DE1566941C3 - Electromagnetic pulse generator for flashing lights on motor vehicles - Google Patents

Description

The invention relates to an electromagnetic pulse generator for flashing lights on motor vehicles an electromagnet which carries a current coil and a voltage coil and on which two switch armatures are arranged are and with a switching element. In a known arrangement of this type (DT-AS 11 61 793) the aim is to ensure that the flasher always flashes at the same rate even when the load is different is working.

For this purpose, a voltage winding is connected to the magnetic core of the pulse relay through a pair of contacts Second relay switched on depending on the current when operating two or more lights. The pulse relay is a second armature is arranged to influence the magnetic force, which releases a restoring force when the maximum number of luminaires is in operation. Warning signals cannot be given with the flasher. With another known light signal device (DT-AS 10 73 884) can from the moving vehicle from light signals to other road users z. B. when overtaking or to warn at intersections. By arranging a voltage winding next to a current winding The service life of the contacts endangered by contact sparks can be seen in the core of the pulse generator raise.

In contrast, the invention is based on the object of providing an electromagnetic pulse generator

ίο create with the one above the flashing lights next to the Flashing signals in the given emergency also warning signals can be given, in fact in a load-independent manner Frequency in the case of a simple encoder design that is safe from malfunctions with just one electromagnetic

th.

To solve this problem, the invention provides that the switching element via contacts in the position for normal flashing operation the hot wire, the current coil and one side of the flashing lamps and in the position for warning operation the hot wire, the voltage coil and both sides of the flashing lamps in the circuit turns on. Depending on whether flashing mode or warning mode is required. is done by hand one or the other other coil switched on via the switching element. Both windings are independent of each other with the hot wire determines the frequency for the encoder. In this way, the flasher builds special simple, it is immune to interference, the possibility of the 'warning mode' means that the flowing traffic can in both Directions to be made aware of a standing obstacle. Simplify manufacture and assembly further in that a switch housed in the housing of the pulse generator is used as a switching element is provided with four Schaltkontakiarmen and only the terminals from the housing of the switch and an element for manual operation are brought out. A relay can be provided as the switching element being.

An embodiment of the invention is shown in the drawing in the form of a circuit diagram and is described in more detail below.

The most important parts of the pulse generator are housed in a schematically illustrated housing 1 Electromagnet 2 with switching armatures 3, 4 and a switching element 5 and the corresponding wiring. The switch armature 3 is withdrawn in the de-energized state by a return spring 6, so that the contacts 7, 8 are separated, the switch armature 4 is pressed against the action of a spring 9 via a hot wire 10, so that the contacts il, 12 are closed in the de-energized state. The electromagnet carries one Current coil 13 and a voltage coil 14, the switching element 5 is a hand-operated switch with four Switch contact arms formed, an element 15 for

Manual operation, in the present case a button, is led out of the housing 1. About the contact arms two rows of contacts can be connected to one another, namely the contacts 16 to 19 with the contacts 20 to 25. The device is connected to the flashing lamps 32 to 35 or a battery 36 via six terminals 26 to 31 connected or connected to ground.

During normal flashing operation, the switching element 5, that is to say the warning light switch, is in the pulled out position drawn position. If an ignition switch 37 is switched on and is to be flashed, it becomes a travel direction selector switch 38 folded over so that the flashing lamps 32, 33 or 34, 35 are switched on. Im drawn For example, a current flows from the battery 36

