switches the device off again after a corresponding message from the reverse gear sensing device 10.

The device can also be switched on and off manually via a switch 18 on the dashboard. The adjustment buttons 27 for tuning the device are arranged next to the switch 18.

A car battery 14 with the usual voltage of 12 volts serves as the power source for the device. Transformers (adapters) 15 ensure that the individual components of the device are operated with the correct voltage.

Thanks to the small dimensions of the plastic housing 1, it is possible to attach the display device 8 directly to the housing and to accommodate both of them together in the dashboard.

The new reverse driving aid can optimally complement the previous reverse driving aids. Thanks to the use of ultrasound or electromagnetic waves, the device also works in bad weather conditions, in which the previous reverse driving aids are only suitable to a limited extent. If the view through the rear window is obstructed for any reason, the new reversing aid provides the driver with the necessary information about obstacles behind the vehicle. Should the

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If the driver does not react in time despite this information, the new device takes over braking for him. The fact that the device is only switched on when reverse gear is engaged prevents the brakes from being locked when driving forward. Such an incorrect blocking would be conceivable if a vehicle hits the rear too close, but also if the device is defective. In the event of a defect, the device can be switched off manually. These fuses guarantee trouble-free operation of the device. The use of integrated circuits (chips) makes it possible to make the mass of the device so small that it easily fits in all passenger cars.

With the new reverse driving aid, a large part of the collisions during reversing can probably be prevented. This will result in less damage to vehicles and other objects. This directly brings financial advantages to the driver whose vehicle is equipped with a reversing aid. Even if car liability insurance or comprehensive insurance covers damage, the insured person often has to pay a certain deductible himself. Because of the bonus system of these insurances, the premium increases after each damage coverage of the insurance. With each collision prevented, the driver saves the deductible and the premium increase. This device should also be of interest to insurance companies. The improved claims experience could possibly allow a premium reduction. Thanks to the device, the hassle and tedious hassle that every collision causes can also be saved.

Finally, the essential innovations that this device brings should be mentioned again. An important point is the ability of the device to automatically lock the brakes when the distance falls below a minimum. Another important point is the on and off mechanism, which is directly coupled to the shift lever and ensures that the device is only switched on when reverse gear is engaged.

Note number index

1 hard plastic housing

2 pulse generators

3 Plate-shaped holder made of plastic

4 ultrasonic transmitters

5 ultrasound receivers

7a control unit

7b arithmetic unit

8 display device

9 gear shift lever

10 Reverse gear sensing device on the gear lever

11 pump

12 Pressure line of the brake system

13 brake

1412 volt car battery

15 transformers (adapter)

16 Warning light of the display device

17 speakers of the display device

18 switches for switching the device on and off

19 radar transmitters

20 radar receivers

21 pulse generator for radar transmitters

24 brake rods of the brake system

25 cables of the braking system

26 brake mechanism

27 adjustment knobs

Claims (16)

Claims 1. Reversing driving aid for automobiles, characterized by at least one signal reflection distance measuring device (4, 5; 19, 20) that can be attached to the rear of the automobile (2). 2. Reversing driving aid according to claim 1, characterized in that the signal reflection distance measuring device is an ultrasonic device (4, 5). 3. reverse driving aid according to claim 1, characterized in that the signal reflection distance measuring device (19, 20) is a radar device. 4. reverse driving aid according to one of claims 1, 2 or 3, characterized in that the signal reflection distance measuring device has a transmitter (4; 19) and a receiver (5; 20) which in a on the rear bumper of the automobile (2) attachable bracket (3) are integrated. 5. Reversing driving aid according to one of claims 1 to 4, characterized in that on the automobile (2) signal reflection distance measuring devices (4, 5; 19, 20) at preferably the same height, at a distance from one another, on the bumper of the automobile (2nd ) are arranged. 6. Reversing driving aid according to one of the preceding claims, characterized in that a computing / control unit (7a, 7b) of the signal reflection distance measuring device has a memory device for storing a minimum reference distance value. 7. Reversing driving aid according to one of the preceding claims, characterized in that a display device (8) is provided for the continuously measured distance values. 8. reverse driving aid according to claim 6 or 7, characterized in that an acoustic and / or optical warning device (16, 17) is provided which is activated when the minimum reference distance value is fallen below by the computing / control unit (7a, 7b). 9. Reverse driving aid according to claim 6 or 7, characterized by a brake activation device (11) which is activated when the minimum reference distance value is undershot by the computing / control unit (7a, 7b). 10. reverse driving aid according to claim 9, characterized in that the brake activation device is a brake fluid pump (11) which is connected to the brake circuit (12). 11. Reverse driving aid according to claim 9, characterized in that the brake activation 5 10th 15 20th 25th 30th 35 40 45 50 55 60 65 7 CH 680 690 A5 tion device is a device (26) which mechanically actuates the braking device (13) of the automobile (2). 12. Reverse driving aid according to one of the preceding claims, characterized in that a reverse gear sensing device (10) is provided which only activates the reverse driving aid when reverse gear is switched on. 13. Reverse driving aid according to one of the preceding claims, characterized in that the distance of the rear end of the automobile (2) from any obstacles is continuously measured and the determined distance is displayed and / or used for driving control. 14. Reversing driving aid according to claim 13, characterized in that the continuously measured distance is compared with an adjustable, minimum distance and an acoustic and / or visual warning is triggered when it is undershot. 15. Reverse driving aid according to claim 13 or 14, characterized in that, when the value falls below an adjustable minimum distance, a brake actuation takes place automatically. 16. Reverse driving aid according to one of claims 13 to 15, characterized in that a distance measurement is activated only when the reverse gear is engaged. 5 10th 15 20th 25th 30th 35 40 45 50 55 60 65 5