DE1068593B - - Google Patents

Description

Electromagnetic flasher unit for flashing light systems with changing Number of flashing lights The invention relates to an electromagnetic one Flasher unit for flashing light systems with a changing number of flashing lights, e.g. B. for vehicles with and without trailers, with a monitoring device for all flashing lights using only one control lamp and one current-dependent Switching device with two switching armatures, one with a normally open contact equipped switch armature on the number of lamps of the motor vehicle alone and the other is matched to the number of lamps on the motor vehicle and the trailer. A well-known Flasher of this type works with three control circuits and requires two protective resistors, through which the disadvantageous leakage currents flow during trailer operation.

In contrast, the invention consists in that there is a single control circuit is provided, which consists of the series connection of a protective resistor known per se, of one switch armature and the control lamp, and that the second switch armature actuated a normally closed contact and with this one established on the trailer The control lamp is short-circuited when all the flashing lamps in the system are on. While the known flasher unit for solo and trailer operation each have a control circuit each with a switching armature is provided, switches in the subject of the invention a switch @ which is matched to the number of lamps in the motor vehicle alone, in both operating modes the only control circuit and the second switch armature, which is matched to the number of lamps on the motor vehicle and the trailer is only used to cancel the short circuit of the control lamp.

The structure of the flasher is advantageously made by the invention significantly simplified and the operation of the same improved so that no current losses develop. Another advantage of the invention is that the switching arrangement the control lamp is the same for operation with and without a trailer and the control lamp therefore lights up with the same luminosity in both types of operation.

The flasher unit can advantageously be designed so that both switch armatures are conductively connected to each other and to the control lamp, the stationary contact of the normally closed contact is connected to ground via the plug connection of the trailer coupling and the fixed contact of the working contact via the protective resistor with the positive pole connected to the battery. In this case, the control device can, if necessary be assigned a special control relay, whose current winding in the blinker circuit lies.

The flashing sequence of the flasher unit can advantageously be made much simpler Way are kept constant in that parallel to the break contact of the second Switching armature of the control relay is a control element that controls the total resistance of the Keeps the hot wire circuit constant. This control element can expediently a switch, e.g. B. bimetal = switch, exist in parallel to a partial resistance of the hot wire circuit or a resistor in parallel with the hot wire switches. In another embodiment, the total resistance of the hot wire circuit be kept constant in that the series resistance of the hot wire is temperature-dependent is designed with a positive temperature coefficient and the control element from a there is a heating coil assigned to the resistor. It is already known to shorten it the response time of a hot-wire-controlled flasher to the hot-wire a temperature-dependent one Upstream resistance.

The drawings illustrate the invention. Fig. 1 shows the circuit diagram a flasher system that is used for vehicles with and without a trailer can. A line leads over from the battery 1, which is connected to ground with one pole the fuse 2, the switch 3, to the terminal 4 of a flasher and on to the Switch armature 5 on which a hot wire 6 engages in such a way that it opposes switch armature 5 the direction of attraction of a magnet with winding 7 tears off from its mating contact 8. The seat wire 6 is on the one hand with the switching armature 5 and with its other end connected to the contact 8 via a resistor 9. A line leads from this Via the winding 10 of a control relay and a terminal 11 to a direction switch 12. Lamp groups 13 and 14 of the motor vehicle are connected to this. From the switch-side The end of the lamp group 13 leads to a line Socket 15 and from the lamp group 14 one to the socket 16 of a plug-in coupling 17, which connects to trailer lamps 18 and 19. The mass of the trailer is connected to the ground of the motor vehicle via the socket 20.

A line leads from terminal 4 via a protective resistor 21 to the stationary contact 22 of a switch armature 23, which is connected to a second switch armature 24 is connected. A line leads from the * `two switching armatures 23 and 24, a terminal 25 to which a control lamp 26, which is on the other hand connected to ground, is connected is. From the: stationary mating contact 27 of a break contact - actuating switch armature 24 leads a line to a terminal 28. This is connected to a socket 29, which in turn establishes the connection to the trailer mass when the coupling is inserted.

In the illustrated embodiment of the flasher is for Control device provided its own relay. The flasher can also be designed so that a single electromagnet all three armature 5, 23 and 24 actuated. If necessary, the flasher magnet can deviate from the illustration consist of a permanent magnet.

First, the trailer coupling 17 should be disconnected, so only the indicator system of the motor vehicle should be operated alone. With the switch 3 closed and after turning the direction switch 12 z. B. to the lamp group 14 a current flows from the battery 1 via fuse 2, switch 3, terminal 4, switch armature, hot wire 6, resistor 9, winding 7, winding 10, terminal 11, direction switch 12 to the lamps 14 to ground and back to the battery. The hot wire 6 is heated, expands and releases the switching armature 5, which is drawn to the contact 8 under the action of a spring force (not shown) and the magnetic force. The lamps 14 now light up, the lamp current flows through the winding 10 of the control relay, and the magnet attracts the armature 23. The restoring force, not shown, of the armature 23 is dimensioned so that it is attracted when all the lamps in the motor vehicle are on, but remains in its rest position when one lamp fails. The attracted armature 23 closes the circuit of the control lamp 26 via contact 22. A parallel current flows from terminal 4 via protective resistor 21, contact 22, switching armature 23, terminal 25, control lamp 26 to the mask. The short-circuited hot wire 6 cools down, tears the armature 5 from the contact 8 with a delay, the lamps 14 go out, and the armature 23 also drops and interrupts the current of the control lamp 26. The function of the flasher starts again.