via the ignition switch 37, the connection terminal 26 'and the contacts 20, 16 of the switching element 5 via a line 39 and the contacts 12, 11 to the switching armature 4 and from here via the core 40 of the electromagnet 2, a line 41, the contacts 17, 22 of the switching element 5, a line 42 to the current coil 13 and finally via the terminal 31 and the contacts 43, 44 of the direction selector switch 38 to the flashing lamps 34, 35 and to ground 45. The lamps light up. Due to the magnetic field of the current coil 13, the switching armature 3 is counter to the force of the return spring 6 attracted so that the contacts 7, 8 are closed. Current now flows through the core 40 via the Switching armature 3, the contacts 7, 8, a series resistor 46, the hot wire 10 and a line 47 via the Terminal 30 to ground 45. The hot wire heats up and lengthened so that the spring 9 the switch armature 4 can tear off the magnet. The lamp circuit is established by separating contacts 11, 12 interrupted, the lamps go out. By terminating the current flow through the current coil 13, there is no need the magnetic field, so that the armature 3 drops again and the heating of the hot wire 10 does not take place. the When the hot wire 10 cools, it pulls the armature 4 back towards the core 40 so that the contacts 11, 12 are closed now the process is repeated. Falls e.g. B. one of the lamps 34, 35 off, the current is due to the coil 13 is only half as large and the resulting magnetic field is correspondingly weaker. So that the spring 9 will tear off the armature 4 at an earlier point in time, so that a Frequency increase results, which can be used in a known manner for control purposes.

In the warning mode, the switching element 5 is brought into the position shown in dashed lines, so that contacts 16, 21; 17, 22; 18, 24 and 19, 25 are connected to one another. Through this actuation flows in Current from the battery 36 bypassing the ignition switch 37 via the terminal 27, the contacts 21, 16, the line 39, the contacts 12, 11, the switching armature 4, the core 40, the line 41 to the contacts 17, 23 or 18, 24 and from here via the terminals 28, 29 or the lines 48, 49 to the flashing lamps 32, 33 or 34, 35 and to ground 45. All lamps light up at the same time

to on. At the same time, a current flows from the core 40 through the voltage coil 14 via a line 50 to the Contacts 19, 25 of the switching element 5 and from here via the terminal 30 to the ground 45. Through this resulting magnetic field, the armature 3 is attracted so that the hot wire 10, as already described, is heated until the spring 9 can tear the armature 4 from the magnet again. The flashing lights are switched off, the current flow through the voltage coil 14 ceases. This also falls again

2o. the armature 3 off, the hot wire cools down, the contacts 11, 12 are closed again and the game starts all over again.

The advantages achieved by the invention are in particular that a pulse generator is very simple is created, which in addition to normal flashing operation for the warning light operation with load-independent Flashing frequency is suitable. It can therefore be used for flashing and warning operations without any special technical effort the same hot-wire controlled electromagnetic pulse generator can be used, with the achievement that the flashing lamps in normal flashing mode by increasing the frequency or by an additional not particularly drawn anchor are controlled and the flashing frequency in warning mode completely independent of the burden is.

1 sheet of drawings

Claims (5)

Patent claims: 1. Electromagnetic pulse generator for flashing lights on motor vehicles with an electromagnet, which carries a current coil and a voltage coil and on which two switching armatures are arranged and with a switching element, characterized in that that the switching element (5) via contacts (20 to 25) in the position for normal Flashing mode the hot wire (10), the current coil (13) and one side of the flashing lamps (32, 33 or 34, 35) and in the position for warning operation the hot wire (10), the voltage coil (14) and both sides of the Turns on the flashing lamps (32 to 35) in the circuit. 2. Pulse generator according to claim 1, characterized in that that as a switching element (5) a switch housed in the housing (1) of the pulse generator with four switch contact arms is provided and only the terminals from the housing (1) from the switch (26 to 30) and an element (15) for manual operation are brought out. 3. Pulse generator according to claim 1, characterized in that in normal flashing current of a battery (36) via an ignition switch (37), contacts (20, 16) of the switching element (5), contacts (12, U) of the hot wire switch armature (4), further contact part /, 22) of the switching element (5), the current coil (13) and a direction selector switch (38) for the flashing lamps (32, 33 or 34, 35) and finally flows to the mass (45). 4. Pulse generator according to claim 1, characterized in that that during warning operation current from a battery (36) via contacts (21, 16) of the switching element (5). Contacts (12, 11) of the hot wire switch armature (4) and other contacts (17, 23) or (18, 24) of the switching element (5) flows to all four flashing lamps (32 to 35) and also from the hot-wire armature (4) Current via the voltage coil (14) and further contacts (19, 25) of the switching element (5) goes to mass (45). 5. Pulse generator according to claim 1, characterized in that a relay is provided as the switching element (5) is.