DE3717065C2 - - Google Patents

Description

The invention is based on a motor vehicle navigation direction. A Naviga is already known from DE 30 22 120 A1 instrument for vehicles, which has a range finder, d. H. inevitably also a distance sensor for which has traveled by a vehicle.

DE 32 03 853 A1 discloses a carrier for end magnetism sensor, that is, a navigation link, known to the Rich tion detection for a motor vehicle is used.

For automatically extending and retracting vehicle radio stations NEN different circuit arrangements are already known (DE-OS 30 29 524; US-PS 41 98 637).

The antenna of a motor vehicle navigation device however, there are special problems. For vehicles with one such navigation device will be used to determine the north direction uses magnetic field probes that are appropriate in a motorized built-in at the rear of the vehicle and retractable antenna are attached. In general the antenna is retracted when the ignition is switched off and extends again when the ignition is switched on. From techni reasons, it is necessary that the antenna if the vehicle is in motion, extended, and un depending on whether the navigation device is used or not.

In the case of extendable antennas, the closure is generally  the ignition switch to form a clear extension signals used. However, there are situations in which the antenna must not be extended, e.g. B. when through drive a car wash, at the end of which the vehicle with the own vehicle drive must be pulled out. Depending on the car wash type it can happen that in the eyes view of starting the engine another drying fan nozzle is located across the trunk lid. But if now If the antenna were to extend in this state, it would be serious severe damage to the antenna, vehicle and wash road. The control of the antenna via a simple, se A separate switch proves to be inappropriate, as fear It must be done that the driver after leaving the wash street or after pressing the button Switch forgets, because in contrast to a car radio, the If no running is noticed immediately, the operation of a Navigation device silently in front of you, so that a scarf ten of the navigation device only in the presence of a ge know driver's attention can be expected.

The object of the present invention is now a Motor vehicle navigation device with an off and on to create mobile antenna, in which the antenna continues is automatically extended and retracted, although it is ensured that the vehicle is not in any for the extended antenna, the vehicle or surrounding equipment critical position when an antenna is off driving signal is given.

The invention sees a force for achieving this object Vehicle navigation device in front, with:

• - a navigation link
• - a distance sensor,
• - A motor connected to the navigation link extendable and retractable antenna, which when switched on Ignition of the motor vehicle can be extended and when the shuttering is off ignition is retracted,  
• - A locking device, which is opened by the vehicle generator, the distance sensor and the gear shift of the vehicle, the locking device preventing the extension of the antenna until
  • a) the electric vehicle generator reaches its operating voltage,
  • b) the distance sensor a vehicle movement signal and
  • c) a gear idle switch emits a gear signal when a gear is engaged.

The idea of the invention can therefore be seen in the extension an antenna not only from the actuation of the ignition switch ters dependent. Because of the invention ahead set criteria for extending the antenna will be safe ensures that an antenna always on the one hand is extended when the vehicle is in normal driving located and navigation calculations should be carried out len, while on the other hand extending the antenna ver in critical situations or positions of the vehicle is avoided.  

So when the vehicle's ignition is switched on End of a car wash and even when inserting one The extension of the antenna has not yet been triggered. Only when the vehicle really starts moving and the distance sensor receives a vehicle motion signal emits, the antenna is extended. Now is but the rear of the vehicle is safe from any Chen facilities of the car wash free.

An advantageous practical embodiment features differs in that the vehicle generator, the distances sensor and the transmission neutral switch to the three Inputs of an AND gate with three inputs created are. It should in particular be provided that  the distance sensor emits positive impulses, of which each of a predetermined distance traveled corresponds. Due to this training it is possible that the output of the AND gate to a pulse counter is created, which only after the receipt of a agreed number of pulses an antenna extension signal delivers.

The latter embodiment contains the other Invention idea that not yet when the first impulse from the distance sensor an antenna extension signal is generated; rather, a very specific one must first Number of pulses appeared before the antenna was off is driven. Because of this training, between the Starting the vehicle and extending the antenna a security period switched on, so that the approaching vehicle with certainty from any dangers zone has moved out before the antenna is actually off moves.

Another practical embodiment is characterized in that a flip-flop at the output of the pulse counter is applied, which is also acted upon by the ignition switch is that it only turns off the antenna when the ignition is switched on allows driving signal. In particular, it should be provided that the output of the flip-flop to a controlled amplifier is connected, which is a relay for actuating the Switch on the antenna motor is applied.

A particularly useful development of the aforementioned Embodiment is that at the output of the Flip-flops are also connected to a timer, which after the appearance of an antenna extension signal on  Output of the flip-flop the navigation link as long leaves switched off until the antenna is fully extended is. This advantageously achieves that the navigation link only then with the navigation calculations begins when the antenna is fully extended and is therefore a clear antenna signal for ver is standing.