`The indicators 18 and 19 of the trailer are now connected by connecting them connected to the coupling 17, the socket 29 is also connected at the same time. This ground potential is applied to contact 27 of the control relay, with which the control lamp 26 is short-circuited. When all indicators come on of the motor vehicle and the trailer, the relay coil 10 is affected by the increased lamp current flowed through. The excitation of the relay is now stronger, which also causes the switch armature 24 is tightened and the short circuit of the control lamp 26 is canceled and this lights up. The restoring force, not shown, of the armature 24 is set so that it is of the relay magnet is attracted when all lamps of the motor vehicle and the Control lamp 26 short-circuited, and the limited by the protective resistor 21 Electricity is transferred to the trailer ground via the switch armature 24, contact 27, terminal 28, socket 29 derived.

The arrangement according to the invention has the significant advantage that no quiescent current flows when the system is switched off and the protective resistor 21 only is noticeably stressed when a trailer is carried and a flashing lamp fails. This is a cheap and safe way to monitor the failure of a Flashing lamp to be monitored both on the motor vehicle alone and on a trailer.

2, 3 and 4 show circuit details of FIG. 1 with arrangements which are suitable for compensating for the reduction in the lamp resistance in the case of several lamps connected in parallel in the hot wire circuit. When operating two flashing lamps, the resistance of the two lamps connected in parallel to the hot wire is greater than when operating three or more lamps. By switching on additional flashing lamps, the resistance of the parallel lamp circuit is reduced quite considerably, so that the hot wire is brought to the required working temperature much more quickly. Furthermore, the total current of the hot wire is divided into several parallel branches, with the result that the filament, whose resistance is temperature-dependent, does not heat up as much and thus the individual resistance of each lamp is additionally reduced. This fact means that the dark phase of the lamps is much shorter than when operating with a smaller number of flashing lamps. As will be explained in more detail below, the design of the control device according to the invention makes it possible, in a simple manner, to provide means in the hot-wire circuit which adjust the resistance of this circuit during operation with an increased number of lamps to the resistance with a lower number of lamps.

Thus, in Fig. 2, the series resistor 9 of the hot wire 6 is divided into two partial resistors 9 a and 9 b. The resistor 9 a is bridged by a switching device, which is designed as a bimetallic switch 30 in the embodiment shown. When operating with the smaller number of lamps, the switch 30 is closed, so that only the partial resistor 9 b is effective. When operating with the larger number of lamps, the 5 switch 30 is opened so that both resistors 9 a and 9 b are effective. The heating coil 31 of the switch 30 is connected to the terminals 25 and 28, so when the trailer coupling 17 is plugged in parallel to the control lamp 26. This warms the bimetal contact 30, which bends and cancels the short circuit of the resistor 9 a. The heating coil 31 receives current with each blink pulse. Due to the thermal inertia, the contact remains open as long as the system is switched on.

In Fig. 3, the hot wire 6 and part of the series resistor 9, a resistor 32 via the switching device 30 is parallel. When the trailer coupling 17 is inserted and the system is switched on, the heating coil 31 is supplied with current as in FIG. The heating of the switching element 30 causes the switch to close, so that the resistor 32 is parallel to the hot wire 6 and its series resistor 9 a. The current component of the hot wire 6 is thus lower, so that the same conditions exist with regard to heating as with a lower number of flashing lamps. - Receive electricity from the trailer; on the other hand in the event of failure a lamp in rest positionc4 # t> bt: But that is also Finally, according to FIG. 4, the resistor 9 can be designed as a function of the temperature with a positive temperature coefficient. With the coupling 17 inserted, the resistor 9 is preheated by a heating coil 33 to such a temperature that its increase in resistance corresponds to the decrease in resistance of the parallel flashing lamps. The current acting on the hot wire 6 is thus the same in both load cases, so that the light-dark ratio of the flashing also remains the same.

Claims (1)

PATENT CLAIMS: 1. Electromagnetic flasher unit, in particular with thermal control, for flashing light systems with a changing number of flashing lights, e.g. B. in motor vehicles with and without trailers, with a monitoring device for all indicators using only one control lamp and a current-dependent switching device with two switching armatures, one equipped with a normally open switch armature on the number of lamps in the motor vehicle and the other on the number of lamps in the motor vehicle and the trailer is matched, characterized in that a single control circuit is provided which consists of the series connection of a protective resistor (21) known per se, the one switch armature (23) and the control lamp (26), and that the second switch armature (24 ) actuates a normally closed contact (27) and with this disconnects a short-circuit of the control lamp (26) produced via the trailer when all the flashing lamps of the system are on. z. Flasher unit according to Claim 1, characterized in that the two switch armatures (23, 24) are conductively connected to one another and to the control lamp (26) , the fixed contact of the break contact (27) is connected to earth via the plug connection (29) of the trailer coupling (17) and the stationary contact of the normally open contact (22) is connected to the positive terminal of the battery (1) via the protective resistor (21). 3. Flasher unit according to claim 1 and 2, characterized in that the control device is assigned a special control relay, the current winding (10) of which is in the flasher circuit. 4. Flasher unit according to one of claims 1 to 3, the hot wire of which is in series with the flashing lamps, characterized in that parallel to the normally closed contact (27) of the second switching armature (24) of the control relay is a control element which keeps the total resistance of the hot wire circuit constant. 5. flasher unit according to claim 4, characterized in that the control element consists of a switch, for. B. bimetal switch (30), which is parallel to a partial resistor (9a) of the hot wire circuit or to the hot wire (6) a resistor (32) connects in parallel. 6. Flasher unit according to claim 4, characterized in that, as known per se, the series resistor (9) of the hot wire (6) is designed with a positive temperature coefficient depending on the temperature and the control element consists of a heating coil (33) assigned to the resistor (9). Documents considered: German Auslegeschrift No. 1027 567; German utility model No. 1728 760.