ITMI940859U1 - ELECTROMAGNETIC SIGNALER - Google Patents

Description

The invention relates to an electromagnetic signaling device conforming to the introductory definition of claim 1.

State of the art

It is known to insert electromagnetic signaling devices in motor vehicles, by way of example signal horns and fanfare. It is known that electromagnetic alarms function in such a way that, by connecting the alarm to an electrical source, for example the battery of a motor vehicle, a magnetic field is generated in an excitation coil. This magnetic field generated by the passage of current attracts an anchor on an iron core in the internal space of the excitation coil, where the anchor is connected with a membrane. Just before the anchor hits the core, a switch is opened from the anchor so that the flow of current through the excitation coil is stopped. An elastic force departs from the membrane which brings the anchor back to its starting position and therefore the switch is closed again at the same time. At this point, the excitation coil is again traversed by a current, the anchor being subsequently drawn back into the excitation coil. As long as the electric power supply to the vehicle battery is maintained, this operation is repeated periodically. The effect of the membrane vibration leads to the irradiation of sound waves which provide the desired signal.

With each opening of the switch, the already electromagnetic energy accumulated in the excitation winding is forced to discharge through a high frequency interruption spark into the remaining on-board electrical network of the motor vehicle. In this regard, it is known to connect electrical anti-parasite means in parallel to the excitation winding, which gives rise to a series circuit, and to the switch. As a result, radiated electrical, electromagnetic and line interference pulses must be suppressed, so that interference of the electronic devices is excluded. This known arrangement of the electrical anti-disturbance means is rather suitable for attenuating the disturbance pulses caused by the switch, so that these only in a weakened form can present themselves in the on-board network of the motor vehicle in the form of line disturbance pulses or in the form of line disturbance pulses. but of radiated disturbing impulses. However, it is disadvantageous that only an attenuation of the interference pulses can be implemented in this way, which does not reliably guarantee compliance with non-critical limit values. Precisely because of the use of modern electronic control devices in motor vehicles, which take care of the engine management, the influence of electromagnetic disturbance pulses must practically be excluded, since the electronic control devices have a sensitivity such as to react to the slightest disturbance impulse and therefore be compromised in their functionality.

Advantages of the invention

The electromagnetic signaling device according to the invention, having the characteristics mentioned in the main claim, has on the contrary the advantage that the irradiation of disturbing electromagnetic pulses can be significantly reduced, so that it is possible to stay well below critical limit values for as regards their influence on the electronic control equipment of the motor vehicle. Due to the fact that in addition to the first electrical anti-parasite means, second electrical anti-parasite means are connected in parallel with the switch, both the electromagnetic line disturbance pulses as well as the radiated ones can be effectively suppressed. As a result of the arrangement now present of two electrical anti-parasite means, which are associated with an oscillating actuator, on the one hand the electric arc which is formed when the switch is opened can be suppressed, so that this it cannot radiate any critical impulse of electromagnetic disturbance. There is also the advantage of relieving the contact of the switch due to the suppression of sparks, so that due to the lower stress it has a longer service life.

Further advantageous configurations of the invention are deduced from the remaining characteristics mentioned in the subordinate claims.

Drawing

The invention is illustrated hereinafter in more detail in exemplary embodiments, with reference to the related drawings. In them:

Figure 1 shows an electrical diagram of an electromagnetic signaling device in one of the embodiments of the invention;

figure 2 shows an electrical diagram in another embodiment;

figure 3 shows an electrical diagram in another embodiment;

Figure 4 shows an electrical diagram in another embodiment e

figure 5 shows an electrical diagram in another embodiment.

Description of the examples of realization

Figure 1 shows the electrical diagram of an electromagnetic signaling device 10. The electromagnetic signaling device 10 is constituted by an excitation winding 12 and by a switch 14 connected in series thereto. An oscillating anchor 16 referred to herein is guided in the excitation winding 12. The electromagnetic signaling device 10 can be connected via connection terminals 18 and 20 with a supply voltage, for example with a motor vehicle battery. In parallel to the series circuit formed by the excitation winding 12 and the switch 14 there is connected a first anti parasite electrical means 22. This first electrical anti parasite means 22 can be, by way of example, a resistor, a variator, a capacitor, a bi-directional Zener diode or Zener diodes connected in antiparallel. In parallel to the switch 14, a second anti-parasite electrical means 24 is connected according to the invention. In the example shown in Figure 1, the second anti-parasite electrical means 24 is constituted by two Zener diodes 26 respectively 28 in an anti-series circuit.

Figures 2 to 5 show other embodiments of the electrical circuit shown in Figure 1. Parts identical to those in Figure 1 are provided with the same markings and are not shown again. The difference with respect to the example of embodiment shown in Figure 1 lies in the fact that in Figure 2 the second anti-parasitic electrical means is a bi-directional Zener diode 30, in Figure 3 it is a capacitor 32, in Figure 4 it is a variator 34 and in Figure 4 it is a variator 34 and in Figure 5 is a resistor 36.

As a result of the combined arrangement of the first electrical anti-parasite means 22 and the second electrical anti-parasite means 24, the formation of an electric arc between the contacts of the circuit-breaker 14 is particularly effectively opposed when the circuit-breaker is opened, as well as its high frequency parasitic oscillations. The first pesticide electrical means 22 can in particular be designed and optimized in such a way that it especially suppresses the parasitic oscillations which are radiated outwards by the excitation winding 12, respectively those which through the terminals 18 and 20 arrive in the on-board electrical network of the motor vehicle, while the second anti-parasite electrical means 24 can especially be studied and optimized in such a way that it opposes the formation of the aforementioned electric arc. As a result of the superimposition of the actions of the two electric anti-parasite means 22 and 24, the disturbing pulses which depart as a whole from the electromagnetic signaling device 10 are reduced to the point that they no longer cause any negative influence of electronic control equipment. It is not necessary here to go further into the operation of the single examples cited for the first and for the second pesticide electric means 22 respectively 24, as this is sufficiently known to the skilled person. Since, furthermore, the dimensioning of the anti-parasitic means depends primarily on the inductance of the excitation winding, optimum values are also to be found in this case, if necessary, by means of test tests.

Claims (1)

Claims 1.- Electromagnetic signaling device, especially for motor vehicles, comprising an oscillating anchor, which with an excitation winding and a switch forms an oscillating actuator, and comprising first electrical anti-parasite means connected in parallel to the series circuit formed by the excitation winding of the switch, characterized in that in parallel to the switch (14) second electric anti-parasite means (24) are connected. 2.- Signaling device according to Claim 1, characterized in that the second anti-parasite electrical means (24) consists of two Zener diodes (26, 28) in an anti-series circuit. 3. A signaling device according to Claim 1, characterized in that the second anti-parasite electrical means (24) is a bi-directional Zener diode (30). 4. A signaling device according to Claim 1, characterized in that the second anti-parasite electrical means (24) is a capacitor (32). 5. A detector according to Claim 1, characterized in that the second electrical anti-parasite means (24) is a variser (34). 6. A signaling device according to Claim 1, characterized in that the second electrical anti-parasite means (24) is a resistor (36).