To in special situations, e.g. B. immediately from a standing start out or when towing the motor vehicle Also request a navigation calculation from the To be able to perform navigation link is after a Another embodiment provided that a hand Actuatable antenna button is provided, the egg a further control input of the flip-flop is applied, to close the antenna simply by closing the antenna to be able to extend the pushbuttons. The relevant antenna Button should not be too easily accessible be so that the driver does not rash the concerned Pressed antenna button and thus the invention Security functions overridden.

According to a further development, the invention also provides that for the navigation link a manually operated Button is provided, which is via another flip-flop controls the navigation link, with another Control input of the further flip-flop of the ignition switch is created.

In connection with the timing element, it is expedient if a further AND gate is connected between the further flip-flop and the navigation element, to which the output signal from the timing element is supplied.

The invention is described below, for example, with the aid of Drawing described, the only figure of a block circuit Image of a motor vehicle navigation system according to the invention shows device with an extendable and retractable antenna.

According to the drawing, the ignition switch 18 of the driving tool with a pole on the positive terminal of the driving battery 29 , which is also connected to the electric vehicle generator 12 in the usual way via a symbolically shown rectifier 12 a .

The other pole of the ignition switch 18 is connected via an inverter 30 to the three R inputs of a pulse counter 16 or two D- flip-flops 17 and 27 . If the ignition switch 18 is not actuated according to the drawing, that is to say is open, there is 30 H potential (high voltage level) behind the inverter, that is to say that the decimal pulse counter 16 and the two D flip-flops 17, 27 are set in such a way that that the outputs Q 9 of the pulse counter 16 and the two Q outputs of the D flip-flops 17 and 27 have L potential (low voltage level).

At the Q output of the D flip-flop 17 , a transistor 19 with its base is applied as an amplifier, in the collector circuit of which there is a relay 20 , the switch 21 of which is open in this state and sets the antenna motor 22 in motion when it is closed . The extendable antenna 11 is coupled to the antenna motor 22 .

The actual navigation element 24 is connected to the Q output of the D flip-flop 27 via an AND gate 28 . The other input of the AND gate 28 is supplied with the output of a timing element 23 , the input of which is connected to the Q output of the D flip-flop 17 .

The output Q 9 of the pulse counter 16 is connected to the input of the D flip-flop 17 .

The input of the pulse counter 16 is connected to the output of an AND gate 15 with three inputs E 1 , E 2 and E 3 . The input E 1 receives a positive voltage signal from the vehicle generator 12 . The input E 2 is connected to the distance sensor 13 of the navigation device of the motor vehicle, which is generally arranged on the output shaft of the vehicle transmission and supplies positive pulses to the AND gate 15 in accordance with the distance traveled. Finally, the input E 3 is connected via an inverter 31 to a transmission neutral switch 14 , which is open at idle and closed when the transmission is in gear and then outputs an L potential, which is converted into an H potential by the inverter 31 . The input E 3 is particularly important to prevent the antenna from extending if the vehicle engine is started in a car wash, because the vehicle is moved by the conveyor belt of the car wash in such a way that distance impulses are generated even though the vehicle is not driven on its own.

Finally, an antenna button 25 is provided, which can be operated by hand and is fed to the set input S of the D flip-flop 17 via a further inverter 32 .

Another manually operated button 26 for a circuit of the navigation member 24 is connected via an inverter 33 to the input of the D flip-flop 27 .

The function of the motor vehicle navigation described device is as follows:  

If the ignition switch 18 is closed, the input of the inverter 30 receives the H potential and the output of the inverter receives the L potential. The L potential is then present at the R inputs of the pulse counter 16 and the flip-flops 17, 27 , so that these components are no longer blocked and can become active.

If the vehicle engine is running and the vehicle generator 12 outputs a voltage signal to the AND gate 15 and the transmission neutral switch 14 is closed by engaging a gear, the pulses coming from the distance sensor 13 can reach the input of the pulse counter 16 .

The H potential is present at input E 1 only when the vehicle engine is running and the vehicle generator 12 is supplying a positive voltage which is sufficient. The H potential is present at input E 3 only when the transmission neutral switch 14 is closed when a gear is engaged. The L potential present at the idle switch 14 is then converted into an H potential by the inverter 31 .

If the AND gate 15 is open due to the activation of the inputs E 1 and E 3 when route pulses occur, the route pulses arriving at the input of the pulse counter 16 are counted. In the present example, the pulse counter 16 must count nine pulses before a signal appears at the last counter output Q 9 , which reaches the input of the flip-flop 17 . As a result, the Q output of the flip-flop 17 receives H potential, and the transistor 19 becomes conductive. The relay 20 picks up and closes the switch ter 21 , so that the antenna motor 22 receives the command to extend. According to the invention, the antenna motor 22 has its own shutdown, not shown.

When the ignition is switched off, the ignition switch 18 is opened again, and these three components are reset via the inverter 30 and the R inputs of the pulse counter 16 or the flip-flops 17, 27 . This also gives the Q output of the flip-flop 17 back to the L potential, so that the relay 20 drops out and the antenna 11 from the antenna motor 22 is moved back into its retracted end position, where the motor is then switched off automatically.

Via the antenna button 25 and the inverter 32 , the set input S of the flip-flop 17 can be set independently of the pulse counter 16 so that the H potential is present at the Q output of the flip-flop 17 and so the antenna motor 22 is the antenna 11 executes on command.

Since a not fully extended antenna 11 causes erroneous course calculations, the AND gate 28 is blocked via the timing element 23 for the duration of the extension time of approximately 5 seconds so that if the start button 26 of the navigation element 24 is actuated, in fact the Q output of the flip-flop 27 receives H potential, but still cannot start the navigation element 24 until the H potential appears at the output of the timing element 23 even after the preset time has expired. Only after this delay time of, for example, 5 seconds has elapsed, is the calculation of the course started in navigation element 24 .

The motor vehicle navigation device according to the invention works very precisely because the signal processing is digital. No additional sensors are required. The scarf effort is limited and the control can be integrated into the navigation system, so that this only small additional costs arise. Basically, it can System also used for an automatic radio antenna will.

Claims (10)

1. Motor vehicle navigation device with:

• - a navigation link,
• - a distance sensor,
• an antenna ( 11 ) which is connected to the navigation member and can be extended and retracted by a motor, which can be extended when the ignition of the motor vehicle is switched on and retracted when the ignition is switched off,
• - A locking device ( 15, 16, 17 ), which is acted upon by the vehicle generator ( 12 ), the distance sensor ( 13 ) and the gear shift of the vehicle, the locking device ( 15, 16, 17 ) extending the antenna ( 11 ) prevented until
  • (a) the electric vehicle generator ( 12 ) reaches its operating voltage,
  • (b) the distance sensor ( 13 ) a vehicle movement signal and
  • (c) a transmission neutral switch ( 14 ) emits a gear signal when a gear is engaged.

2. Device according to claim 1, characterized in that the vehicle generator ( 12 ), the distance sensor ( 13 ) and the gearbox idle switch ( 14 ) are applied to the three inputs of an AND gate ( 15 ) with three inputs. 3. Apparatus according to claim 1 or 2, characterized in that the distance sensor ( 13 ) emits positive pulses, each of which corresponds to a predetermined distance traveled. 4. Apparatus according to claim 2 and 3, characterized in that the output of the AND gate ( 15 ) is applied to a pulse counter ( 16 ) which emits an antenna extension signal only after receipt of a predetermined number of pulses. 5. The device according to claim 4, characterized in that a flip-flop ( 17 ) is applied to the output of the pulse counter ( 16 ), which is also acted upon by the ignition switch ( 18 ) such that it has an antenna extension signal only when the ignition is switched on allows. 6. The device according to claim 5, characterized in that the output of the flip-flop ( 17 ) is connected to a controlled amplifier ( 19 ) which is a relay ( 20 ) for actuating the switch ( 21 ) of the antenna motor ( 22 ) acted upon. 7. Apparatus according to claim 5 or 6, characterized in that a timer ( 23 ) is connected to the output of the flip-flop ( 17 ), which after the appearance of an antenna extension signal at the output of the flip-flop ( 17 ) Navigation member ( 14 ) can be switched off until the antenna ( 11 ) is fully extended. 8. Device according to one of claims 5 to 7, characterized in that a manually operable antenna button ( 25 ) is provided, which is applied to a further control input of the flip-flop ( 17 ) to the antenna ( 11 ) alone by Closing the antenna button ( 25 ) to be able to extend. 9. Device according to one of the preceding claims, characterized in that (24) a manually operated button (26) is provided for the navigation element which controls the navigation member (24) via a further flip-flop (27), to a further control input of the further flip-flop ( 27 ) the ignition switch ( 18 ) is applied. 10. The device according to claim 7 and 9, characterized in that between the further flip-flop ( 27 ) and the navigation element ( 24 ) a further AND gate ( 28 ) is connected, to which the output signal from the timing element ( 23 ) is supplied .